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Review on Transient Operation Optimization of Gas Pipelines |
ZUO Lili1, LIU Huan1, ZHANG Xiaorui1, Feng Liang1,2 |
1. Beijing Key Laboratory of Urban Oil and Gas Distribution Technology; National Engineering Laboratory for Pipeline Safety, China University of Petroleum, Beijing 102249, China;
2. Petrochina Southwest Pipeline Company, Chengdu 610041, China |
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Abstract: When the gas flows through the pipeline, compressors are used to compensate the pressure loss due to the friction by consuming the fuel gas. For the fuel gas used by compressors constitutes a significant part (about 3%~5% of the gas running through the pipeline), it is quite necessary to study how to optimize the operation of the gas pipeline in a better way that the consumer's demands are satisfied and the compressors are set cost-efficiently. The paper summarizes related typical transient operation issues. The mathematical model for optimizing the gas pipeline operation in a transient flow is built, and the commonly used algorithms and the relevant results are analyzed in detail.
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Received: 28 January 2014
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[1] Carter R, Reisner M, Sekirnjak E. Transient optimization-examples and directions[C]. PSIG Annual Meeting, Bonita Springs, Florida, May 11-14, 2010.
[2] Rossi B, Casoetto B, Maitre A L, et al. Computing and optimizingthe available linepack in gas network to address the issue of flexibility[C]. PSIG Annual Meeting, Santa Fe, New Mexico, May 15-18, 2012.
[3] Rachford Jr H H, Carter R G, Dupont T F. Using optimization in transient gas transmission[C]. PSIG Annual Meeting, Gavelston, Texas, May 13-15, 2009.
[4] Hoogwerf M, Hoeven T. Underground storage scheduler[C]. PSIG Annual Meeting, Savannah, Georgia, October 28-30, 2000.
[5] 初飞雪, 吴长春. 输气管道优化运行的研究现状[J]. 油气储运, 2004, 23(11): 3-6. Chu Feixue, Wu Changchun. Optimizing natural gas pipeline operation[J]. Oil & Gas Storage and Transportation, 2004, 23(11): 3-6.
[6] 杨义, 郑宏伟. 中石油主干输气管网稳态优化运行研究[J]. 上海煤气, 2008(2): 10-14. Yang Yi, Zheng Hongwei. Research on steady optimization operation of China Petroleum main gas transmission pipe network [J]. Shanghai Gas, 2008(2): 10-14.
[7] Wright S, Ditzel C, Somani M. Compressor station optimization[C]. PSIG Annual Meeting, Denver Colorado, October 28-30, 1998.
[8] 贺三, 邹永莉, 王欣.天然气管道的运行优化[J]. 油气储运, 2009, 28 (6): 1-7. He San, Zou Yongli, Wang Xin. Operation optimization of natural gas pipeline [J]. Oil & Gas Storage and Transportation, 2009, 28(6): 1-7.
[9] 初飞雪, 吴长春. 输气管道优化运行的研究现状[J]. 油气储运, 2004, 23(11): 3-6. Chu Feixue, Wu Changchun. Research progress of operation optimization of natural gas pipeline[J]. Oil & Gas Storage and Transportation, 2004, 23(11): 3-6.
[10] 高松竹. 输气干线压缩机站运行优化研究[D]. 成都: 西南石油学院, 2002. Gao Songzhu. Operation optimization of compressor stations in gas transmission pipeline[D]. Chengdu: Southwest Petroleum University, 2002.
[11] 赵小平, 万捷. 704泵站-独山子输气管道非稳态运行工况分析[J]. 油 气田地面工程, 2009, 28(4): 10-12. Zhao Xiaoping, Wan Jie. Analysis of transient operating conditions of the gas pipeline from #704 pump station to Du Shanzi[J]. Oil-Gasfield Surface Engineering. 2009, 28(4): 10-12.
[12] 杨毅, 吕晓华. 输气管道的典型瞬态工况分析[J]. 集输工程, 2011, 31 (7): 71-73. Yang Yi, Lv Xiaohua. Analysis of typical transient conditions of the gas pipeline[J]. Gathering Engineering. 2011, 31(7): 71-73.
[13] Wong P, Larson R. Optimization of natural-gas pipeline systems via dynamic programming[J]. IEEE Transactions on Automatic Control, 1968, 13(5): 475-481.
[14] Pietsch U, Rachford Jr H H, Carter R G. Investigating real-world applications of transient optimization[C]. PSIG Annual Meeting, Salt Lake City, Utah, October 17-19, 2001.
[15] Vostry Z, Zaworka J, Jenicek T. Optimum control of gas transport[C]. PSIG Annual Meeting, San Diego, California, October 13-14, 1994.
[16] Sekirnjak E. Optimal control-a realistic goal for gas transmission[C]. PSIG Annual Meeting, Calgary, Ontario, Canada, October 24-26, 2007.
[17] Larson R E, Wismer D A. Hierarchical control of transient flow in natural gas pipeline networks[J]. Society of Petroleum Engineers, 1971(1): 1-10.
[18] Furey B P. A sequential quadratic programming-based algorithm for optimization of gas networks[J]. Automatica, 1993, 29(6): 1439-1450.
[19] Rachford Jr H H, Carter R G. Optimizing pipeline control in transient gas flow[C]. PSIG Annual Meeting, Savannah, Georgia, October 28-30, 2000.
[20] Carter R G, Rachford Jr H H. Optimizing line-pack management to hedge against future load uncertainty[C]. PSIG Annual Meeting, Bern, Switzerland, October 15-17, 2003.
[21] Goldberg D E. Computer-aided gas pipeline operation using genetic algorithms and rule learning[D]. Michigan: The University of Michigan, 1983.
[22] Goldberg D E. Computer-aided pipeline operation using genetic algorithms and rule learning. Part I: Genetic algorithms in pipeline optimization[J]. Engineering with Computers, 1987, 3(1): 35-45.
[23] Mantri V B, Preston L B, Pringle C S. Transient optimization of a natural gas pipeline system[C]. PSIG Annual Meeting, Albuquerque, New Mexico, October 24-25, 1985.
[24] Osiadacz A J. Dynamic optimization of high pressure gas networks using hierarchical systems theory[C]. PSIG Annual Meeting, San Diego, California, October 13-14, 1994.
[25] Dupon T F, Rachford H H. Optimization of power using in transient gas transmission lines[C]. PSIG Annual Meeting, Tulsa, Oklahoma, October 22-23, 1987.
[26] Kelling C, Reith K, Sekirnjak E. A practical approach to transient optimization for gas networks[C]. PSIG Annual Meeting, Savannah, Georgia, October 28-30, 2000.
[27] Mahlke D, Martin A, Moritz S. A simulated annealing algorithm for transient optimization in gas networks[J]. Mathematical Methods of Operations Research, 2007, 66(1): 99-115.
[28] Geißler B, Kolb O, Lang J, et al. Mixed integer linear models for the optimization of dynamical transport networks[J]. Mathematical Methods of Operations Research, 2011, 73(3): 339-362.
[29] Möller M. Mixed integer models for the optimization of gas networks in the stationary case[D]. Darmstadt: Technical University Darmstadt, 2004.
[30] Martin A, Möller M, Moritz S. Mixed integer models for the stationary case of gas network optimization[J]. Mathematical programming, 2006, 105(2-3): 563-582.
[31] Moritz S. A mixed integer approach for the transient case of gas network optimization[D]. Darmstadt: Technical University Darmstadt, 2007.
[32] Domschke P, Geißler B, Kolb O, et al. Combination of nonlinear and linear optimization of transient gas networks[J]. Informs Journal on Computing, 2011, 23(4): 605-617. |
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