INTEGRATION OF ORGANIC RANKINE CYCLE AND SCROLL EXPANDER MODELS FOR EFFECTIVE DESIGN AND PERFORMANCE USING ORGANIC WORKING FLUIDS

机译：使用有机工作液集成有机RANKINE循环和涡流扩展器模型，以有效地设计和性能

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This paper presents the organic Rankine cycle performance comparison of several working fluids with low global wanning potential and low ozone depletion potential at several heat source temperatures. At an evaporating temperature of 80℃, maximum first law efficiency of 5.8% was achieved with ammonia, while at 145℃ and 180℃, diethyl ether provides the maximum cycle efficiencies of 11.4% and 13% respectively. For the best operating conditions of the ORC model, a suitable two-stage scroll geometry was modeled and its performance was evaluated. Stage I and stage II scroll geometries with volume ratios of 5.3 each were modeled for the supply conditions of 180℃ and 2.6 MPa. The geometries provided a combined shaft work of 8.7 kW at combined expander efficiency of 89% accounting for the losses due to the leakage in the expander.

机译：本文介绍了几种热源温度较低，整体变弱电位和臭氧消耗潜能较低的几种工作流体的有机朗肯循环性能比较。在80℃的蒸发温度下，氨水的最大第一定律效率为5.8％，而在145℃和180℃的温度下，乙醚的最大循环效率分别为11.4％和13％。对于ORC模型的最佳操作条件，对合适的两级涡旋几何模型进行了建模，并对其性能进行了评估。在180℃和2.6 MPa的供油条件下，对容积比为5.3的第一和第二阶段涡旋几何模型进行了建模。几何形状提供了8.7 kW的联合轴功，联合膨胀机效率为89％，这是由于膨胀机泄漏造成的损失。

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《11th international conference on energy sustainability: batteries and electrochemical energy storage ...》|2017年|V001T12A005.1-V001T12A005.10|共10页
会议地点 Charlotte(US)
作者
Arun Kumar Narasimhan; Chatura Wickramaratne; Rajeev Kamal; Punit Singh; D.Y. Goswami;
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Department of Chemical Engineering, University of South Florida Tampa, FL, USA;

Department of Mechanical Engineering, University of South Florida Tampa, FL, USA;

Department of Chemical Engineering, University of South Florida Tampa, FL, USA;

Center for Sustainable Technologies and Interdisciplinary Center for Energy Research, Indian Institute of Science, Bengaluru, Karnataka, India;

Department of Chemical Engineering Clean Energy Research Center University of South Florida Tampa, FL, USA;

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1. Modelling the performance of a scroll expander for small organic Rankine cycles when changing the working fluid [J] . Antonio Giuffrida Applied thermal engineering: Design, processes, equipment, economics . 2014,第1期

机译：更换工作流体时，为小型有机朗肯循环建模涡旋膨胀机的性能
2. Experimental study on an open-drive scroll expander integrated into an ORC (Organic Rankine Cycle) system with R245fa as working fluid [J] . Sebastien Declaye, Sylvain Quoilin, Ludovic Guillaume, Energy . 2013,第juna15期

机译：以R245fa为工作液的集成到ORC（有机朗肯循环）系统中的开放式涡旋膨胀机的实验研究
3. Thermodynamic evaluation on the effect of working fluid type and fluids critical properties on design and performance of Organic Rankine Cycles [J] . Uusitalo Antti, Honkatukia Juha, Turunen-Saaresti Teemu, Journal of Cleaner Production . 2018,第JULa1期

机译：工作流体类型和流体关键特性对有机朗肯循环的设计和性能影响的热力学评估
4. INTEGRATION OF ORGANIC RANKINE CYCLE AND SCROLL EXPANDER MODELS FOR EFFECTIVE DESIGN AND PERFORMANCE USING ORGANIC WORKING FLUIDS [C] . Arun Kumar Narasimhan, Chatura Wickramaratne, Rajeev Kamal, ASME International Conference on Energy Sustainability . 2017

机译：使用有机工作流体的有效设计和性能的有机朗肯循环和滚动膨胀机模型的整合
5. Methods of increasing net work output of organic Rankine cycles for low-grade waste heat recovery with a detailed analysis using a zeotropic working fluid mixture and scroll expander [D] . Woodland, Brandon Jay 2015

机译：通过使用共沸工作流体混合物和涡旋膨胀机进行详细分析来提高低等级废热回收有机朗肯循环的净功的方法
6. Entropy and Entransy Dissipation Analysis of a Basic Organic Rankine Cycles (ORCs) to Recover Low-Grade Waste Heat Using Mixture Working Fluids [O] . Yong-qiang Feng, Qian-hao Luo, Qian Wang, 2018

机译：基本有机朗肯循环（ORCS）的熵和Entransy耗散分析使用混合物工作流体恢复低级废热
7. Geometric Design of Scroll Expanders Optimized for Small Organic Rankine Cycles [O] . Dechesne Bertrand J., Orosz Matthew S., Mueller Amy V, 2012

机译：优化小有机朗肯循环的涡旋扩张器几何设计

INTEGRATION OF ORGANIC RANKINE CYCLE AND SCROLL EXPANDER MODELS FOR EFFECTIVE DESIGN AND PERFORMANCE USING ORGANIC WORKING FLUIDS

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