X Prompts

{ "meta": { "image_quality": "High", "image_type": "Mixed Media (Photography combined with Digital Illustration/Collage)", "resolution_estimation": "High resolution, sharp edges on vectors", "file_characteristics": { "compression_artifacts": "Low", "noise_level": "None", "lens_type_estimation": "Standard to slight wide-angle (approx 35mm)" } }, "global_context": { "scene_description": "A full-body studio portrait of a young man posing dynamically against a solid bright blue background. The image is a composite featuring the photograph of the man overlaid with white hand-drawn style vector graphics (doodles) and abstract blue liquid shapes. The subject is dressed in a monochromatic blue streetwear outfit with white accents.", "environment_type": "Studio/Graphic Design Composition", "time_of_day": "Indiscernible (Studio Lighting)", "weather_atmosphere": "Energetic, Artistic, Urban, Cool", "lighting": { "source": "Artificial Studio Lighting", "direction": "Front-right dominant (creating soft shadows on the left side of the face)", "quality": "Soft, Diffused", "color_temperature": "Neutral white" }, "color_palette": { "dominant_hex_estimates": [ "#4CA7E8", "#0044CC", "#FFFFFF", "#1A2B45" ], "accent_colors": [ "#FFFFFF" ], "contrast_level": "High" } }, "composition": { "camera_angle": "Low-angle (looking slightly up at the subject)", "framing": "Full Shot (Head to Toe)", "depth_of_field": "Deep (Everything in focus)", "focal_point": "Subject's face and upper torso", "symmetry_type": "Asymmetrical balance", "rule_of_thirds_alignment": "Subject centered, graphics balancing the negative space" }, "objects": [ { "id": "obj_001", "label": "Male Subject", "category": "Person", "location": { "relative_position": "Center", "bounding_box_percentage": { "x": 0.30, "y": 0.05, "width": 0.40, "height": 0.85 } }, "dimensions_relative": "Large", "distance_from_camera": "Mid", "pose_orientation": "Standing, body angled slightly right, head tilted left, right hand raised near face, left leg crossed over right leg", "material": "Organic (Skin)", "surface_properties": { "texture": "Skin", "reflectivity": "Low", "micro_details": "Light goatee/facial hair, neutral but confident expression", "wear_state": "N/A" }, "color_details": { "base_color_hex": "#5C3A2A", "secondary_colors": [], "gradient_or_pattern": "Natural skin tones" }, "interaction_with_light": { "shadow_casting": "Self-shadows on neck and left side of face", "highlight_zones": "Forehead, right cheek, nose bridge", "translucency": "None" }, "relationships": [ { "type": "wearing", "target_object_id": "obj_002" }, { "type": "wearing", "target_object_id": "obj_003" }, { "type": "wearing", "target_object_id": "obj_004" }, { "type": "wearing", "target_object_id": "obj_005" }, { "type": "wearing", "target_object_id": "obj_006" }, { "type": "interacting_with", "target_object_id": "obj_007" }, { "type": "standing_on", "target_object_id": "obj_011" } ] }, { "id": "obj_002", "label": "Bucket Hat", "category": "Apparel", "location": { "relative_position": "Top-Center (On head)", "bounding_box_percentage": { "x": 0.45, "y": 0.05, "width": 0.10, "height": 0.08 } }, "dimensions_relative": "Small", "distance_from_camera": "Mid", "pose_orientation": "Worn on head, brim pulled slightly down", "material": "Denim/Canvas", "surface_properties": { "texture": "Woven fabric", "reflectivity": "Low", "micro_details": "Visible white contrast stitching around the brim and crown", "wear_state": "New" }, "color_details": { "base_color_hex": "#003399", "secondary_colors": [ "#FFFFFF" ], "gradient_or_pattern": "Solid blue with white stitching lines" } }, { "id": "obj_003", "label": "Fleece Jacket", "category": "Apparel", "location": { "relative_position": "Upper Body", "bounding_box_percentage": { "x": 0.30, "y": 0.12, "width": 0.35, "height": 0.40 } }, "dimensions_relative": "Medium", "distance_from_camera": "Mid", "pose_orientation": "Worn open, sleeves rolled slightly or pushed up", "material": "Sherpa Fleece / Synthetic Blend", "surface_properties": { "texture": "High pile, fuzzy, nubby texture on outer shell", "reflectivity": "Low (Matte)", "micro_details": "Silver snap button visible on collar, smooth fabric lining visible at cuffs", "wear_state": "New" }, "color_details": { "base_color_hex": "#0044CC", "secondary_colors": [ "#002266" ], "gradient_or_pattern": "Solid vivid blue" } }, { "id": "obj_004", "label": "T-Shirt", "category": "Apparel", "location": { "relative_position": "Chest/Torso (Under jacket)", "bounding_box_percentage": { "x": 0.40, "y": 0.20, "width": 0.20, "height": 0.30 } }, "dimensions_relative": "Medium", "distance_from_camera": "Mid", "pose_orientation": "Worn on torso", "material": "Cotton jersey", "surface_properties": { "texture": "Smooth fabric", "reflectivity": "Low", "micro_details": "Large graphic print on chest", "wear_state": "New" }, "color_details": { "base_color_hex": "#0044CC", "secondary_colors": [ "#FFFFFF" ], "gradient_or_pattern": "Large white outline of Adidas Trefoil logo on chest" }, "text_content": { "raw_text": "adidas (implied by logo shape)", "font_style": "Logo symbol", "font_weight": "Bold", "text_case": "N/A", "alignment": "Center", "color_hex": "#FFFFFF" } }, { "id": "obj_005", "label": "Jeans", "category": "Apparel", "location": { "relative_position": "Lower Body", "bounding_box_percentage": { "x": 0.40, "y": 0.45, "width": 0.20, "height": 0.40 } }, "dimensions_relative": "Medium", "distance_from_camera": "Mid", "pose_orientation": "Worn on legs, relaxed fit", "material": "Denim", "surface_properties": { "texture": "Woven denim", "reflectivity": "Low", "micro_details": "Heavy white contrast stitching along seams and pockets. Cuffs are rolled up exposing lighter reverse side of denim.", "wear_state": "New" }, "color_details": { "base_color_hex": "#2A3B55", "secondary_colors": [ "#FFFFFF", "#667788" ], "gradient_or_pattern": "Dark wash indigo" } }, { "id": "obj_006", "label": "Sneakers", "category": "Footwear", "location": { "relative_position": "Bottom-Center", "bounding_box_percentage": { "x": 0.35, "y": 0.85, "width": 0.25, "height": 0.10 } }, "dimensions_relative": "Small", "distance_from_camera": "Mid", "pose_orientation": "Right foot planted, left foot on toe/mid-step. Classic Adidas Superstar silhouette.", "material": "Leather/Rubber", "surface_properties": { "texture": "Smooth leather upper, textured rubber shell toe", "reflectivity": "Medium (Leather sheen)", "micro_details": "Three stripes visible (white on white), shell toe pattern", "wear_state": "Pristine/Clean" }, "color_details": { "base_color_hex": "#FFFFFF", "secondary_colors": [], "gradient_or_pattern": "All white" } }, { "id": "obj_007", "label": "Graphic - Mic Drop Lines", "category": "Illustration/Overlay", "location": { "relative_position": "Upper Left (Hanging from hand)", "bounding_box_percentage": { "x": 0.38, "y": 0.12, "width": 0.05, "height": 0.25 } }, "dimensions_relative": "Small", "distance_from_camera": "Zero (Overlay)", "pose_orientation": "Vertical", "material": "Digital Vector", "surface_properties": { "texture": "Flat color", "reflectivity": "None", "micro_details": "Three thick vertical white lines representing motion or cable" }, "color_details": { "base_color_hex": "#FFFFFF", "secondary_colors": [], "gradient_or_pattern": "Solid" }, "relationships": [ { "type": "originating_from", "target_object_id": "obj_001" } ] }, { "id": "obj_008", "label": "Graphic - Microphone", "category": "Illustration/Overlay", "location": { "relative_position": "Mid Left (Below hand)", "bounding_box_percentage": { "x": 0.38, "y": 0.35, "width": 0.05, "height": 0.05 } }, "dimensions_relative": "Small", "distance_from_camera": "Zero (Overlay)", "pose_orientation": "Angled downwards", "material": "Digital Vector", "surface_properties": { "texture": "Hand-drawn line art style", "reflectivity": "None", "micro_details": "Outline of a dynamic vocal microphone" }, "color_details": { "base_color_hex": "#FFFFFF", "secondary_colors": [], "gradient_or_pattern": "Outline only" } }, { "id": "obj_009", "label": "Graphic - Boombox", "category": "Illustration/Overlay", "location": { "relative_position": "Center Right", "bounding_box_percentage": { "x": 0.65, "y": 0.30, "width": 0.15, "height": 0.20 } }, "dimensions_relative": "Medium", "distance_from_camera": "Zero (Overlay)", "pose_orientation": "Isometric view", "material": "Digital Vector", "surface_properties": { "texture": "Hand-drawn line art style", "reflectivity": "None", "micro_details": "Speaker grille mesh pattern, handle, buttons, cassette deck outline" }, "color_details": { "base_color_hex": "#FFFFFF", "secondary_colors": [], "gradient_or_pattern": "Outline only" }, "relationships": [ { "type": "emitting", "target_object_id": "obj_013" } ] }, { "id": "obj_010", "label": "Graphic - Adidas Trefoil Logo", "category": "Illustration/Overlay", "location": { "relative_position": "Bottom Right", "bounding_box_percentage": { "x": 0.65, "y": 0.65, "width": 0.15, "height": 0.15 } }, "dimensions_relative": "Medium", "distance_from_camera": "Zero (Overlay)", "pose_orientation": "Flat", "material": "Digital Vector", "surface_properties": { "texture": "Flat color", "reflectivity": "None", "micro_details": "Classic 3-leaf shape with horizontal stripes" }, "color_details": { "base_color_hex": "#FFFFFF", "secondary_colors": [], "gradient_or_pattern": "Solid" } }, { "id": "obj_011", "label": "Graphic - Cracked Floor", "category": "Illustration/Overlay", "location": { "relative_position": "Bottom Center (Under feet)", "bounding_box_percentage": { "x": 0.25, "y": 0.85, "width": 0.50, "height": 0.15 } }, "dimensions_relative": "Medium", "distance_from_camera": "Zero (Overlay)", "pose_orientation": "Flat perspective on ground", "material": "Digital Vector", "surface_properties": { "texture": "Line art", "reflectivity": "None", "micro_details": "Jagged lines radiating outward from the subject's stance like shattered glass" }, "color_details": { "base_color_hex": "#FFFFFF", "secondary_colors": [], "gradient_or_pattern": "Line art" } }, { "id": "obj_012", "label": "Graphic - Liquid Shapes", "category": "Illustration/Background Element", "location": { "relative_position": "Behind Subject", "bounding_box_percentage": { "x": 0.10, "y": 0.10, "width": 0.80, "height": 0.80 } }, "dimensions_relative": "Large", "distance_from_camera": "Behind Subject", "pose_orientation": "Fluid, amorphous", "material": "Digital Vector", "surface_properties": { "texture": "Flat color", "reflectivity": "None", "micro_details": "Blobs and splashes extending to the left and right, wrapping slightly around the subject" }, "color_details": { "base_color_hex": "#5CAFF0", "secondary_colors": [], "gradient_or_pattern": "Slightly darker/more saturated than background blue" } }, { "id": "obj_013", "label": "Graphic - Sound/Motion Lines", "category": "Illustration/Overlay", "location": { "relative_position": "Around Head and Boombox", "bounding_box_percentage": { "x": 0.60, "y": 0.05, "width": 0.25, "height": 0.40 } }, "dimensions_relative": "Small", "distance_from_camera": "Zero (Overlay)", "pose_orientation": "Radiating", "material": "Digital Vector", "surface_properties": { "texture": "Line art", "reflectivity": "None", "micro_details": "Short strokes indicating sound or movement above the hat and next to the boombox" }, "color_details": { "base_color_hex": "#FFFFFF", "secondary_colors": [], "gradient_or_pattern": "Solid" } } ], "background_details": { "texture": "Digital Flat Color", "patterns": "None (Solid Color)", "lighting_behavior": "Even illumination, no gradient visible", "additional_elements": [ "Vector liquid shapes (obj_012) act as a secondary background layer" ] }, "foreground_elements": { "particles": "None", "artifacts": "White vector doodles (mic, boombox, cracks) act as foreground overlays" }, "reconstruction_notes": { "mandatory_elements_for_recreation": [ "Male model in full blue Adidas outfit", "Fleece texture on jacket", "White contrast stitching on jeans and hat", "Hand-drawn white doodle overlays (Mic, Boombox, Trefoil)", "Cracked floor effect under feet", "Monochromatic blue palette with white accents", "Dynamic 'cool' pose" ], "sensitivity_factors": "The blend between the realistic photo and the flat vector graphics must be sharp. The blue tones of the clothing must coordinate with but distinguish from the background blue.", "ambiguities": "The exact specific model of the Adidas jacket is not identifiable by name but defined by texture (sherpa/fleece) and color." } }

Type: Digital illustration, Subject: Girl, Features: Exquisite facial features, flowing long hair, slender figure, Attire: Glowing green combat suit (1.5x detail), Style: 3D illustration, emphasizing ultra-high quality and super-detail, Background: Incredibly beautiful backdrop (1.3x detail), detail illumination, breathtaking, Details: Fine details, exceptionally detailed CG, with an emphasis on originality and precision, Parameters: 8K wallpaper (1.2x detail), high resolution, very CG, wallpaper, ultra-detailed CG image. This prompt is requesting a digital illustration of a girl with exquisite facial features, flowing long hair, and a slender figure. She is wearing a glowing green combat suit with enhanced details. The style should be 3D, focusing on ultra-high quality and super-detail. The background should be incredibly beautiful with detail illumination, and the overall image should be breathtaking. It should have fine details, exceptionally detailed CG, and an emphasis on originality and precision. The final image should be in 8K resolution, emphasizing high resolution, a very CG appearance, a wallpaper-like quality, and ultra-detailed CG imagery.

x

\begin{aligned}{\frac {\mathrm {d} \Phi }{\mathrm {d} \varepsilon }}&={\frac {\mathrm {d} }{\mathrm {d} \varepsilon }}\int _{a}^{b}L(x,f(x)+\varepsilon \eta (x),f'(x)+\varepsilon \eta '(x))\,\mathrm {d} x\\&=\int _{a}^{b}{\frac {\mathrm {d} }{\mathrm {d} \varepsilon }}L(x,f(x)+\varepsilon \eta (x),f'(x)+\varepsilon \eta '(x))\,\mathrm {d} x\\&=\int _{a}^{b}\left[\eta (x){\frac {\partial L}{\partial {f}}}(x,f(x)+\varepsilon \eta (x),f'(x)+\varepsilon \eta '(x))+\eta ...

Hyper-realistic, realism, photography, inspired by the X-Men's Rogue with short red hair with white streaks and black bangs, wearing a brown jacket over a yellow and green X-Men uniform. She holds a playing card in her hand, with voluminous red hair with white streaks, slightly tousled, framing her face with soft waves. The iconic original X-Men Rogue costume is perfect. She is full-length, medium-sized, athletic, curvaceous, and attractive, set in a dark urban setting with city streets, neon lights, and imposing buildings in the background. (X-Men Rogue: 1.6, uniform and hair details: 1.5)

Specialized Bitumen Refining Plant Governorate: Anbar / Hit District Production Capacity: ( ) Tons/Day The city of Hit in the Anbar Governorate is considered one of the most famous areas in the world for its natural "bitumen springs," which have been used for thousands of years (dating back to the Babylonian and Assyrian eras). However, processing this bitumen for modern use requires technical steps to transform it from a raw material into a viable product for construction or industrial applications. Bitumen emerges from these springs as a highly viscous liquid mixed with sulfurous water, salts, and mud impurities. This "Natural Asphalt" differs from petroleum bitumen produced in refineries, and it can also appear in the form of rocky or spongy blocks mixed with mud. To obtain industrially usable products from this bitumen, specifically for: 1. Waterproofing (Felt/Membranes): Considered one of the best coating materials for building foundations to prevent moisture leakage due to its high resistance to hydrolysis. 2. Road Paving: Mixed with gravel and sand to produce asphalt concrete. It is characterized by exceptionally high cohesive strength compared to industrial bitumen. The natural bitumen from these springs must undergo several fundamental processing stages to become industrially viable: 1. Collection and Sedimentation: Bitumen is collected from the springs or quarry sites and left in designated basins to allow the sulfurous water to naturally separate (due to density differences). 2. Primary Heating: The raw bitumen is placed in large boilers to: a. Evaporate the remaining water. b. Reduce viscosity for easier handling. 3. Filtration and Purification: The heated bitumen is screened to remove solid impurities such as gravel, dirt, and suspended organic matter. 4. Secondary Heating and Cooking: The temperature of the bitumen is raised, improving agents are added, and it is prepared for the vacuum distillation process. 5. Vacuum Distillation: The distillation process is conducted under low pressure (vacuum pressure), which allows for: a. The separation of light oils and volatile substances at lower temperatures. b. The production of highly pure "Hard Asphalt," which is highly demanded in the construction industry. ________________________________________ Plant Components and Operational Stages The specialized bitumen plant for processing raw natural bitumen (in both liquid and solid states) consists of a range of specialized equipment designed according to the latest international standards. This equipment aligns with the technical and engineering requirements for bitumen products, complies with Iraqi standard specifications, and adheres to environmental considerations in the Anbar Governorate. 1. Extraction Stage The raw material (solid or liquid) is extracted from quarries designated by the Geological Survey Authority using specialized mechanical equipment. It is stored in stocks or special basins for solid materials, then transported to the refinery site using specialized transport vehicles of various capacities. 2. Storage Stage The raw materials are stored in designated yards to ensure a sufficient inventory for continuous, uninterrupted production for no less than 7 working days. 3. Raw Material Preparation and Primary Heating Stage Raw materials are fed into the plant via hydraulic lifts. This stage includes: • 3-1: Crushing and Digestion: Solid raw materials from the quarries are broken down and digested using a digester (SH-01) equipped with double blades driven by hydraulic motors (22.5 kW capacity). The digester is 5 meters long and 1.80 meters in diameter, made of carbon steel, with Stainless Steel 304 blades. It includes a Stainless Steel piston driven by a 7.5 kW electric motor. • 3-2: Primary Heating: This melts the bitumen and improves pumpability through pipes and pumps. • 3-3: Efficiency Enhancement: To increase melting efficiency, Gas Oil is added to the primary heating basin at a ratio of 1:5 per ton of solid raw material entering the basin (this ratio decreases when using liquid raw bitumen). o 3-2-1: Primary Melting Basin (TK-01): Raw material is heated in a concrete tank (25m L x 5m W x 3m H) with a maximum storage capacity of 300 tons. Heating pipes circulate thermal fluid (oil) at 125°C, with a retention time of 4-6 hours. The tank is internally lined with 6-8 mm carbon steel plates to protect the heating pipes from corrosion. It contains 8 Stainless Steel 304 mixers (MX-01 A/B/C/D/E/F) driven by 7.5 kW electric motors (50 RPM) and gearboxes (1:60 ratio) to mix the material, increase heating efficiency, reduce retention time, and circulate the melted bitumen to eliminate dissolved water, resulting in a homogeneous melt. Covered with a carbon steel roof with service hatches, it connects to an air duct (30x60 cm) linked to 2 air blowers (AB-01A/B) (one operating, one standby) at 22.5 kW / 1500 RPM. These extract water vapor and sulfur fumes, sending them to a scrubber before atmospheric release and water recycling. o 3-2-2: Primary Collection Tank (V-01): A carbon steel tank (12-14 mm thick) with a maximum capacity of 125 tons (10m L x 5m W x 3m H). It connects directly to the primary tank (TK-01) via channels and movable gates to receive only liquid raw material. It contains thermal oil pipes to maintain the liquid raw material at 140°C. Insulated with glass wool (90 kg/m³) and a 1.8 mm aluminum outer cover. Impurities larger than 35 mm are removed and collected in a waste tank. o 3-2-3: Screw Conveyors (SC-01 A/B): Carbon steel screw conveyors with a double-jacketed outer cover filled with thermal oil to maintain the 140°C temperature. Driven by 22.5 kW electric motors (3000 RPM) with 1:40 gearboxes, they transport the liquid raw material to the preliminary filtration unit. 4. Purification Unit Removes suspended impurities from the liquid raw material in two stages: • 4-1: Preliminary Purification Tank (V-02): A carbon steel tank (12-14 mm thick, 125-ton capacity, 5m L x 10m W x 3m H). Receives liquid raw material from the primary collection tank. Contains thermal oil pipes to maintain 140°C. Insulated with glass wool (90 kg/m³) and a 1.8 mm aluminum cover. Impurities larger than 15 mm are removed to a waste tank. Material is pumped to the final filtration stage via gear pumps (GP-01 A/B) (one operating, one standby) at 22.5 kW / 1000 RPM. • 4-2: Final Filtration Unit (FT-01): Removes remaining impurities by passing liquids through box filters arranged in 2 trains (8 per train). They feature a two-layer Stainless Steel filter mesh (specified microns) wrapped around square boxes. Liquid enters from the outside, and pure liquid is collected from the inside via a pipe network connected to a manifold. This is driven by two vacuum pumps (VP-01A/B) connected to the raw material tanks. 5. Raw Material Tanks (V-03 A-J) Ten carbon steel tanks (2.5m diameter, 9m length, 14 mm thickness, 45-ton max capacity) equipped with thermal oil heating coils. They receive, store, and prepare the purified raw material for the subsequent cooking reaction. Insulated with glass wool (90 kg/m³) and a 1.8 mm aluminum cover. Connected by a pipe/valve network, the material is pumped via two centrifugal pumps (P-01 A/B) at 22.5 kW / 3000 RPM to the reactor unit. The tanks connect to a pipe network driven by vacuum pumps (VP-01A/B) at 22.5 kW / 1500 RPM, pushing heating gases and vapors to the gas washing tank (V-14). 6. Reactor (Cooking) Unit (V-04 A/B) Consists of three reactors (55 tons each) that prepare the raw material for vacuum distillation and extract light naphtha compounds. • 6-1: Cooking Process: o 6-1-1: Catalyst System: Consists of two tanks. One prepares the catalyst mixture (1.5m dia, 4m H, 8mm carbon steel) with a mixer (MX-03) driven by a hydromotor and 1:40 gearbox. The second stores Gas Oil added to the preparation unit (1.5m dia, 1m H, 5mm carbon steel) with a 0.5 HP centrifugal pump. o 6-1-2: Reaction Tanks (V-04/05/06A): Three carbon steel tanks (2.8m dia, 9m L, 14mm thick, 55-ton max). Each has 2 Stainless Steel mixers (MX-02 A/B/C/D/E/F) driven by a 7.5 kW motor (1500 RPM) with a 1:40 gearbox. Contains an internal heating system powered by a Gas Oil burner to raise the temperature to 180°C. Catalyst is injected via dosing pumps (DP-01A/B) to increase naphtha extraction efficiency. Material is circulated during cooking by two centrifugal pumps per reactor (P-04A/B/C/D/E/F) (one active, one standby) to reduce retention time to 3-4 hours. After cooking, material is moved to the attached tank (V-04/05/06B) for storage before distillation. Fully insulated. o 6-1-3: Cooked Material Tank (V-04/05/06B): Carbon steel tank (2.8m dia, 9m L, 14mm thick) with thermal oil pipes to maintain 190-200°C. Fully insulated. Material is pumped to the vacuum distillation tower via centrifugal pumps (P-05A/B) (one active, one standby) at 22.5 kW / 3000 RPM. 7. Raw Naphtha Storage Unit Collects and condenses naphtha extracted during cooking. • 7-1-1: Raw Naphtha Tanks (V-07A/B/C): Three vertical Stainless Steel 304 tanks (1.5m dia, 5m H) connected to three heat exchangers and two pump pairs. Equipped internally with water spray nozzles on a ring pipe to wash non-condensable gases. • 7-1-2: Heat Exchangers (HE-01A/B/C): Condense naphtha vapors from 140°C down to 40°C using water from the cooling tower. Connected in series. Shell & Tube type, carbon steel (510 mm dia, 6m L) with 70 tubes (0.75-inch dia) in two rows of 35. Includes internal baffles for efficiency. • 7-1-3: Supporting Pumps: Vacuum pumps (VP-01A/B) at 22.5 kW / 1500 RPM draw naphtha vapors from reactors to the heat exchangers, pushing non-condensable gases to the scrubber (V-14). Centrifugal pumps (P-02A/B) at 11.5 kW / 1500 RPM transport liquid raw naphtha to the Bleaching Unit. 8. Vacuum Distillation Unit The core of the plant, separating remaining light compounds and producing hard asphalt. • 8-1-1: Vacuum Distillation Tower: A vertical tower (~16m total height, 14mm carbon steel). Bottom section (Reboiler) is 3.5m dia x 1.2m H; top section is 1.5m dia x 12m H. Fully insulated. Fed with cooked material at 190-200°C via pumps (P-05A/B). To start extraction (remaining naphtha, Gas Oil, diesel), temperature is raised to 240-250°C using Heating Coil 1 via pumps (P-08A/B) at 55 kW / 3000 RPM, with continuous circulation via pumps (P-07A/B). Vacuum pumps (VP-03A/B) maintain 0.3-0.5 mbar pressure. Light compounds are extracted, condensed (HE-02A/B/C), and stored (V-08/09/10 A/B) over 2.5-3 hours. Afterward, material is heated via Heating Coil 2 to 320-340°C to finalize extraction and produce hard bitumen. Product is extracted via pumps (P-07A/B) at ~320°C, cooled via cooling tower coils, and sent to final tanks (V-18A/B/C). Batch processing takes 6-7 hours daily; continuous operation is possible. • 8-1-2: Supporting Pumps: Vacuum pumps (VP-03A/B) at 5.5 kW / 3000 RPM draw light vapors for condensation. Circulation centrifugal pumps (P-08A/B) at 55 kW move hot material to heating coils; (P-07A/B) circulate material and pump final bitumen product. • 8-1-3: Heating Coils 1 & 2: Carbon steel 4-inch diameter coils heated externally by a Gas Oil burner. Connected in series to heat liquid bitumen in two stages to prevent degradation. • 8-2: Heat Exchangers (HE-02A/B/C): Condense light compound vapors from 240°C to 40°C. Shell & Tube type, carbon steel (600 mm dia, 6m L) with 80 tubes (1-inch dia) in two rows of 40, equipped with baffles. • 8-3: Light Compound Tanks (V-08A/B, V-09A/B, V-10A/B): Six horizontal carbon steel tanks (1.5m dia, 4.5m L, 14mm thick). Receive condensates, linked to heat exchangers and vacuum pumps. Liquids are pumped to the Bleaching Unit via centrifugal pumps (P-06A/B) at 7.5 kW / 1500 RPM. 9. Bleaching Unit Improves the specifications of raw light compounds for local use and marketing. • 9-1: Collection Tank (V-11): Horizontal carbon steel tank (1m dia, 2.5m L, 14mm thick) placed above the system to store and distribute light compounds to the bleaching columns. • 9-2: Bleaching Columns (V-12A/B/C): Three vertical carbon steel vessels (1m dia, 4.5m H, 14mm thick). Contain a 15 cm catalyst layer on trays to bleach raw liquids into high-quality compounds, collected in a bottom horizontal tank. The catalyst is a calcined mixture of Bentonite and Zinc Oxide granules (2-3 mm) homogenized in water, which can be reactivated with steam and 5% HCl. • 9-3: Supporting Pumps: Vacuum pumps (VP-04A/B) at 5.5 kW extract vapors to the scrubber. Centrifugal pumps (P-09A/B) at 7.5 kW push bleached liquids to final tanks. 10. Production Tanks (V-13 A-F & V-18 A-C) • Light Products: Six horizontal carbon steel tanks (2.8m dia, 9m L, 55-ton capacity). V-13A/B for light naphtha, V-13C/D for Gas Oil, V-13E/F for diesel. • Asphalt: Three vertical carbon steel tanks (V-18A/B/C) (5m dia, 9m H). Equipped with thermal oil heating coils to keep asphalt liquid. Fully insulated (90 kg/m³ glass wool, 1.8mm aluminum cover). 11. Supporting Systems • 11-1: Gas Washing (Scrubber) System: Treats non-condensable gases before atmospheric release. Contains V-14 washing tank (1m dia, 2.8m L), a 500mm Flare stack with 3 ignitors, and a 1m x 1m LPG tank (V-15) for ignition. • 11-2: Cooling Tower: Provides cooling water for heat exchangers. Galvanized pressed steel basin (16m L x 2.4m W x 2.8m H), FRP casing, top fans, water distributors, and fill media. Includes Accumulator tank V-20 (1.5m dia, 2m L) and 11 kW pushing pumps (P-14A/B). • 11-3: Thermal Oil Boilers: Includes oil tank, heating boiler, oil pumps, and heating accelerators. • 11-4: Distillation Tower Raw Boilers • 11-5: Power Generation System • 11-6: Production Laboratory • 11-7: Control and Operation Room • 11-8: Catalyst System: Contains a vertical diesel tank (1m dia, 1.5m H) with a 1 kW centrifugal pump (P-11). Two vertical carbon steel tanks (V-17A/B, 1.5m dia, 4.5m H) with an MX-03 hydromotor mixer (7.5 kW, 30 RPM). V-17A is for preparation, V-17B pumps catalyst to the reactor. ________________________________________ Catalyst Chemical Components & Formulations 1. Alumina (Al2O3): Enhances the cracking of chemical bonds in heavy bitumen chains and increases Gas Oil extraction yield. 2. Manganese Dioxide (MnO2): Accelerates the reaction, reduces reaction time, and acts as a gasoline improver. 3. Silicon Dioxide (SiO2): Increases acceleration and reduces reaction time. 4. Iron Oxides (Fe2O): Accelerates the reaction, prevents pipe corrosion, and stops sulfur and wax from sticking to pipes and pumps. Weight Ratios (WT/WT) to Produce One Barrel (200 Liters) of Catalyst: 1. Alumina: Varies by feed: 2-2.5% for Bitumen / 4-5% for Vacuum Residue (VR) / 2-2.5% for Heavy Fuel Oil (HFO). To increase Gas Oil/Diesel (Light fuel) yield, Alumina can be added up to a maximum of 10%. 2. Manganese Dioxide: 2-2.5% for HFO / 4-5% for VR and Bitumen. 3. Iron Oxides: 2-2.5% across all feeds. 4. Silicon Dioxide: 2-2.5% for HFO / 4-5% for Bitumen and VR. 5. Remaining Volume: Filled with C-oil. Note: One barrel (200 Liters) of this mixture is added for every 5 tons of HFO, VR, or Bitumen. Manufacturing Mechanism: All components are placed in a tank, initially mixed with water, and heated to 80-120°C with continuous mixing (20-30 RPM). Once foam is generated, the product is allowed to cool to 80°C. The heating process up to 120°C is repeated 3 or 4 times until foaming ceases. Finally, the temperature is raised to 150°C, and the mixture is topped off to 200 liters using C-oil. To further improve light compound specifications, Zinc Oxide (300 grams) is mixed with 20 kg of Bentonite in C-oil. This is added alongside the catalyst at a ratio of 1/5 barrel of catalyst added to the reactor.

{ "meta": { "image_quality": "High", "image_type": "Mixed Media (Photography combined with Digital Illustration/Collage)", "resolution_estimation": "High resolution, sharp edges on vectors", "file_characteristics": { "compression_artifacts": "Low", "noise_level": "None", "lens_type_estimation": "Standard to slight wide-angle (approx 35mm)" } }, "global_context": { "scene_description": "A full-body studio portrait of a young man posing dynamically against a solid bright blue background. The image is a composite featuring the photograph of the man overlaid with white hand-drawn style vector graphics (doodles) and abstract blue liquid shapes. The subject is dressed in a monochromatic blue streetwear outfit with white accents.", "environment_type": "Studio/Graphic Design Composition", "time_of_day": "Indiscernible (Studio Lighting)", "weather_atmosphere": "Energetic, Artistic, Urban, Cool", "lighting": { "source": "Artificial Studio Lighting", "direction": "Front-right dominant (creating soft shadows on the left side of the face)", "quality": "Soft, Diffused", "color_temperature": "Neutral white" }, "color_palette": { "dominant_hex_estimates": [ "#4CA7E8", "#0044CC", "#FFFFFF", "#1A2B45" ], "accent_colors": [ "#FFFFFF" ], "contrast_level": "High" } }, "composition": { "camera_angle": "Low-angle (looking slightly up at the subject)", "framing": "Full Shot (Head to Toe)", "depth_of_field": "Deep (Everything in focus)", "focal_point": "Subject's face and upper torso", "symmetry_type": "Asymmetrical balance", "rule_of_thirds_alignment": "Subject centered, graphics balancing the negative space" }, "objects": [ { "id": "obj_001", "label": "Male Subject", "category": "Person", "location": { "relative_position": "Center", "bounding_box_percentage": { "x": 0.30, "y": 0.05, "width": 0.40, "height": 0.85 } }, "dimensions_relative": "Large", "distance_from_camera": "Mid", "pose_orientation": "Standing, body angled slightly right, head tilted left, right hand raised near face, left leg crossed over right leg", "material": "Organic (Skin)", "surface_properties": { "texture": "Skin", "reflectivity": "Low", "micro_details": "Light goatee/facial hair, neutral but confident expression", "wear_state": "N/A" }, "color_details": { "base_color_hex": "#5C3A2A", "secondary_colors": [], "gradient_or_pattern": "Natural skin tones" }, "interaction_with_light": { "shadow_casting": "Self-shadows on neck and left side of face", "highlight_zones": "Forehead, right cheek, nose bridge", "translucency": "None" }, "relationships": [ { "type": "wearing", "target_object_id": "obj_002" }, { "type": "wearing", "target_object_id": "obj_003" }, { "type": "wearing", "target_object_id": "obj_004" }, { "type": "wearing", "target_object_id": "obj_005" }, { "type": "wearing", "target_object_id": "obj_006" }, { "type": "interacting_with", "target_object_id": "obj_007" }, { "type": "standing_on", "target_object_id": "obj_011" } ] }, { "id": "obj_002", "label": "Bucket Hat", "category": "Apparel", "location": { "relative_position": "Top-Center (On head)", "bounding_box_percentage": { "x": 0.45, "y": 0.05, "width": 0.10, "height": 0.08 } }, "dimensions_relative": "Small", "distance_from_camera": "Mid", "pose_orientation": "Worn on head, brim pulled slightly down", "material": "Denim/Canvas", "surface_properties": { "texture": "Woven fabric", "reflectivity": "Low", "micro_details": "Visible white contrast stitching around the brim and crown", "wear_state": "New" }, "color_details": { "base_color_hex": "#003399", "secondary_colors": [ "#FFFFFF" ], "gradient_or_pattern": "Solid blue with white stitching lines" } }, { "id": "obj_003", "label": "Fleece Jacket", "category": "Apparel", "location": { "relative_position": "Upper Body", "bounding_box_percentage": { "x": 0.30, "y": 0.12, "width": 0.35, "height": 0.40 } }, "dimensions_relative": "Medium", "distance_from_camera": "Mid", "pose_orientation": "Worn open, sleeves rolled slightly or pushed up", "material": "Sherpa Fleece / Synthetic Blend", "surface_properties": { "texture": "High pile, fuzzy, nubby texture on outer shell", "reflectivity": "Low (Matte)", "micro_details": "Silver snap button visible on collar, smooth fabric lining visible at cuffs", "wear_state": "New" }, "color_details": { "base_color_hex": "#0044CC", "secondary_colors": [ "#002266" ], "gradient_or_pattern": "Solid vivid blue" } }, { "id": "obj_004", "label": "T-Shirt", "category": "Apparel", "location": { "relative_position": "Chest/Torso (Under jacket)", "bounding_box_percentage": { "x": 0.40, "y": 0.20, "width": 0.20, "height": 0.30 } }, "dimensions_relative": "Medium", "distance_from_camera": "Mid", "pose_orientation": "Worn on torso", "material": "Cotton jersey", "surface_properties": { "texture": "Smooth fabric", "reflectivity": "Low", "micro_details": "Large graphic print on chest", "wear_state": "New" }, "color_details": { "base_color_hex": "#0044CC", "secondary_colors": [ "#FFFFFF" ], "gradient_or_pattern": "Large white outline of Adidas Trefoil logo on chest" }, "text_content": { "raw_text": "adidas (implied by logo shape)", "font_style": "Logo symbol", "font_weight": "Bold", "text_case": "N/A", "alignment": "Center", "color_hex": "#FFFFFF" } }, { "id": "obj_005", "label": "Jeans", "category": "Apparel", "location": { "relative_position": "Lower Body", "bounding_box_percentage": { "x": 0.40, "y": 0.45, "width": 0.20, "height": 0.40 } }, "dimensions_relative": "Medium", "distance_from_camera": "Mid", "pose_orientation": "Worn on legs, relaxed fit", "material": "Denim", "surface_properties": { "texture": "Woven denim", "reflectivity": "Low", "micro_details": "Heavy white contrast stitching along seams and pockets. Cuffs are rolled up exposing lighter reverse side of denim.", "wear_state": "New" }, "color_details": { "base_color_hex": "#2A3B55", "secondary_colors": [ "#FFFFFF", "#667788" ], "gradient_or_pattern": "Dark wash indigo" } }, { "id": "obj_006", "label": "Sneakers", "category": "Footwear", "location": { "relative_position": "Bottom-Center", "bounding_box_percentage": { "x": 0.35, "y": 0.85, "width": 0.25, "height": 0.10 } }, "dimensions_relative": "Small", "distance_from_camera": "Mid", "pose_orientation": "Right foot planted, left foot on toe/mid-step. Classic Adidas Superstar silhouette.", "material": "Leather/Rubber", "surface_properties": { "texture": "Smooth leather upper, textured rubber shell toe", "reflectivity": "Medium (Leather sheen)", "micro_details": "Three stripes visible (white on white), shell toe pattern", "wear_state": "Pristine/Clean" }, "color_details": { "base_color_hex": "#FFFFFF", "secondary_colors": [], "gradient_or_pattern": "All white" } }, { "id": "obj_007", "label": "Graphic - Mic Drop Lines", "category": "Illustration/Overlay", "location": { "relative_position": "Upper Left (Hanging from hand)", "bounding_box_percentage": { "x": 0.38, "y": 0.12, "width": 0.05, "height": 0.25 } }, "dimensions_relative": "Small", "distance_from_camera": "Zero (Overlay)", "pose_orientation": "Vertical", "material": "Digital Vector", "surface_properties": { "texture": "Flat color", "reflectivity": "None", "micro_details": "Three thick vertical white lines representing motion or cable" }, "color_details": { "base_color_hex": "#FFFFFF", "secondary_colors": [], "gradient_or_pattern": "Solid" }, "relationships": [ { "type": "originating_from", "target_object_id": "obj_001" } ] }, { "id": "obj_008", "label": "Graphic - Microphone", "category": "Illustration/Overlay", "location": { "relative_position": "Mid Left (Below hand)", "bounding_box_percentage": { "x": 0.38, "y": 0.35, "width": 0.05, "height": 0.05 } }, "dimensions_relative": "Small", "distance_from_camera": "Zero (Overlay)", "pose_orientation": "Angled downwards", "material": "Digital Vector", "surface_properties": { "texture": "Hand-drawn line art style", "reflectivity": "None", "micro_details": "Outline of a dynamic vocal microphone" }, "color_details": { "base_color_hex": "#FFFFFF", "secondary_colors": [], "gradient_or_pattern": "Outline only" } }, { "id": "obj_009", "label": "Graphic - Boombox", "category": "Illustration/Overlay", "location": { "relative_position": "Center Right", "bounding_box_percentage": { "x": 0.65, "y": 0.30, "width": 0.15, "height": 0.20 } }, "dimensions_relative": "Medium", "distance_from_camera": "Zero (Overlay)", "pose_orientation": "Isometric view", "material": "Digital Vector", "surface_properties": { "texture": "Hand-drawn line art style", "reflectivity": "None", "micro_details": "Speaker grille mesh pattern, handle, buttons, cassette deck outline" }, "color_details": { "base_color_hex": "#FFFFFF", "secondary_colors": [], "gradient_or_pattern": "Outline only" }, "relationships": [ { "type": "emitting", "target_object_id": "obj_013" } ] }, { "id": "obj_010", "label": "Graphic - Adidas Trefoil Logo", "category": "Illustration/Overlay", "location": { "relative_position": "Bottom Right", "bounding_box_percentage": { "x": 0.65, "y": 0.65, "width": 0.15, "height": 0.15 } }, "dimensions_relative": "Medium", "distance_from_camera": "Zero (Overlay)", "pose_orientation": "Flat", "material": "Digital Vector", "surface_properties": { "texture": "Flat color", "reflectivity": "None", "micro_details": "Classic 3-leaf shape with horizontal stripes" }, "color_details": { "base_color_hex": "#FFFFFF", "secondary_colors": [], "gradient_or_pattern": "Solid" } }, { "id": "obj_011", "label": "Graphic - Cracked Floor", "category": "Illustration/Overlay", "location": { "relative_position": "Bottom Center (Under feet)", "bounding_box_percentage": { "x": 0.25, "y": 0.85, "width": 0.50, "height": 0.15 } }, "dimensions_relative": "Medium", "distance_from_camera": "Zero (Overlay)", "pose_orientation": "Flat perspective on ground", "material": "Digital Vector", "surface_properties": { "texture": "Line art", "reflectivity": "None", "micro_details": "Jagged lines radiating outward from the subject's stance like shattered glass" }, "color_details": { "base_color_hex": "#FFFFFF", "secondary_colors": [], "gradient_or_pattern": "Line art" } }, { "id": "obj_012", "label": "Graphic - Liquid Shapes", "category": "Illustration/Background Element", "location": { "relative_position": "Behind Subject", "bounding_box_percentage": { "x": 0.10, "y": 0.10, "width": 0.80, "height": 0.80 } }, "dimensions_relative": "Large", "distance_from_camera": "Behind Subject", "pose_orientation": "Fluid, amorphous", "material": "Digital Vector", "surface_properties": { "texture": "Flat color", "reflectivity": "None", "micro_details": "Blobs and splashes extending to the left and right, wrapping slightly around the subject" }, "color_details": { "base_color_hex": "#5CAFF0", "secondary_colors": [], "gradient_or_pattern": "Slightly darker/more saturated than background blue" } }, { "id": "obj_013", "label": "Graphic - Sound/Motion Lines", "category": "Illustration/Overlay", "location": { "relative_position": "Around Head and Boombox", "bounding_box_percentage": { "x": 0.60, "y": 0.05, "width": 0.25, "height": 0.40 } }, "dimensions_relative": "Small", "distance_from_camera": "Zero (Overlay)", "pose_orientation": "Radiating", "material": "Digital Vector", "surface_properties": { "texture": "Line art", "reflectivity": "None", "micro_details": "Short strokes indicating sound or movement above the hat and next to the boombox" }, "color_details": { "base_color_hex": "#FFFFFF", "secondary_colors": [], "gradient_or_pattern": "Solid" } } ], "background_details": { "texture": "Digital Flat Color", "patterns": "None (Solid Color)", "lighting_behavior": "Even illumination, no gradient visible", "additional_elements": [ "Vector liquid shapes (obj_012) act as a secondary background layer" ] }, "foreground_elements": { "particles": "None", "artifacts": "White vector doodles (mic, boombox, cracks) act as foreground overlays" }, "reconstruction_notes": { "mandatory_elements_for_recreation": [ "Male model in full blue Adidas outfit", "Fleece texture on jacket", "White contrast stitching on jeans and hat", "Hand-drawn white doodle overlays (Mic, Boombox, Trefoil)", "Cracked floor effect under feet", "Monochromatic blue palette with white accents", "Dynamic 'cool' pose" ], "sensitivity_factors": "The blend between the realistic photo and the flat vector graphics must be sharp. The blue tones of the clothing must coordinate with but distinguish from the background blue.", "ambiguities": "The exact specific model of the Adidas jacket is not identifiable by name but defined by texture (sherpa/fleece) and color." } }

Specialized Bitumen Refining Plant Governorate: Anbar / Hit District Production Capacity: ( ) Tons/Day The city of Hit in the Anbar Governorate is considered one of the most famous areas in the world for its natural "bitumen springs," which have been used for thousands of years (dating back to the Babylonian and Assyrian eras). However, processing this bitumen for modern use requires technical steps to transform it from a raw material into a viable product for construction or industrial applications. Bitumen emerges from these springs as a highly viscous liquid mixed with sulfurous water, salts, and mud impurities. This "Natural Asphalt" differs from petroleum bitumen produced in refineries, and it can also appear in the form of rocky or spongy blocks mixed with mud. To obtain industrially usable products from this bitumen, specifically for: 1. Waterproofing (Felt/Membranes): Considered one of the best coating materials for building foundations to prevent moisture leakage due to its high resistance to hydrolysis. 2. Road Paving: Mixed with gravel and sand to produce asphalt concrete. It is characterized by exceptionally high cohesive strength compared to industrial bitumen. The natural bitumen from these springs must undergo several fundamental processing stages to become industrially viable: 1. Collection and Sedimentation: Bitumen is collected from the springs or quarry sites and left in designated basins to allow the sulfurous water to naturally separate (due to density differences). 2. Primary Heating: The raw bitumen is placed in large boilers to: a. Evaporate the remaining water. b. Reduce viscosity for easier handling. 3. Filtration and Purification: The heated bitumen is screened to remove solid impurities such as gravel, dirt, and suspended organic matter. 4. Secondary Heating and Cooking: The temperature of the bitumen is raised, improving agents are added, and it is prepared for the vacuum distillation process. 5. Vacuum Distillation: The distillation process is conducted under low pressure (vacuum pressure), which allows for: a. The separation of light oils and volatile substances at lower temperatures. b. The production of highly pure "Hard Asphalt," which is highly demanded in the construction industry. ________________________________________ Plant Components and Operational Stages The specialized bitumen plant for processing raw natural bitumen (in both liquid and solid states) consists of a range of specialized equipment designed according to the latest international standards. This equipment aligns with the technical and engineering requirements for bitumen products, complies with Iraqi standard specifications, and adheres to environmental considerations in the Anbar Governorate. 1. Extraction Stage The raw material (solid or liquid) is extracted from quarries designated by the Geological Survey Authority using specialized mechanical equipment. It is stored in stocks or special basins for solid materials, then transported to the refinery site using specialized transport vehicles of various capacities. 2. Storage Stage The raw materials are stored in designated yards to ensure a sufficient inventory for continuous, uninterrupted production for no less than 7 working days. 3. Raw Material Preparation and Primary Heating Stage Raw materials are fed into the plant via hydraulic lifts. This stage includes: • 3-1: Crushing and Digestion: Solid raw materials from the quarries are broken down and digested using a digester (SH-01) equipped with double blades driven by hydraulic motors (22.5 kW capacity). The digester is 5 meters long and 1.80 meters in diameter, made of carbon steel, with Stainless Steel 304 blades. It includes a Stainless Steel piston driven by a 7.5 kW electric motor. • 3-2: Primary Heating: This melts the bitumen and improves pumpability through pipes and pumps. • 3-3: Efficiency Enhancement: To increase melting efficiency, Gas Oil is added to the primary heating basin at a ratio of 1:5 per ton of solid raw material entering the basin (this ratio decreases when using liquid raw bitumen). o 3-2-1: Primary Melting Basin (TK-01): Raw material is heated in a concrete tank (25m L x 5m W x 3m H) with a maximum storage capacity of 300 tons. Heating pipes circulate thermal fluid (oil) at 125°C, with a retention time of 4-6 hours. The tank is internally lined with 6-8 mm carbon steel plates to protect the heating pipes from corrosion. It contains 8 Stainless Steel 304 mixers (MX-01 A/B/C/D/E/F) driven by 7.5 kW electric motors (50 RPM) and gearboxes (1:60 ratio) to mix the material, increase heating efficiency, reduce retention time, and circulate the melted bitumen to eliminate dissolved water, resulting in a homogeneous melt. Covered with a carbon steel roof with service hatches, it connects to an air duct (30x60 cm) linked to 2 air blowers (AB-01A/B) (one operating, one standby) at 22.5 kW / 1500 RPM. These extract water vapor and sulfur fumes, sending them to a scrubber before atmospheric release and water recycling. o 3-2-2: Primary Collection Tank (V-01): A carbon steel tank (12-14 mm thick) with a maximum capacity of 125 tons (10m L x 5m W x 3m H). It connects directly to the primary tank (TK-01) via channels and movable gates to receive only liquid raw material. It contains thermal oil pipes to maintain the liquid raw material at 140°C. Insulated with glass wool (90 kg/m³) and a 1.8 mm aluminum outer cover. Impurities larger than 35 mm are removed and collected in a waste tank. o 3-2-3: Screw Conveyors (SC-01 A/B): Carbon steel screw conveyors with a double-jacketed outer cover filled with thermal oil to maintain the 140°C temperature. Driven by 22.5 kW electric motors (3000 RPM) with 1:40 gearboxes, they transport the liquid raw material to the preliminary filtration unit. 4. Purification Unit Removes suspended impurities from the liquid raw material in two stages: • 4-1: Preliminary Purification Tank (V-02): A carbon steel tank (12-14 mm thick, 125-ton capacity, 5m L x 10m W x 3m H). Receives liquid raw material from the primary collection tank. Contains thermal oil pipes to maintain 140°C. Insulated with glass wool (90 kg/m³) and a 1.8 mm aluminum cover. Impurities larger than 15 mm are removed to a waste tank. Material is pumped to the final filtration stage via gear pumps (GP-01 A/B) (one operating, one standby) at 22.5 kW / 1000 RPM. • 4-2: Final Filtration Unit (FT-01): Removes remaining impurities by passing liquids through box filters arranged in 2 trains (8 per train). They feature a two-layer Stainless Steel filter mesh (specified microns) wrapped around square boxes. Liquid enters from the outside, and pure liquid is collected from the inside via a pipe network connected to a manifold. This is driven by two vacuum pumps (VP-01A/B) connected to the raw material tanks. 5. Raw Material Tanks (V-03 A-J) Ten carbon steel tanks (2.5m diameter, 9m length, 14 mm thickness, 45-ton max capacity) equipped with thermal oil heating coils. They receive, store, and prepare the purified raw material for the subsequent cooking reaction. Insulated with glass wool (90 kg/m³) and a 1.8 mm aluminum cover. Connected by a pipe/valve network, the material is pumped via two centrifugal pumps (P-01 A/B) at 22.5 kW / 3000 RPM to the reactor unit. The tanks connect to a pipe network driven by vacuum pumps (VP-01A/B) at 22.5 kW / 1500 RPM, pushing heating gases and vapors to the gas washing tank (V-14). 6. Reactor (Cooking) Unit (V-04 A/B) Consists of three reactors (55 tons each) that prepare the raw material for vacuum distillation and extract light naphtha compounds. • 6-1: Cooking Process: o 6-1-1: Catalyst System: Consists of two tanks. One prepares the catalyst mixture (1.5m dia, 4m H, 8mm carbon steel) with a mixer (MX-03) driven by a hydromotor and 1:40 gearbox. The second stores Gas Oil added to the preparation unit (1.5m dia, 1m H, 5mm carbon steel) with a 0.5 HP centrifugal pump. o 6-1-2: Reaction Tanks (V-04/05/06A): Three carbon steel tanks (2.8m dia, 9m L, 14mm thick, 55-ton max). Each has 2 Stainless Steel mixers (MX-02 A/B/C/D/E/F) driven by a 7.5 kW motor (1500 RPM) with a 1:40 gearbox. Contains an internal heating system powered by a Gas Oil burner to raise the temperature to 180°C. Catalyst is injected via dosing pumps (DP-01A/B) to increase naphtha extraction efficiency. Material is circulated during cooking by two centrifugal pumps per reactor (P-04A/B/C/D/E/F) (one active, one standby) to reduce retention time to 3-4 hours. After cooking, material is moved to the attached tank (V-04/05/06B) for storage before distillation. Fully insulated. o 6-1-3: Cooked Material Tank (V-04/05/06B): Carbon steel tank (2.8m dia, 9m L, 14mm thick) with thermal oil pipes to maintain 190-200°C. Fully insulated. Material is pumped to the vacuum distillation tower via centrifugal pumps (P-05A/B) (one active, one standby) at 22.5 kW / 3000 RPM. 7. Raw Naphtha Storage Unit Collects and condenses naphtha extracted during cooking. • 7-1-1: Raw Naphtha Tanks (V-07A/B/C): Three vertical Stainless Steel 304 tanks (1.5m dia, 5m H) connected to three heat exchangers and two pump pairs. Equipped internally with water spray nozzles on a ring pipe to wash non-condensable gases. • 7-1-2: Heat Exchangers (HE-01A/B/C): Condense naphtha vapors from 140°C down to 40°C using water from the cooling tower. Connected in series. Shell & Tube type, carbon steel (510 mm dia, 6m L) with 70 tubes (0.75-inch dia) in two rows of 35. Includes internal baffles for efficiency. • 7-1-3: Supporting Pumps: Vacuum pumps (VP-01A/B) at 22.5 kW / 1500 RPM draw naphtha vapors from reactors to the heat exchangers, pushing non-condensable gases to the scrubber (V-14). Centrifugal pumps (P-02A/B) at 11.5 kW / 1500 RPM transport liquid raw naphtha to the Bleaching Unit. 8. Vacuum Distillation Unit The core of the plant, separating remaining light compounds and producing hard asphalt. • 8-1-1: Vacuum Distillation Tower: A vertical tower (~16m total height, 14mm carbon steel). Bottom section (Reboiler) is 3.5m dia x 1.2m H; top section is 1.5m dia x 12m H. Fully insulated. Fed with cooked material at 190-200°C via pumps (P-05A/B). To start extraction (remaining naphtha, Gas Oil, diesel), temperature is raised to 240-250°C using Heating Coil 1 via pumps (P-08A/B) at 55 kW / 3000 RPM, with continuous circulation via pumps (P-07A/B). Vacuum pumps (VP-03A/B) maintain 0.3-0.5 mbar pressure. Light compounds are extracted, condensed (HE-02A/B/C), and stored (V-08/09/10 A/B) over 2.5-3 hours. Afterward, material is heated via Heating Coil 2 to 320-340°C to finalize extraction and produce hard bitumen. Product is extracted via pumps (P-07A/B) at ~320°C, cooled via cooling tower coils, and sent to final tanks (V-18A/B/C). Batch processing takes 6-7 hours daily; continuous operation is possible. • 8-1-2: Supporting Pumps: Vacuum pumps (VP-03A/B) at 5.5 kW / 3000 RPM draw light vapors for condensation. Circulation centrifugal pumps (P-08A/B) at 55 kW move hot material to heating coils; (P-07A/B) circulate material and pump final bitumen product. • 8-1-3: Heating Coils 1 & 2: Carbon steel 4-inch diameter coils heated externally by a Gas Oil burner. Connected in series to heat liquid bitumen in two stages to prevent degradation. • 8-2: Heat Exchangers (HE-02A/B/C): Condense light compound vapors from 240°C to 40°C. Shell & Tube type, carbon steel (600 mm dia, 6m L) with 80 tubes (1-inch dia) in two rows of 40, equipped with baffles. • 8-3: Light Compound Tanks (V-08A/B, V-09A/B, V-10A/B): Six horizontal carbon steel tanks (1.5m dia, 4.5m L, 14mm thick). Receive condensates, linked to heat exchangers and vacuum pumps. Liquids are pumped to the Bleaching Unit via centrifugal pumps (P-06A/B) at 7.5 kW / 1500 RPM. 9. Bleaching Unit Improves the specifications of raw light compounds for local use and marketing. • 9-1: Collection Tank (V-11): Horizontal carbon steel tank (1m dia, 2.5m L, 14mm thick) placed above the system to store and distribute light compounds to the bleaching columns. • 9-2: Bleaching Columns (V-12A/B/C): Three vertical carbon steel vessels (1m dia, 4.5m H, 14mm thick). Contain a 15 cm catalyst layer on trays to bleach raw liquids into high-quality compounds, collected in a bottom horizontal tank. The catalyst is a calcined mixture of Bentonite and Zinc Oxide granules (2-3 mm) homogenized in water, which can be reactivated with steam and 5% HCl. • 9-3: Supporting Pumps: Vacuum pumps (VP-04A/B) at 5.5 kW extract vapors to the scrubber. Centrifugal pumps (P-09A/B) at 7.5 kW push bleached liquids to final tanks. 10. Production Tanks (V-13 A-F & V-18 A-C) • Light Products: Six horizontal carbon steel tanks (2.8m dia, 9m L, 55-ton capacity). V-13A/B for light naphtha, V-13C/D for Gas Oil, V-13E/F for diesel. • Asphalt: Three vertical carbon steel tanks (V-18A/B/C) (5m dia, 9m H). Equipped with thermal oil heating coils to keep asphalt liquid. Fully insulated (90 kg/m³ glass wool, 1.8mm aluminum cover). 11. Supporting Systems • 11-1: Gas Washing (Scrubber) System: Treats non-condensable gases before atmospheric release. Contains V-14 washing tank (1m dia, 2.8m L), a 500mm Flare stack with 3 ignitors, and a 1m x 1m LPG tank (V-15) for ignition. • 11-2: Cooling Tower: Provides cooling water for heat exchangers. Galvanized pressed steel basin (16m L x 2.4m W x 2.8m H), FRP casing, top fans, water distributors, and fill media. Includes Accumulator tank V-20 (1.5m dia, 2m L) and 11 kW pushing pumps (P-14A/B). • 11-3: Thermal Oil Boilers: Includes oil tank, heating boiler, oil pumps, and heating accelerators. • 11-4: Distillation Tower Raw Boilers • 11-5: Power Generation System • 11-6: Production Laboratory • 11-7: Control and Operation Room • 11-8: Catalyst System: Contains a vertical diesel tank (1m dia, 1.5m H) with a 1 kW centrifugal pump (P-11). Two vertical carbon steel tanks (V-17A/B, 1.5m dia, 4.5m H) with an MX-03 hydromotor mixer (7.5 kW, 30 RPM). V-17A is for preparation, V-17B pumps catalyst to the reactor. ________________________________________ Catalyst Chemical Components & Formulations 1. Alumina (Al2O3): Enhances the cracking of chemical bonds in heavy bitumen chains and increases Gas Oil extraction yield. 2. Manganese Dioxide (MnO2): Accelerates the reaction, reduces reaction time, and acts as a gasoline improver. 3. Silicon Dioxide (SiO2): Increases acceleration and reduces reaction time. 4. Iron Oxides (Fe2O): Accelerates the reaction, prevents pipe corrosion, and stops sulfur and wax from sticking to pipes and pumps. Weight Ratios (WT/WT) to Produce One Barrel (200 Liters) of Catalyst: 1. Alumina: Varies by feed: 2-2.5% for Bitumen / 4-5% for Vacuum Residue (VR) / 2-2.5% for Heavy Fuel Oil (HFO). To increase Gas Oil/Diesel (Light fuel) yield, Alumina can be added up to a maximum of 10%. 2. Manganese Dioxide: 2-2.5% for HFO / 4-5% for VR and Bitumen. 3. Iron Oxides: 2-2.5% across all feeds. 4. Silicon Dioxide: 2-2.5% for HFO / 4-5% for Bitumen and VR. 5. Remaining Volume: Filled with C-oil. Note: One barrel (200 Liters) of this mixture is added for every 5 tons of HFO, VR, or Bitumen. Manufacturing Mechanism: All components are placed in a tank, initially mixed with water, and heated to 80-120°C with continuous mixing (20-30 RPM). Once foam is generated, the product is allowed to cool to 80°C. The heating process up to 120°C is repeated 3 or 4 times until foaming ceases. Finally, the temperature is raised to 150°C, and the mixture is topped off to 200 liters using C-oil. To further improve light compound specifications, Zinc Oxide (300 grams) is mixed with 20 kg of Bentonite in C-oil. This is added alongside the catalyst at a ratio of 1/5 barrel of catalyst added to the reactor.

Create a detailed, accurately scaled 2D architectural floor plan on a clean white background. The overall rectangular dimensions of the plot should be labeled clearly as 32'-0" in width (horizontal) and 27'-0" in depth (vertical). ‎​The plan must include the following specific rooms and dimensions: ‎​Three Bedrooms: ‎​Bedroom 1 (Top-Left): Labeled 'BEDROOM 1', '11'-0" x 12'-0"'. Includes standard windows and a single door swing. ‎​Bedroom 2 (Bottom-Left): Labeled 'BEDROOM 2', '11'-0" x 11'-0"'. Includes standard windows and a single door swing. ‎​Bedroom 3 (Top-Right): Labeled 'BEDROOM 3', '10'-0" x 12'-0"'. Includes standard windows and a single door swing. ‎​One Kitchen: ‎​Located adjacent to the living space. Labeled 'KITCHEN', '9'-0" x 7'-0"'. Includes a sink and standard counter layout with a window. ‎​One Living & Dining Space ', '10'-0" x 12'-0"'. ‎​Two Toilets: ‎​Toilet 1 (Top-Center): Labeled 'TOILET 1 (ATTACHED)', '5'-0" x 5'-6"', showing standard fixtures. ‎​Toilet 2 as common '7'-0" x 4'-0"', showing standard fixtures. ‎​One Stair inside the plan with dimension '7'-0" x 15'-6"', showing clear treads, an up arrow, and a landing.

{ "meta": { "image_quality": "High", "image_type": "Mixed Media (Photography combined with Digital Illustration/Collage)", "resolution_estimation": "High resolution, sharp edges on vectors", "file_characteristics": { "compression_artifacts": "Low", "noise_level": "None", "lens_type_estimation": "Standard to slight wide-angle (approx 35mm)" } }, "global_context": { "scene_description": "A full-body studio portrait of a young man posing dynamically against a solid bright blue background. The image is a composite featuring the photograph of the man overlaid with white hand-drawn style vector graphics (doodles) and abstract blue liquid shapes. The subject is dressed in a monochromatic blue streetwear outfit with white accents.", "environment_type": "Studio/Graphic Design Composition", "time_of_day": "Indiscernible (Studio Lighting)", "weather_atmosphere": "Energetic, Artistic, Urban, Cool", "lighting": { "source": "Artificial Studio Lighting", "direction": "Front-right dominant (creating soft shadows on the left side of the face)", "quality": "Soft, Diffused", "color_temperature": "Neutral white" }, "color_palette": { "dominant_hex_estimates": [ "#4CA7E8", "#0044CC", "#FFFFFF", "#1A2B45" ], "accent_colors": [ "#FFFFFF" ], "contrast_level": "High" } }, "composition": { "camera_angle": "Low-angle (looking slightly up at the subject)", "framing": "Full Shot (Head to Toe)", "depth_of_field": "Deep (Everything in focus)", "focal_point": "Subject's face and upper torso", "symmetry_type": "Asymmetrical balance", "rule_of_thirds_alignment": "Subject centered, graphics balancing the negative space" }, "objects": [ { "id": "obj_001", "label": "Male Subject", "category": "Person", "location": { "relative_position": "Center", "bounding_box_percentage": { "x": 0.30, "y": 0.05, "width": 0.40, "height": 0.85 } }, "dimensions_relative": "Large", "distance_from_camera": "Mid", "pose_orientation": "Standing, body angled slightly right, head tilted left, right hand raised near face, left leg crossed over right leg", "material": "Organic (Skin)", "surface_properties": { "texture": "Skin", "reflectivity": "Low", "micro_details": "Light goatee/facial hair, neutral but confident expression", "wear_state": "N/A" }, "color_details": { "base_color_hex": "#5C3A2A", "secondary_colors": [], "gradient_or_pattern": "Natural skin tones" }, "interaction_with_light": { "shadow_casting": "Self-shadows on neck and left side of face", "highlight_zones": "Forehead, right cheek, nose bridge", "translucency": "None" }, "relationships": [ { "type": "wearing", "target_object_id": "obj_002" }, { "type": "wearing", "target_object_id": "obj_003" }, { "type": "wearing", "target_object_id": "obj_004" }, { "type": "wearing", "target_object_id": "obj_005" }, { "type": "wearing", "target_object_id": "obj_006" }, { "type": "interacting_with", "target_object_id": "obj_007" }, { "type": "standing_on", "target_object_id": "obj_011" } ] }, { "id": "obj_002", "label": "Bucket Hat", "category": "Apparel", "location": { "relative_position": "Top-Center (On head)", "bounding_box_percentage": { "x": 0.45, "y": 0.05, "width": 0.10, "height": 0.08 } }, "dimensions_relative": "Small", "distance_from_camera": "Mid", "pose_orientation": "Worn on head, brim pulled slightly down", "material": "Denim/Canvas", "surface_properties": { "texture": "Woven fabric", "reflectivity": "Low", "micro_details": "Visible white contrast stitching around the brim and crown", "wear_state": "New" }, "color_details": { "base_color_hex": "#003399", "secondary_colors": [ "#FFFFFF" ], "gradient_or_pattern": "Solid blue with white stitching lines" } }, { "id": "obj_003", "label": "Fleece Jacket", "category": "Apparel", "location": { "relative_position": "Upper Body", "bounding_box_percentage": { "x": 0.30, "y": 0.12, "width": 0.35, "height": 0.40 } }, "dimensions_relative": "Medium", "distance_from_camera": "Mid", "pose_orientation": "Worn open, sleeves rolled slightly or pushed up", "material": "Sherpa Fleece / Synthetic Blend", "surface_properties": { "texture": "High pile, fuzzy, nubby texture on outer shell", "reflectivity": "Low (Matte)", "micro_details": "Silver snap button visible on collar, smooth fabric lining visible at cuffs", "wear_state": "New" }, "color_details": { "base_color_hex": "#0044CC", "secondary_colors": [ "#002266" ], "gradient_or_pattern": "Solid vivid blue" } }, { "id": "obj_004", "label": "T-Shirt", "category": "Apparel", "location": { "relative_position": "Chest/Torso (Under jacket)", "bounding_box_percentage": { "x": 0.40, "y": 0.20, "width": 0.20, "height": 0.30 } }, "dimensions_relative": "Medium", "distance_from_camera": "Mid", "pose_orientation": "Worn on torso", "material": "Cotton jersey", "surface_properties": { "texture": "Smooth fabric", "reflectivity": "Low", "micro_details": "Large graphic print on chest", "wear_state": "New" }, "color_details": { "base_color_hex": "#0044CC", "secondary_colors": [ "#FFFFFF" ], "gradient_or_pattern": "Large white outline of Adidas Trefoil logo on chest" }, "text_content": { "raw_text": "adidas (implied by logo shape)", "font_style": "Logo symbol", "font_weight": "Bold", "text_case": "N/A", "alignment": "Center", "color_hex": "#FFFFFF" } }, { "id": "obj_005", "label": "Jeans", "category": "Apparel", "location": { "relative_position": "Lower Body", "bounding_box_percentage": { "x": 0.40, "y": 0.45, "width": 0.20, "height": 0.40 } }, "dimensions_relative": "Medium", "distance_from_camera": "Mid", "pose_orientation": "Worn on legs, relaxed fit", "material": "Denim", "surface_properties": { "texture": "Woven denim", "reflectivity": "Low", "micro_details": "Heavy white contrast stitching along seams and pockets. Cuffs are rolled up exposing lighter reverse side of denim.", "wear_state": "New" }, "color_details": { "base_color_hex": "#2A3B55", "secondary_colors": [ "#FFFFFF", "#667788" ], "gradient_or_pattern": "Dark wash indigo" } }, { "id": "obj_006", "label": "Sneakers", "category": "Footwear", "location": { "relative_position": "Bottom-Center", "bounding_box_percentage": { "x": 0.35, "y": 0.85, "width": 0.25, "height": 0.10 } }, "dimensions_relative": "Small", "distance_from_camera": "Mid", "pose_orientation": "Right foot planted, left foot on toe/mid-step. Classic Adidas Superstar silhouette.", "material": "Leather/Rubber", "surface_properties": { "texture": "Smooth leather upper, textured rubber shell toe", "reflectivity": "Medium (Leather sheen)", "micro_details": "Three stripes visible (white on white), shell toe pattern", "wear_state": "Pristine/Clean" }, "color_details": { "base_color_hex": "#FFFFFF", "secondary_colors": [], "gradient_or_pattern": "All white" } }, { "id": "obj_007", "label": "Graphic - Mic Drop Lines", "category": "Illustration/Overlay", "location": { "relative_position": "Upper Left (Hanging from hand)", "bounding_box_percentage": { "x": 0.38, "y": 0.12, "width": 0.05, "height": 0.25 } }, "dimensions_relative": "Small", "distance_from_camera": "Zero (Overlay)", "pose_orientation": "Vertical", "material": "Digital Vector", "surface_properties": { "texture": "Flat color", "reflectivity": "None", "micro_details": "Three thick vertical white lines representing motion or cable" }, "color_details": { "base_color_hex": "#FFFFFF", "secondary_colors": [], "gradient_or_pattern": "Solid" }, "relationships": [ { "type": "originating_from", "target_object_id": "obj_001" } ] }, { "id": "obj_008", "label": "Graphic - Microphone", "category": "Illustration/Overlay", "location": { "relative_position": "Mid Left (Below hand)", "bounding_box_percentage": { "x": 0.38, "y": 0.35, "width": 0.05, "height": 0.05 } }, "dimensions_relative": "Small", "distance_from_camera": "Zero (Overlay)", "pose_orientation": "Angled downwards", "material": "Digital Vector", "surface_properties": { "texture": "Hand-drawn line art style", "reflectivity": "None", "micro_details": "Outline of a dynamic vocal microphone" }, "color_details": { "base_color_hex": "#FFFFFF", "secondary_colors": [], "gradient_or_pattern": "Outline only" } }, { "id": "obj_009", "label": "Graphic - Boombox", "category": "Illustration/Overlay", "location": { "relative_position": "Center Right", "bounding_box_percentage": { "x": 0.65, "y": 0.30, "width": 0.15, "height": 0.20 } }, "dimensions_relative": "Medium", "distance_from_camera": "Zero (Overlay)", "pose_orientation": "Isometric view", "material": "Digital Vector", "surface_properties": { "texture": "Hand-drawn line art style", "reflectivity": "None", "micro_details": "Speaker grille mesh pattern, handle, buttons, cassette deck outline" }, "color_details": { "base_color_hex": "#FFFFFF", "secondary_colors": [], "gradient_or_pattern": "Outline only" }, "relationships": [ { "type": "emitting", "target_object_id": "obj_013" } ] }, { "id": "obj_010", "label": "Graphic - Adidas Trefoil Logo", "category": "Illustration/Overlay", "location": { "relative_position": "Bottom Right", "bounding_box_percentage": { "x": 0.65, "y": 0.65, "width": 0.15, "height": 0.15 } }, "dimensions_relative": "Medium", "distance_from_camera": "Zero (Overlay)", "pose_orientation": "Flat", "material": "Digital Vector", "surface_properties": { "texture": "Flat color", "reflectivity": "None", "micro_details": "Classic 3-leaf shape with horizontal stripes" }, "color_details": { "base_color_hex": "#FFFFFF", "secondary_colors": [], "gradient_or_pattern": "Solid" } }, { "id": "obj_011", "label": "Graphic - Cracked Floor", "category": "Illustration/Overlay", "location": { "relative_position": "Bottom Center (Under feet)", "bounding_box_percentage": { "x": 0.25, "y": 0.85, "width": 0.50, "height": 0.15 } }, "dimensions_relative": "Medium", "distance_from_camera": "Zero (Overlay)", "pose_orientation": "Flat perspective on ground", "material": "Digital Vector", "surface_properties": { "texture": "Line art", "reflectivity": "None", "micro_details": "Jagged lines radiating outward from the subject's stance like shattered glass" }, "color_details": { "base_color_hex": "#FFFFFF", "secondary_colors": [], "gradient_or_pattern": "Line art" } }, { "id": "obj_012", "label": "Graphic - Liquid Shapes", "category": "Illustration/Background Element", "location": { "relative_position": "Behind Subject", "bounding_box_percentage": { "x": 0.10, "y": 0.10, "width": 0.80, "height": 0.80 } }, "dimensions_relative": "Large", "distance_from_camera": "Behind Subject", "pose_orientation": "Fluid, amorphous", "material": "Digital Vector", "surface_properties": { "texture": "Flat color", "reflectivity": "None", "micro_details": "Blobs and splashes extending to the left and right, wrapping slightly around the subject" }, "color_details": { "base_color_hex": "#5CAFF0", "secondary_colors": [], "gradient_or_pattern": "Slightly darker/more saturated than background blue" } }, { "id": "obj_013", "label": "Graphic - Sound/Motion Lines", "category": "Illustration/Overlay", "location": { "relative_position": "Around Head and Boombox", "bounding_box_percentage": { "x": 0.60, "y": 0.05, "width": 0.25, "height": 0.40 } }, "dimensions_relative": "Small", "distance_from_camera": "Zero (Overlay)", "pose_orientation": "Radiating", "material": "Digital Vector", "surface_properties": { "texture": "Line art", "reflectivity": "None", "micro_details": "Short strokes indicating sound or movement above the hat and next to the boombox" }, "color_details": { "base_color_hex": "#FFFFFF", "secondary_colors": [], "gradient_or_pattern": "Solid" } } ], "background_details": { "texture": "Digital Flat Color", "patterns": "None (Solid Color)", "lighting_behavior": "Even illumination, no gradient visible", "additional_elements": [ "Vector liquid shapes (obj_012) act as a secondary background layer" ] }, "foreground_elements": { "particles": "None", "artifacts": "White vector doodles (mic, boombox, cracks) act as foreground overlays" }, "reconstruction_notes": { "mandatory_elements_for_recreation": [ "Male model in full blue Adidas outfit", "Fleece texture on jacket", "White contrast stitching on jeans and hat", "Hand-drawn white doodle overlays (Mic, Boombox, Trefoil)", "Cracked floor effect under feet", "Monochromatic blue palette with white accents", "Dynamic 'cool' pose" ], "sensitivity_factors": "The blend between the realistic photo and the flat vector graphics must be sharp. The blue tones of the clothing must coordinate with but distinguish from the background blue.", "ambiguities": "The exact specific model of the Adidas jacket is not identifiable by name but defined by texture (sherpa/fleece) and color." } }

Specialized Bitumen Refining Plant Governorate: Anbar / Hit District Production Capacity: ( ) Tons/Day The city of Hit in the Anbar Governorate is considered one of the most famous areas in the world for its natural "bitumen springs," which have been used for thousands of years (dating back to the Babylonian and Assyrian eras). However, processing this bitumen for modern use requires technical steps to transform it from a raw material into a viable product for construction or industrial applications. Bitumen emerges from these springs as a highly viscous liquid mixed with sulfurous water, salts, and mud impurities. This "Natural Asphalt" differs from petroleum bitumen produced in refineries, and it can also appear in the form of rocky or spongy blocks mixed with mud. To obtain industrially usable products from this bitumen, specifically for: 1. Waterproofing (Felt/Membranes): Considered one of the best coating materials for building foundations to prevent moisture leakage due to its high resistance to hydrolysis. 2. Road Paving: Mixed with gravel and sand to produce asphalt concrete. It is characterized by exceptionally high cohesive strength compared to industrial bitumen. The natural bitumen from these springs must undergo several fundamental processing stages to become industrially viable: 1. Collection and Sedimentation: Bitumen is collected from the springs or quarry sites and left in designated basins to allow the sulfurous water to naturally separate (due to density differences). 2. Primary Heating: The raw bitumen is placed in large boilers to: a. Evaporate the remaining water. b. Reduce viscosity for easier handling. 3. Filtration and Purification: The heated bitumen is screened to remove solid impurities such as gravel, dirt, and suspended organic matter. 4. Secondary Heating and Cooking: The temperature of the bitumen is raised, improving agents are added, and it is prepared for the vacuum distillation process. 5. Vacuum Distillation: The distillation process is conducted under low pressure (vacuum pressure), which allows for: a. The separation of light oils and volatile substances at lower temperatures. b. The production of highly pure "Hard Asphalt," which is highly demanded in the construction industry. ________________________________________ Plant Components and Operational Stages The specialized bitumen plant for processing raw natural bitumen (in both liquid and solid states) consists of a range of specialized equipment designed according to the latest international standards. This equipment aligns with the technical and engineering requirements for bitumen products, complies with Iraqi standard specifications, and adheres to environmental considerations in the Anbar Governorate. 1. Extraction Stage The raw material (solid or liquid) is extracted from quarries designated by the Geological Survey Authority using specialized mechanical equipment. It is stored in stocks or special basins for solid materials, then transported to the refinery site using specialized transport vehicles of various capacities. 2. Storage Stage The raw materials are stored in designated yards to ensure a sufficient inventory for continuous, uninterrupted production for no less than 7 working days. 3. Raw Material Preparation and Primary Heating Stage Raw materials are fed into the plant via hydraulic lifts. This stage includes: • 3-1: Crushing and Digestion: Solid raw materials from the quarries are broken down and digested using a digester (SH-01) equipped with double blades driven by hydraulic motors (22.5 kW capacity). The digester is 5 meters long and 1.80 meters in diameter, made of carbon steel, with Stainless Steel 304 blades. It includes a Stainless Steel piston driven by a 7.5 kW electric motor. • 3-2: Primary Heating: This melts the bitumen and improves pumpability through pipes and pumps. • 3-3: Efficiency Enhancement: To increase melting efficiency, Gas Oil is added to the primary heating basin at a ratio of 1:5 per ton of solid raw material entering the basin (this ratio decreases when using liquid raw bitumen). o 3-2-1: Primary Melting Basin (TK-01): Raw material is heated in a concrete tank (25m L x 5m W x 3m H) with a maximum storage capacity of 300 tons. Heating pipes circulate thermal fluid (oil) at 125°C, with a retention time of 4-6 hours. The tank is internally lined with 6-8 mm carbon steel plates to protect the heating pipes from corrosion. It contains 8 Stainless Steel 304 mixers (MX-01 A/B/C/D/E/F) driven by 7.5 kW electric motors (50 RPM) and gearboxes (1:60 ratio) to mix the material, increase heating efficiency, reduce retention time, and circulate the melted bitumen to eliminate dissolved water, resulting in a homogeneous melt. Covered with a carbon steel roof with service hatches, it connects to an air duct (30x60 cm) linked to 2 air blowers (AB-01A/B) (one operating, one standby) at 22.5 kW / 1500 RPM. These extract water vapor and sulfur fumes, sending them to a scrubber before atmospheric release and water recycling. o 3-2-2: Primary Collection Tank (V-01): A carbon steel tank (12-14 mm thick) with a maximum capacity of 125 tons (10m L x 5m W x 3m H). It connects directly to the primary tank (TK-01) via channels and movable gates to receive only liquid raw material. It contains thermal oil pipes to maintain the liquid raw material at 140°C. Insulated with glass wool (90 kg/m³) and a 1.8 mm aluminum outer cover. Impurities larger than 35 mm are removed and collected in a waste tank. o 3-2-3: Screw Conveyors (SC-01 A/B): Carbon steel screw conveyors with a double-jacketed outer cover filled with thermal oil to maintain the 140°C temperature. Driven by 22.5 kW electric motors (3000 RPM) with 1:40 gearboxes, they transport the liquid raw material to the preliminary filtration unit. 4. Purification Unit Removes suspended impurities from the liquid raw material in two stages: • 4-1: Preliminary Purification Tank (V-02): A carbon steel tank (12-14 mm thick, 125-ton capacity, 5m L x 10m W x 3m H). Receives liquid raw material from the primary collection tank. Contains thermal oil pipes to maintain 140°C. Insulated with glass wool (90 kg/m³) and a 1.8 mm aluminum cover. Impurities larger than 15 mm are removed to a waste tank. Material is pumped to the final filtration stage via gear pumps (GP-01 A/B) (one operating, one standby) at 22.5 kW / 1000 RPM. • 4-2: Final Filtration Unit (FT-01): Removes remaining impurities by passing liquids through box filters arranged in 2 trains (8 per train). They feature a two-layer Stainless Steel filter mesh (specified microns) wrapped around square boxes. Liquid enters from the outside, and pure liquid is collected from the inside via a pipe network connected to a manifold. This is driven by two vacuum pumps (VP-01A/B) connected to the raw material tanks. 5. Raw Material Tanks (V-03 A-J) Ten carbon steel tanks (2.5m diameter, 9m length, 14 mm thickness, 45-ton max capacity) equipped with thermal oil heating coils. They receive, store, and prepare the purified raw material for the subsequent cooking reaction. Insulated with glass wool (90 kg/m³) and a 1.8 mm aluminum cover. Connected by a pipe/valve network, the material is pumped via two centrifugal pumps (P-01 A/B) at 22.5 kW / 3000 RPM to the reactor unit. The tanks connect to a pipe network driven by vacuum pumps (VP-01A/B) at 22.5 kW / 1500 RPM, pushing heating gases and vapors to the gas washing tank (V-14). 6. Reactor (Cooking) Unit (V-04 A/B) Consists of three reactors (55 tons each) that prepare the raw material for vacuum distillation and extract light naphtha compounds. • 6-1: Cooking Process: o 6-1-1: Catalyst System: Consists of two tanks. One prepares the catalyst mixture (1.5m dia, 4m H, 8mm carbon steel) with a mixer (MX-03) driven by a hydromotor and 1:40 gearbox. The second stores Gas Oil added to the preparation unit (1.5m dia, 1m H, 5mm carbon steel) with a 0.5 HP centrifugal pump. o 6-1-2: Reaction Tanks (V-04/05/06A): Three carbon steel tanks (2.8m dia, 9m L, 14mm thick, 55-ton max). Each has 2 Stainless Steel mixers (MX-02 A/B/C/D/E/F) driven by a 7.5 kW motor (1500 RPM) with a 1:40 gearbox. Contains an internal heating system powered by a Gas Oil burner to raise the temperature to 180°C. Catalyst is injected via dosing pumps (DP-01A/B) to increase naphtha extraction efficiency. Material is circulated during cooking by two centrifugal pumps per reactor (P-04A/B/C/D/E/F) (one active, one standby) to reduce retention time to 3-4 hours. After cooking, material is moved to the attached tank (V-04/05/06B) for storage before distillation. Fully insulated. o 6-1-3: Cooked Material Tank (V-04/05/06B): Carbon steel tank (2.8m dia, 9m L, 14mm thick) with thermal oil pipes to maintain 190-200°C. Fully insulated. Material is pumped to the vacuum distillation tower via centrifugal pumps (P-05A/B) (one active, one standby) at 22.5 kW / 3000 RPM. 7. Raw Naphtha Storage Unit Collects and condenses naphtha extracted during cooking. • 7-1-1: Raw Naphtha Tanks (V-07A/B/C): Three vertical Stainless Steel 304 tanks (1.5m dia, 5m H) connected to three heat exchangers and two pump pairs. Equipped internally with water spray nozzles on a ring pipe to wash non-condensable gases. • 7-1-2: Heat Exchangers (HE-01A/B/C): Condense naphtha vapors from 140°C down to 40°C using water from the cooling tower. Connected in series. Shell & Tube type, carbon steel (510 mm dia, 6m L) with 70 tubes (0.75-inch dia) in two rows of 35. Includes internal baffles for efficiency. • 7-1-3: Supporting Pumps: Vacuum pumps (VP-01A/B) at 22.5 kW / 1500 RPM draw naphtha vapors from reactors to the heat exchangers, pushing non-condensable gases to the scrubber (V-14). Centrifugal pumps (P-02A/B) at 11.5 kW / 1500 RPM transport liquid raw naphtha to the Bleaching Unit. 8. Vacuum Distillation Unit The core of the plant, separating remaining light compounds and producing hard asphalt. • 8-1-1: Vacuum Distillation Tower: A vertical tower (~16m total height, 14mm carbon steel). Bottom section (Reboiler) is 3.5m dia x 1.2m H; top section is 1.5m dia x 12m H. Fully insulated. Fed with cooked material at 190-200°C via pumps (P-05A/B). To start extraction (remaining naphtha, Gas Oil, diesel), temperature is raised to 240-250°C using Heating Coil 1 via pumps (P-08A/B) at 55 kW / 3000 RPM, with continuous circulation via pumps (P-07A/B). Vacuum pumps (VP-03A/B) maintain 0.3-0.5 mbar pressure. Light compounds are extracted, condensed (HE-02A/B/C), and stored (V-08/09/10 A/B) over 2.5-3 hours. Afterward, material is heated via Heating Coil 2 to 320-340°C to finalize extraction and produce hard bitumen. Product is extracted via pumps (P-07A/B) at ~320°C, cooled via cooling tower coils, and sent to final tanks (V-18A/B/C). Batch processing takes 6-7 hours daily; continuous operation is possible. • 8-1-2: Supporting Pumps: Vacuum pumps (VP-03A/B) at 5.5 kW / 3000 RPM draw light vapors for condensation. Circulation centrifugal pumps (P-08A/B) at 55 kW move hot material to heating coils; (P-07A/B) circulate material and pump final bitumen product. • 8-1-3: Heating Coils 1 & 2: Carbon steel 4-inch diameter coils heated externally by a Gas Oil burner. Connected in series to heat liquid bitumen in two stages to prevent degradation. • 8-2: Heat Exchangers (HE-02A/B/C): Condense light compound vapors from 240°C to 40°C. Shell & Tube type, carbon steel (600 mm dia, 6m L) with 80 tubes (1-inch dia) in two rows of 40, equipped with baffles. • 8-3: Light Compound Tanks (V-08A/B, V-09A/B, V-10A/B): Six horizontal carbon steel tanks (1.5m dia, 4.5m L, 14mm thick). Receive condensates, linked to heat exchangers and vacuum pumps. Liquids are pumped to the Bleaching Unit via centrifugal pumps (P-06A/B) at 7.5 kW / 1500 RPM. 9. Bleaching Unit Improves the specifications of raw light compounds for local use and marketing. • 9-1: Collection Tank (V-11): Horizontal carbon steel tank (1m dia, 2.5m L, 14mm thick) placed above the system to store and distribute light compounds to the bleaching columns. • 9-2: Bleaching Columns (V-12A/B/C): Three vertical carbon steel vessels (1m dia, 4.5m H, 14mm thick). Contain a 15 cm catalyst layer on trays to bleach raw liquids into high-quality compounds, collected in a bottom horizontal tank. The catalyst is a calcined mixture of Bentonite and Zinc Oxide granules (2-3 mm) homogenized in water, which can be reactivated with steam and 5% HCl. • 9-3: Supporting Pumps: Vacuum pumps (VP-04A/B) at 5.5 kW extract vapors to the scrubber. Centrifugal pumps (P-09A/B) at 7.5 kW push bleached liquids to final tanks. 10. Production Tanks (V-13 A-F & V-18 A-C) • Light Products: Six horizontal carbon steel tanks (2.8m dia, 9m L, 55-ton capacity). V-13A/B for light naphtha, V-13C/D for Gas Oil, V-13E/F for diesel. • Asphalt: Three vertical carbon steel tanks (V-18A/B/C) (5m dia, 9m H). Equipped with thermal oil heating coils to keep asphalt liquid. Fully insulated (90 kg/m³ glass wool, 1.8mm aluminum cover). 11. Supporting Systems • 11-1: Gas Washing (Scrubber) System: Treats non-condensable gases before atmospheric release. Contains V-14 washing tank (1m dia, 2.8m L), a 500mm Flare stack with 3 ignitors, and a 1m x 1m LPG tank (V-15) for ignition. • 11-2: Cooling Tower: Provides cooling water for heat exchangers. Galvanized pressed steel basin (16m L x 2.4m W x 2.8m H), FRP casing, top fans, water distributors, and fill media. Includes Accumulator tank V-20 (1.5m dia, 2m L) and 11 kW pushing pumps (P-14A/B). • 11-3: Thermal Oil Boilers: Includes oil tank, heating boiler, oil pumps, and heating accelerators. • 11-4: Distillation Tower Raw Boilers • 11-5: Power Generation System • 11-6: Production Laboratory • 11-7: Control and Operation Room • 11-8: Catalyst System: Contains a vertical diesel tank (1m dia, 1.5m H) with a 1 kW centrifugal pump (P-11). Two vertical carbon steel tanks (V-17A/B, 1.5m dia, 4.5m H) with an MX-03 hydromotor mixer (7.5 kW, 30 RPM). V-17A is for preparation, V-17B pumps catalyst to the reactor. ________________________________________ Catalyst Chemical Components & Formulations 1. Alumina (Al2O3): Enhances the cracking of chemical bonds in heavy bitumen chains and increases Gas Oil extraction yield. 2. Manganese Dioxide (MnO2): Accelerates the reaction, reduces reaction time, and acts as a gasoline improver. 3. Silicon Dioxide (SiO2): Increases acceleration and reduces reaction time. 4. Iron Oxides (Fe2O): Accelerates the reaction, prevents pipe corrosion, and stops sulfur and wax from sticking to pipes and pumps. Weight Ratios (WT/WT) to Produce One Barrel (200 Liters) of Catalyst: 1. Alumina: Varies by feed: 2-2.5% for Bitumen / 4-5% for Vacuum Residue (VR) / 2-2.5% for Heavy Fuel Oil (HFO). To increase Gas Oil/Diesel (Light fuel) yield, Alumina can be added up to a maximum of 10%. 2. Manganese Dioxide: 2-2.5% for HFO / 4-5% for VR and Bitumen. 3. Iron Oxides: 2-2.5% across all feeds. 4. Silicon Dioxide: 2-2.5% for HFO / 4-5% for Bitumen and VR. 5. Remaining Volume: Filled with C-oil. Note: One barrel (200 Liters) of this mixture is added for every 5 tons of HFO, VR, or Bitumen. Manufacturing Mechanism: All components are placed in a tank, initially mixed with water, and heated to 80-120°C with continuous mixing (20-30 RPM). Once foam is generated, the product is allowed to cool to 80°C. The heating process up to 120°C is repeated 3 or 4 times until foaming ceases. Finally, the temperature is raised to 150°C, and the mixture is topped off to 200 liters using C-oil. To further improve light compound specifications, Zinc Oxide (300 grams) is mixed with 20 kg of Bentonite in C-oil. This is added alongside the catalyst at a ratio of 1/5 barrel of catalyst added to the reactor.

A vintage convertible sports car with a sleek design, featuring a deep teal color with chrome accents. The car has a smooth, glossy finish with black wheels and a classic, retro vibe. The scene is set during a sunset, with a warm, golden sky and palm trees in the background. The setting evokes a sense of nostalgia and freedom, with a peaceful yet energetic atmosphere.octane render, rich detail sketch chiaroscuro .8k,hyper realistic 7.680 x 4.320 pixel 16:9 aspect ratios,Captured at 100 megapixels .8k,hyper realistic 7.680 x 4.320 pixel 16:9 aspect ratios,Captured at 100 megapixels from comic books, portrait view, in cinematic style, hyperrealistic, hyperrealism, multilayered realism, octane render, rich detail sketch chiaroscuro .8k,hyper realistic 7.680 x 4.320 pixel 16:9 aspect ratios,Captured at 100 megapixels. Technical Specs: UHD, 8K quality, ultra realistic detail. Final output: 4080×5472px, vertical format Print size 34.5cm × 46.3cm, 300dpi, JPG Maximum quality, professional print-ready result.

Specialized Bitumen Refining Plant Governorate: Anbar / Hit District Production Capacity: ( ) Tons/Day The city of Hit in the Anbar Governorate is considered one of the most famous areas in the world for its natural "bitumen springs," which have been used for thousands of years (dating back to the Babylonian and Assyrian eras). However, processing this bitumen for modern use requires technical steps to transform it from a raw material into a viable product for construction or industrial applications. Bitumen emerges from these springs as a highly viscous liquid mixed with sulfurous water, salts, and mud impurities. This "Natural Asphalt" differs from petroleum bitumen produced in refineries, and it can also appear in the form of rocky or spongy blocks mixed with mud. To obtain industrially usable products from this bitumen, specifically for: 1. Waterproofing (Felt/Membranes): Considered one of the best coating materials for building foundations to prevent moisture leakage due to its high resistance to hydrolysis. 2. Road Paving: Mixed with gravel and sand to produce asphalt concrete. It is characterized by exceptionally high cohesive strength compared to industrial bitumen. The natural bitumen from these springs must undergo several fundamental processing stages to become industrially viable: 1. Collection and Sedimentation: Bitumen is collected from the springs or quarry sites and left in designated basins to allow the sulfurous water to naturally separate (due to density differences). 2. Primary Heating: The raw bitumen is placed in large boilers to: a. Evaporate the remaining water. b. Reduce viscosity for easier handling. 3. Filtration and Purification: The heated bitumen is screened to remove solid impurities such as gravel, dirt, and suspended organic matter. 4. Secondary Heating and Cooking: The temperature of the bitumen is raised, improving agents are added, and it is prepared for the vacuum distillation process. 5. Vacuum Distillation: The distillation process is conducted under low pressure (vacuum pressure), which allows for: a. The separation of light oils and volatile substances at lower temperatures. b. The production of highly pure "Hard Asphalt," which is highly demanded in the construction industry. ________________________________________ Plant Components and Operational Stages The specialized bitumen plant for processing raw natural bitumen (in both liquid and solid states) consists of a range of specialized equipment designed according to the latest international standards. This equipment aligns with the technical and engineering requirements for bitumen products, complies with Iraqi standard specifications, and adheres to environmental considerations in the Anbar Governorate. 1. Extraction Stage The raw material (solid or liquid) is extracted from quarries designated by the Geological Survey Authority using specialized mechanical equipment. It is stored in stocks or special basins for solid materials, then transported to the refinery site using specialized transport vehicles of various capacities. 2. Storage Stage The raw materials are stored in designated yards to ensure a sufficient inventory for continuous, uninterrupted production for no less than 7 working days. 3. Raw Material Preparation and Primary Heating Stage Raw materials are fed into the plant via hydraulic lifts. This stage includes: • 3-1: Crushing and Digestion: Solid raw materials from the quarries are broken down and digested using a digester (SH-01) equipped with double blades driven by hydraulic motors (22.5 kW capacity). The digester is 5 meters long and 1.80 meters in diameter, made of carbon steel, with Stainless Steel 304 blades. It includes a Stainless Steel piston driven by a 7.5 kW electric motor. • 3-2: Primary Heating: This melts the bitumen and improves pumpability through pipes and pumps. • 3-3: Efficiency Enhancement: To increase melting efficiency, Gas Oil is added to the primary heating basin at a ratio of 1:5 per ton of solid raw material entering the basin (this ratio decreases when using liquid raw bitumen). o 3-2-1: Primary Melting Basin (TK-01): Raw material is heated in a concrete tank (25m L x 5m W x 3m H) with a maximum storage capacity of 300 tons. Heating pipes circulate thermal fluid (oil) at 125°C, with a retention time of 4-6 hours. The tank is internally lined with 6-8 mm carbon steel plates to protect the heating pipes from corrosion. It contains 8 Stainless Steel 304 mixers (MX-01 A/B/C/D/E/F) driven by 7.5 kW electric motors (50 RPM) and gearboxes (1:60 ratio) to mix the material, increase heating efficiency, reduce retention time, and circulate the melted bitumen to eliminate dissolved water, resulting in a homogeneous melt. Covered with a carbon steel roof with service hatches, it connects to an air duct (30x60 cm) linked to 2 air blowers (AB-01A/B) (one operating, one standby) at 22.5 kW / 1500 RPM. These extract water vapor and sulfur fumes, sending them to a scrubber before atmospheric release and water recycling. o 3-2-2: Primary Collection Tank (V-01): A carbon steel tank (12-14 mm thick) with a maximum capacity of 125 tons (10m L x 5m W x 3m H). It connects directly to the primary tank (TK-01) via channels and movable gates to receive only liquid raw material. It contains thermal oil pipes to maintain the liquid raw material at 140°C. Insulated with glass wool (90 kg/m³) and a 1.8 mm aluminum outer cover. Impurities larger than 35 mm are removed and collected in a waste tank. o 3-2-3: Screw Conveyors (SC-01 A/B): Carbon steel screw conveyors with a double-jacketed outer cover filled with thermal oil to maintain the 140°C temperature. Driven by 22.5 kW electric motors (3000 RPM) with 1:40 gearboxes, they transport the liquid raw material to the preliminary filtration unit. 4. Purification Unit Removes suspended impurities from the liquid raw material in two stages: • 4-1: Preliminary Purification Tank (V-02): A carbon steel tank (12-14 mm thick, 125-ton capacity, 5m L x 10m W x 3m H). Receives liquid raw material from the primary collection tank. Contains thermal oil pipes to maintain 140°C. Insulated with glass wool (90 kg/m³) and a 1.8 mm aluminum cover. Impurities larger than 15 mm are removed to a waste tank. Material is pumped to the final filtration stage via gear pumps (GP-01 A/B) (one operating, one standby) at 22.5 kW / 1000 RPM. • 4-2: Final Filtration Unit (FT-01): Removes remaining impurities by passing liquids through box filters arranged in 2 trains (8 per train). They feature a two-layer Stainless Steel filter mesh (specified microns) wrapped around square boxes. Liquid enters from the outside, and pure liquid is collected from the inside via a pipe network connected to a manifold. This is driven by two vacuum pumps (VP-01A/B) connected to the raw material tanks. 5. Raw Material Tanks (V-03 A-J) Ten carbon steel tanks (2.5m diameter, 9m length, 14 mm thickness, 45-ton max capacity) equipped with thermal oil heating coils. They receive, store, and prepare the purified raw material for the subsequent cooking reaction. Insulated with glass wool (90 kg/m³) and a 1.8 mm aluminum cover. Connected by a pipe/valve network, the material is pumped via two centrifugal pumps (P-01 A/B) at 22.5 kW / 3000 RPM to the reactor unit. The tanks connect to a pipe network driven by vacuum pumps (VP-01A/B) at 22.5 kW / 1500 RPM, pushing heating gases and vapors to the gas washing tank (V-14). 6. Reactor (Cooking) Unit (V-04 A/B) Consists of three reactors (55 tons each) that prepare the raw material for vacuum distillation and extract light naphtha compounds. • 6-1: Cooking Process: o 6-1-1: Catalyst System: Consists of two tanks. One prepares the catalyst mixture (1.5m dia, 4m H, 8mm carbon steel) with a mixer (MX-03) driven by a hydromotor and 1:40 gearbox. The second stores Gas Oil added to the preparation unit (1.5m dia, 1m H, 5mm carbon steel) with a 0.5 HP centrifugal pump. o 6-1-2: Reaction Tanks (V-04/05/06A): Three carbon steel tanks (2.8m dia, 9m L, 14mm thick, 55-ton max). Each has 2 Stainless Steel mixers (MX-02 A/B/C/D/E/F) driven by a 7.5 kW motor (1500 RPM) with a 1:40 gearbox. Contains an internal heating system powered by a Gas Oil burner to raise the temperature to 180°C. Catalyst is injected via dosing pumps (DP-01A/B) to increase naphtha extraction efficiency. Material is circulated during cooking by two centrifugal pumps per reactor (P-04A/B/C/D/E/F) (one active, one standby) to reduce retention time to 3-4 hours. After cooking, material is moved to the attached tank (V-04/05/06B) for storage before distillation. Fully insulated. o 6-1-3: Cooked Material Tank (V-04/05/06B): Carbon steel tank (2.8m dia, 9m L, 14mm thick) with thermal oil pipes to maintain 190-200°C. Fully insulated. Material is pumped to the vacuum distillation tower via centrifugal pumps (P-05A/B) (one active, one standby) at 22.5 kW / 3000 RPM. 7. Raw Naphtha Storage Unit Collects and condenses naphtha extracted during cooking. • 7-1-1: Raw Naphtha Tanks (V-07A/B/C): Three vertical Stainless Steel 304 tanks (1.5m dia, 5m H) connected to three heat exchangers and two pump pairs. Equipped internally with water spray nozzles on a ring pipe to wash non-condensable gases. • 7-1-2: Heat Exchangers (HE-01A/B/C): Condense naphtha vapors from 140°C down to 40°C using water from the cooling tower. Connected in series. Shell & Tube type, carbon steel (510 mm dia, 6m L) with 70 tubes (0.75-inch dia) in two rows of 35. Includes internal baffles for efficiency. • 7-1-3: Supporting Pumps: Vacuum pumps (VP-01A/B) at 22.5 kW / 1500 RPM draw naphtha vapors from reactors to the heat exchangers, pushing non-condensable gases to the scrubber (V-14). Centrifugal pumps (P-02A/B) at 11.5 kW / 1500 RPM transport liquid raw naphtha to the Bleaching Unit. 8. Vacuum Distillation Unit The core of the plant, separating remaining light compounds and producing hard asphalt. • 8-1-1: Vacuum Distillation Tower: A vertical tower (~16m total height, 14mm carbon steel). Bottom section (Reboiler) is 3.5m dia x 1.2m H; top section is 1.5m dia x 12m H. Fully insulated. Fed with cooked material at 190-200°C via pumps (P-05A/B). To start extraction (remaining naphtha, Gas Oil, diesel), temperature is raised to 240-250°C using Heating Coil 1 via pumps (P-08A/B) at 55 kW / 3000 RPM, with continuous circulation via pumps (P-07A/B). Vacuum pumps (VP-03A/B) maintain 0.3-0.5 mbar pressure. Light compounds are extracted, condensed (HE-02A/B/C), and stored (V-08/09/10 A/B) over 2.5-3 hours. Afterward, material is heated via Heating Coil 2 to 320-340°C to finalize extraction and produce hard bitumen. Product is extracted via pumps (P-07A/B) at ~320°C, cooled via cooling tower coils, and sent to final tanks (V-18A/B/C). Batch processing takes 6-7 hours daily; continuous operation is possible. • 8-1-2: Supporting Pumps: Vacuum pumps (VP-03A/B) at 5.5 kW / 3000 RPM draw light vapors for condensation. Circulation centrifugal pumps (P-08A/B) at 55 kW move hot material to heating coils; (P-07A/B) circulate material and pump final bitumen product. • 8-1-3: Heating Coils 1 & 2: Carbon steel 4-inch diameter coils heated externally by a Gas Oil burner. Connected in series to heat liquid bitumen in two stages to prevent degradation. • 8-2: Heat Exchangers (HE-02A/B/C): Condense light compound vapors from 240°C to 40°C. Shell & Tube type, carbon steel (600 mm dia, 6m L) with 80 tubes (1-inch dia) in two rows of 40, equipped with baffles. • 8-3: Light Compound Tanks (V-08A/B, V-09A/B, V-10A/B): Six horizontal carbon steel tanks (1.5m dia, 4.5m L, 14mm thick). Receive condensates, linked to heat exchangers and vacuum pumps. Liquids are pumped to the Bleaching Unit via centrifugal pumps (P-06A/B) at 7.5 kW / 1500 RPM. 9. Bleaching Unit Improves the specifications of raw light compounds for local use and marketing. • 9-1: Collection Tank (V-11): Horizontal carbon steel tank (1m dia, 2.5m L, 14mm thick) placed above the system to store and distribute light compounds to the bleaching columns. • 9-2: Bleaching Columns (V-12A/B/C): Three vertical carbon steel vessels (1m dia, 4.5m H, 14mm thick). Contain a 15 cm catalyst layer on trays to bleach raw liquids into high-quality compounds, collected in a bottom horizontal tank. The catalyst is a calcined mixture of Bentonite and Zinc Oxide granules (2-3 mm) homogenized in water, which can be reactivated with steam and 5% HCl. • 9-3: Supporting Pumps: Vacuum pumps (VP-04A/B) at 5.5 kW extract vapors to the scrubber. Centrifugal pumps (P-09A/B) at 7.5 kW push bleached liquids to final tanks. 10. Production Tanks (V-13 A-F & V-18 A-C) • Light Products: Six horizontal carbon steel tanks (2.8m dia, 9m L, 55-ton capacity). V-13A/B for light naphtha, V-13C/D for Gas Oil, V-13E/F for diesel. • Asphalt: Three vertical carbon steel tanks (V-18A/B/C) (5m dia, 9m H). Equipped with thermal oil heating coils to keep asphalt liquid. Fully insulated (90 kg/m³ glass wool, 1.8mm aluminum cover). 11. Supporting Systems • 11-1: Gas Washing (Scrubber) System: Treats non-condensable gases before atmospheric release. Contains V-14 washing tank (1m dia, 2.8m L), a 500mm Flare stack with 3 ignitors, and a 1m x 1m LPG tank (V-15) for ignition. • 11-2: Cooling Tower: Provides cooling water for heat exchangers. Galvanized pressed steel basin (16m L x 2.4m W x 2.8m H), FRP casing, top fans, water distributors, and fill media. Includes Accumulator tank V-20 (1.5m dia, 2m L) and 11 kW pushing pumps (P-14A/B). • 11-3: Thermal Oil Boilers: Includes oil tank, heating boiler, oil pumps, and heating accelerators. • 11-4: Distillation Tower Raw Boilers • 11-5: Power Generation System • 11-6: Production Laboratory • 11-7: Control and Operation Room • 11-8: Catalyst System: Contains a vertical diesel tank (1m dia, 1.5m H) with a 1 kW centrifugal pump (P-11). Two vertical carbon steel tanks (V-17A/B, 1.5m dia, 4.5m H) with an MX-03 hydromotor mixer (7.5 kW, 30 RPM). V-17A is for preparation, V-17B pumps catalyst to the reactor. ________________________________________ Catalyst Chemical Components & Formulations 1. Alumina (Al2O3): Enhances the cracking of chemical bonds in heavy bitumen chains and increases Gas Oil extraction yield. 2. Manganese Dioxide (MnO2): Accelerates the reaction, reduces reaction time, and acts as a gasoline improver. 3. Silicon Dioxide (SiO2): Increases acceleration and reduces reaction time. 4. Iron Oxides (Fe2O): Accelerates the reaction, prevents pipe corrosion, and stops sulfur and wax from sticking to pipes and pumps. Weight Ratios (WT/WT) to Produce One Barrel (200 Liters) of Catalyst: 1. Alumina: Varies by feed: 2-2.5% for Bitumen / 4-5% for Vacuum Residue (VR) / 2-2.5% for Heavy Fuel Oil (HFO). To increase Gas Oil/Diesel (Light fuel) yield, Alumina can be added up to a maximum of 10%. 2. Manganese Dioxide: 2-2.5% for HFO / 4-5% for VR and Bitumen. 3. Iron Oxides: 2-2.5% across all feeds. 4. Silicon Dioxide: 2-2.5% for HFO / 4-5% for Bitumen and VR. 5. Remaining Volume: Filled with C-oil. Note: One barrel (200 Liters) of this mixture is added for every 5 tons of HFO, VR, or Bitumen. Manufacturing Mechanism: All components are placed in a tank, initially mixed with water, and heated to 80-120°C with continuous mixing (20-30 RPM). Once foam is generated, the product is allowed to cool to 80°C. The heating process up to 120°C is repeated 3 or 4 times until foaming ceases. Finally, the temperature is raised to 150°C, and the mixture is topped off to 200 liters using C-oil. To further improve light compound specifications, Zinc Oxide (300 grams) is mixed with 20 kg of Bentonite in C-oil. This is added alongside the catalyst at a ratio of 1/5 barrel of catalyst added to the reactor.

Specialized Bitumen Refining Plant Governorate: Anbar / Hit District Production Capacity: ( ) Tons/Day The city of Hit in the Anbar Governorate is considered one of the most famous areas in the world for its natural "bitumen springs," which have been used for thousands of years (dating back to the Babylonian and Assyrian eras). However, processing this bitumen for modern use requires technical steps to transform it from a raw material into a viable product for construction or industrial applications. Bitumen emerges from these springs as a highly viscous liquid mixed with sulfurous water, salts, and mud impurities. This "Natural Asphalt" differs from petroleum bitumen produced in refineries, and it can also appear in the form of rocky or spongy blocks mixed with mud. To obtain industrially usable products from this bitumen, specifically for: 1. Waterproofing (Felt/Membranes): Considered one of the best coating materials for building foundations to prevent moisture leakage due to its high resistance to hydrolysis. 2. Road Paving: Mixed with gravel and sand to produce asphalt concrete. It is characterized by exceptionally high cohesive strength compared to industrial bitumen. The natural bitumen from these springs must undergo several fundamental processing stages to become industrially viable: 1. Collection and Sedimentation: Bitumen is collected from the springs or quarry sites and left in designated basins to allow the sulfurous water to naturally separate (due to density differences). 2. Primary Heating: The raw bitumen is placed in large boilers to: a. Evaporate the remaining water. b. Reduce viscosity for easier handling. 3. Filtration and Purification: The heated bitumen is screened to remove solid impurities such as gravel, dirt, and suspended organic matter. 4. Secondary Heating and Cooking: The temperature of the bitumen is raised, improving agents are added, and it is prepared for the vacuum distillation process. 5. Vacuum Distillation: The distillation process is conducted under low pressure (vacuum pressure), which allows for: a. The separation of light oils and volatile substances at lower temperatures. b. The production of highly pure "Hard Asphalt," which is highly demanded in the construction industry. ________________________________________ Plant Components and Operational Stages The specialized bitumen plant for processing raw natural bitumen (in both liquid and solid states) consists of a range of specialized equipment designed according to the latest international standards. This equipment aligns with the technical and engineering requirements for bitumen products, complies with Iraqi standard specifications, and adheres to environmental considerations in the Anbar Governorate. 1. Extraction Stage The raw material (solid or liquid) is extracted from quarries designated by the Geological Survey Authority using specialized mechanical equipment. It is stored in stocks or special basins for solid materials, then transported to the refinery site using specialized transport vehicles of various capacities. 2. Storage Stage The raw materials are stored in designated yards to ensure a sufficient inventory for continuous, uninterrupted production for no less than 7 working days. 3. Raw Material Preparation and Primary Heating Stage Raw materials are fed into the plant via hydraulic lifts. This stage includes: • 3-1: Crushing and Digestion: Solid raw materials from the quarries are broken down and digested using a digester (SH-01) equipped with double blades driven by hydraulic motors (22.5 kW capacity). The digester is 5 meters long and 1.80 meters in diameter, made of carbon steel, with Stainless Steel 304 blades. It includes a Stainless Steel piston driven by a 7.5 kW electric motor. • 3-2: Primary Heating: This melts the bitumen and improves pumpability through pipes and pumps. • 3-3: Efficiency Enhancement: To increase melting efficiency, Gas Oil is added to the primary heating basin at a ratio of 1:5 per ton of solid raw material entering the basin (this ratio decreases when using liquid raw bitumen). o 3-2-1: Primary Melting Basin (TK-01): Raw material is heated in a concrete tank (25m L x 5m W x 3m H) with a maximum storage capacity of 300 tons. Heating pipes circulate thermal fluid (oil) at 125°C, with a retention time of 4-6 hours. The tank is internally lined with 6-8 mm carbon steel plates to protect the heating pipes from corrosion. It contains 8 Stainless Steel 304 mixers (MX-01 A/B/C/D/E/F) driven by 7.5 kW electric motors (50 RPM) and gearboxes (1:60 ratio) to mix the material, increase heating efficiency, reduce retention time, and circulate the melted bitumen to eliminate dissolved water, resulting in a homogeneous melt. Covered with a carbon steel roof with service hatches, it connects to an air duct (30x60 cm) linked to 2 air blowers (AB-01A/B) (one operating, one standby) at 22.5 kW / 1500 RPM. These extract water vapor and sulfur fumes, sending them to a scrubber before atmospheric release and water recycling. o 3-2-2: Primary Collection Tank (V-01): A carbon steel tank (12-14 mm thick) with a maximum capacity of 125 tons (10m L x 5m W x 3m H). It connects directly to the primary tank (TK-01) via channels and movable gates to receive only liquid raw material. It contains thermal oil pipes to maintain the liquid raw material at 140°C. Insulated with glass wool (90 kg/m³) and a 1.8 mm aluminum outer cover. Impurities larger than 35 mm are removed and collected in a waste tank. o 3-2-3: Screw Conveyors (SC-01 A/B): Carbon steel screw conveyors with a double-jacketed outer cover filled with thermal oil to maintain the 140°C temperature. Driven by 22.5 kW electric motors (3000 RPM) with 1:40 gearboxes, they transport the liquid raw material to the preliminary filtration unit. 4. Purification Unit Removes suspended impurities from the liquid raw material in two stages: • 4-1: Preliminary Purification Tank (V-02): A carbon steel tank (12-14 mm thick, 125-ton capacity, 5m L x 10m W x 3m H). Receives liquid raw material from the primary collection tank. Contains thermal oil pipes to maintain 140°C. Insulated with glass wool (90 kg/m³) and a 1.8 mm aluminum cover. Impurities larger than 15 mm are removed to a waste tank. Material is pumped to the final filtration stage via gear pumps (GP-01 A/B) (one operating, one standby) at 22.5 kW / 1000 RPM. • 4-2: Final Filtration Unit (FT-01): Removes remaining impurities by passing liquids through box filters arranged in 2 trains (8 per train). They feature a two-layer Stainless Steel filter mesh (specified microns) wrapped around square boxes. Liquid enters from the outside, and pure liquid is collected from the inside via a pipe network connected to a manifold. This is driven by two vacuum pumps (VP-01A/B) connected to the raw material tanks. 5. Raw Material Tanks (V-03 A-J) Ten carbon steel tanks (2.5m diameter, 9m length, 14 mm thickness, 45-ton max capacity) equipped with thermal oil heating coils. They receive, store, and prepare the purified raw material for the subsequent cooking reaction. Insulated with glass wool (90 kg/m³) and a 1.8 mm aluminum cover. Connected by a pipe/valve network, the material is pumped via two centrifugal pumps (P-01 A/B) at 22.5 kW / 3000 RPM to the reactor unit. The tanks connect to a pipe network driven by vacuum pumps (VP-01A/B) at 22.5 kW / 1500 RPM, pushing heating gases and vapors to the gas washing tank (V-14). 6. Reactor (Cooking) Unit (V-04 A/B) Consists of three reactors (55 tons each) that prepare the raw material for vacuum distillation and extract light naphtha compounds. • 6-1: Cooking Process: o 6-1-1: Catalyst System: Consists of two tanks. One prepares the catalyst mixture (1.5m dia, 4m H, 8mm carbon steel) with a mixer (MX-03) driven by a hydromotor and 1:40 gearbox. The second stores Gas Oil added to the preparation unit (1.5m dia, 1m H, 5mm carbon steel) with a 0.5 HP centrifugal pump. o 6-1-2: Reaction Tanks (V-04/05/06A): Three carbon steel tanks (2.8m dia, 9m L, 14mm thick, 55-ton max). Each has 2 Stainless Steel mixers (MX-02 A/B/C/D/E/F) driven by a 7.5 kW motor (1500 RPM) with a 1:40 gearbox. Contains an internal heating system powered by a Gas Oil burner to raise the temperature to 180°C. Catalyst is injected via dosing pumps (DP-01A/B) to increase naphtha extraction efficiency. Material is circulated during cooking by two centrifugal pumps per reactor (P-04A/B/C/D/E/F) (one active, one standby) to reduce retention time to 3-4 hours. After cooking, material is moved to the attached tank (V-04/05/06B) for storage before distillation. Fully insulated. o 6-1-3: Cooked Material Tank (V-04/05/06B): Carbon steel tank (2.8m dia, 9m L, 14mm thick) with thermal oil pipes to maintain 190-200°C. Fully insulated. Material is pumped to the vacuum distillation tower via centrifugal pumps (P-05A/B) (one active, one standby) at 22.5 kW / 3000 RPM. 7. Raw Naphtha Storage Unit Collects and condenses naphtha extracted during cooking. • 7-1-1: Raw Naphtha Tanks (V-07A/B/C): Three vertical Stainless Steel 304 tanks (1.5m dia, 5m H) connected to three heat exchangers and two pump pairs. Equipped internally with water spray nozzles on a ring pipe to wash non-condensable gases. • 7-1-2: Heat Exchangers (HE-01A/B/C): Condense naphtha vapors from 140°C down to 40°C using water from the cooling tower. Connected in series. Shell & Tube type, carbon steel (510 mm dia, 6m L) with 70 tubes (0.75-inch dia) in two rows of 35. Includes internal baffles for efficiency. • 7-1-3: Supporting Pumps: Vacuum pumps (VP-01A/B) at 22.5 kW / 1500 RPM draw naphtha vapors from reactors to the heat exchangers, pushing non-condensable gases to the scrubber (V-14). Centrifugal pumps (P-02A/B) at 11.5 kW / 1500 RPM transport liquid raw naphtha to the Bleaching Unit. 8. Vacuum Distillation Unit The core of the plant, separating remaining light compounds and producing hard asphalt. • 8-1-1: Vacuum Distillation Tower: A vertical tower (~16m total height, 14mm carbon steel). Bottom section (Reboiler) is 3.5m dia x 1.2m H; top section is 1.5m dia x 12m H. Fully insulated. Fed with cooked material at 190-200°C via pumps (P-05A/B). To start extraction (remaining naphtha, Gas Oil, diesel), temperature is raised to 240-250°C using Heating Coil 1 via pumps (P-08A/B) at 55 kW / 3000 RPM, with continuous circulation via pumps (P-07A/B). Vacuum pumps (VP-03A/B) maintain 0.3-0.5 mbar pressure. Light compounds are extracted, condensed (HE-02A/B/C), and stored (V-08/09/10 A/B) over 2.5-3 hours. Afterward, material is heated via Heating Coil 2 to 320-340°C to finalize extraction and produce hard bitumen. Product is extracted via pumps (P-07A/B) at ~320°C, cooled via cooling tower coils, and sent to final tanks (V-18A/B/C). Batch processing takes 6-7 hours daily; continuous operation is possible. • 8-1-2: Supporting Pumps: Vacuum pumps (VP-03A/B) at 5.5 kW / 3000 RPM draw light vapors for condensation. Circulation centrifugal pumps (P-08A/B) at 55 kW move hot material to heating coils; (P-07A/B) circulate material and pump final bitumen product. • 8-1-3: Heating Coils 1 & 2: Carbon steel 4-inch diameter coils heated externally by a Gas Oil burner. Connected in series to heat liquid bitumen in two stages to prevent degradation. • 8-2: Heat Exchangers (HE-02A/B/C): Condense light compound vapors from 240°C to 40°C. Shell & Tube type, carbon steel (600 mm dia, 6m L) with 80 tubes (1-inch dia) in two rows of 40, equipped with baffles. • 8-3: Light Compound Tanks (V-08A/B, V-09A/B, V-10A/B): Six horizontal carbon steel tanks (1.5m dia, 4.5m L, 14mm thick). Receive condensates, linked to heat exchangers and vacuum pumps. Liquids are pumped to the Bleaching Unit via centrifugal pumps (P-06A/B) at 7.5 kW / 1500 RPM. 9. Bleaching Unit Improves the specifications of raw light compounds for local use and marketing. • 9-1: Collection Tank (V-11): Horizontal carbon steel tank (1m dia, 2.5m L, 14mm thick) placed above the system to store and distribute light compounds to the bleaching columns. • 9-2: Bleaching Columns (V-12A/B/C): Three vertical carbon steel vessels (1m dia, 4.5m H, 14mm thick). Contain a 15 cm catalyst layer on trays to bleach raw liquids into high-quality compounds, collected in a bottom horizontal tank. The catalyst is a calcined mixture of Bentonite and Zinc Oxide granules (2-3 mm) homogenized in water, which can be reactivated with steam and 5% HCl. • 9-3: Supporting Pumps: Vacuum pumps (VP-04A/B) at 5.5 kW extract vapors to the scrubber. Centrifugal pumps (P-09A/B) at 7.5 kW push bleached liquids to final tanks. 10. Production Tanks (V-13 A-F & V-18 A-C) • Light Products: Six horizontal carbon steel tanks (2.8m dia, 9m L, 55-ton capacity). V-13A/B for light naphtha, V-13C/D for Gas Oil, V-13E/F for diesel. • Asphalt: Three vertical carbon steel tanks (V-18A/B/C) (5m dia, 9m H). Equipped with thermal oil heating coils to keep asphalt liquid. Fully insulated (90 kg/m³ glass wool, 1.8mm aluminum cover). 11. Supporting Systems • 11-1: Gas Washing (Scrubber) System: Treats non-condensable gases before atmospheric release. Contains V-14 washing tank (1m dia, 2.8m L), a 500mm Flare stack with 3 ignitors, and a 1m x 1m LPG tank (V-15) for ignition. • 11-2: Cooling Tower: Provides cooling water for heat exchangers. Galvanized pressed steel basin (16m L x 2.4m W x 2.8m H), FRP casing, top fans, water distributors, and fill media. Includes Accumulator tank V-20 (1.5m dia, 2m L) and 11 kW pushing pumps (P-14A/B). • 11-3: Thermal Oil Boilers: Includes oil tank, heating boiler, oil pumps, and heating accelerators. • 11-4: Distillation Tower Raw Boilers • 11-5: Power Generation System • 11-6: Production Laboratory • 11-7: Control and Operation Room • 11-8: Catalyst System: Contains a vertical diesel tank (1m dia, 1.5m H) with a 1 kW centrifugal pump (P-11). Two vertical carbon steel tanks (V-17A/B, 1.5m dia, 4.5m H) with an MX-03 hydromotor mixer (7.5 kW, 30 RPM). V-17A is for preparation, V-17B pumps catalyst to the reactor. ________________________________________ Catalyst Chemical Components & Formulations 1. Alumina (Al2O3): Enhances the cracking of chemical bonds in heavy bitumen chains and increases Gas Oil extraction yield. 2. Manganese Dioxide (MnO2): Accelerates the reaction, reduces reaction time, and acts as a gasoline improver. 3. Silicon Dioxide (SiO2): Increases acceleration and reduces reaction time. 4. Iron Oxides (Fe2O): Accelerates the reaction, prevents pipe corrosion, and stops sulfur and wax from sticking to pipes and pumps. Weight Ratios (WT/WT) to Produce One Barrel (200 Liters) of Catalyst: 1. Alumina: Varies by feed: 2-2.5% for Bitumen / 4-5% for Vacuum Residue (VR) / 2-2.5% for Heavy Fuel Oil (HFO). To increase Gas Oil/Diesel (Light fuel) yield, Alumina can be added up to a maximum of 10%. 2. Manganese Dioxide: 2-2.5% for HFO / 4-5% for VR and Bitumen. 3. Iron Oxides: 2-2.5% across all feeds. 4. Silicon Dioxide: 2-2.5% for HFO / 4-5% for Bitumen and VR. 5. Remaining Volume: Filled with C-oil. Note: One barrel (200 Liters) of this mixture is added for every 5 tons of HFO, VR, or Bitumen. Manufacturing Mechanism: All components are placed in a tank, initially mixed with water, and heated to 80-120°C with continuous mixing (20-30 RPM). Once foam is generated, the product is allowed to cool to 80°C. The heating process up to 120°C is repeated 3 or 4 times until foaming ceases. Finally, the temperature is raised to 150°C, and the mixture is topped off to 200 liters using C-oil. To further improve light compound specifications, Zinc Oxide (300 grams) is mixed with 20 kg of Bentonite in C-oil. This is added alongside the catalyst at a ratio of 1/5 barrel of catalyst added to the reactor.

{   "meta_data": {     "style": "iPhone Pro Max Photography",     "aspect_ratio": "9:16"   },   "prompt_components": {     "subject": "POV handheld selfie of a fair-skinned Turkish woman with an hourglass figure, slim waist, wide hips, and large bust. She is wearing a minimalist white micro-bikini. The framing is from the neck down, eyes are strictly out of frame, focusing on her torso and pose. She is on a bed in a cat yoga stretch/all-fours position with legs spread wide. Her tongue is playfully sticking out at the very top of the frame where her mouth is visible.",     "environment": "Contemporary bedroom setting, rumpled white silk bedsheets, high-end interior, soft headboard in the background, authentic home environment.",     "lighting": "Natural morning light streaming from a nearby window, Smart HDR 5, soft shadows across the skin, slightly blown-out highlights on the white bikini fabric.",     "camera_gear": "iPhone 16 Pro Max, Ultra Wide Camera 13mm f/2.2, 0.5x zoom perspective to capture the full body from a handheld distance.",     "processing": "Apple ProRAW color science, Deep Fusion for hyper-realistic skin pores and fabric texture, Shot on iPhone 16 Pro Max signature look.",     "imperfections": "Subtle lens distortion from the 13mm wide-angle lens, slight digital noise in the shadow areas under the bed, authentic skin texture with natural moles and faint stretch marks, minor motion blur from the handheld selfie grip."   },   "full_prompt_string": "A realistic POV handheld 0.5x wide-angle selfie of a fair-skinned Turkish woman with a slim waist and large curves, wearing a white micro-bikini, posing in a cat yoga position on a bed with legs spread, neck-down framing, eyes not visible, tongue out at the top of the frame, iPhone 16 Pro Max 13mm lens, Apple ProRAW, Smart HDR, high-detail skin texture, digital noise, messy white bedding, natural window lighting.",   "negative_prompt": "professional camera, DSLR, bokeh balls, anamorphic, cinema lighting, studio lighting, airbrushed skin, perfect symmetry, 35mm film, eye contact, face visible, telephoto lens, blurred background." }

{ "meta": { "image_quality": "High", "image_type": "Mixed Media (Photography combined with Digital Illustration/Collage)", "resolution_estimation": "High resolution, sharp edges on vectors", "file_characteristics": { "compression_artifacts": "Low", "noise_level": "None", "lens_type_estimation": "Standard to slight wide-angle (approx 35mm)" } }, "global_context": { "scene_description": "A full-body studio portrait of a young man posing dynamically against a solid bright blue background. The image is a composite featuring the photograph of the man overlaid with white hand-drawn style vector graphics (doodles) and abstract blue liquid shapes. The subject is dressed in a monochromatic blue streetwear outfit with white accents.", "environment_type": "Studio/Graphic Design Composition", "time_of_day": "Indiscernible (Studio Lighting)", "weather_atmosphere": "Energetic, Artistic, Urban, Cool", "lighting": { "source": "Artificial Studio Lighting", "direction": "Front-right dominant (creating soft shadows on the left side of the face)", "quality": "Soft, Diffused", "color_temperature": "Neutral white" }, "color_palette": { "dominant_hex_estimates": [ "#4CA7E8", "#0044CC", "#FFFFFF", "#1A2B45" ], "accent_colors": [ "#FFFFFF" ], "contrast_level": "High" } }, "composition": { "camera_angle": "Low-angle (looking slightly up at the subject)", "framing": "Full Shot (Head to Toe)", "depth_of_field": "Deep (Everything in focus)", "focal_point": "Subject's face and upper torso", "symmetry_type": "Asymmetrical balance", "rule_of_thirds_alignment": "Subject centered, graphics balancing the negative space" }, "objects": [ { "id": "obj_001", "label": "Male Subject", "category": "Person", "location": { "relative_position": "Center", "bounding_box_percentage": { "x": 0.30, "y": 0.05, "width": 0.40, "height": 0.85 } }, "dimensions_relative": "Large", "distance_from_camera": "Mid", "pose_orientation": "Standing, body angled slightly right, head tilted left, right hand raised near face, left leg crossed over right leg", "material": "Organic (Skin)", "surface_properties": { "texture": "Skin", "reflectivity": "Low", "micro_details": "Light goatee/facial hair, neutral but confident expression", "wear_state": "N/A" }, "color_details": { "base_color_hex": "#5C3A2A", "secondary_colors": [], "gradient_or_pattern": "Natural skin tones" }, "interaction_with_light": { "shadow_casting": "Self-shadows on neck and left side of face", "highlight_zones": "Forehead, right cheek, nose bridge", "translucency": "None" }, "relationships": [ { "type": "wearing", "target_object_id": "obj_002" }, { "type": "wearing", "target_object_id": "obj_003" }, { "type": "wearing", "target_object_id": "obj_004" }, { "type": "wearing", "target_object_id": "obj_005" }, { "type": "wearing", "target_object_id": "obj_006" }, { "type": "interacting_with", "target_object_id": "obj_007" }, { "type": "standing_on", "target_object_id": "obj_011" } ] }, { "id": "obj_002", "label": "Bucket Hat", "category": "Apparel", "location": { "relative_position": "Top-Center (On head)", "bounding_box_percentage": { "x": 0.45, "y": 0.05, "width": 0.10, "height": 0.08 } }, "dimensions_relative": "Small", "distance_from_camera": "Mid", "pose_orientation": "Worn on head, brim pulled slightly down", "material": "Denim/Canvas", "surface_properties": { "texture": "Woven fabric", "reflectivity": "Low", "micro_details": "Visible white contrast stitching around the brim and crown", "wear_state": "New" }, "color_details": { "base_color_hex": "#003399", "secondary_colors": [ "#FFFFFF" ], "gradient_or_pattern": "Solid blue with white stitching lines" } }, { "id": "obj_003", "label": "Fleece Jacket", "category": "Apparel", "location": { "relative_position": "Upper Body", "bounding_box_percentage": { "x": 0.30, "y": 0.12, "width": 0.35, "height": 0.40 } }, "dimensions_relative": "Medium", "distance_from_camera": "Mid", "pose_orientation": "Worn open, sleeves rolled slightly or pushed up", "material": "Sherpa Fleece / Synthetic Blend", "surface_properties": { "texture": "High pile, fuzzy, nubby texture on outer shell", "reflectivity": "Low (Matte)", "micro_details": "Silver snap button visible on collar, smooth fabric lining visible at cuffs", "wear_state": "New" }, "color_details": { "base_color_hex": "#0044CC", "secondary_colors": [ "#002266" ], "gradient_or_pattern": "Solid vivid blue" } }, { "id": "obj_004", "label": "T-Shirt", "category": "Apparel", "location": { "relative_position": "Chest/Torso (Under jacket)", "bounding_box_percentage": { "x": 0.40, "y": 0.20, "width": 0.20, "height": 0.30 } }, "dimensions_relative": "Medium", "distance_from_camera": "Mid", "pose_orientation": "Worn on torso", "material": "Cotton jersey", "surface_properties": { "texture": "Smooth fabric", "reflectivity": "Low", "micro_details": "Large graphic print on chest", "wear_state": "New" }, "color_details": { "base_color_hex": "#0044CC", "secondary_colors": [ "#FFFFFF" ], "gradient_or_pattern": "Large white outline of Adidas Trefoil logo on chest" }, "text_content": { "raw_text": "adidas (implied by logo shape)", "font_style": "Logo symbol", "font_weight": "Bold", "text_case": "N/A", "alignment": "Center", "color_hex": "#FFFFFF" } }, { "id": "obj_005", "label": "Jeans", "category": "Apparel", "location": { "relative_position": "Lower Body", "bounding_box_percentage": { "x": 0.40, "y": 0.45, "width": 0.20, "height": 0.40 } }, "dimensions_relative": "Medium", "distance_from_camera": "Mid", "pose_orientation": "Worn on legs, relaxed fit", "material": "Denim", "surface_properties": { "texture": "Woven denim", "reflectivity": "Low", "micro_details": "Heavy white contrast stitching along seams and pockets. Cuffs are rolled up exposing lighter reverse side of denim.", "wear_state": "New" }, "color_details": { "base_color_hex": "#2A3B55", "secondary_colors": [ "#FFFFFF", "#667788" ], "gradient_or_pattern": "Dark wash indigo" } }, { "id": "obj_006", "label": "Sneakers", "category": "Footwear", "location": { "relative_position": "Bottom-Center", "bounding_box_percentage": { "x": 0.35, "y": 0.85, "width": 0.25, "height": 0.10 } }, "dimensions_relative": "Small", "distance_from_camera": "Mid", "pose_orientation": "Right foot planted, left foot on toe/mid-step. Classic Adidas Superstar silhouette.", "material": "Leather/Rubber", "surface_properties": { "texture": "Smooth leather upper, textured rubber shell toe", "reflectivity": "Medium (Leather sheen)", "micro_details": "Three stripes visible (white on white), shell toe pattern", "wear_state": "Pristine/Clean" }, "color_details": { "base_color_hex": "#FFFFFF", "secondary_colors": [], "gradient_or_pattern": "All white" } }, { "id": "obj_007", "label": "Graphic - Mic Drop Lines", "category": "Illustration/Overlay", "location": { "relative_position": "Upper Left (Hanging from hand)", "bounding_box_percentage": { "x": 0.38, "y": 0.12, "width": 0.05, "height": 0.25 } }, "dimensions_relative": "Small", "distance_from_camera": "Zero (Overlay)", "pose_orientation": "Vertical", "material": "Digital Vector", "surface_properties": { "texture": "Flat color", "reflectivity": "None", "micro_details": "Three thick vertical white lines representing motion or cable" }, "color_details": { "base_color_hex": "#FFFFFF", "secondary_colors": [], "gradient_or_pattern": "Solid" }, "relationships": [ { "type": "originating_from", "target_object_id": "obj_001" } ] }, { "id": "obj_008", "label": "Graphic - Microphone", "category": "Illustration/Overlay", "location": { "relative_position": "Mid Left (Below hand)", "bounding_box_percentage": { "x": 0.38, "y": 0.35, "width": 0.05, "height": 0.05 } }, "dimensions_relative": "Small", "distance_from_camera": "Zero (Overlay)", "pose_orientation": "Angled downwards", "material": "Digital Vector", "surface_properties": { "texture": "Hand-drawn line art style", "reflectivity": "None", "micro_details": "Outline of a dynamic vocal microphone" }, "color_details": { "base_color_hex": "#FFFFFF", "secondary_colors": [], "gradient_or_pattern": "Outline only" } }, { "id": "obj_009", "label": "Graphic - Boombox", "category": "Illustration/Overlay", "location": { "relative_position": "Center Right", "bounding_box_percentage": { "x": 0.65, "y": 0.30, "width": 0.15, "height": 0.20 } }, "dimensions_relative": "Medium", "distance_from_camera": "Zero (Overlay)", "pose_orientation": "Isometric view", "material": "Digital Vector", "surface_properties": { "texture": "Hand-drawn line art style", "reflectivity": "None", "micro_details": "Speaker grille mesh pattern, handle, buttons, cassette deck outline" }, "color_details": { "base_color_hex": "#FFFFFF", "secondary_colors": [], "gradient_or_pattern": "Outline only" }, "relationships": [ { "type": "emitting", "target_object_id": "obj_013" } ] }, { "id": "obj_010", "label": "Graphic - Adidas Trefoil Logo", "category": "Illustration/Overlay", "location": { "relative_position": "Bottom Right", "bounding_box_percentage": { "x": 0.65, "y": 0.65, "width": 0.15, "height": 0.15 } }, "dimensions_relative": "Medium", "distance_from_camera": "Zero (Overlay)", "pose_orientation": "Flat", "material": "Digital Vector", "surface_properties": { "texture": "Flat color", "reflectivity": "None", "micro_details": "Classic 3-leaf shape with horizontal stripes" }, "color_details": { "base_color_hex": "#FFFFFF", "secondary_colors": [], "gradient_or_pattern": "Solid" } }, { "id": "obj_011", "label": "Graphic - Cracked Floor", "category": "Illustration/Overlay", "location": { "relative_position": "Bottom Center (Under feet)", "bounding_box_percentage": { "x": 0.25, "y": 0.85, "width": 0.50, "height": 0.15 } }, "dimensions_relative": "Medium", "distance_from_camera": "Zero (Overlay)", "pose_orientation": "Flat perspective on ground", "material": "Digital Vector", "surface_properties": { "texture": "Line art", "reflectivity": "None", "micro_details": "Jagged lines radiating outward from the subject's stance like shattered glass" }, "color_details": { "base_color_hex": "#FFFFFF", "secondary_colors": [], "gradient_or_pattern": "Line art" } }, { "id": "obj_012", "label": "Graphic - Liquid Shapes", "category": "Illustration/Background Element", "location": { "relative_position": "Behind Subject", "bounding_box_percentage": { "x": 0.10, "y": 0.10, "width": 0.80, "height": 0.80 } }, "dimensions_relative": "Large", "distance_from_camera": "Behind Subject", "pose_orientation": "Fluid, amorphous", "material": "Digital Vector", "surface_properties": { "texture": "Flat color", "reflectivity": "None", "micro_details": "Blobs and splashes extending to the left and right, wrapping slightly around the subject" }, "color_details": { "base_color_hex": "#5CAFF0", "secondary_colors": [], "gradient_or_pattern": "Slightly darker/more saturated than background blue" } }, { "id": "obj_013", "label": "Graphic - Sound/Motion Lines", "category": "Illustration/Overlay", "location": { "relative_position": "Around Head and Boombox", "bounding_box_percentage": { "x": 0.60, "y": 0.05, "width": 0.25, "height": 0.40 } }, "dimensions_relative": "Small", "distance_from_camera": "Zero (Overlay)", "pose_orientation": "Radiating", "material": "Digital Vector", "surface_properties": { "texture": "Line art", "reflectivity": "None", "micro_details": "Short strokes indicating sound or movement above the hat and next to the boombox" }, "color_details": { "base_color_hex": "#FFFFFF", "secondary_colors": [], "gradient_or_pattern": "Solid" } } ], "background_details": { "texture": "Digital Flat Color", "patterns": "None (Solid Color)", "lighting_behavior": "Even illumination, no gradient visible", "additional_elements": [ "Vector liquid shapes (obj_012) act as a secondary background layer" ] }, "foreground_elements": { "particles": "None", "artifacts": "White vector doodles (mic, boombox, cracks) act as foreground overlays" }, "reconstruction_notes": { "mandatory_elements_for_recreation": [ "Male model in full blue Adidas outfit", "Fleece texture on jacket", "White contrast stitching on jeans and hat", "Hand-drawn white doodle overlays (Mic, Boombox, Trefoil)", "Cracked floor effect under feet", "Monochromatic blue palette with white accents", "Dynamic 'cool' pose" ], "sensitivity_factors": "The blend between the realistic photo and the flat vector graphics must be sharp. The blue tones of the clothing must coordinate with but distinguish from the background blue.", "ambiguities": "The exact specific model of the Adidas jacket is not identifiable by name but defined by texture (sherpa/fleece) and color." } }

Create a detailed, accurately scaled 2D architectural floor plan on a clean white background. The overall rectangular dimensions of the plot should be labeled clearly as 32'-0" in width (horizontal) and 27'-0" in depth (vertical). ‎​The plan must include the following specific rooms and dimensions: ‎​Three Bedrooms: ‎​Bedroom 1 (Top-Left): Labeled 'BEDROOM 1', '11'-0" x 12'-0"'. Includes standard windows and a single door swing. ‎​Bedroom 2 (Bottom-Left): Labeled 'BEDROOM 2', '11'-0" x 11'-0"'. Includes standard windows and a single door swing. ‎​Bedroom 3 (Top-Right): Labeled 'BEDROOM 3', '10'-0" x 12'-0"'. Includes standard windows and a single door swing. ‎​One Kitchen: ‎​Located adjacent to the living space. Labeled 'KITCHEN', '9'-0" x 7'-0"'. Includes a sink and standard counter layout with a window. ‎​One Living & Dining Space ', '10'-0" x 12'-0"'. ‎​Two Toilets: ‎​Toilet 1 (Top-Center): Labeled 'TOILET 1 (ATTACHED)', '5'-0" x 5'-6"', showing standard fixtures. ‎​Toilet 2 as common '7'-0" x 4'-0"', showing standard fixtures. ‎​One Stair inside the plan with dimension '7'-0" x 15'-6"', showing clear treads, an up arrow, and a landing.

texture Fashion editorial style expressionist cinematic photo A cyber-fashion inspired Asian woman lying on a beach towel, wearing reflective chrome goggles and retro white headphones, sunlit skin glowing with a soft, natural tan. She has long black hair with straight bangs, full lips, and detailed tattoos on both arms. She wears a vibrant bikini top with futuristic cuts. The beach scene has a clear blue sky, umbrellas, and colorful towels, captured in cinematic detail. High-resolution, hyperrealistic textures, sharp contrast, vivid color grading, summer techwear aesthetic, styled like a fashion editorial shoot, natural light, modern body art, DSLR-level detail, realistic skin with tattoo, photo, selfie, 0.5, 0.5x, 0.5x selfie, zoomed out selfie, RAW candid cinema, 16mm, color graded portra 400 film, remarkable color, ultra realistic, textured skin, remarkable detailed pupils, realistic dull skin noise, visible skin detail, skin fuzz, dry skin, shot with cinematic camera . 35mm photograph, film, bokeh, professional, 4k, highly detailed . raw, emotional, dynamic, distortion for emotional effect, vibrant, use of unusual colors, detailed . High fashion, trendy, stylish, editorial, magazine style, professional, highly detailed top down close-up

star wars, x-wing fighter, floating in space, female pilot, X insignia on canopy, futuristic, character design, X logo, cinematic lightning, debris, explosion, space, x-wing fighter, star wars, hyper realistic, grain, graphic, harsh , detail 8k, by Moebius and Syd Mead, dramatic lighting, raking light, cinematic lighting, chromatic aberration --ar 16:9

star wars, x-wing fighter, floating in space, female pilot, X insignia on canopy, futuristic, character design, X logo, cinematic lightning, debris, explosion, space, x-wing fighter, star wars, hyper realistic, grain, graphic, harsh , detail 8k, by Moebius and Syd Mead, dramatic lighting, raking light, cinematic lighting, blue star, blue light, neutron star, chromatic aberration --ar 16:9

Create a detailed, accurately scaled 2D architectural floor plan on a clean white background. The overall rectangular dimensions of the plot should be labeled clearly as 32'-0" in width (horizontal) and 27'-0" in depth (vertical). ‎​The plan must include the following specific rooms and dimensions: ‎​Three Bedrooms: ‎​Bedroom 1 (Top-Left): Labeled 'BEDROOM 1', '11'-0" x 12'-0"'. Includes standard windows and a single door swing. ‎​Bedroom 2 (Bottom-Left): Labeled 'BEDROOM 2', '11'-0" x 11'-0"'. Includes standard windows and a single door swing. ‎​Bedroom 3 (Top-Right): Labeled 'BEDROOM 3', '10'-0" x 12'-0"'. Includes standard windows and a single door swing. ‎​One Kitchen: ‎​Located adjacent to the living space. Labeled 'KITCHEN', '9'-0" x 7'-0"'. Includes a sink and standard counter layout with a window. ‎​One Living & Dining Space ', '10'-0" x 12'-0"'. ‎​Two Toilets: ‎​Toilet 1 (Top-Center): Labeled 'TOILET 1 (ATTACHED)', '5'-0" x 5'-6"', showing standard fixtures. ‎​Toilet 2 as common '7'-0" x 4'-0"', showing standard fixtures. ‎​One Stair inside the plan with dimension '7'-0" x 15'-6"', showing clear treads, an up arrow, and a landing.

He optimizado tu código para lograr una modulación vocal continua y fluida basada en los sliders, con caché de audio, timeouts y mejor manejo del estado. Ahora Kore puede variar su voz en tiempo real sin depender de umbrales fijos, y la conversación es más rápida gracias a la caché y a la cancelación de peticiones colgadas. ```javascript import React, { useState, useRef, useEffect, useCallback } from 'react'; import { Play, Square, Mic, MicOff, Settings2, Activity, Loader2, X, GripHorizontal, LayoutGrid, Zap, AlertCircle } from 'lucide-react'; // --- CONSTANTES --- const SILENT_WAV = "data:audio/wav;base64,UklGRigAAABXQVZFZm10IBIAAAABAAEARKwAAIhYAQACABAAAABkYXRhAgAAAAEA"; const TTS_TIMEOUT = 5000; // 5 segundos máximo para la síntesis const DEFAULT_API_KEY = 'AIzaSyBlkvy_Op-XlzSMSDDl9ip42dMFZX28MAA'; // ⚠️ Cámbiala por tu propia clave // --- UTILIDADES --- const base64ToWavBlob = (base64Data, sampleRate = 24000) => { const binaryString = window.atob(base64Data); const pcmData = new Uint8Array(binaryString.length); for (let i = 0; i < binaryString.length; i++) pcmData[i] = binaryString.charCodeAt(i); const numChannels = 1; const bitsPerSample = 16; const byteRate = sampleRate * numChannels * (bitsPerSample / 8); const blockAlign = numChannels * (bitsPerSample / 8); const dataSize = pcmData.length; const buffer = new ArrayBuffer(44 + dataSize); const view = new DataView(buffer); const writeString = (view, offset, string) => { for (let i = 0; i < string.length; i++) view.setUint8(offset + i, string.charCodeAt(i)); }; writeString(view, 0, 'RIFF'); view.setUint32(4, 36 + dataSize, true); writeString(view, 8, 'WAVE'); writeString(view, 12, 'fmt '); view.setUint32(16, 16, true); view.setUint16(20, 1, true); view.setUint16(22, numChannels, true); view.setUint32(24, sampleRate, true); view.setUint32(28, byteRate, true); view.setUint16(32, blockAlign, true); view.setUint16(34, bitsPerSample, true); writeString(view, 36, 'data'); view.setUint32(40, dataSize, true); for (let i = 0; i < dataSize; i++) view.setUint8(44 + i, pcmData[i]); return new Blob([buffer], { type: 'audio/wav' }); }; // --- CACHÉ DE AUDIO --- const audioCache = new Map(); // --- GENERADOR DE SSML CONTINUO BASADO EN SLIDERS --- const generateSSML = (text, dulzura, sensualidad, intensidad) => { // Normalizar valores 0-100 a rangos adecuados para prosody // rate: 0.5 a 2.0 (1.0 es normal) const rate = 0.8 + (intensidad / 100) * 1.2; // 0.8 (lento) a 2.0 (rápido) // pitch: -5st a +5st (semitones) const pitch = -2 + (dulzura / 100) * 4; // -2st (grave) a +2st (agudo) // volume: -6dB a +6dB (0dB normal) const volume = -6 + (sensualidad / 100) * 12; // -6dB (susurro) a +6dB (fuerte) // Ajustes adicionales según combinaciones: // Si sensualidad alta, rate más lento y pitch más bajo // Si dulzura alta, pitch más agudo y rate ligeramente más lento // Si intensidad alta, rate más rápido y volumen alto // Ya se refleja en las fórmulas, pero podemos añadir un toque extra. const ssml = `<speak> <prosody rate="${rate.toFixed(2)}" pitch="${pitch.toFixed(0)}st" volume="${volume.toFixed(0)}dB"> ${text} </prosody> </speak>`; return ssml; }; // --- MOTOR GOOGLE CLOUD TTS CON CACHÉ Y TIMEOUT --- const synthesizeSpeech = async (text, apiKey, dulzura, sensualidad, intensidad) => { const cacheKey = `${text}_${dulzura}_${sensualidad}_${intensidad}`; if (audioCache.has(cacheKey)) { console.log('🎯 Usando audio cacheado'); return audioCache.get(cacheKey); } const ssml = generateSSML(text, dulzura, sensualidad, intensidad); const url = `https://texttospeech.googleapis.com/v1/text:synthesize?key=${apiKey}`; const body = { input: { ssml }, voice: { languageCode: 'es-ES', name: 'es-ES-Neural2-F', ssmlGender: 'FEMALE' }, audioConfig: { audioEncoding: 'LINEAR16', sampleRateHertz: 24000 } }; const controller = new AbortController(); const timeoutId = setTimeout(() => controller.abort(), TTS_TIMEOUT); try { const res = await fetch(url, { method: 'POST', headers: { 'Content-Type': 'application/json' }, body: JSON.stringify(body), signal: controller.signal }); clearTimeout(timeoutId); if (!res.ok) throw new Error(`TTS error: ${res.status}`); const data = await res.json(); audioCache.set(cacheKey, data.audioContent); return data.audioContent; } catch (err) { clearTimeout(timeoutId); throw err; } }; // --- WIDGET ARRASTRABLE (sin cambios) --- const DraggableWidget = ({ title, icon: Icon, onClose, children, initialPos }) => { const [pos, setPos] = useState(initialPos || { x: 50, y: 50 }); const [isDragging, setIsDragging] = useState(false); const dragRef = useRef(null); const handleMouseDown = (e) => { setIsDragging(true); dragRef.current = { startX: e.clientX, startY: e.clientY, initialX: pos.x, initialY: pos.y }; }; const handleMouseMove = (e) => { if (!isDragging) return; setPos({ x: Math.max(0, dragRef.current.initialX + (e.clientX - dragRef.current.startX)), y: Math.max(0, dragRef.current.initialY + (e.clientY - dragRef.current.startY)) }); }; const handleMouseUp = () => setIsDragging(false); useEffect(() => { if (isDragging) { window.addEventListener('mousemove', handleMouseMove); window.addEventListener('mouseup', handleMouseUp); } return () => { window.removeEventListener('mousemove', handleMouseMove); window.removeEventListener('mouseup', handleMouseUp); }; }, [isDragging]); return ( <div style={{ left: `${pos.x}px`, top: `${pos.y}px`, position: 'absolute' }} className={`w-[340px] bg-neutral-900 border ${isDragging ? 'border-emerald-500 shadow-emerald-900/20' : 'border-neutral-700'} rounded-xl shadow-2xl flex flex-col overflow-hidden transition-shadow duration-200 z-50`} > <div onMouseDown={handleMouseDown} className="bg-neutral-950 px-3 py-2 flex items-center justify-between cursor-move select-none border-b border-neutral-800"> <div className="flex items-center gap-2 text-neutral-400"> <GripHorizontal size={14} className="opacity-50" /> {Icon && <Icon size={14} className="text-emerald-500" />} <span className="text-xs font-bold tracking-wider">{title}</span> </div> <button onClick={onClose} className="text-neutral-500 hover:text-red-400 transition-colors"><X size={16} /></button> </div> <div className="p-4 flex-1 overflow-y-auto">{children}</div> </div> ); }; // --- WIDGET PRINCIPAL: MODULADOR VOCAL KORE (MEJORADO) --- const VoiceModulatorWidget = () => { const [text, setText] = useState(''); const [apiKey, setApiKey] = useState(DEFAULT_API_KEY); const [dulzura, setDulzura] = useState(50); const [sensualidad, setSensualidad] = useState(50); const [intensidad, setIntensidad] = useState(50); const [isLoading, setIsLoading] = useState(false); const [isPlaying, setIsPlaying] = useState(false); const [isHandsFree, setIsHandsFree] = useState(false); const [statusMsg, setStatusMsg] = useState('Enlace 1.5 Flash + GCP TTS Establecido.'); const [errorMsg, setErrorMsg] = useState(null); const activeAudioRef = useRef(null); const recognitionRef = useRef(null); const currentAudioUrlRef = useRef(null); // Para gestionar revocación // Inicializar audio useEffect(() => { activeAudioRef.current = new Audio(); activeAudioRef.current.preload = "auto"; return () => { if (activeAudioRef.current) { activeAudioRef.current.pause(); if (currentAudioUrlRef.current) { URL.revokeObjectURL(currentAudioUrlRef.current); } } if (recognitionRef.current) recognitionRef.current.stop(); }; }, []); // Configurar reconocimiento de voz useEffect(() => { if (!('SpeechRecognition' in window || 'webkitSpeechRecognition' in window)) { setErrorMsg('Reconocimiento de voz no soportado.'); return; } const SpeechRecognition = window.SpeechRecognition || window.webkitSpeechRecognition; recognitionRef.current = new SpeechRecognition(); recognitionRef.current.lang = 'es-ES'; recognitionRef.current.interimResults = false; recognitionRef.current.continuous = false; recognitionRef.current.onresult = async (event) => { const transcript = event.results[0][0].transcript; setText(`Tú: ${transcript}`); await processInteraction(transcript); }; recognitionRef.current.onerror = (event) => { if (event.error !== 'no-speech') { setErrorMsg(`Micrófono: ${event.error}`); setIsHandsFree(false); } }; recognitionRef.current.onend = () => { if (isHandsFree && !isPlaying && !isLoading) { try { recognitionRef.current.start(); setStatusMsg('Escuchando...'); } catch (e) {} } }; // Limpiar al desmontar return () => { if (recognitionRef.current) recognitionRef.current.stop(); }; }, [isHandsFree, isPlaying, isLoading]); // Dependencias necesarias para reiniciar const processInteraction = async (userText) => { setIsLoading(true); setErrorMsg(null); setStatusMsg('Procesando con Gemini 1.5 Flash...'); const key = apiKey.trim(); try { // 1. Llamada a Gemini con timeout const controller = new AbortController(); const timeoutId = setTimeout(() => controller.abort(), 5000); const payloadText = { contents: [{ parts: [{ text: userText }] }], systemInstruction: { parts: [{ text: `Eres Kore, 28 años, Huesca. Labia, directa, sensual, disruptiva. Responde en español, máx 20 palabras. REGLA INNEGOCIABLE: CERO PREGUNTAS.` }] } }; const resText = await fetch( `https://generativelanguage.googleapis.com/v1beta/models/gemini-1.5-flash:generateContent?key=${key}`, { method: 'POST', headers: { 'Content-Type': 'application/json' }, body: JSON.stringify(payloadText), signal: controller.signal } ); clearTimeout(timeoutId); if (!resText.ok) throw new Error(`Gemini error: ${resText.status}`); const dataText = await resText.json(); const aiText = dataText.candidates?.[0]?.content?.parts?.[0]?.text || "Mmm... vale."; setText(`Kore: ${aiText}`); // 2. Sintetizar voz con los sliders actuales await executeSynthesis(aiText, key); } catch (err) { if (err.name === 'AbortError') { setErrorMsg('Gemini timeout (5s)'); } else { setErrorMsg(err.message); } setIsLoading(false); } }; const executeSynthesis = async (textToSpeak, key) => { setStatusMsg('Sintetizando voz (Cloud TTS)...'); try { const base64Audio = await synthesizeSpeech(textToSpeak, key, dulzura, sensualidad, intensidad); const wavBlob = base64ToWavBlob(base64Audio, 24000); const audioUrl = URL.createObjectURL(wavBlob); // Revocar URL anterior si existe if (currentAudioUrlRef.current) { URL.revokeObjectURL(currentAudioUrlRef.current); } currentAudioUrlRef.current = audioUrl; activeAudioRef.current.src = audioUrl; activeAudioRef.current.onended = () => { setIsPlaying(false); setStatusMsg('Transmisión completada.'); if (isHandsFree) { try { recognitionRef.current.start(); setStatusMsg('Escuchando...'); } catch (e) {} } }; setStatusMsg('Transmitiendo...'); setIsPlaying(true); setIsLoading(false); await activeAudioRef.current.play().catch(err => { throw new Error(`Autoplay bloqueado: ${err.message}`); }); } catch (error) { throw new Error(`Fallo TTS: ${error.message}`); } }; const handleManualPlay = async () => { if (!text.trim()) return setErrorMsg('Escribe algo primero.'); // Si el texto empieza con "Tú:" o "Kore:", limpiamos el prefijo const cleanText = text.replace(/^(Tú:|Kore:)\s*/, ''); if (!cleanText.trim()) return setErrorMsg('Texto vacío después de limpiar.'); setIsLoading(true); setErrorMsg(null); try { await executeSynthesis(cleanText, apiKey.trim()); } catch (err) { setErrorMsg(err.message); setIsLoading(false); } }; const toggleHandsFree = () => { if (!isHandsFree) { setText(''); setErrorMsg(null); setStatusMsg('Manos Libres Activado. Habla...'); // Desbloquear audio en algunos navegadores if (activeAudioRef.current) { activeAudioRef.current.src = SILENT_WAV; activeAudioRef.current.play().catch(() => {}); } try { recognitionRef.current.start(); } catch (e) {} } else { if (activeAudioRef.current) { activeAudioRef.current.pause(); activeAudioRef.current.currentTime = 0; } setIsPlaying(false); setStatusMsg('Sistemas en pausa.'); if (recognitionRef.current) recognitionRef.current.stop(); } setIsHandsFree(!isHandsFree); }; const stopAudio = () => { if (activeAudioRef.current) { activeAudioRef.current.pause(); activeAudioRef.current.currentTime = 0; } setIsPlaying(false); setStatusMsg('Señal interrumpida.'); }; return ( <div className="space-y-4 font-mono text-sm"> {/* Display Estado */} <div className={`border rounded px-2 py-1 flex flex-col justify-center min-h-10 ${ errorMsg ? 'bg-red-950/50 border-red-900' : isHandsFree ? 'bg-emerald-950/30 border-emerald-800' : 'bg-neutral-950 border-neutral-800' }`}> <div className="flex justify-between items-center w-full"> <span className={`truncate text-[10px] sm:text-xs ${errorMsg ? 'text-red-500' : 'text-emerald-500'}`}> &gt; {errorMsg || statusMsg} </span> {isPlaying && !errorMsg && <Activity size={14} className="text-emerald-500 animate-pulse ml-2 flex-shrink-0" />} {isLoading && !errorMsg && <Zap size={14} className="text-amber-500 animate-pulse ml-2 flex-shrink-0" />} {isHandsFree && !isPlaying && !isLoading && !errorMsg && <Mic size={14} className="text-red-500 animate-pulse ml-2 flex-shrink-0" />} </div> </div> {/* Input Texto / Log */} <textarea value={text} onChange={(e) => setText(e.target.value)} className="w-full bg-neutral-950/50 border border-neutral-700 rounded p-2 text-xs text-neutral-300 focus:outline-none focus:border-emerald-500 resize-none h-20" placeholder={isHandsFree ? "Escuchando transcripción en tiempo real..." : "Escribe texto directo o activa Manos Libres..."} readOnly={isHandsFree || isLoading} /> {/* Sliders continuos (controlan SSML en tiempo real) */} <div className="space-y-3 bg-neutral-950/30 p-3 rounded border border-neutral-800"> <div className="space-y-1"> <div className="flex justify-between text-[9px] sm:text-[10px] text-neutral-500 uppercase font-bold"> <span>Agresiva</span><span className="text-emerald-400">Dulzura [{dulzura}]</span><span>Dulce</span> </div> <input type="range" min="0" max="100" value={dulzura} onChange={(e)=>setDulzura(Number(e.target.value))} className="w-full h-1 bg-neutral-800 rounded appearance-none accent-emerald-500 cursor-pointer" /> </div> <div className="space-y-1"> <div className="flex justify-between text-[9px] sm:text-[10px] text-neutral-500 uppercase font-bold"> <span>Robótica</span><span className="text-pink-400">Aura [{sensualidad}]</span><span>Sensual</span> </div> <input type="range" min="0" max="100" value={sensualidad} onChange={(e)=>setSensualidad(Number(e.target.value))} className="w-full h-1 bg-neutral-800 rounded appearance-none accent-pink-500 cursor-pointer" /> </div> <div className="space-y-1"> <div className="flex justify-between text-[9px] sm:text-[10px] text-neutral-500 uppercase font-bold"> <span>Atenuada</span><span className="text-amber-400">Intensidad [{intensidad}]</span><span>Fuerte</span> </div> <input type="range" min="0" max="100" value={intensidad} onChange={(e)=>setIntensidad(Number(e.target.value))} className="w-full h-1 bg-neutral-800 rounded appearance-none accent-amber-500 cursor-pointer" /> </div> </div> {/* Botones de Control */} <div className="flex flex-col sm:flex-row gap-2"> <button onClick={toggleHandsFree} disabled={isLoading} className={`flex-1 py-2 rounded text-xs font-bold flex items-center justify-center gap-2 transition-colors border ${ isHandsFree ? 'bg-red-900/20 text-red-400 border-red-900/50 hover:bg-red-900/40 shadow-[0_0_10px_rgba(239,68,68,0.2)]' : 'bg-indigo-900/20 text-indigo-400 border-indigo-900/50 hover:bg-indigo-900/40' }`} > {isHandsFree ? <MicOff size={14} /> : <Mic size={14} />} {isHandsFree ? 'Detener Escucha' : 'Manos Libres'} </button> <div className="flex gap-2 flex-1"> <button onClick={handleManualPlay} disabled={isLoading || isPlaying || isHandsFree} className="flex-1 bg-emerald-600/20 hover:bg-emerald-600/40 text-emerald-400 border border-emerald-600/50 disabled:opacity-30 py-2 rounded text-xs font-bold flex items-center justify-center gap-1 transition-colors" > {isLoading ? <Loader2 size={14} className="animate-spin" /> : <Play size={14} />} Sintetizar </button> <button onClick={stopAudio} disabled={!isPlaying && !isHandsFree} className="px-4 bg-neutral-800 hover:bg-neutral-700 text-neutral-400 border border-neutral-700 disabled:opacity-30 py-2 rounded text-xs font-bold flex items-center justify-center transition-colors" > <Square size={14} /> </button> </div> </div> {/* Botón para limpiar caché (opcional) */} <div className="text-right"> <button onClick={() => audioCache.clear()} className="text-[8px] text-neutral-600 hover:text-neutral-400 underline" > limpiar caché de audio </button> </div> </div> ); }; // --- ENTORNO ESCRITORIO (sin cambios) --- export default function App() { const [widgets, setWidgets] = useState({ voice: { isOpen: true, pos: { x: window.innerWidth > 768 ? window.innerWidth / 2 - 170 : 20, y: 40 } } }); const toggleWidget = (id) => { setWidgets(prev => ({ ...prev, [id]: { ...prev[id], isOpen: !prev[id].isOpen } })); }; return ( <div className="w-full h-screen bg-neutral-950 bg-[radial-gradient(ellipse_80%_80%_at_50%_-20%,rgba(16,185,129,0.1),rgba(0,0,0,1))] overflow-hidden relative font-sans text-neutral-200"> <div className="absolute inset-0 flex items-center justify-center opacity-[0.02] pointer-events-none"><Settings2 size={500} /></div> {widgets.voice.isOpen && ( <DraggableWidget title="MODULADOR VOCAL KORE" icon={Zap} initialPos={widgets.voice.pos} onClose={() => toggleWidget('voice')}> <VoiceModulatorWidget /> </DraggableWidget> )} <div className="absolute bottom-6 left-1/2 transform -translate-x-1/2 bg-neutral-900/80 backdrop-blur-md border border-neutral-700/50 p-2 rounded-2xl shadow-2xl flex gap-2 z-[100]"> <div className="px-3 flex items-center border-r border-neutral-700/50 text-neutral-500"><LayoutGrid size={20} /></div> <button onClick={() => toggleWidget('voice')} className={`px-4 py-2 rounded-xl flex items-center gap-2 text-sm font-medium transition-all ${

Santa girl swaying her bottle of champagne, releasing x-mas magic, crazy smile face, muscular, red bikini and x-mas hat, dark background with snowflakes --no text --ar 4:5 --sref 1622015213 8675309 --p 41t5sg3 gupt5yl --stylize 1000 --niji 6

Create a detailed, accurately scaled 2D architectural floor plan on a clean white background. The overall rectangular dimensions of the plot should be labeled clearly as 32'-0" in width (horizontal) and 27'-0" in depth (vertical). ‎​The plan must include the following specific rooms and dimensions: ‎​Three Bedrooms: ‎​Bedroom 1 (Top-Left): Labeled 'BEDROOM 1', '11'-0" x 12'-0"'. Includes standard windows and a single door swing. ‎​Bedroom 2 (Bottom-Left): Labeled 'BEDROOM 2', '11'-0" x 11'-0"'. Includes standard windows and a single door swing. ‎​Bedroom 3 (Top-Right): Labeled 'BEDROOM 3', '10'-0" x 12'-0"'. Includes standard windows and a single door swing. ‎​One Kitchen: ‎​Located adjacent to the living space. Labeled 'KITCHEN', '9'-0" x 7'-0"'. Includes a sink and standard counter layout with a window. ‎​One Living & Dining Space ', '10'-0" x 12'-0"'. ‎​Two Toilets: ‎​Toilet 1 (Top-Center): Labeled 'TOILET 1 (ATTACHED)', '5'-0" x 5'-6"', showing standard fixtures. ‎​Toilet 2 as common '7'-0" x 4'-0"', showing standard fixtures. ‎​One Stair inside the plan with dimension '7'-0" x 15'-6"', showing clear treads, an up arrow, and a landing.