Research on the falling film flow and heat transfer characteristics of FLNG spiral wound heat exchanger under sea conditions

被引:0
作者
Chong-Zheng Sun [1 ]
Liang Liu [1 ]
Yu-Xing Li [1 ]
Jian-Lu Zhu [1 ]
机构
[1] College of Pipeline and Civil Engineering/Shandong Provincial Key Laboratory of Oil & Gas Storage and Transportation Safety/Qingdao Key Laboratory of Circle Sea Oil & Gas Storage and Transportation Technology, China University of Petroleum
来源
Petroleum Science | 2022年 / 03期
基金
中国国家自然科学基金; 中国博士后科学基金;
关键词
D O I
暂无
中图分类号
TE95 [海上油气田开发开采机械设备];
学科分类号
082002 ;
摘要
As the key equipment of floating liquefied natural gas(FLNG) process, the performance of spiral wound heat exchanger(SWHE) influences operation costs and reliability of the whole system. The sea conditions destroy the falling film flow state of the refrigeration and then affect the heat transfer performance of FLNG SWHE. In order to design and optimize the SWHE, a cryogenic experimental device of FLNG process and a numerical model of falling film flow have been constructed to study the effects of sea conditions on the falling film flow and heat transfer characteristics of SWHE. The cryogenic experimental results show that the pitching conditions have larger effects on the heat transfer performance than yawing. Under the pitching angle of 7°, the natural gas temperature and gaseous refrigerant temperature increase by 3.22°C and 7.42°C, respectively. The flow rates of refrigerant and feed natural gas have a great impact on the heat transfer performance of SWHE under pitching and compound sloshing conditions. When the tilt angle increases to 9°, the tube structure with outer diameter D = 8 mm and pipe spacing S = 4 mm is recommended to reduce the drying area of the pipe wall surface.
引用
收藏
页码:1276 / 1290
页数:15
相关论文
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  • [1] Falling film evaporation in a triangular tube bundle under the influence of cross vapor stream[J] . Chuang-Yao Zhao,Wen-Tao Ji,Pu-Hang Jin,An-Gui Li,Ju-Fang Fan,Shun Yoshioka,Wen-Quan Tao.International Journal of Refrigeration . 2020 (C)
  • [2] Experimental and numerical simulation study on the offshore adaptability of spiral wound heat exchanger in LNG-FPSO DMR natural gas liquefaction process[J] . Chongzheng Sun,Yuxing Li,Hui Han,Jianlu Zhu,Shaowei Wang,Liang Liu.Energy . 2019 (C)
  • [3] Numerical study of the falling film thickness around the tube bundle with different spacings between spray holes and tubes under tilt and sloshing conditions[J] . Hui Han,Shaowei Wang,Ting He,Yuxing Li,Chongzheng Sun.International Journal of Heat and Mass Transfer . 2019
  • [4] Experiment on adaptability of feed gas flow rate and sea conditions on FLNG spiral wound heat exchanger[J] . Jianlu Zhu,Chongzheng Sun,Yuxing Li,Weiguang Shan.International Journal of Heat and Mass Transfer . 2019
  • [5] Falling film evaporation and nucleate pool boiling heat transfer of R134a on the same enhanced tube[J] . Wen-Tao Ji,Er-Tao Zhao,Chuang-Yao Zhao,Hu Zhang,Wen-Quan Tao.Applied Thermal Engineering . 2018
  • [6] Effect of downward vapor stream on falling film evaporation of R134a in a tube bundle[J] . Chuang-Yao Zhao,Wen-Tao Ji,Pu-Hang Jin,Shun Yoshioka,Wen-Quan Tao.International Journal of Refrigeration . 2018
  • [7] Numerical study on shell-side flow and heat transfer of spiral-wound heat exchanger under sloshing working conditions[J] . Yan Ren,Weihua Cai,Yiqiang Jiang.Applied Thermal Engineering . 2018
  • [8] Effects of spacing bars on the performance of spiral-wound heat exchanger and the fitting of empirical correlations[J] . Simin Wang,Guanping Jian,Xin Tong,Jian Wen,Jiyuan Tu.Applied Thermal Engineering . 2018
  • [9] A dynamic model for FLNG spiral wound heat exchanger with multiple phase-change streams based on moving boundary method[J] . Zhongdi Duan,Tao Ren,Guoliang Ding,Jie Chen,Hui Pu.Journal of Natural Gas Science and Engineering . 2016
  • [10] Experimental investigations of r134a and r123 falling film evaporation on enhanced horizontal tube[J] . Chuang-Yao Zhao,Pu-Hang Jin,Wen-Tao Ji,Ya-Ling He,Wen-Quan Tao.International Journal of Refrigeration . 2016
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