2019 Vol.2 Dec. No.6

• Title: High-pressure differential operation optimization method for long-distance pipelines of oilfield storage and transportation proj
• Name: Bowen Mizzaro
• Company: University of Canberra
• Abstract:

  Oilfield storage and transportation engineering is an important project for energy exchange in the country. During the operation of long-distance pipelines with high pressure differences, there are problems such as slow transportation speed and excessive pressure on the pipeline. Optimization method for high-pressure differential operation of long-distance pipelines in transportation engineering. The pipeline parameters are calculated first, and the maximum natural height difference is calculated based on this, and then the pipeline temperature stabilization and temperature drop processing is performed. Finally, the optimization method is realized through online pipeline control. The proposed optimization method is experimentally verified, and it is found that it can effectively increase the operating speed and reduce the pressure on the pipeline. It proves that the optimization method can improve the operating efficiency while ensuring the safe operation, and has certain use value.

• Keyword: Oilfield Storage and Transportation; Long-Distance Pipelines; High Pressure Difference; Operation Optimization;
• DOI: 10.12250/jpciams2019060639
• Citation form: Bowen Mizzaro.High-pressure differential operation optimization method for long-distance pipelines of oilfield storage and transportation proj[J]. Computer Informatization and Mechanical System, 2019, vol. 2, pp. 143-150.

[1] Xiong Haoyun, Wu Changchun, Yu Dejun. Compressor power fitting function suitable for optimization of gas pipeline operation scheme [J]. Gas Storage and Transportation, 2017, 36(6):734-738.

[2] Li Bo, Kang Yang, He Miao, et al. Optimization method of startup scheme of compressor unit in gas station of gas pipeline [J]. Gas Storage and Transportation, 2017, 36(4):416-420.

[3] Liu Enbin, Liu Yuting, Yang Yi. Research progress on transient operation optimization technology of natural gas pipelines [J]. Science Technology and Engineering, 2017, 17(21):175-183.

[4] Shen Yuan, Jiang Zhibo, Huang Xiuqian, et al. Research on Comprehensive Optimization Method for Fault Location of High Voltage Transmission Lines [J]. Electrical Measurement and Instrumentation, 2017, 54(4):74-79.

[5] Chen Aiping. Numerical simulation of operating parameters of high pressure cylinders of steam turbines based on sequence correlation [J]. Science and Technology Bulletin, 2017, 33(10):125-128.

[6] LI Xing. Multi-objective Reactive Power Optimal Control for AC / DC Systems Considering Converter Station Loss Characteristics [J]. Power System Protection and Control, 2017, 45(9):119-125.

[7] Liu Changsheng, Xie Yunyun, Zhou Qian, et al. Research on optimization method of power grid restoration path with HVDC transmission [J]. Chinese Society for Electrical Engineering, 2017, 37(9):2579-2588.

[8] Yuan Ying, Wei Zhinong, Chen Hongtao, et al. Optimization of MMC-HVDC control parameters based on differential evolution membrane calculation [J]. Journal of Electric Power Systems and Automation, 2017, 29(7):13-19.

[9] Yu Jinshu. Comprehensive Optimization Strategy of Turbine Operation Mode under Large Flow Extraction Conditions [J]. Thermal Power Engineering, 2017, 32(6):123-128.

[10] Fang Chao, Ma Shihu, Cai Biaohua, et al. Low-noise optimization design of the flow channel of the high-pressure differential flow regulating valve [J]. Ship Science and Technology, 2018，11(7):32-36.