Analyze, manufacture and test Ranque - Hilsch Vortex Tube using new design concept

使用新设计理念分析、制造和测试 Ranque - Hilsch 涡流管

• 批准号: 570932-2021
• 负责人: Mowat, VickiV
• 金额: $ 5.46万
• 依托单位: Sheridan Institute of Technology and Advanced Learning
• 依托单位国家: 加拿大
• 项目类别: Applied Research and Development Grants - Level 2
• 财政年份: 2022
• 资助国家: 加拿大
• 起止时间: 2022-01-01 至 2023-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=755698
• 关键词: Analyze; manufacture; test; Ranque; Hilsch

Ranque - Hilsch Vortex Tube, briefly named "RHVT", is a simple device that has no moving parts and can generate cold and hot gas from compressed gas using a phenomenon called "energy separation". It was first invented in 1933 and improved in 1947. Since then, numerous experiments have been conducted to improve its performance and diversify its industrial applications. It is commercially used in cooling parts of machines, setting solders, electronic control cabinets, environmental chambers, food production, testing of temperature sensors, and dehumidification of gas samples.This proposed collaboration between Nex Flow and Sheridan College research team aims to (1) investigate the effects of i) vortex tube geometry such as the number of inlet nozzles, and ii) tube length with or without heat sink, on temperature separation and isentropic efficiency; (2) study the wall temperature distribution along the whole length of the hot air tube; and (3) experimentally test the new design using several industrial applications. Students from Sheridan College will be involved in this research, through which they will gain practical experiences in air pressurized equipment and enhance their creativity skills. They will learn about advanced manufacturing and advanced numerical modeling software.

Ranque -Hilsch Vortex Tube简称为“ RHVT”，是一种简单的设备，没有运动部件，可以使用称为“能量分离”的现象从压缩气体中产生冷和热气体。它于1933年首次发明，并于1947年得到改善。从那时起，进行了许多实验，以提高其性能并使其工业应用多样化。 It is commercially used in cooling parts of machines, setting solders, electronic control cabinets, environmental chambers, food production, testing of temperature sensors, and dehumidification of gas samples.This proposed collaboration between Nex Flow and Sheridan College research team aims to (1) investigate the effects of i) vortex tube geometry such as the number of inlet nozzles, and ii) tube length with or without heat sink, on temperature separation and等性效率； （2）研究沿热气管整个长度的壁温分布； （3）实验使用多个工业应用测试新设计。 Sheridan College的学生将参与这项研究，通过该研究将获得空气加压设备的实践经验并提高其创造力。他们将了解高级制造和高级数值建模软件。