小型ORC微型涡轮膨胀机设计

L. Talluri
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引用次数: 4

摘要

特斯拉膨胀机最早是由特斯拉在20世纪初发明的。近年来,由于对微型发电和从废流中回收能源的需求日益增加,这种具有成本效益的膨胀技术重新引起了人们的兴趣。在本研究中,实现了一个二维数值模型,并提出了一种用于ORC应用的特斯拉涡轮的设计方法。通过评估各部件的损耗,提出了一种整体优化方法。通过三维计算研究的发展,可以进一步利用二维模型的结果,从而准确地理解流动特性。最后对两个原型进行了设计、实现和测试。前者被设计成以空气作为工作流体。第二个原型机设计用于处理有机流体。实验结果证实了该新兴技术在微尺寸、低入口温度和低膨胀比领域的有效性和巨大的潜在应用机会。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Micro turbo expander design for small scale ORC
The Tesla expander was first developed by N. Tesla at the beginning of the 20th century. In recent years, due to the increasing appeal towards micro power generation and energy recovery from wasted flows, this cost effective expander technology rose a renovated interest. In the present study, a 2D numerical model is realized and a design procedure of a Tesla turbine for ORC applications is proposed. A throughout optimization method is developed by evaluating the losses of each component. The 2D model results are further exploited through the development of 3D computational investigation, which allows an accurate comprehension of the flow characteristics. Finally, two prototypes are designed, realized and tested. The former one is designed to work with air as working fluid. The second prototype is designed to work with organic fluids. The achieved experimental results confirmed the validity and the large potential applicative chances of this emerging technology in the field of micro sizes, low inlet temperature and low expansion ratios.
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