Experimental Equipment Product List and Ranking from 15 Manufacturers, Suppliers and Companies | IPROS

Last Updated: Aggregation Period:Jun 03, 2026~Jun 30, 2026
This ranking is based on the number of page views on our site.

Experimental Equipment Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Jun 03, 2026~Jun 30, 2026
This ranking is based on the number of page views on our site.

  1. メガケム Kanagawa//Educational and Research Institutions
  2. SETO ENGINEERING 守谷事業所 Ibaraki//Building materials, supplies and fixtures manufacturers
  3. コーレンス Tokyo//Trading company/Wholesale
  4. 4 岩崎電気 光・環境事業部 Saitama//Other construction industries
  5. 4 シマテック Saitama//Facility Design Office

Experimental Equipment Product ranking

Last Updated: Aggregation Period:Jun 03, 2026~Jun 30, 2026
This ranking is based on the number of page views on our site.

  1. Low-budget, space-saving tabletop roll-to-roll experimental machine. SETO ENGINEERING 守谷事業所
  2. TD360 Heat Exchange Experiment Device メガケム
  3. Smoke wind tunnel experimental device メガケム
  4. 4 Small Wind Tunnel Experimental Device 305 メガケム
  5. 5 TD1005 Natural and Forced Convection Heat Transfer Experiment Apparatus メガケム

Experimental Equipment Product List

31~60 item / All 82 items

Displayed results

TD1000 Boyle's Law Experiment Apparatus

Boyle's Law experimental apparatus

This is a tabletop device that demonstrates the relationship between pressure and volume of an ideal gas at a constant temperature (Boyle's Law). It consists of a test cylinder, a reservoir tank, a mechanical pressure gauge, a thermocouple with a digital display, and a digital level gauge, along with a manual pressure pump and a vacuum pump for pressure variation. The experiment is conducted using dry air from the atmosphere while maintaining a constant air temperature. The pressure in the reservoir tank (on the left) is increased or decreased using the manual pump, which moves the liquid piston (oil) in the test cylinder (on the right). Boyle's Law is verified through the changes in air pressure, temperature, and volume confined within the test cylinder. The device includes pressure and temperature sensors, as well as level gauge connection cables, and can collect and analyze various data in real-time on a PC (sold separately) using an optional (sold separately) data acquisition system (VDAS-B).

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TD1006 Boiler Experiment Equipment

Boiler experimental apparatus

This is a tabletop experimental device designed to clarify the relationship between saturated vapor pressure and temperature, and to compare theoretical values. The device, composed of a stainless steel heating container (boiler) and a control unit, is compactly designed for tabletop experiments and conducts variations of saturated vapor pressure with temperature and verification of the Antoine equation. When water is placed in the boiler and heated, the temperature and pressure of the water rise. Sensors read the temperature and pressure, displaying them digitally, while a mechanical Bourdon tube pressure gauge also shows the pressure inside the boiler. Additionally, a front observation window allows for the observation of the boiling process inside the boiler and checking the water level. For safety, the heating element is equipped with a thermostat to limit the heater temperature and a relief valve to limit the boiler pressure. On the right side of the device, there is space to install an optional (sold separately) data automatic collection system (VDAS-F). By using the data automatic collection system, various data can be collected in real-time to a PC (sold separately) and the experimental results can be analyzed.

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TD1007 Air-Cooled Heat Exchanger Experimental Device

Air-cooled heat exchange experimental device

This is a system commonly used in heating and cooling air conditioning equipment for buildings and houses, as well as radiators. It is a tabletop experimental device where heated hot water circulates through copper pipes in a heat exchanger and exchanges heat with the air flowing through a wind tunnel. The device comes with a 32-tube heat exchanger, and as an option (sold separately), a 16-tube or 16-tube fin-type heat exchanger is available, allowing for experiments to be conducted with either heat exchanger installed. The hot water system consists of a tank with a PID-controlled heater, a pump, and a water level gauge, and it digitally displays the inlet and outlet temperatures and flow rate of the hot water. The air supply duct system is composed of an orifice and pressure ports for flow measurement, an electric fan, and a slide valve, and it digitally displays the temperatures at the duct inlet and the heat exchanger inlet and outlet, as well as the orifice differential pressure. In the empty space on the right side of the device, an optional (sold separately) data automatic collection system (VDAS-F) can be installed. By using the data automatic collection system, various data can be collected in real-time to a PC (sold separately) and the experimental results can be analyzed.

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TD1011V Natural Convection and Heat Radiation Experimental Device

Natural convection and thermal radiation experimental apparatus

This device experiments on how heat is transmitted by large changes in pressure and clarifies the differences between radiation and natural convection. It consists of a steel pressure vessel (cylindrical), a control device, a vacuum pump, and a regulator for compressed air. A small heater is suspended in the center of the pressure vessel, and thermocouples for temperature measurement are installed on the heater surface and the vessel wall. The temperatures of the heater and the vessel, as well as the pressure, are displayed digitally. Additionally, the heater surface and the inside of the vessel are blackened to act as ideal thermal radiators. In the experiment, compressed air can be filled up to a maximum of 125 kPa (gauge pressure), and a vacuum of approximately -100 kPa (gauge pressure) can be achieved. Creating a vacuum state reduces heat loss due to convection, allowing for more accurate measurements of heat transfer. The emissivity of the surface is measured, the Stefan-Boltzmann law is demonstrated, and the understanding of dimensionless characteristics using Nusselt number, Grashof number, Prandtl number, and Knudsen number is developed. By using the accompanying data acquisition system (VDAS), various data can be collected and analyzed in real-time on a PC (sold separately).

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TE93 Direct Flow Heat Exchange Experimental Device

Straight-through flow thermal exchange experimental device

We will measure the heat transfer due to forced convection and observe the cooling rate of heated objects in the airflow. The air inhaled from the bell mouth is released into the atmosphere after passing through the experimental area (pin-shaped module), diffusion body, constant-speed fan, flow control valve, and silencer. At the wind tunnel entrance, there is a thermocouple to measure the temperature of the incoming air, and there are two static pressure ports and a pitot tube mounting point before and after the pin-shaped module. The pitot tube can be mounted either in front or behind to measure the velocity distribution in the cross-sectional direction. In the experimental area, pins are arranged perpendicular to the wind direction, and one of them can be removed and replaced with a pin-type heater. The pin-type heater has a thermocouple built into it, allowing us to measure the heat transfer based on the time it takes for the temperature to decrease and the wind speed. The control unit has thermocouple connection ports (2 locations), pressure connection ports (differential pressure at 2 locations), and a heater power switch, and it digitally displays the temperatures at two locations, the differential pressure before and after the pin-shaped module, and the differential pressure between the total pressure and static pressure of the pitot tube. By using the optional (sold separately) data automatic collection system VDAS-B, various data can be collected and analyzed in real-time on a PC (sold separately).

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TM1005 Centrifugal Force Experiment Device

TM1005 Centrifugal Force Experiment Device

This is a tabletop device for experimenting with centrifugal force and angular velocity. The turntable rotates clockwise or counterclockwise using a variable-speed electric motor and a belt. The rotating body has three balance arms with weights and a load sensor, allowing weights to be held at one of five positions on the outer two balance arms in the radial direction, while the load sensor measures the centrifugal force (N) at the specified radius. The central balance arm holds an equivalent weight on the opposite side to prevent unnecessary vibrations during rotation and enhance measurement accuracy. The rotation speed, angular velocity, and centrifugal force (N) are displayed digitally. The transparent protective cover is equipped with an interlock mechanism that stops the rotation when the cover is opened. By using the optional (sold separately) data automatic collection system VDAS-B, various data can be collected in real-time to a PC (sold separately) and the experimental results can be analyzed.

  • Measurement and analysis equipment leasing and rental
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TM1027 Governor Experiment Device

TM1027 Governor Experiment Device

This is a tabletop device that demonstrates how three types of governors (speed controllers) with different mechanisms function. It comes with three types of governors that can be easily installed: Hartnell, Porter, and Proell. One of the governors can be attached to the device, which rotates clockwise or counterclockwise using a variable speed electric motor and a belt. The Porter and Proell types include weights to change the mass of a sleeve that moves up and down with rotation, while the Hartnell type comes with springs of different spring constants and arm weights. The rotation speed, angular velocity, and the vertical lift dimension of the sleeve (in mm) are displayed digitally. The transparent protective cover is equipped with an interlock mechanism that stops the rotation when the cover is opened. By using the optional (sold separately) data automatic collection system VDAS-B, various data can be collected in real-time to a PC (sold separately), allowing for the analysis of experimental results.

  • Measurement and analysis equipment leasing and rental
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Shape analysis experimental device 'HAVER CPA2-1'

Demo tests and rentals available! New software and innovative interface! Efficient for use in laboratories.

The "HAVER CPA2-1" is an experimental device for particle size and shape analysis with a measurement range of 20μm-30μm. It features easy setup with the new CpaServ software and user-friendly menu navigation. Equipped with the new HAVER CPA software, it operates under the current Windows operating system. Additionally, its consistent modular structure allows this product to be combined with various HAVER peripherals. 【Features】 ■ Latest HAVER CpaServ software, user-friendly operation, and diverse analysis options ■ Compact structure and lightweight for easy portability ■ Very good reproducibility with short measurement times ■ Automatic feeder cleaning ■ LED light source, durable, and energy-efficient *For more details, please refer to the PDF materials or feel free to contact us.

  • Measurement and Analysis Equipment
  • Experimental Equipment

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Hot Jet Welding Technology "Welding Processing Case Studies"

Solve liquid leakage and corrosion issues in cleaning tanks and experimental equipment with "welding"! Free processing case examples.

Our company manufactures tanks and aquariums for both industrial and commercial use. Utilizing welding techniques honed over many years, we can provide custom processing tailored to your needs. We offer a wide range of products, including cleaning tanks and equipment for LCD and semiconductor manufacturing, as well as industrial experimental devices and headers made from acrylic. We operate under a consistent system from parts manufacturing to welding and bonding, with a particular expertise in "hot jet welding," where welding rods are melted and applied to the welding surface using hot air to bond them. ★ We are currently offering a "Processing Case Collection" featuring products made through welding processing! (Please check it out from "Download.") 【Examples of Cases (Partial)】 <For Semiconductors>  ■ We want to prevent the metal framework from being corroded by chemicals.  (Using PVC C-channels to prevent framework exposure) <Industrial Experimental Devices>  ■ The pipes and flanges are under load, leading to insufficient strength. We want to make the contents visible.  (Manufacturing ribs with acrylic plates and welding them to ensure transparency and reinforcement) <Headers>  ■ There are no standards for tapered screw parts.  (Using a lathe to newly manufacture tapered parts and welding them) *For more details, please refer to the case collection. Feel free to contact us with any inquiries.

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Vacuum Freeze Drying Experimental Machine MIT-803-3-11

It is possible to achieve extreme drying in a high vacuum, allowing for the production of dried products with excellent reconstitution and solubility!

It is possible to achieve extreme drying in a high vacuum, resulting in a porous finish that produces dried products with excellent reconstitution and solubility. Designed for large-scale production, it can be tailored to fit factory layouts and utilities. Additionally, the heating shelves can be designed not only as fixed units but also as cart-compatible systems. If using a cart-compatible system, it allows for easy movement of large quantities of trays. *For more details, please contact us or download the catalog to view.

  • Other analytical equipment
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Ultraviolet and Ozone Cleaning Modification Experimental Equipment SKT Series

Batch type

We respond to various requests, including the supply of units for irradiation devices, lamps, and power supplies suitable for integrated inline devices, batch devices, and incorporation into conveyors.

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Overview of Nuclear Fusion Power Generation Device (Plasma Heating Device)

A cylindrical sealed container covered with an insulating film! Using light hydrogen gas instead of deuterium gas.

We are seeking collaborative researchers to conduct the fabrication and heating experiments of our demonstration device, the "Nuclear Fusion Power Device (Plasma Heating Device)." The device consists of a cylindrical sealed container covered on the inside with an insulating film such as fluororesin. It will be negatively charged by applying a high-voltage power supply, with an anode placed in the center. In the actual experiments, we will use hydrogen gas instead of deuterium gas. There is no risk of neutron exposure since fusion reactions will not occur. [Overview] - The sealed container is planned to be a cylindrical shape with a diameter of 5 cm and a length of 4 cm. - Hydrogen gas will be used in the actual experiments instead of deuterium gas. - There is no risk of neutron exposure since fusion reactions will not occur. - Patent No. 7005069: Plasma Heating Device (Patent Information Platform) *For more details, please refer to the PDF document or feel free to contact us.

  • Power generation equipment
  • Other power generation
  • Experimental Equipment

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Etching experimental device "Mini Mini Etcher"

Etching with a small amount of chemical solution is possible! Easy replacement of the chemical solution makes it suitable for experiments and development.

The "Mini Mini Etcher" is a device suitable for the production of small-sized circuit boards and the experimentation and development of chemical solutions. It features a lineup including "vertical type left-right spray" with nozzles that move side to side, as well as "horizontal type up-down spray" and "horizontal oscillating type up-down spray." It allows for etching with a small amount of chemical solution and can accommodate the production of circuit boards in units of a few pieces. Additionally, the exchange of chemical solutions is easy, and it is designed to save space. 【Features】 ■ Ideal for the production of small-sized circuit boards and the experimentation and development of chemical solutions ■ Capable of etching with a small amount of chemical solution ■ Supports the production of circuit boards in units of a few pieces ■ Easy exchange of chemical solutions ■ Space-saving design *For more details, please refer to the PDF document or feel free to contact us.

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Etching experimental device 'Mini Mini Etcher Horizontal Type - Up and Down Spray'

Introduction of an etching experimental device with automatic temperature control and a spray time control timer.

The "Mini Mini Etcher Horizontal Type with Up and Down Spray" is an etching experiment device that can be used for various purposes, equipped with automatic temperature control and a spray time control timer. The upper and lower chemical solution spray nozzles perform a swinging motion, allowing results similar to those of large etching devices. The main body is made of PVC (polyvinyl chloride), which is resistant to acids and alkalis. 【Features】 ■ Achieves results similar to those of large etching devices ■ Equipped with automatic temperature control and spray time control timer ■ Made of PVC (polyvinyl chloride) ■ Resistant to acids and alkalis ■ Usable for experiments and tests involving etching solutions, resist, and stripping solutions *For more details, please refer to the PDF document or feel free to contact us.

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Etching experimental device "Mini Mini Etcher Transport Type"

An etching experimental device that can automatically perform tasks from substrate loading, spraying, to substrate unloading.

The "Mini Mini Etcher Transport Type" is an etching experimental device that allows for the input and output of substrates from the entire device. It can automatically perform tasks from substrate input, spraying, to substrate output. The main body is made of PVC (polyvinyl chloride), which is resistant to acids and alkalis. Additionally, it features automatic temperature control and a spray time control timer, making it suitable for various applications. 【Features】 ■ Transport type (automatic operation: reciprocating, manual operation: fixed) ■ Substrate input and output possible from the entire device ■ Automatically performs tasks from substrate input, spraying, to substrate output ■ Equipped with automatic temperature control and spray time control timer ■ Main body made of PVC (polyvinyl chloride) *For more details, please refer to the PDF document or feel free to contact us.

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Shimatani Giken Co., Ltd. Company Profile

Custom-made design and manufacturing! We also assist with mass production equipment after experiments.

Shimatani Giken Co., Ltd. is a device manufacturer that specializes in surface treatment equipment, including plating devices, and has been able to progress with the support of various companies up to today. Considering recent trends, we believe that for Japan's manufacturing industry to move forward, it will become increasingly important to focus on the development and experimental plating devices, electrolysis devices, and surface treatment equipment. Our company aims to create custom experimental and prototype devices for surface treatment from the perspective of those who actually work with them, striving to make them more user-friendly and satisfactory. 【Business Activities】 ■ Development-type electrolysis treatment devices ■ Prototype chemical immersion treatment devices ■ Plating experimental devices [20–200L tanks] *For more details, please refer to the PDF materials or feel free to contact us.

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Lithium-ion electrolyte injection experiment device for large batteries

Lithium-ion electrolyte injection experiment device for large batteries

We design and manufacture various production equipment and experimental devices for lithium-ion (Li-ion) and nickel-metal hydride (Ni-MH) batteries. We accommodate cylindrical, rectangular, and laminated types. Depending on the process, we have demo and experimental machines available, so please feel free to contact us.

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Swirl pump and turbine experimental apparatus

Swirl pump and turbine experimental apparatus

This is a device for extensively experimenting and researching the operational characteristics of centrifugal pumps and turbines (water wheels). A variable speed motor operates the pump, drawing water from a tank and circulating it back to the tank through a strainer, valve, and venturi tube. The pump's rotational speed (rev/min), torque (N.m), output (W), differential pressure across the venturi tube (△P), and inlet/outlet pressure of the pump are digitally displayed, allowing for a wide range of experiments by changing the operating conditions through adjustments to the pump's inlet and outlet valves. By installing one of the separately sold options, such as a Pelton turbine, Francis turbine, or propeller turbine, along with a turbine dynamometer (MFP101a), it is also possible to measure the turbine's rotational speed, shaft torque, and output. Additionally, by utilizing the optional data automatic collection system VDAS (sold separately), various data can be collected and analyzed in real-time on a PC (sold separately).

  • Analysis and prediction system
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Francis turbine experimental apparatus

Francis turbine experimental apparatus

It is a water wheel that uses the reaction of water hitting the runner as rotational force, consisting of an 80mm runner (with 10 blades), 6 adjustable guide vanes, a friction load device (spring scale type), and an inflow pressure gauge, and experiments will be conducted while varying the inflow water volume and load.

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Venturi meter experimental apparatus

Venturi meter experimental apparatus

Measure the pressure distribution at a total of 11 locations along a horizontal semi-transparent Venturi tube, derive the theoretical flow rate using Bernoulli's theorem from each cross-sectional area, and calculate the flow coefficient from different flow rates (maximum flow rate of 27 L/min). The 11 manometer tubes are connected to the upper head, allowing for adjustment of the manometer water head level by operating the air valve. The experiment requires an H1F hydraulic bench (sold separately) for water supply and flow measurement.

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Flow measurement experimental device

Flow measurement experimental device

This is a device for conducting experiments on pressure and flow measurement in a Venturi tube, orifice plate, and floating flow meter, demonstrating the application of the energy equation (Bernoulli) for steady flow. The piping is made of transparent resin to allow observation of internal conditions, and measurements include the loss head caused by each flow meter, as well as the loss head from sudden expansions and 90° elbows. The experiment requires a H1F hydraulic bench for water supply and flow measurement (sold separately).

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Pressure gauge correction experimental device

Pressure gauge calibration experimental device

Calibration of the Bourdon tube pressure gauge will be performed using weights. A skeleton-type Bourdon tube pressure gauge is used so that the internal operation can be learned, allowing observation of the internal tube moving under pressure.

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Orifice flow and jet trajectory experimental apparatus

Flow contraction experimental device through an orifice.

We will analyze the flow from the orifice or nozzle discharged in the vertical and horizontal directions. While measuring the flow reduction, velocity, and discharge amount, we will analyze various discharge characteristics and the effects of Reynolds number, and measure the trajectory of the horizontal jet.

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Flow meter characteristic testing device

Flow meter characteristic testing device

We will conduct characteristic experiments on various flow meters used around us. The inlet and outlet of the piping will measure the pressure loss of the flow meter, and the flow rate will be calculated from the pressure difference, flow coefficient, viscosity, density, etc., of each flow meter. By comparing the experiments of each flow meter, we will understand the accuracy and characteristics of the flow meters and consider their usage. A nozzle-type flow meter is included, but other options (sold separately) such as a Pitot tube flow meter (H40a), a Venturi flow meter (H40b), and an orifice flow meter (H40c) are available. The experiment requires an H1F hydraulic bench (sold separately) for water supply and flow measurement.

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Piping loss head experimental device

Pipe loss head experimental device

This is an experimental device for measuring pressure loss and flow measurement techniques in various pipes and fittings, consisting of a main body and a measuring manometer. Using three types of pathways that include measuring instruments, straight pipes, and bent pipe components, the characteristics of each component are investigated and compared using a manometer and a differential pressure gauge. In addition to learning general measurement methods and the application of Bernoulli's theorem, the experiment will compare pressure losses in a Venturi tube and an orifice plate, as well as determine the pressure loss in a sudden expansion pipe. The Pitot tube system within the device will derive the velocity distribution and flow coefficient in the transparent pipe cross-section direction. The experiment requires a H1F hydraulic bench (sold separately) for water supply and flow measurement.

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Volumetric transfer pump experimental apparatus

Volumetric transfer pump experimental apparatus

An oil pump used to move a liquid of a certain volume, which can be of rotary or piston type, is utilized in many industrial products such as lubrication systems, hydraulic systems, automobiles, and medical devices. It consists of a pump drive motor and control unit (MFP100), an oil tank, and a constant volume flow meter, measuring and digitally displaying the pump inlet and outlet pressure, flow rate, oil temperature, pump shaft speed, torque, and output on the control unit. Additionally, by using the optional data automatic collection system VDAS (sold separately), various data can be collected and analyzed in real-time on a PC (sold separately).

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Jet Stream Collision Experiment Device

Jet Stream Collision Experiment Device

We observe the impact of a precise and rapid high-speed jet stream on the test specimen (blade) and measure its force. As an optional accessory, a 120° conical plate and a 30° inclined plate (H8a) are also available, allowing us to measure the forces on various surfaces subjected to jet impact and understand the laws of momentum to solve jet impact problems.

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Tabletop wind tunnel experimental device

Tabletop wind tunnel experimental device

This open-type suction wind tunnel, despite its compact design, allows for a wide range of experiments related to fluid dynamics. It consists of a large bell mouth with a honeycomb, a two-dimensional converging nozzle, an experimental area (125x125mm), a diffusion section, a protective mesh, a variable-speed fan, and a silencer unit, achieving a flow with minimal turbulence. The included manometers (6 units) and two Pitot tubes positioned before and after the experimental area measure wind speed and the pressure distribution in the wake of the model. The experimental area has four sides made of transparent acrylic panels, with the front and back panels being removable. The device comes with a single force balance measurement system and three types of experimental models (a cylindrical model with pressure holes, a NACA0012 wing model, and a flat plate model), allowing for immediate experiments on drag or lift, as well as pressure distribution experiments around a cylinder. The drag or lift (N) is digitally displayed on the included display unit. Additionally, the single force balance measurement system can be mounted on the underside of the experimental area, enabling the measurement of drag (N) with original test specimens made using a 3D printer or similar methods.

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Small Wind Tunnel Experimental Device 305

Small Wind Tunnel Experimental Device 305

This open-type suction wind tunnel can conduct a wide range of experiments related to fluid dynamics while being compactly designed. It consists of a large bell mouth, a two-dimensional nozzle contraction body, an experimental area (305x305x600mm), a diffusion body, a protective mesh, an axial flow fan, and a silencer unit, achieving a flow with minimal turbulence. The control unit (desktop type) regulates the rotational speed of the axial flow fan and controls the flow velocity in the experimental area. The wind tunnel and control unit mounted on a caster-equipped frame are designed to be very compact, making it easy to change their arrangement. Various options can be added according to the experimental purpose. The optional data automatic collection system VDAS (sold separately) can display measurement data in real-time on a computer (sold separately) and can calculate and graph the collected data, facilitating a smooth progression of experiments.

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Smoke wind tunnel experimental device

Smoke wind tunnel experimental device

This is a specially designed small wind tunnel to visualize the airflow around a model. The compact device can be demonstrated in various locations, such as classrooms, regardless of the laboratory setting, and can be easily moved and stored when not in use. The airflow moves from the bottom to the top. Air entering from the bottom of the device passes through a converging section and a comb-shaped nozzle, then enters observation ducts illuminated on both sides. The lighting clarifies the streamlines around the model. There is a variable-speed fan at the duct exit, which adjusts the flow rate based on volume. A smoke generator is located at the bottom of the device. Smoke (oil droplets) is produced by heated vegetable oil and carbon dioxide supplied from a cylinder, and is sent to the comb-shaped nozzle. From the comb-shaped nozzle, 23 streamlines are released to observe the airflow around the model.

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