Energy efficiency evaluation and optimal operation of micro integrated energy system in offshore oil and gas engineering

被引：0

作者：

Yan W. ^{[1
]}

Xing X. ^{[2
]}

Chen J. ^{[1
]}

Niu H. ^{[1
]}

Yang Z. ^{[3
]}

Wu J. ^{[2
]}

Lou Q. ^{[1
]}

Han R. ^{[2
]}

Qiu R. ^{[2
]}

机构：

[1] NR Electric Co., Ltd., Nanjing

[2] School of Electrical Engineering and Automation, Wuhan University, Wuhan

[3] Offshore Oil Engineering Co., Ltd., Tianjin

来源：

Dianli Zidonghua Shebei/Electric Power Automation Equipment | 2022年 / 42卷 / 09期

关键词：

energy efficiency evaluation; offshore micro integrated energy system; offshore oil and gas engineering; optimal operation; standardized modeling;

D O I：

10.16081/j.epae.202204027

中图分类号：

学科分类号：

摘要：

At present, there is no effective evaluation method of energy utilization efficiency for micro integrated energy system in offshore oil and gas engineering, which cannot effectively compare the energy utilization efficiency under various operation modes, making it difficult to choose the reasonable operation mode. In order to optimize the operation mode of the micro integrated energy system in offshore oil and gas engineering, according to the material energy flow structure of system, the energy hub matrix modeling method is used to establish the standardized model of the micro integrated energy system in offshore oil and gas engineering. Then, the comprehensive energy efficiency evaluation index of the micro integrated energy system in offshore oil and gas engineering is proposed, and the information entropy is used to calculate the weight distribution of each index. Furthermore, the optimization model for micro integrated energy system in offshore oil and gas engineering that considers energy efficiency level and economy comprehensively is proposed, and the energy efficiency index values and the comprehensive energy efficiency evaluation results before and after optimization are compared. The calculative results show that the optimizing operation scheme can significantly improve the energy utilization efficiency of system, so that achieving the optimum comprehensive energy efficiency evaluation results. © 2022 Electric Power Automation Equipment Press. All rights reserved.

引用

页码：203 / 210

页数：7

共 17 条

[1]

ZHANG Anan, ZHANG Hong, QADRDAM M, Et al., Energy hub based electricity generation system design for an offshore platform considering CO<sub>2</sub>-mitigation, Energy Procedia, 142, pp. 3597-3602, (2017)

[2]

SUN Dawei, XIE Xiaorong, WANG Jianfeng, Et al., Integrated generation-transmission expansion planning for offshore oilfield power systems based on genetic Tabu hybrid algorithm[J], Journal of Modern Power Systems and Clean Energy, 5, 1, pp. 117-125, (2017)

[3]

CRAIG C, ISLAM M., Integrated power system design for offshore energy vessels and deepwater drilling rigs, IEEE Transactions on Industry Applications, 48, 4, pp. 1251-1257, (2012)

[4]

MENG Qingwei, GUAN Qingshuang, ZHANG Lixia, Et al., Steady-state modeling and energy flow analysis of offshore multi-platform gas-electricity interconnection system, Electric Power Automation Equipment, 40, 11, pp. 61-70, (2020)

[5]

ZHANG Hang, WANG Xiuli, ZHANG Qiwen, Et al., Reliability evaluation of offshore oil power system considering production indexes, Power System Technology, 45, 2, pp. 649-656, (2021)

[6]

LONG Gaoxiang, YU Qingguang, LI Xue, Et al., Structural optimization of offshore oilfield interconnected power system considering reliability, Power System Technology, 44, 12, pp. 4677-4684, (2020)

[7]

LI Yang, WU Ming, ZHOU Haiming, Et al., Study on some key problems related to regional multi energy system based on universal flow model, Power System Technology, 39, 8, pp. 2230-2237, (2015)

[8]

CHEN Baisen, LIAO Qingfen, LIU Dichen, Et al., Comprehensive evaluation indices and methods for regional integrated energy system, Automation of Electric Power Systems, 42, 4, pp. 174-182, (2018)

[9]

ZHANG Tao, ZHU Tong, GAO Naiping, Et al., Optimization design and multi-criteria comprehensive evaluation method of combined cooling heating and power system, Proceedings of the CSEE, 35, 14, pp. 3706-3713, (2015)

[10]

XUE Yixun, GUO Qinglai, SUN Hongbin, Et al., Comprehensive energy utilization rate for park-level integrated energy system, Electric Power Automation Equipment, 37, 6, pp. 117-123, (2017)

← 1 2 →