[1]刘霏 崔亚梅.LNG 接收站高低压火炬系统集中布置的设计[J].油气储运,2019,38(12):1414-1418.[doi: 10.6047/j.issn.1000-8241.2019.12.015 ]
 LIU Fei,CUI Yamei.Centralized layout design of high-and low-pressure flare systems at LNG receiving terminals[J].Oil & Gas Storage and Transportation,2019,38(12):1414-1418.[doi: 10.6047/j.issn.1000-8241.2019.12.015 ]
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LNG 接收站高低压火炬系统集中布置的设计

参考文献/References:

[1] 鹿晓斌,张芹,王江涛. LNG 扩建工程火炬系统改造设计与优 化[J]. 天然气化工,2018,43(1):106-110. LU X B,ZHANG Q,WANG J T. Design and optimization of flflare system on LNG extension projects[J]. Natural Gas Chemical Industry,2018,43(1):106-110.

[2] 赵晋云,周兴涛,刘冰,等. 国内外输气管道放空系统设计标准 分析[J]. 油气储运,2013,32(3):274-278. ZHAO J Y,ZHOU X T,LIU B,et al. Analysis on the design standards of venting system for gas pipeline worldwide[J]. Oil & Gas Storage and Transportation,2013,32(3):274-278.
[3] 刘英男,张鑫,单鲁维. 基于特征线法的天然气管道放空时间的 计算[J]. 油气储运. 2014,33(12):1338-1342. LIU Y N,ZHANG X,SHAN L W. Characteristic method based calculation of venting time for natural gas pipeline[J]. Oil & Gas Storage and Transportation,2014,33(12):1338-1342.
[4] 刘杰,刘涛,刘志广. 中亚天然气管道部分管段放空方法与应 用[J]. 石油工程建设,2014,40(1):26-30. LIU J,LIU T,LIU Z G. Gas discharging method and its application for partial sections of Trans-Asia Gas Pipeline[J]. Petroleum Engineering Construction,2014,40(1):26-30.
[5] 刘玉强. 液化烃储罐泄压系统泄放量的计算方法[J]. 油气储运, 2016,35(6):612-616. LIU Y Q. A new calculation method for the flflow rate of pressure relief systems in liquefied hydrocarbon tanks[J]. Oil & Gas Storage and Transportation,2016,35(6):612-616.
[6] 石天雄. PHAST 软件预测火炬的气体扩散和热辐射[J]. 安全、 健康和环境,2010,10(7):35-38. SHI T X. Evaluation flflame gas dispersion and its heat radiation using PHAST software[J]. Safety Health & Environment,2010, 10(7):35-38.
[7] 戴磊,王涛,严雪莲,等. 海洋平台 FLARESIM 火炬模拟计算方 法探讨[J]. 石油化工安全环保技术,2016,32(4):39-44. DAI L,WANG T,YAN X L,et al. Discussion on simulation calculation method of FLARESIM torch for offshore platform[J]. Petrochemical Safety and Environmental Protection Technology,2016,32(4):39-44.
[8] 姚建军,李津,李文龙. 含 H2S 可燃气体在封闭式地面火炬处理 时的扩散模拟与分析[J]. 炼油技术与工程,2016,46(8):16-19. YAO J J,LI J,LI W L. Simulation of dispersion of inflflammable gas containing H2S when being combusted in enclosed ground flflare and analysis[J]. Petroleum Refifinery Engineering,2016, 46(8):16-19.
[9] 夏志,李志军,周晓红,等. 绥中 36-1 油田老平台的火炬系统校 核研究[J]. 中国海洋平台,2009,24(6):46-49. XIA Z,LI Z Z,ZHOU X H,et al. Verify the research of flare system on old platforms of SZ36-1 oil fifield[J]. China Offshore Platform,2009,24(6):46-49.
[10] 郭洲,曾树兵,陈文峰. 用动态模拟技术进行油气田工艺处理 系统开停工方案的研究[J]. 天津化工,2013,27(5):20-23. GUO Z,ZENG S B,CHEN W F. The scenario study of start-up and shutdown of oil and gas processing by dynamic simulation technology[J]. Tianjin Chemical Industry,2013,27(5):20-23.
[11] 郝吉鹏,张雷. 乙烯装置脱乙烷塔的动态模拟分析[J]. 化工技 术与开发,2013,42(7):51-56. HAO J P,ZHANG L. Dynamic simulation of dethanizer in ethylene plant[J]. Technology & Development of Chemical Industry, 2013,42(7):51-56.
[12] 郑志刚,潘澍宇,邓婷婷,等. 碳四容器安全阀火灾工况泄放的 动态模拟[J]. 广州化工,2013,41(22):202-204. ZHENG Z G,PAN S Y,DENG T T,et al. Dynamics simulation of relief valve dischargement on C4 vessel in fire condition[J]. Guangzhou Chemical Industry,2013,41(22):202-204.
[13] 孔录,董秀芹,张敏华,等. 高浓度乙烯精馏塔灵敏板选择的动 态模拟研究[J]. 计算机与应用化学,2014,31(5):562-566. KONG L,DONG X Q,ZHANG M H,et al. Study on sensitive tray selection in high-concentration ethylene distillation column through dynamic simulation[J]. Computers and Applied Chemistry,2014,31(5):562-566.
[14] 冯传令,杨勇. 原油容器安全阀火灾工况泄放量动态模拟[J]. 石油工程建设,2006,32(6):9-12. FENG C L,YANG Y. Dynamic simulation for relief capacity of PSV on crude oil vessel[J]. Petroleum Engineering Construction,2006,32(6):9-12.
[15] 贾保印,曾招朋,白改玲. LNG 储罐底部进料管线操作负压工 况的模拟分析[J]. 石油与天然气化工,2017,46(5):36-40. JIA B Y,ZENG Z P,BAI G L. Simulation and analysis of the negative pressure operation condition of LNG tank bottom feed line[J]. Chemical Engineering of Oil & Gas, 2017,46(5):36-40.
[16] 杨天宇,朱海山,郝蕴,等. 压力容器火灾工况安全阀泄放质量 流量的动态研究[J]. 石油与天然气化工,2014,43(2): 208-212. YANG T Y,ZHU H S,HAO Y,et al. Dynamic simulation of fire relief rate of PSV on pressure vessel[J]. Chemical Engineering of Oil & Gas,2014,43(2):208-212.
[17] 张永铭,杨焘,刘博. 动态模拟在芳烃抽提装置设计中的应 用[J]. 化学工程,2011,39(11):88-91. ZHANG Y M,YANG T,LIU B. Application of dynsim in design of aromatics extraction unit[J]. Chemical Engineering, 2011,39(11):88-91.
[18] 喻健良,郭晓璐,闫兴清,等. 工业规模 CO2 管道泄放过程中的 压力响应及相态变化[J]. 化工学报,2015,66(11):4327-4334. YU J L,GUO X L,YAN X Q,et al. Pressure response and phase transition in process of CO2 pipeline release in industrial scale[J]. CIESC Journal,2015,66(11):4327-4334.
[19] 贾保印,王红,林畅. 天然气管线放空过程的动态模拟与分 析[J]. 石油与天然气化工,2016,45(6):18-24. JIA B Y,WANG H,LIN C. Dynamic simulation and analysis of natural gas pipeline blowdown process[J]. Chemical Engineering of Oil & Gas,2016,45(6):18-24.
[20] 邓励强,李宁,郭开华. LNG 接收站再冷凝器非设计工况运行 动态模拟分析[J]. 石油与天然气化工,2016,45(4):31-37. DENG L Q,LI N,GUO K H. Dynamic simulation analysis on LNG receiving terminal re-condenser’s non-design cases[J]. Chemical Engineering of Oil & Gas,2016,45(4):31-37.

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备注/Memo

作者简介:刘霏,男,1985 年生,工程师,2007 年毕业于西安建筑 科技大学交通工程专业,现主要从事管道系统的设计工作。地址: 河北省廊坊市广阳区和平路 146 号,065000。电话:15933065941。 Email:cppeliufei@cnpc.com.cn
编辑:王雪莉

更新日期/Last Update: 2019-12-25