Optimization of long-distance and large-scale transmission of renewable hydrogen in China: Pipelines vs. UHV

• Published in: International journal of hydrogen energy Vol. 47; no. 58; pp. 24635 - 24650
• Main Authors: Wu, Wei-Ping, Wu, Ke-Xing, Zeng, Wei-Kang, Yang, Peng-Cheng
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 08.07.2022
• Subjects: Hydrogen pipeline; Natural gas pipeline; Optimal planning; Renewable hydrogen; Transmission system; UHV; Renewable hydrogen; UHV; Transmission system; Optimal planning; Natural gas pipeline; Hydrogen pipeline
• ISSN: 0360-3199; 1879-3487
• DOI: 10.1016/j.ijhydene.2021.10.066

The reverse distribution of renewable energy resources and load centers makes exploring the optimal transmission mode of long-distance and large-scale renewable hydrogen the key to solving the bottleneck of renewable hydrogen development. This study incorporates hydrogen pipeline (HGP), natural gas pipeline (NGP), and Ultra High Voltage (UHV) into an optimal planning model framework and analyzes the optimal transmission mode, quantity, network, and cost of large-scale renewable hydrogen in China. Constructing a sensitivity analysis framework, this study also investigates the optimal transmission mode changes under different scenarios. The results show that the optimal mode of large-scale renewable hydrogen transmission in the province is NGP, and 5.4% of supply level is the critical point to export renewable hydrogen inter-provincially. It switches to the combination of NGP and HGP when the unit transmission costs of these elements decrease to a certain proportion simultaneously or switches to HGP when the unit transmission cost of HGP decreases more than that of NGP. The complementary transmission mode of NGP and UHV is the optimal mode for inter-provincial transmission, and the HGP can be put into use for inter-provincial transmission only when the unit transmission cost of which is reduced to less than 25%. Jilin is the key node in the NGP network, and Tibet and Gansu are the key nodes in UHV network, and the participation or absence of which will have significant impact on the renewable hydrogen transmission system. Only minor adjustments to the transmission technical parameters of NGP or HGP can promote the qualitative overflight of the optimal transmission volume of them so as to achieve the target optimization at the minimum cost. •Optimal planning model framework for renewable hydrogen transmission is proposed.•The optimal transmission mode, network, and cost of renewable hydrogen are analyzed.•Thresholds and spatial features of the optimal plan vary with hydrogen supply level.•Renewable hydrogen will be transmitted inter-provincially at 5.4% of supply level.•Multiple equilibria for modes selection are observed by cost sensitivity analysis.