Publication detail

Polymer Hollow Fiber Oil Cooler for a Racing Car

Filip Lang

English title

Polymer Hollow Fiber Oil Cooler for a Racing Car

Type

conference paper

Language

en

Original abstract

Heat exchangers constructed from polymer hollow fibers create the potential for a possible replacement of conventional metal heat exchangers. Polymer hollow fibers are chemically resistant, corrosion-resistant, lightweight, easy to shape, and less energy-consuming than conventional metal heat exchangers (lower CO2 production during production). This study focuses on the possibility of using a polymer hollow fiber heat exchanger (PHFHE) for oil cooling in a race car. There is minimal free space in the engine part of the racing vehicle. Therefore, the dimensions of the initially used oil cooler must be respected, so a cooler with a high specific heat flux is needed. The heat exchanger was manufactured on the X-Winder winding machine, which is not designed for the production of heat exchangers, so the software was developed to control the winding device based on user-specified parameters to achieve optimal geomemetry and therefore high heat flux. Measurements were made comparing the thermal performance of the designed heat exchanger and a real-life oil cooler for a racing car. The cooler had a satisfactory thermal performance at all measurement points.

English abstract

Heat exchangers constructed from polymer hollow fibers create the potential for a possible replacement of conventional metal heat exchangers. Polymer hollow fibers are chemically resistant, corrosion-resistant, lightweight, easy to shape, and less energy-consuming than conventional metal heat exchangers (lower CO2 production during production). This study focuses on the possibility of using a polymer hollow fiber heat exchanger (PHFHE) for oil cooling in a race car. There is minimal free space in the engine part of the racing vehicle. Therefore, the dimensions of the initially used oil cooler must be respected, so a cooler with a high specific heat flux is needed. The heat exchanger was manufactured on the X-Winder winding machine, which is not designed for the production of heat exchangers, so the software was developed to control the winding device based on user-specified parameters to achieve optimal geomemetry and therefore high heat flux. Measurements were made comparing the thermal performance of the designed heat exchanger and a real-life oil cooler for a racing car. The cooler had a satisfactory thermal performance at all measurement points.

Keywords in English

heat exchanger, hollow fiber, heat transfer, oil cooler

Released

07.06.2023

ISBN

9781990800245

Book

Sborník z konference 10th International Conference on Fluid Flow, Heat and Mass Transfer, FFHMT 2023

Pages count

8

BIBTEX


@inproceedings{BUT186991,
  author="Filip {Lang},
  title="Polymer Hollow Fiber Oil Cooler for a Racing Car",
  booktitle="Sborník z konference 10th International Conference on Fluid Flow, Heat and Mass Transfer, FFHMT 2023",
  year="2023",
  month="June",
  isbn="9781990800245"
}