Author
Listed:
- Nestor F. Guerrero-Rodríguez
(Facultad de Ciencias e Ingeniería, Pontificia Universidad Católica Madre y Maestra (PUCMM), Santo Domingo 51000, Dominican Republic)
- Francisco A. Ramírez-Rivera
(Facultad de Ciencias e Ingeniería, Pontificia Universidad Católica Madre y Maestra (PUCMM), Santo Domingo 51000, Dominican Republic)
- Rubén D. Ramos Ciprian
(Department of Engineering, Universidad Central del Este (UCE), Ave. Francisco Alberto Caamaño Deñó, San Pedro de Macorís 21000, Dominican Republic)
Abstract
Green hydrogen is commonly assessed as a renewable fuel or long-duration storage option, but its value as a critical-load restoration resource remains less developed, particularly when produced from curtailed renewable electricity. This study develops a planning-oriented framework to assess green hydrogen for critical-load restoration by linking renewable curtailment, proton-exchange membrane electrolysis, hydrogen storage, fuel-cell reconversion, critical Energy Not Served (ENS) reduction, economic valuation, and carbon-footprint savings. The framework is applied to the Dominican Republic power system as a representative insular case with rapid renewable expansion and limited flexibility. Using monthly preliminary real-operation reports from OC-SENI, the reference case considers 196.46 GWh/year of curtailed non-conventional renewable electricity in 2025, producing 3.78 kt H 2 /year and 65.5 GWh/year of recoverable electricity. Under the reference screening assumptions, a 25 t H 2 storage module would provide 433.29 MWh of usable electricity, fully covering 6 h and 12 h restoration windows for the 30 MW illustrative critical-load case and reducing critical ENS by 60.2% during a 24 h event. The recovered electricity could avoid 43.5 ktCO 2 /year under the SENI combined-margin grid-displacement case, with higher avoided operational emissions under the diesel-backup displacement sensitivity.
Suggested Citation
Nestor F. Guerrero-Rodríguez & Francisco A. Ramírez-Rivera & Rubén D. Ramos Ciprian, 2026.
"Green Hydrogen for Critical-Load Restoration in High-Renewable Power Systems: Energy Not Served Reduction, Economic Value, and Carbon-Resilience Assessment,"
Clean Technol., MDPI, vol. 8(4), pages 1-38, July.
Handle:
RePEc:gam:jcltec:v:8:y:2026:i:4:p:102-:d:1986393
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