Potential and sensitivity analysis of long-term hydrogen production in resolving surplus RES generation—a case study in Japan

Hydrogen production as a flexible energy carrier is expected to play a promising role in supporting recover curtailed grid-tied renewable energy. The aims of this research focus on the potential quantification and sensitivity assessment of power to hydrogen, based on the history of electricity load...

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Bibliographic Details
Published inEnergy (Oxford) Vol. 171; pp. 1164 - 1172
Main Authors Li, Yanxue, Gao, Weijun, Ruan, Yingjun
Format Journal Article
LanguageEnglish
Published Oxford Elsevier Ltd 15.03.2019
Elsevier BV
Subjects
Case studies
Computer simulation
Constraint modelling
Decarburizing
Economic conditions
Flexibility
Hydrogen
Hydrogen production
Hydrogen-based energy
Renewable energy
Renewable integration
Renewable resources
Sensitivity analysis
Solar and wind
Wind power
Renewable integration
Solar and wind
Sensitivity analysis
Flexibility
Hydrogen production
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Summary:Hydrogen production as a flexible energy carrier is expected to play a promising role in supporting recover curtailed grid-tied renewable energy. The aims of this research focus on the potential quantification and sensitivity assessment of power to hydrogen, based on the history of electricity load and generation in Kyushu. First, a simulation model was developed considering detailed technical constraints. Results indicated that increasing grid-tied renewable production raised the increasing flexibility requirement and LACE of mixed renewable energy, curtailment presented variations across months, and the optimal combination of solar and wind generation could decrease curtailment. Then the technical-economic performance of renewable energy to hydrogen production was estimated under different scenarios and assumptions. The capacity and full-load operating period were quantified based on the sorted surplus renewable descending curves. Potential and investment scenarios of the proposed P2G approach highly depended on the structure of the combined solar and wind resources, converting efficiency and H2 price. Gross renewable production was fixed to an annual grid load ratio of 40%. Implementation of optimal large-scale electrolyzer raises the effective utilisation ratio of renewable production from 59.1% to 74.3%. 57.5% of the surplus renewable generation was converted into hydrogen to decarbonize the social energy supply system. •Impacts of increasing integrate renewable resources on grid were simulated.•Hydrogen production integrated to absorb surplus renewable production.•Approach to quantify optimal transfer of P2G under different scenarios was formulated.•Sensitivity analysis of P2G considering key parameters were presented.
ISSN:0360-5442
1873-6785
DOI:10.1016/j.energy.2019.01.106