ANSYS > Case Studies > AcoustiFLO: Enhancing Efficiency and Reducing Costs with IoT

AcoustiFLO: Enhancing Efficiency and Reducing Costs with IoT

Technology Category

Sensors - Airflow Sensors
Sensors - Liquid Detection Sensors

Applicable Functions

Product Research & Development
Quality Assurance

Use Cases

Experimentation Automation
Virtual Prototyping & Product Testing

Services

Hardware Design & Engineering Services
Testing & Certification

About The Customer

AcoustiFLO LLC is a privately held company based in Boulder, Colorado, U.S.A. The company specializes in custom fan application engineering, catering to customers who have efficiency and acoustic performance requirements that cannot be met with off-the-shelf systems. AcoustiFLO has a broad customer base, having worked with most major semiconductor manufacturers. The company boasts hundreds of fan installations around the world, demonstrating its global reach and the widespread demand for its specialized services.

The Challenge

The commercial fan market has been shifting from large custom-designed fan systems to more standardized factory-manufactured units. In response to this trend, AcoustiFLO aimed to develop an efficient small centrifugal fan that could be marketed as a standardized, modular component suitable for packaged air handlers. The concept for this small fan consisted of a centrifugal impeller housed in a vaneless diffuser. However, optimizing the static pressure efficiency of the unit required simultaneous optimization of both the impeller and the diffuser due to their interaction. The engineers at AcoustiFLO found that physical testing was not only cost prohibitive but also failed to provide the necessary insight into the airflow for design improvement. The less powerful CFD software they had been using for simpler design tasks lacked the power to analyze the turbulence and rotational dynamics in the impeller.

The Solution

AcoustiFLO turned to ANSYS Fluent CFD software to overcome these challenges. This technology allowed the engineers to systematically evaluate a large number of design changes before testing a prototype. They were able to verify that the Fluent model predictions were sufficiently close to the prototype test results. The software also enabled them to discover unexpected interactions between the diffuser and the impeller that would have been difficult to assess with physical testing alone. As a result, they were able to develop a prototype design with optimum performance. The use of Fluent CFD software not only provided valuable insights into the airflow inside the impeller and diffuser that would not have been possible with a testing-based approach but also increased the peak efficiency of the unit by 13 percent.

Operational Impact

The use of ANSYS Fluent CFD software brought about significant operational improvements for AcoustiFLO. The ability to systematically evaluate a large number of design changes before testing a prototype led to a more efficient design process. The software also provided valuable insights into the airflow inside the impeller and diffuser, which would not have been possible with a testing-based approach. This led to the discovery of unexpected interactions between the diffuser and the impeller, enabling the engineers to develop a prototype design with optimum performance. The use of this technology not only enhanced the efficiency of the unit but also resulted in substantial cost savings and a shorter development cycle.

Quantitative Benefit