Bioreactor 3D Models

Find the best Bioreactor 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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Create a highly detailed and technically accurate 3D model of a 10-liter stirred bioreactor. The model must combine two features:
(1) a visible internal structure with correctly placed impeller, and
(2) external components such as motor, ports, and support legs.

1. Tank and Materials

Main cylindrical tank: borosilicate glass, but only the front half is transparent so the internal components are fully visible.

Back half of the cylinder: opaque stainless steel 316L.

Top lid and bottom base: metallic stainless steel 316L (not transparent).

Cooling jacket: stainless steel around the upper opaque back half.

2. Internal Impeller (CRITICAL REQUIREMENT)

⚠️ This is the most important part; do NOT skip or simplify.

Inside the tank, include one 6-blade Rushton impeller, mounted on a central shaft.

The impeller must be completely visible through the transparent front.

Orientation:

Horizontal flat disk

Blades vertical, evenly spaced around the disk

Correct Rushton geometry (not angled like a fan, not pitched)

Anonymous1765399380

3D model of a 10-liter stirred bioreactor with a partial transparent body. The cylindrical tank must be made of borosilicate glass, but only the front half of the cylinder is transparent so the internal components are fully visible. All other components (top lid, bottom plate, impeller, valves, supports, ports, pipes, baffles, motor housing, shafts, etc.) must be metallic (stainless steel 316L).

General geometry

Inner diameter: 20 cm

Liquid height: 31.8 cm

External cooling jacket around the cylindrical wall (20–40 mm gap).

Use stainless steel for jacket, top lid, bottom plate, and fittings.

Keep the internal cutaway or transparent half so everything inside is visible.

Top-mounted motor

Include a motor + gearbox mounted on top of the lid.

Central shaft enters through a mechanical seal and goes straight down.

Correct Rushton impeller

One 6-blade Rushton turbine.

Flat horizontal blades facing upward, not vertical.

Impeller mounted at one-third of the tank height, approx 10.6 cm above the base.

Disk

Anonymous1765399380

“Create a highly detailed and technically accurate 3D model of a 10-liter bioreactor according to the following engineering specifications.
All dimensions, proportions, and mechanical features MUST match the description.
The model must be suitable for industrial visualization and scientific use.

1. Main Vessel Geometry

– Internal volume: 10 L
– Internal diameter D = 20 cm
– Working liquid height H = 31.8 cm (H/D = 1.59)
– Cylindrical stainless-steel body (316L) or borosilicate glass
– Wall thickness: 3–5 mm
– Bottom: light conical shape (20°–30°)
– Top lid: removable, bolted flange, multiple ports

2. Cooling Jacket

– External annular cooling jacket
– Gap between tank and jacket: 20–40 mm
– Jacket inlet at the bottom, outlet at the top
– External diameter with jacket: 24–26 cm

3. Internal Mixing System
🔹 Agitator Shaft

– Material: stainless steel
– Diameter: 1 cm
– Runs vertically through the top with a mechanical seal
– Motor + coupling must be mounted on top

4. Impeller (CRITICAL SECTION – MUST BE EXA

Anonymous1763155759

“Generate a technically accurate 3D bioreactor with an internal agitation system.
The impeller MUST be a TRUE axial-flow impeller, NOT a fan, NOT a propeller, and NOT a radial turbine.
The impeller must have:

🔹 Correct blade orientation

– 6 blades angled upward 30–45° (positive pitch).
– Each blade must tilt UPWARD along the shaft axis, NOT forward, NOT flat, NOT horizontal.
– The leading edge of each blade must be lower, and the trailing edge must be higher, forming a clear upward pitch.
– The blade surface must push fluid upward, NOT sideways and NOT forward.
– The blade root must attach to the central hub with a VISIBLE upward angle.

🔹 Correct shape

– Thick industrial blades, NOT thin propeller fins
– NOT curved like a household fan
– NOT shaped like airplane propellers
– The blade must look like a pitched axial impeller used in bioreactors (PBT-style or hydrofoil style).

🔹 Correct position

– Place the impeller on the central shaft
– Located at exactly ONE-THIRD (1/3) of the total vessel height
– NOT

Anonymous1763155759

“Create a highly detailed and technically accurate 3D model of a vertical bioreactor / mixing vessel based on the reference image.
The model must include:

– cylindrical stainless-steel main body
– transparent side windows with correct thickness
– top lid with bolts, ports, nozzles, and accurate valve geometry
– electric motor + gearbox on top, with clear housing, vertical shaft, and correct coupling
– a central agitation shaft with a 6-blade axial-flow impeller located at ONE-THIRD (1/3) of the total vessel height measuring from the bottom toward the top.
– The impeller MUST NOT be placed at the bottom. It must be centered vertically at the correct 1/3 height.
– The impeller must be a 6-blade axial-flow type with each blade angled upward 30–45° (positive pitch), pushing fluid upward along the shaft.
The blades must NOT face forward like a fan. They must clearly tilt upward.
– internal baffles placed symmetrically
– conical bottom section with drainage port
– three support legs

Additional requirements:

– Ma

Anonymous1763155759

“Generate a high-quality, realistic 3D model of a vertical stirred-tank bioreactor.
Features:

Main body: transparent or stainless-steel cylindrical vessel.

Top-mounted electric motor connected to a central shaft.

Rushton turbine impeller (6 flat blades) placed exactly one-third of the vessel height above the bottom.

Four vertical internal baffles evenly spaced along the inner wall.

Lower air sparger ring with small perforations.

External cooling jacket surrounding the tank.

Lid equipped with multiple ports: inoculation port, feeding line, sampling port, pH sensor, temperature sensor, exhaust port.

Slightly rounded or conical bottom with a harvest valve.

Supported by three or four metal legs.
The model should be clean, symmetrical, highly detailed and physically accurate. Keep industrial proportions and avoid cartoonish shapes.”

Anonymous1763155759

Anonymous1765337302

Anonymous1764333073

📐 模型总成技术规格
名称：两级协同除臭演示机
尺寸：L1500mm × W600mm × H1800mm（铝型材框架，正面亚克力板，带万向轮）
分区：左化学洗涤、中智能控制、右生物过滤。
整体用透明高强度塑料包围做成一体机，一体机上方顶盖遍布风机。
🔧 第一部分：化学洗涤舱（左侧）
蓝色碱液系统：透明亚克力储罐（Ø200mm×H300mm，内置蓝色LED），配迷你潜水泵。
喷淋塔：透明亚克力方柱（150mm×150mm×500mm），内填白色多面空心球，顶部装喷雾喷嘴。
进气模拟：小型气泵连接超声波雾化器（产生白雾）和醋酸挥发瓶（模拟酸味）。
显示：侧面LED面板，可手动调节显示pH从6.0升至7.5。
🧫 第二部分：生物过滤舱（右侧）
生物滤柱：透明亚克力圆柱（Ø250mm×H600mm），填充黄色PPC球，部分球体表面粘附绿色亲水海绵仿生膜。
营养液系统：绿色LED照明储罐，通过蠕动泵和环形滴滤管向滤柱缓慢滴加绿色液体。
气路连接：透明波纹管将洗涤舱出口气体导入滤柱底部。
显示：侧面LED面板，模拟NH₃浓度从50ppm降至5ppm。
🧠 第三部分：智能控制中心（中部）
面板布局：上部为7英寸触摸屏，中部设带灯按钮（启动/照明/停止），下部为指示灯和蜂鸣器。
控制逻辑：采用Arduino或小型PLC编程，实现一键顺序启动：
点亮储罐LED，启动化学舱泵与气泵（模拟臭气）。
延迟后启动生物舱蠕动泵。
触摸屏动态显示pH、硫化氢、NH₃、VOC等数值及处理效率（>90%）。
灯光效果：内置LED灯带编程流水点亮，引导视觉流程。
整体一定要用一体机形式展示出来，逻辑合理

Anonymous1765103079

Anonymous1759674469

A highly detailed industrial Scheibel extraction column for liquid-liquid extraction, 2-3 meters tall, vertical cylindrical stainless steel shell, multiple agitated compartments separated by horizontal sieve trays, each compartment contains a central turbine agitator with 6 flat blades mounted on a vertical rotating shaft, alternating calming sections without agitation, inlet and outlet nozzles at top and bottom for light and heavy phases, flanged connections, support skirt base, realistic engineering materials (polished stainless steel and glass sections to show internals), transparent side view in some parts to reveal internal agitators and trays, highly detailed, 8K, PBR textures, technical rendering style

Anonymous1764630198

Laboratory magnetic stirrer / mini-bioreactor 3D model, highly detailed for scientific visualization.
The base has a rectangular body divided into two visual zones with clearly differentiated materials:
– Lower structural chassis: stainless steel brushed metal, semi-gloss industrial finish, subtle horizontal micro-scratches.
– Control housing section: light graphite gray anodized aluminum, matte finish with slight metallic grain, darker than the chassis for contrast.

The base includes a digital touchscreen panel tilted at ~30°, glass surface (black glossy screen-glass material) with futuristic UI elements. UI does NOT emit light bloom, no neon overexposure, realistic display brightness. The panel reads the following values but in a subtle LCD style UI:
Temperature: 37.3 °C, pH: 7.2, Aeration: 45%, RPM: 350.

On top, a perfectly transparent empty glass bottle / lab media jar, clean borosilicate glass material, no liquid inside, so internal parts are visible. Through the glass we can clearly see:
– A 4-blade m

Anonymous1764174194

Scientific industrial 3D model of an automated fungal cultivation bioreactor.

Key elements (clearly separated parts):
- Transparent 1 L cylindrical glass bottle, realistically scaled, fully visible.
- Blue GL45 screw cap lid with 4 symmetrical ports at top (no cables).
- Inserted through lid ports, centered and vertical:
* Stainless steel agitation shaft.
* Impeller with 4 sharp, well-defined symmetrical blades, centered at bottom.
* 4 professional stainless steel sensor probes (Temp, Humidity, DO2, Pressure) arranged symmetrically around shaft.
- Extensible motor height-adjustment system, centered and integrated into top module.
- Motor housing unified with control/monitoring box, sleek industrial enclosure, no external cables.
- Control box with 5-inch IPS HMI screen (800x480) showing simple bioprocess graphs.
- Support frame: lightweight aluminum/stainless steel vertical rods, clean lab style.
- Materials must look realistic: glass, brushed metal, matte industrial plastic, polished ceramic base.
- P

Anonymous1764174194

Modelo 3D de un bioreactor de laboratorio con base rectangular dividida en dos secciones: una plancha de cerámica blanca brillante, ligeramente elevada, y una caja de control gris claro con acabado metálico mate. La plancha debe tener textura cerámica pulida y ser más alta que la caja de control. La caja incluye una pantalla digital con indicadores de temperatura, pH, aireación y rpm.

Encima de la base, hay un frasco cilíndrico de vidrio transparente con tapa roscada azul de plástico, que tiene tres puertos metálicos: dos curvos y uno central conectado a un eje de acero inoxidable. Este eje acciona un agitador de paletas también de acero inoxidable, ubicado en el fondo del frasco.

El motor está montado en la parte superior dentro de una carcasa blanca de plástico, sostenida por dos varillas verticales de acero inoxidable que conectan la parte superior con la base.

El diseño debe mostrar claramente la diferencia entre materiales: cerámica, metal, vidrio y plástico. Mantener proporciones realistas y estilo t

Anonymous1764174194