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Carbon 3D Models

Find the best Carbon 3D Models, free download in STL, FBX, GLB, OBJ, 3MF, USDZ for 3D modeling and creation in Blender, 3D printing, game developing, animation, eCommerce, AR/VR and etc. Generated by Tripo AI 3D Generator.

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Here's a more accurate and detailed prompt: "Create a professional 3D model of an industrial carbon extraction system based on the provided diagram. Follow this exact process flow sequence: 1. **Factory** (above ground) - Industrial building where CO₂ combustion and production occurs 2. **Delivery pipes** - Pipeline system transporting exhaust from factory downward 3. **Absorption chamber** (underground) - Chemical absorption unit using extensive tubular networks to capture CO₂ from exhaust gases 4. **Pressure regulator with auxiliary tank** (underground) - Removes excess sodium pressure touary tank 5. **Nickel catalyzed reactor** (underground) - Processing area where carbon dioxide is added to hydrogen in the presence of nickel catalyst to produce solid carbon 6. **Processing unit** (above ground) - Collects the carbon output 7. **Powder pump** - Creates a partial vacuum to suck by reducing pressure, then pushes the heavy powder 8. **Delivery pipes** (going back underground) - Pipes to uptake the carbon powder for separation from water 9. **Underground storage compartment** - Holds the solid carbon from water as it awaits to be pumped to the surface for packing and transportation 10. **Surface delivery pipes** - Final transportation system with control valves Requirements: - Use realistic industrial materials (metal, concrete textures) - No labels, annotations, or text on the model - Maintain accurate spatial relationships between components - Include proper pipeline connections between each stage - Show both above-ground and below-ground sections clearly - Use professional lighting and rendering for presentation quality - Create a photorealistic, not cartoonish appearance"
Anonymous1760100798
This model demonstrates the Law of Conservation of Mass using a common chemical reaction between baking soda (sodium bicarbonate, NaHCO₃) and vinegar (acetic acid, CH₃COOH). I created this visual diagram to illustrate how mass remains constant during a chemical reaction, showing 5 grams of baking soda combined with 10 grams of vinegar producing exactly 15 grams of products. The model represents the reactants before the chemical reaction on the left side and the products (sodium acetate, water, and carbon dioxide gas) on the right side after the reaction occurs. I designed this using clear visual representations of the chemical formulas, mass measurements, and a before-and-after comparison to emphasize that although the substances change form and chemical composition, the total mass remains unchanged at 15 grams. The science involved is the Law of Conservation of Mass, which states that matter cannot be created or destroyed in a chemical reaction—only rearranged—meaning all atoms present in the reactants are still present in the products, just bonded differently to form new chemical compounds.
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citric acid compound 3d modle chem
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GERE SOBRE UMA SUPERFICIE PLANA, ONDE A IMAGEM É A VISÃO SUPERIOR DA PEÇA
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Citric acid compound
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