Affiliation:
1. State Grid Gansu Electric Power Company Jiuquan Power Supply Company, Jiuquan 735000, China
2. Department of Electrical Engineering, University of Shanghai for Science and Technology, Shanghai 200093, China
Abstract
In the past, hydrogen was mostly produced from fossil fuels, causing a certain degree of energy and environmental problems. With the development of low-carbon energy systems, renewable energy hydrogen production technology has developed rapidly and become one of the focuses of research in recent years. However, the existing work is still limited by small-scale hydrogen production systems, and there is a lack of comprehensive research on the whole production-storage-transportation-utilization hydrogen system (PSTUH2S), especially on the modeling of different hydrogen transportation modes and various hydrogen loads in different fields. To make up for these deficiencies, the specific physical and mathematical models of the PSTUH2S are firstly described in this paper, with a full account of large-scale water-electrolytic hydrogen production from renewable power curtailment and grid power, various hydrogen storage and transportation modes, and multi-field hydrogen consumption paths. Furthermore, to achieve the maximum economic, energy, and environmental benefits from the PSTUH2S, a multi-objective nonlinear optimization model is also presented herein and then solved by the hybrid method combining the nonlinear processing method, the CPLEX solver and the piecewise time series production simulation method. Lastly, case studies are conducted against the background of a region in northwest China, where hydrogen consumption capacity in various years is accurately assessed and the potential advantages of the PSTUH2S are demonstrated. As the simulation results show, the power curtailment of renewable energy generation can be reduced by 3.61/11.87/14.72 billion kW·h in 2025/2030/2035, respectively, thus contributing to a 4.98%~10.09% increase in the renewable energy consumption rate and millions of tons of carbon emission reduction in these years. In terms of the total equivalent economic benefits, the proposed method is able to bring about a cost saving of USD 190.44 million, USD 634.66 million, and USD 865.87 million for 2025, 2030, and 2035, respectively.
Funder
The Scientific and Technological Project of the State Grid Gansu Electric Power Company Jiuquan Power Supply Company
Reference35 articles.
1. Technologies and perspectives for achieving carbon neutrality;Wang;Innovation,2021
2. National Energy Administration (2022, October 23). Medium and Long-Term Planning of Hydrogen Energy Industry Development (2021–2035), Available online: http://zfxxgk.nea.gov.cn/2022-03/23/c_1310525630.htm.
3. Electricity and hydrogen energy system towards accommodation of high proportion of renewable energy;Pan;Autom. Electr. Power Syst.,2020
4. Progress and development prospect of coupled wind and hydrogen systems;Cao;Proc. CSEE,2021
5. Hydrogen production via renewable-based energy system: Thermoeconomic assessment and Long Short-Term Memory (LSTM) optimization approach;Ruhani;Int. J. Hydrogen Energy,2024