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Article type: Research Article
Authors: Zhou, Juna; * | Peng, Jinghonga; * | Liang, Guangchuana | Chen, Chuanb | Zhou, Xuana | Qin, Yixionga
Affiliations: [a] Petroleum Engineering School, Southwest Petroleum University, Chengdu, China | [b] Oil & Gas Field Productivity Construction Department of Tarim Oilfield Company, Korla, China
Correspondence: [*] Corresponding authors. Jun Zhou and Jinghong Peng, Petroleum Engineering School, Southwest Petroleum University, Chengdu 610500, China. E-mail: zhoujunswpu@163.com (Jun Zhou); pjhx1995@163.com (Jinghong Peng).
Abstract: Natural gas transmission network is the major facility connecting the upstream gas sources and downstream consumers. In this paper, a multi-objective optimization model is built to find the optimum operation scheme of the natural gas transmission network. This model aims to balance two conflicting optimization objective named maximum a specified node delivery flow rate and minimum compressor station power consumption cost. The decision variables involve continuous and discrete variables, including node delivery flow rate, number of running compressors and their rotational speed. Besides, a series of equality and inequality constraints for nodes, pipelines and compressor stations are introduced to control the optimization results. Then, the developed optimization model is applied to a practical large tree-topology gas transmission network, which is 2,229 km in length with 7 compressor stations, 2 gas injection nodes and 20 gas delivery nodes. The ɛ-constraint method and GAMS/DICOPT solver are adopted to solve the bi-objective optimization model. The optimization result obtained is a set of Pareto optimal solutions. To verify the validity of the proposed method, the optimization results are compared with the actual operation scheme. Through the comparison of different Pareto optimal solutions, the variation law of objective functions and decision variables between different optimal solutions are clarified. Finally, sensitivity analyses are also performed to determine the influence of operating parameter changes on the optimization results.
Keywords: Natural gas transmission network, operation optimization, compressor station, multi-objective optimization, ɛ-constraint method
DOI: 10.3233/JIFS-201072
Journal: Journal of Intelligent & Fuzzy Systems, vol. 40, no. 3, pp. 4345-4366, 2021
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