A novel optimization model for tackling capacity challenges in natural gas gathering systems

In the layout optimization of natural gas gathering pipeline network, a lot of work has been done, but few scholars focus on the capacity optimization of gas gathering station (short for station). The structural relationship parameters of dendritic pipeline network and the flow parameters of pipelin...

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Bibliographic Details
Published in:Energy (Oxford) 2024-10, Vol.305, p.132377, Article 132377
Main Authors: Zhou, Jun, He, Ying, Chen, Yulin, Zhou, Liuling, Liu, Shitao, Li, Hanghang, Liang, Guangchuan
Format: Article
Language:English
Subjects:
algorithms
energy
Gas gathering station capacity optimization
MINLP
natural gas
Pipeline network layout optimization
Star-dendritic pipeline network
Two-stage topology
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Summary:In the layout optimization of natural gas gathering pipeline network, a lot of work has been done, but few scholars focus on the capacity optimization of gas gathering station (short for station). The structural relationship parameters of dendritic pipeline network and the flow parameters of pipeline network are complicated, which makes it difficult to establish the model, and at the same time, the existence of nonlinear term causes the difficulty of solving the problem. In the current two stage star-dendritic natural gas gathering pipeline network, pipeline sizes and station capacity are not well taken into account for the optimization of pipeline network layout at the same time. In this paper, a consideration station capacity and pipeline sizes: Two-stage star-dendritic network layout optimization model (SCPSTSDLO-Model) is constructed by integrating the factors of site discrete characteristics, station capacity and pipeline sizes, and considering the hydraulic pressure drop conditions of the network, and a solution framework based on the nonlinear processing is proposed, which can obtain the optimization results of optimal affiliation, station type, station site and pipeline sizes at the same time. Five cases are used to verify the validity and accuracy of the model and algorithm, compare the sensitivity analysis and solution algorithm, compare the hydraulic pressure drop conditions, and analyze the application in different forms of pipeline networks. The results show that the SCPSTSDLO-Model and the solution method established in this paper can obtain the optimal solutions under different topologies according to the application requirements, taking into account the capacity of stations and pipeline sizes. •A comprehensive model for pipeline network layout incorporating discrete site characteristics and station capacities.•A concept of intermediate stations is proposed to overcome the difficulties of modeling branched pipeline networks.•The model can obtainpipeline network connection relationship, station capacity, and pipeline specification at the same time.•The adopted method gives faster, more stable and convergent results.
ISSN:0360-5442
DOI:10.1016/j.energy.2024.132377