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Wind Tunnel Technology
Our Wind Tunnel Facilities
A wind tunnel is used to artificially create wind. By measuring the aerodynamic characteristics of automobiles, high-speed trains, aircrafts, and other structures in a wind tunnel, data for product development and design can be obtained.
In order to achieve better gas mileage from automobiles, improvement in aerodynamic characteristics and engine efficiency are required.
A wind tunnel is also an essential facility for the technologies contributing to the global environment protection.
Drawing on all of our proprietary technologies, we use a high-precision, totally sheet-steel-based construction method to provide a Gettingen-type (circulative) high-performance wind tunnel at a low cost and within a short construction term.
We propose the optimal plan based on your functional requirements, in accordance with the purposes of your experiments and the available space for installation.
Wind Tunnel Facilities for Automobiles
High-performance rectification
A wind tunnel for aerodynamic measurement needs to provide higher-order rectification with lower pressure loss and no eddy in any unit, including the contracted flow tunnel, honeycomb, screen, and guide vane.
Quick construction and low cost with totally sheet-steel-based construction
While most large wind tunnels are built with ferroconcrete, we adopt totally sheet-steel-based indoor construction with the emphasis on precision, cost, and delivery time. The wind pipe built with our advanced construction techniques utilizing sheet steel panels enables both greater robustness and quicker delivery.
Energy-saving temperature control system
Since air density depends on temperature, a consistent temperature is desirable for aerodynamic measurement. We have developed a temperature control system utilizing our energy-saving technologies.
Automobiles speed tracking system -- reproducing various weather and driving conditions
This system creates airflow in accordance with the rotation speed of an engine to simulate head wind a car experiences under real driving conditions. By precisely controlling the temperature and humidity in the wind tunnel, testers can simulate a variety of weather conditions.
Improving the aerodynamic characteristics of automobiles
Making automotive engines more efficient
| Test chamber dimensions | 14.3m (L) x 7.6m (W) x 3.5m (H) | |
|---|---|---|
| Duct room dimensions | 8.8m (L) x 7.6m (W) | |
| Temperature conditions | Control range: +10°C - +50°C | Control precision: ±0.5°C |
| Humidity conditions: | Control range: 30% - 80% RH | Control precision: ±3% RH or better |
This system enables you to observe what happens to the body of a car and how its engine combustion and radiator performance change, when it runs in a certain environment for a long period of time.
Our vehicle speed tracking system contributes to the reduction of load on the global environment, by helping to improve the performance and safety of automobiles.
Wind tunnel facility for aircraft measurement
Wind tunnel facility for nautical measurement
Wind tunnel facility for building-affected wind measurement
Major Delivery Records of Our Wind Tunnel Facilities
Furyusha, a wind tunnel for aerodynamic measurement of racing cars (Dome Co., Ltd.)
Construction completed in November 2000
Design and supervision: Dome Co., Ltd.
Fabrication: Taikisha Ltd.
Furyusha under construction
Test Environment (Other technologies & services)
