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有机朗肯循环径流式汽轮机结构尺寸及等熵效率研究 被引量:8

Structure Size and Isentropic Efficiency of Single-Stage Radial Turbine Based on Organic Rankine Cycle
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摘要 针对现有的有机朗肯循环(ORC)理论优化研究中指定膨胀部件等熵效率为定值这一分析方法的不足,研究了不同压比和绝热指数对径流式单级汽轮机结构尺寸和等熵效率的影响,为基于该类膨胀部件的ORC理论优化研究提供膨胀部件等熵效率的取值依据.结果表明:汽轮机制造条件限制了高绝热指数的工质实现高压比的循环工况;A类情形(绝热指数1.1-1.5)下,汽轮机无量纲结构尺寸大体相同,等熵效率变化规律相似;B类情形(绝热指数1.6-2.3)下,汽轮机无量纲结构尺寸和等熵效率均随绝热指数的变化而明显变化;间隙损失是影响A类情形下汽轮机等熵效率变化规律的主要因素;更高的二次流损失和间隙损失是造成B类情形汽轮机等熵效率低于A类情形的主要原因;各个工质工况间汽轮机等熵效率值的差别最大可达15%左右. With attention to the drawback of specifying expander isentropic efficiency in organic Rankine cycle (ORC) analysis, the structure size and isentropic efficiency of single-stage radial turbine under different pressure ratio and adiabatic index were studied in this paper. Expander isentropic efficiency data were provided for ORC opti- mization based on single-stage radial turbine. The results show that turbine manufacturing conditions limit the working fluid of high adiabatic index to achieve high pressure ratio. In case A (adiabatic index range 1.1--1.5), turbines have obviously the same dimensionless structure size and the isentropic efficiency variation with pressure ratio is similar under different adiabatic index. In case B (adiabatic index range 1.6--2.3), the dimensionless structure size and isen- tropic efficiency change obviously with the change of adiabatic index. Tip clearance losses are the main factors that obviously affect isentropic efficiency variation in case A. Turbines have higher secondary flow losses and tip clearance losses in case B, which lead to lower isentropic efficiency compared to that in case A. In all turbine operating condi- tions, variation in turbine isentropic efficiency can reach about 15%.
作者 王怀信 柳巍栋
机构地区 天津大学机械工程学院
出处 《天津大学学报(自然科学与工程技术版)》 EI CAS CSCD 北大核心 2014年第12期1088-1094,共7页 Journal of Tianjin University:Science and Technology
基金 高等学校博士学科点专项科研基金资助项目(20110032110046)
关键词 有机朗肯循环 径流式单级汽轮机 等熵效率 绝热指数 organic Rankine cycle (ORC) single-stage radial turbine isentropic efficiency adiabatic index
分类号 TK11 [动力工程及工程热物理—热能工程]
作者简介 王怀信(1959-),男,博士,教授.通讯作者:王怀信,wanghx@tju.edu.cn.
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参考文献7

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  • 2Abdelrhman A M,Leong M S,Saeed S A M,et al. Areview of vibration monitoring as a diagnostic tool forturbine blade faults [J]. Applied Mechanics and Materials,2012,229:1459-1463.
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  • 5Di M D,Ewins D J. Experimental measurements of outof-plane vibrations of a simple blisk design using bladetip timing and scanning LDV measurement methods [J].Mechanical Systems and Signal Processing,2012,28:517-527.
  • 6Madhavan S,Jain R,Sujatha C,et al. Vibration baseddamage detection of rotor blades in a gas turbine engine[J]. Engineering Failure Analysis,2014,46:26-39.
  • 7Guru S S,Shylaja S,Kumar S,et al. Pre-emptiverotor blade damage identification by blade tip timingmethod [J]. Journal of Engineering for Gas Turbinesand Power,2014,136(7):072503-1-072503-4.
  • 8Dimitriadis G,Carrington I B,Wright J R,et al.Blade-tip timing measurement of synchronous vibrationsof rotating bladed assemblies [J]. Mechanical Systemsand Signal Processing,2002,16(4):599-622.
  • 9张玉贵,段发阶,方志强,欧阳涛,叶声华.基于叶尖定时的非接触式旋转叶片异步振动分析[J].机械工程学报,2008,44(7):147-150. 被引量:16
  • 10宋立明,罗常,李军,丰镇平.透平叶栅自动气动优化设计方法[J].机械工程学报,2009,45(9):109-113. 被引量:5

引证文献8

二级引证文献37

天津大学学报(自然科学与工程技术版)
2014年 第12期

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