Vertical farming 3D Models

Find the best Vertical farming 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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Final industrial design prototype showing a SYSTEM of multiple modular vertical farming units.

Depict several identical vertical farming modules arranged together in a small indoor farming setup, not a single unit. Each module consists of stacked rectangular grow levels with an open structural frame, shallow hydroponic grow trays, integrated LED grow light bars beneath each tray, and visible irrigation piping. Units should be placed side by side and slightly offset to clearly show repetition and scalability.

The base of each unit includes a compact nutrient reservoir and control module, indicating automated water and climate management.

Design language is clean, technical, and industrial with precise geometry and realistic proportions.

Materials and color: brushed aluminum or light graphite frames, matte off-white trays, subtle magenta LED glow, natural green plants, and muted technical accents.

Style: realistic product design prototype, engineered and scalable. Not stylized, not

Anonymous1768847759

Final industrial design prototype of a modular vertical farming system.

A multi-level vertical farming unit composed of stacked rectangular grow modules with an open structural frame. Each level includes shallow hydroponic grow trays, integrated LED grow light bars mounted beneath the trays, and visible irrigation piping running vertically along one side. The base features a compact nutrient reservoir and control unit, indicating automated climate and water management.

Design language is clean, technical, and industrial, with precise geometry, straight edges, and realistic proportions suitable for indoor farming environments.

Materials and color: brushed aluminum or light graphite frame, matte off-white grow trays, subtle magenta LED lighting, natural green plants, and muted technical accents in dark grey and soft blue.

Style: realistic product design prototype, high-tech agriculture, functional and engineered. Not stylized, not cartoon, not game-like.

Anonymous1768847759

Industrial design concept of a modular vertical farming system.
Clean geometric forms, straight edges, planar surfaces.
Stacked rectangular grow modules with open metal frames.
Minimal surface detail, no organic shaping.
Transparent panels, visible irrigation piping.
Neutral materials, matte white and brushed metal.
Product design prototype, not a game asset, not a character, not stylized.
- add Thin rectangular trays inside each level

Slight lip/edge

Light grey or off-white

ADD: Thin bars under each tray

Soft pink / purple glow

Emission material

ADD: A few vertical pipes on one side

One horizontal pipe per level

Small cylinders = valves

ADD: Box = control unit

Cylinder = nutrient tank

Small screen detail

ADD VERTICAL LINE STACKS AND MULTIPLE BOXESES PER ROW FOR THE PLANT AREAS, 3D CUBOID SPACES PER ROW
add the cuboids in every row , plus replicate this for two beside eachother
replicate this 3 times next to eachother and make colors realistic

Anonymous1768847759

Anonymous1762597874

Create a precise 3D model of a vertical hydroponic NFT system with four wooden support posts, three stacked rectangular growing channels, and a central base reservoir with two small side reservoirs and visible water pumps and tubing.

Use millimeters for all dimensions.

Overall frame:

Total height: 1000 mm from floor to top of the highest channel.

Overall width (left to right): 1500 mm.

Overall depth (front to back): 400 mm.

Four vertical wooden posts, each 1400 mm tall, 40 mm × 40 mm in cross-section, arranged in a rectangle 1400 mm wide × 300 mm deep. The frame stands around and above the main reservoir.

Growing channels (three identical units):

Each channel is an extruded rectangular trough 1500 mm long, 120 mm outer width, 70 mm outer height.

Internal bottom is flat; wall thickness 3 mm.

On the top face, create six circular holes for net pots, each 50 mm diameter, centered along the length.

Spacing between hole centers: 200 mm, starting 150 mm from one end, then every 200 mm, leaving equal margi

Anonymous1766677947

A standalone futuristic vertical vineyard module designed as a single kitbash block. A compact industrial sci-fi structure with 3-4 stacked horizontal rows of grapevines growing in integrated hydroponic trays. Dense green leaves with visible clusters of purple and green grapes hanging naturally. Clean metallic frame, modular sci-fi panels, vents, bolts, rails, subtle wear, realistic industrial detailing. Integrated white LED grow lights above each row, soft neutral illumination, no dramatic colors. No drones, no computers, no screens, no text, no logos, no signage. Pure agricultural module only.

The structure is self-contained, symmetrical, and suitable for repeating tiling in a larger environment. Neutral gray background, studio lighting, sharp focus. High-end cinematic 3D render, ultra-detailed, realistic materials, physically based rendering, clean sci-fi industrial aesthetic, Unreal Engine / high-end CGI look.

Anonymous1766041724

Anonymous1765891220

Create a realistic 3D model of a smart vertical farm inside a modern house room with windows, a wooden door, and soft daylight entering. The room contains a large vertical farm unit with multiple stacked trays of green plants under UV grow lights. On top are solar panels powering the system; at the base, a blue-glowing microbial fuel cell labeled “Microbial Power Cell.” Transparent water tubes and pumps connect the trays to a blue water tank labeled “Water Transport System.” Include a black AI control box with white digital text “AI Monitor System,” plus sensors and mini cameras on each layer. Add light reflections, cables, and realistic shadows for a futuristic yet home-integrated design.

Anonymous1760776865

Anonymous1761901912

帮我生成一个1000平米智慧农场的模型，里面种满了各种各样的农作物，接满了丰盛的果实，机器人在里面行走维护农作物。该农场位于山清水秀的农村，天气晴朗，漫天白云.

Anonymous1761269045

Model a detailed 3D architectural scene of the Israel Pavilion “Fields of Tomorrow” at Expo Milano 2015, designed by Knafo Klimor Architects.

→ Structure:
- A single vertical farming façade about 70 meters wide and 12 meters tall.
- The wall is slightly tilted backward about 5 degrees from vertical, supported by a visible steel truss frame.
- The façade is composed of modular planting panels arranged in a rectangular grid: each module about 1 meter wide × 1 meter tall × 0.25 meter deep.
- The grid has around 70 modules horizontally and 12 modules vertically (total ≈ 840 modules).
- Each panel includes layered components:
1. Outer vegetation layer (different textures and colors to simulate crops like wheat, barley, corn, and herbs).
2. Soil/substrate layer about 120 mm thick.
3. Drainage layer (50 mm) with integrated drip-irrigation tubes running horizontally behind each module.
4. Waterproof backing membrane fixed to a steel frame.
- Structural frame behind the green wall: vertical steel mullions every 1 m, horizontal rails every 0.6 m, triangular truss beams connecting to the pavilion roof.
- Maintenance corridor (~0.2 m gap) between modules and main wall.

→ Geometry and surroundings:
- The pavilion base includes a concrete slab and a small public forecourt with green lawn, trees, benches, and people for scale.
- In section, include one human figure (~1.75 m tall) beneath the wall to show scale.
- Add a tree silhouette near the façade to emphasize outdoor context.
- Create a section-cut version showing the layered construction of the wall: modules, soil, irrigation tubes, support frame, and interior space behind.

→ Materials and textures:
- Vegetation tiles alternate between light green (fresh crops), dark green (dense herbs), golden yellow (wheat), and brown (bare soil) patches.
- Steel frame painted light gray with matte finish.
- Drip-irrigation pipes dark gray or black PVC.
- Base concrete floor in neutral light gray tone.
- Background sky bright blue with soft daylight.
- Use realistic PBR materials for leaves and soil.
- Apply natural lighting and cast mild shadows to highlight surface texture and depth variation.

→ Camera and render setup:
- Perspective view from slightly elevated human eye level (around 2 m above ground) looking diagonally toward the façade at 30° angle.
- Include a close-up detail render of a 3×3 module fragment showing irrigation and substrate layers.
- Optional section view showing structural truss and tilted façade geometry.

→ Output expectations:
- Clean, accurate geometry suitable for export to Rhino or SketchUp (no baked vegetation scatter).
- Metric scale units.
- Keep all modules aligned to grid for parametric editing.
- Label dimensions if possible: 1 m × 1 m modules, 0.25 m depth, 5° tilt.

Anonymous1757926457