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[1]曹学文 石倩 彭文山.板翅式换热器结构优化及其性能数值模拟[J].油气储运,2019,38(09):1048-1053.[doi:10.6047/j.issn.1000-8241.2019.09.013]
 CAO Xuewen,SHI Qian,PENG Wenshan.Structure optimization and performance numerical simulation of plate-fin heat exchanger[J].Oil & Gas Storage and Transportation,2019,38(09):1048-1053.[doi:10.6047/j.issn.1000-8241.2019.09.013]
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板翅式换热器结构优化及其性能数值模拟

参考文献/References:

[1] 顾安忠. 液化天然气技术[M]. 北京:机械工业出版社,2010: 148-150. GU A Z. LNG technology[M]. Beijing:China Machine Press, 2010:148-150.
[2] 朱建鲁,季鹏,李玉星,等. 板翅式换热器封头挡板结构的优 化[J]. 油气储运,2014,33(2):172-179. ZHU J L,JI P,LI Y X,et al. Optimization of shell cover structure of plate-fin heat exchanger[J]. Oil & Gas Storage and Transportation,2014,33(2):172-179.
[3] 李新禹,陈林,郝旭涛,等. 基于FLUENT 的板翅式换热器平直 翅片数值模拟[J]. 化学工程,2018,46(4):62-67. LI X Y,CHEN L,HAO X T,et al. Numerical simulation of plain fins in plate-fin heat exchanger based on FLUENT[J]. Chemical Engineering,2018,46(4):62-67.
[4] 王庆锋,郝帅,李凯,等. 基于CFD 数值模拟的换热器外导流筒 结构选型[J]. 石油机械,2017,45(2):116-121. WANG Q F,HAO S,LI K,et al. CFD-based selection of external flow distributor structure for heat exchanger[J]. China Petroleum Machinery,2017,45(2):116-121.
[5] 高云峰. 板翅式换热器内流体流动特性数值模拟[J]. 建筑技术 开发,2016,43(4):69-71. GAO Y F. Plate-fin heat exchanger inside numerical simulation of fluid flow characteristics[J]. Building Technique Development, 2016,43(4):69-71.
[6] 缪洪康,陈玉爽,吕刘帅,等. 板翅式换热器新型翅片换热特性 数值模拟研究[J]. 核技术,2018,41(10):52-59. MIAO H K,CHEN Y S,LYU L S,et al. Numerical simulation study on heat transfer characteristics of new heat exchange fins[J]. Nuclear Techniques,2018,41(10):52-59.
[7] 焦安军. 换热器入口物流分配特性研究与优化设计[D]. 西安: 西安交通大学,2002:64-71. JIAO A J. Fluid flow distribution performance at heat exchangers entrance and its optimization[D]. Xi'an:Xi'an Jiaotong University,2002:64-71.
[8] ISMAIL L S,RANGANYAKULU C,SHAH R K. Numerical study of flow patterns of compact plate-fin heat exchangers and generation of design data for offset and wavy fins[J]. International Journal of Heat and Mass Transfer,2009,52(17/18):3972-3983.
[9] WEN J,LI Y Z. Study of flow distribution and its improvement on the header of plate-fin heat exchanger[J]. Cryogenics,2004,44(11):823-831.
[10] WEN J,LI Y Z,ZHOU A M,et al. PIV experimental investigation of entrance configuration on flow maldistribution in plate-fin heat exchanger[J]. Cryogenics,2006,46(1):37-48.
[11] 张廷波. 可拆式板式换热器静压变形数值模拟与分析[J]. 石油 机械,2017,45(12):111-114. ZHANG T B. Numerical simulation and analysis of deformation of the detachable plate heat exchanger under static pressure[J]. China Petroleum Machinery,2017,45(12):111-114.
[12] 王少华,文键,李亚梅,等. 带有导流翼的板翅式换热器封头结构优化研究[J]. 化学工程,2013,41(7):24-28. WANG S H,WEN J,LI Y M,et al. Configuration optimization of wing panel header in plate-in heat exchanger[J]. Chemical Engineering,2013,41(7):24-28.
[13] 刘研,孙柏林,韩艳辉. 车用微小通道蒸发器制冷剂流量分配 特性[J]. 同济大学学报(自然科学版),2017,45(2):267-274. LIU Y,SUN B L,HAN Y H. Refrigerant flow distribution characteristics of vehicle mini-channel evaporator[J]. Journal of Tongji University(Natural Science),2017,45(2):267-274.
[14] SHOJAEEFARD M H,ZARE J,NOURBAKHSH S D. Developing a hybrid procedure of one dimensional finite element method and CFD simulation for modeling refrigerant flow maldistribution in parallel flow condenser[J]. International Journal of Refrigeration,2017,73:39-53.
[15] REN T,HRNJAK P. Pressure drop in round cylindrical headers of parallel flow MCHXs:Pressure loss coefficients for single phase flow[J]. International Journal of Refrigeration,2015, 49:119-134.
[16] TUO H,HRNJAK P. Effect of the header pressure drop induced flow maldistribution on the microchannel evaporator performance[J]. International Journal of Refrigeration,2013, 36(8):2176-2186.
[17] ZHANG Z,TIAN J J,LI Y Z,et al. Experimental investigation of two-phase flow distribution in plate-fin heat exchangers[J]. Chemical Engineering Research and Design:Transactions of the Institute of Chemical Engineers,2017,120:34-46.
[18] BYUN H W,KIM N H. Two-phase refrigerant distribution in an intermediate header of a parallel flow minichannel heat exchanger[J]. International Journal of Refrigeration,2015,59: 14-28.
[19] LI Y,LI Y X,HU Q H,et al. Sloshing resistance and gas-liquid distribution performance in the entrance of LNG plate-fin heat exchangers[J]. Applied Thermal Engineering,2015,82:182-193.
[20] 李焱,李玉星,胡其会,等. 一种新型板翅式换热器气液分 配器分配特性的敏感性分析[J]. 化工学报,2013,64(6): 2007-2014. LI Y,LI Y X,HU Q H,et al. Sensitivity analysis for performance of a new gas-liquid distributor used in plate-fin heat exchangers[J]. CIESC Journal,2013,64(6):2007-2014.
[21] 盛骤. 概率论与数理统计[M]. 北京:高等教育出版社,2001: 140-145. SHENG Z. Probability and statistics[M]. Beijing:Higher Education Press,2001:140-145.
[22] 文键. 基于PIV 技术的换热器内部场分布特性研究[D]. 西安: 西安交通大学,2006:74-79. WEN J. The investigation of flow field distribution in platefin heat exchangers based on PIV technology[D]. Xi'an:Xi'an Jiaotong University,2006:74-79.
[23] 文键,李科,刘育策,等. 利用流固耦合分析的板翅式换热器 锯齿型翅片多目标优化[J]. 西安交通大学学报,2018,52(2): 130-135. WEN J,LI K,LIU Y C,et al. Multi-objective optimization of serrated fin in plate-fin heat exchanger by fluid structure interaction[J]. Journal of Xi'an Jiaotong University,2018, 52(2):130-135.
[24] 李玉星,朱建鲁,王武昌. FLNG 液化工艺的关键技术[J]. 油 气储运,2017,36(2):121-131. LI Y X,ZHU J L,WANG W C. Key FLNG liquefaction technologies[J]. Oil & Gas Storage and Transportation,2017, 36(2):121-131.
[25] WEN M Y,LEE C H,TASI J C. Improving two-phase refrigerant distribution in the manifold of the refrigeration system[J]. Applied Thermal Engineering,2008,28(17): 2126-2135.

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备注/Memo

基金项目:山东省自然科学基金资助项目“大型LNG 储罐预应力混凝土超低温性能研究及其优化设计”,ZR2012EEL23。
作者简介:曹学文,男,1966 年生,教授,博士生导师,2006 年博士毕业于西安交通大学动力工程及工程热物理专业,现主要从事天然气处理与加工、油气水多相流理论及应用、海底管道完整性管理等技术的研究工作。地址:山东省青岛市经济技术开发区长江西路66 号,266580。电话:15053208836。Email:caoxw@upc.edu.cn
编辑:李在蓉

更新日期/Last Update: 2019-09-25