Competitive technology analysis of a double stage kinetic compressor for 0.5 MW heat pumps for industrial and residential heating

R. Jastrzebski, Daria Kepsu, A. Putkonen, Iikka Martikainen, A. Zhuravlev, Sadjad Madanzadeh
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引用次数: 4

Abstract

Presently, most heat demands globally are covered by burning fossil fuels, e.g., by using coal, which results in harmful emissions. For example, when burning oil, carbon dioxide emissions alone are estimated to be 3.2 times the mass of fuel (oil) burned. Other harmful emissions include those associated with increased health risks, e.g., sulfur dioxide and indirect climate gases. With new regulations following political initiatives such as a decarbonized Europe, the use of fossils is under pressure. Heat pumps provide clean heat production with efficient use of electricity. With the deployment of high-speed kinetic compressors, more applications with heat pumps become viable. The high-speed kinetic turbo compressors have a higher efficiency and better reliability than reciprocating oil-lubricated compressors. Oil-free compressor technology enables the use of the most efficient and ultra-low global warming potential working fluids, which in most cases are sensitive or unsuitable for bearing lubricants. In this work, the technology alternatives for high-speed oil-free compressors are analyzed. Based on the working conditions of 500 kW residential heat pump modules, a case study comparison between bearingless technology and a surface permanent magnet motor having a rotor with two active magnetic bearings is presented.
工业和住宅供热用0.5 MW热泵双级动力压缩机的竞争技术分析
目前,全球大多数热量需求都是通过燃烧化石燃料来满足的,例如使用煤炭,这会导致有害的排放。例如,燃烧石油时,仅二氧化碳的排放量就估计是燃烧的燃料(油)质量的3.2倍。其他有害排放包括与健康风险增加有关的排放,例如二氧化硫和间接气候气体。随着诸如“欧洲去碳化”等政治倡议出台新的法规,化石的使用面临压力。热泵提供清洁的产热和高效的电力利用。随着高速动力压缩机的部署,热泵的更多应用变得可行。与往复式油润滑压缩机相比,高速气动涡轮压缩机具有更高的效率和更好的可靠性。无油压缩机技术可以使用最高效和超低全球变暖潜能值的工作流体,这些工作流体在大多数情况下是敏感的或不适合用作轴承润滑剂。对高速无油压缩机的技术方案进行了分析。基于500kw住宅热泵模块的工况,对无轴承技术与转子双主动磁轴承表面永磁电机进行了对比研究。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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