Reservoir 3D Models

Find the best Reservoir 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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Anonymous1761757280

• The desalination unit sits on top of a water body and floats on the surface.
• Water comes into the larger middle reservoir vessel which can encapsulate around 5-10 liters of water.
• The reservoir bottom has several stainless-steel balls that help in storing heat energy and help in dissipating this energy to the water molecules.
• The water is flown into the main reservoir through an attached tube that sucks water in using a small suction pump.
• A large convex lens is attached on top of the main reservoir that reflect all the sunlight rays onto a singular point inside the tank to heat up and evaporate the water to form vapours.
• Another alternative to the lens would be to have large reflective mirrors that reflect these sun rays to the water in the reservoir to heat the water molecules.
• One more alternative method of heating the water is to use a heating element that sits inside the water and is power by a larger solar panel. This introduces more losses in the system but is still a very favourable id

Anonymous1761780803

Anonymous1737729442

Anonymous1761739093

Transformar esta ilustración 2D en una imagen estilo 3D

Anonymous1761739093

主体定位：金沙江干流河道上的坝式水电站，左右岸对称布局，核心建筑沿河道纵向排列（从上游到下游：拱坝 → 引水隧洞 → 地下厂房 → 尾水洞出口）。
地形背景：坝址两岸为陡峭山体，地下厂房嵌入两岸山体内，泄洪洞出口位于坝体两侧岸边，水库位于拱坝上游，形成宽阔水域。
比例基准：拱坝高度（289 米）为核心比例参照，厂房高度（88.7 米）约为坝高的 1/3，引水隧洞长度约为坝高的 4 倍。
二、核心建筑形态与细节
1. 混凝土双曲拱坝（视觉核心）
整体形态：抛物线形双曲拱坝，向上游呈弧形凸起，坝顶平直，坝底与河床紧密衔接，左右两端嵌入两岸山体。
尺寸细节：坝顶长 709 米、宽 13 米，坝底宽 72 米，从坝顶到坝底逐渐增厚，拱冠梁（坝体中部）最薄（顶厚 14 米），向两侧坝肩逐渐加厚。
表面特征：坝体表面为平整混凝土面，分布规则纹理；坝顶设置 6 个表孔（净宽 11 米，间距均匀），坝体中下部设置 7 个深孔（直径 9 米，呈纵向排列），孔口均安装弧形闸门。
2. 泄洪系统（动态视觉补充）
表孔泄洪：坝顶表孔出口呈喇叭形，洪水泄出时形成瀑布状水流，向下游河床倾泻。
深孔泄洪：坝体中下部深孔出口朝向河床，水流呈柱状喷射，冲击力强。
泄洪洞：两岸各 3 条，洞口位于山体半山腰（高程低于坝顶），洞身从山体内部延伸至下游河道，出口为矩形或圆形，水流直接排入下游。
3. 地下厂房与机电设备
厂房形态：左右岸各 1 座地下厂房，厂房顶部为弧形拱顶，入口为长方形洞口（长 388 米、高 88.7 米），洞口设有钢闸门与防护结构。
内部布局（AI 建模可简化呈现）：厂房内沿长度方向均匀布置 8 台发电机组，每台机组搭配对应的水轮机（转轮直径 8.6 米，外露部分呈圆形）与发电机（半伞式结构，顶部有圆形端盖），机组之间有通道与检修平台。
附属结构：厂房外侧连接引水隧洞入口（圆形，直径 14 米，与坝体侧面衔接）和尾水洞出口（圆形，直径 13 米，位于下游岸边）。
4. 水库与输变电设施
水库特征：拱坝上游形成宽阔水库，正常蓄水位 825 米，水面平静，与两岸山体形成鲜明对比，岸边为自然山体斜坡。
输变电设施：厂房顶部或岸边设置开关站，布置 16 台主变压器（长方体形态，高约 10 米），配套架设 500 千伏 / 800 千伏输电线路，电线杆沿两岸山体延伸。
三、材质与视觉风格
主体材质：拱坝、厂房、隧洞为浅灰色混凝土材质，表面粗

Anonymous1761379725

1. 写实工程风（优先推荐）
"白鹤滩水电站写实工程建模，双曲拱坝高 289 米长 709 米，浅灰色混凝土材质带施工纹理，坝顶 6 个表孔 + 中下部 7 个深孔，左右岸对称地下厂房（长 388 米宽 34 米高 88.7 米）嵌入山体，12 条直径 14 米引水隧洞衔接坝体与厂房，6 条直径 13 米泄洪洞出口在两岸山腰，上游蓝绿色水库水面，两岸深绿色植被山体，800 千伏输电线路沿山体延伸，工程精准比例，超细节纹理，自然光光影"
2. 简洁结构风（突出核心形态）
"白鹤滩水电站结构建模，抛物线形双曲拱坝向上游凸起，坝顶平直坝底增厚，左右岸地下厂房对称布局，引水隧洞 + 尾水洞连接坝体与厂房，表孔深孔规则分布，水库与下游河道衔接自然，浅灰混凝土 + 深灰钢闸门 + 蓝绿水面 + 绿色山体，极简工程风，清晰空间关系，核心尺寸比例精准"
3. 渲染可视化风（适合展示场景）
"白鹤滩水电站 3D 渲染建模，高 289 米双曲拱坝质感混凝土，坝顶表孔泄洪瀑布 + 深孔柱状水流，水雾彩虹效果，两岸地下厂房入口钢闸门反光，引水隧洞圆形洞口衔接自然，上游宽阔水库水面倒映山体，输电线路清晰，真实光影投射，工程写实风格，超高清细节，自然色彩搭配"

Anonymous1761379725

draw a 3d structure of automatic drip system

Anonymous1761375671

Anonymous1759737201

Anonymous1760297740

Anonymous1756829599

Create a clean, minimal 3D white model of a horizontal hydroponic system, inspired by NFT (Nutrient Film Technique) greenhouse farming setup.

→ Structure:
- A rectangular frame made of steel or aluminum pipes.
- Overall size approximately 3.0 m long × 1.5 m wide × 1.2 m tall.
- The upper surface supports parallel hydroponic channels.
- Each channel is a long rectangular pipe (100 mm wide × 80 mm tall × 3 m long).
- There are about 12–15 channels arranged side by side with 100 mm spacing.
- Each channel has evenly spaced planting holes (~100 mm diameter) along the top for small plants.
- The channels are slightly sloped (~2–3 degrees) to allow nutrient solution flow from one end to the other.
- At the lower end, a drain pipe collects the nutrient water into a rectangular tank (nutrient reservoir).
- The reservoir box is about 0.6 m × 0.4 m × 0.4 m, located under the frame.
- A small pipe pumps nutrient solution from the reservoir back to the upper end of the channels, forming a closed loop.

→ Geometry and components:
- Frame made of tubular pipes (diameter 40 mm) forming a simple rectangular scaffold.
- Channels rest on horizontal beams at three levels: bottom (reservoir), mid-frame, and top tray support.
- Include one or two small vertical riser pipes connecting the reservoir to the top channels.
- Show the thin “nutrient film” flowing through the channels as a shallow groove (can be left as a small gap line).

→ View composition:
- Main axonometric or isometric view showing the entire system from above (bird’s-eye view).
- Secondary side section showing the water flow cycle:
- Arrows (if possible) to indicate “nutrient drainage,” “nutrient return,” and “nutrient reservoir.”
- Three stacked levels to suggest multi-tier systems.
- Optional: an additional close-up of one channel showing planting holes and internal water layer.

→ Style:
- Use pure white or light gray matte materials, no color or texture.
- Background neutral light gray, soft daylight.
- Clean studio lighting emphasizing form and modular rhythm.
- No vegetation, only planting holes as geometry.

→ Dimensions (metric):
- Channel length: 3.0 m
- Channel width: 0.1 m
- Channel height: 0.08 m
- Frame height: 1.2 m
- Spacing between channels: 0.1 m
- Reservoir: 0.6 × 0.4 × 0.4 m
- Channel slope: 2–3°

→ Output:
- White architectural model emphasizing structure and water circulation logic.
- Include both perspective (bird’s-eye) and section views.

Anonymous1757926457

Anonymous1760786595

Anonymous1759400676

create a 3d model with color and for blude color add water animation

Anonymous1760169502

Anonymous1760161200

CREATE A DAM WITH ARTIFICIAL LAKE AND POWERSTATION 3D MODEL TO USE IN AR

Anonymous1760089007

Anonymous1758695374