A

Fans

Browse our Fans Publications

Read the latest and previous editions of our publications on Fans in our library.

Automotive Blower Design with Inverse Method Applied on Wheel And Volute

A method aimed to reduce the development time of an automotive blower is investigated. The objectives are to improve the efficiency, to reduce the losses and flow unsteadiness. Wheel and volute performances are analyzed on an existing geometry, and results are used to specify targets for a 3D inverse design method.

Application of 3D inverse design based Multi-objective optimization to Axial Cooling Fan with Large tip Gap

In many automotive and on highway/off-highway engine cooling applications the fan has to provide fairly large pressure rise and operate with large tip clearances. This can pose difficult design challenges.

Low Weight High Speed Automotive Fan Design by 3D Inverse Method

The cooling system of modern automobiles is the subject of intense reflections to maximize efficiency and reduce the energy consumption. Large fan diameters are preferred to enhance thermal exchanges over the large surface of the radiator, whereas high rotational speeds are sought to benefit from higher efficiency and low weight of the electrical motor that drive the fan.

Optimization of fan noise by coupling 3D inverse design and automatic optimizer

In many electronic cooling applications there is in increasing demand for high pressure rise compact axial fan design. This can only be achieved by increasing fan rpm, which can result in higher noise.

Design of A Propeller Fan Using 3-D Inverse Design Method and CFD for High Efficiency and Low Aerodynamic Noise

Three-Dimensional Inverse Design Method, where the 3- D blade profile is designed for a specified blade loading distribution, has been applied for designing a propeller fan rotor with high efficiency and low noise.

Design of axial fan using inverse design method

The axial fans for cooling condensers were designed by inverse design code TURBOdesign-1. The parameters of the inverse design were set by DOE (design of experiments). By changing the design parameters, such as the distribution of the blade loading, spanwise circulation distribution and stacking, 32 different fan designs were created for the screening of parameters.

Design of a Box Fan Rotor Using 3-D Inverse Design Method

The axial fans for cooling condensers were designed by inverse design code TURBOdesign-1. The parameters of the inverse design were set by DOE (design of experiments). By changing the design parameters, such as the distribution of the blade loading, spanwise circulation distribution and stacking, 32 different fan designs were created for the screening of parameters.

Turbomachinery Blade Design Using 3-D Inverse Design Method, CFD and Optimization Algorithm

An optimization approach for improving turbomachinery performance was proposed based on a three-dimensional inverse design method, a Computational Fluid Dynamics (CDF) and optimization algorithm.

Generic - Book a Demo

Book a demo and discover the power of TURBOdesign Suite

Enter your details and a member of our team will be in touch with you.

Have you seen our knowledge Hub? Learn more about our technology with our articles, webinars, case studies & white papers.

Enter your details and a member of our team will be in touch with you.

Have you seen our knowledge Hub? Learn more about our technology with our articles, webinars, case studies & white papers.
By submitting this form, you accept the Mollom privacy policy.