Maximizing ORC performance with optimal match of working fluid with system design

Barse Kirtipal A.; Mann Michael D.

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Maximizing ORC performance with optimal match of working fluid with system design

机译：通过系统设计与工作流体的最佳匹配来最大化ORC性能

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This article compares constrained system design to non-constrained system design for the basic Organic Rankine Cycle (ORC). The 12 working fluids studied include eight dry-type, three isentropic, and one wet type fluids. The ORC model was developed using Aspen HYSYS (R) and validated with data obtained from the literature. The constrained design compared the performance of working fluids for a fixed heat exchanger and turbine configuration. A non-constrained design was studied by altering the design specifications for the heat exchangers and turbine to match the working fluid. An energy and exergy analysis was performed using first and second law efficiency. The exergy analysis was also used to study exergy destruction across the ORC components. Cost analysis was performed by comparing the levelized cost of electricity (LCOE) for each working fluid in both designs.

机译：本文将基本有机朗肯循环（ORC）的约束系统设计与非约束系统设计进行了比较。研究的12种工作流体包括八种干型，三种等熵和一种湿型。 ORC模型是使用Aspen HYSYS（R）开发的，并使用从文献中获得的数据进行了验证。受限设计比较了固定热交换器和涡轮机配置中工作流体的性能。通过更改热交换器和涡轮机的设计规格以匹配工作流体，研究了非约束设计。使用第一定律和第二定律效率进行能量和火用分析。火用分析还用于研究整个ORC组件的火用破坏。通过比较两种设计中每种工作流体的平均电费（LCOE）进行了成本分析。

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《Applied thermal engineering: Design, processes, equipment, economics》 |2016年第null期|共9页
作者
Barse Kirtipal A.; Mann Michael D.;
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正文语种 eng
中图分类热力工程、热机;热力工程理论;
关键词
Organic Rankine cycle; Organic fluids; Thermodynamic analysis; Exergy analysis; Economics; Optimization;

机译：有机朗肯循环;有机流体;热力学分析;火用分析;经济学;优化;

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专利

1. Maximizing ORC performance with optimal match of working fluid with system design [J] . Barse Kirtipal A., Mann Michael D. Applied thermal engineering: Design, processes, equipment, economics . 2016,第Null期

机译：通过系统设计与工作流体的最佳匹配来最大化ORC性能
2. Analysis on optimal working fluid flowrate and unstable power generation for miniaturized ORC systems [J] . 刘克涛, 朱家玲, 胡开永, 中南大学学报（英文版） . 2016,第005期

机译：小型ORC系统的最佳工作流体流量和不稳定发电分析
3. Performance modelling and greenhouse impact assessment of a micro-ORC energy system working with HFCs, low GWP fluids and mixtures [J] . Michele Bianchi, Lisa Branchini, Andrea De Pascale, E3S Web of Conferences . 2021,第a期

机译：高压渣能量系统的性能建模与温室影响评价，低GWP流体和混合物
4. Multi-level Design and Selection of Optimum Working Fluids and ORC Systems for Power and Heat Cogeneration from Low Enthalpy Renewable Sources [C] . Athanasios I. Papadopoulos, Mirko Stijepovic, Patrick Linke, European symposium on computer aided process engineering;ESCAPE 22 . 2012

机译：低焓可再生能源发电和热电联产的多级设计和最佳工作流体和ORC系统选择
5. Performance Assessment of Vapor Compression Systems Utilizing Low Global Warming Potential Hydrocarbons and Carbon Dioxide as Working Fluids [D] . Aljohani, Bassam S. 2018

机译：利用低全球变暖潜在烃和二氧化碳作为工作流体的蒸汽压缩系统的性能评估
6. Developing optimal input design strategies in cancer systems biology with applications to microfluidic device engineering [O] . Filippo Menolascina, Domenico Bellomo, Thomas Maiwald, 2009

机译：在癌症系统生物学中开发最佳输入设计策略并将其应用于微流控设备工程
7. Comparison and Analysis of the Performance of Two New Working Fluids and Conventional Refrigerants in ORC System [O] . 政刘 2017

机译：两种新工作液和常规制冷剂在兽人系统性能的比较与分析
8. Comparison of Working Fluids Used in ORC Waste-Heat-Recovery Systems. [R] . Krazinski, J. L., Buyco, E. H., Bushby, H. M. 1981

机译：ORC废热回收系统中工作流体的比较。

Maximizing ORC performance with optimal match of working fluid with system design

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