Hydrogen production from surplus hydropower
Techno-economic assessment with alkaline electrolysis in Nepal's perspective
Anup Paudel (Tribhuvan University)
Bishwash Paneru (Tribhuvan University)
D.P. Mainali (De Haagse Hogeschool, TU Delft - Team Maria Santofimia Navarro)
Sameep Karki (Enviro Renewables)
Yashwanth Pochareddy (Technical University of Denmark (DTU))
Shree Raj Shakya (Tribhuvan University)
Seemant Karki (Enviro Renewables)
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Abstract
With the increasing number of hydropower plants under construction and proposed in Nepal, the country is anticipated to experience a surplus of hydropower that exceeds its peak load demand. This surplus electricity becomes particularly high during the wet seasons, when hydropower production reaches its maximum capacity. This research focuses on the mathematical modeling of an alkaline electrolyzer, specifically analyzing the stack performance and the electricity flow within the balance of plants required to support the stack operation. The developed model is then used to estimate the production cost of hydrogen by utilizing forecasted surplus electricity up until the year 2030. The output of the study is expected to help in the sustainable utilization of surplus hydropower in the country, thus enhancing the low carbon economic development path. The study shows that there is a significant opportunity for hydrogen production from surplus hydroelectricity, ranging from 91 ktonne/year to maximum, of 414 ktonne/year. The average levelized cost of hydrogen is estimated at 5.65 USD/kg. The cost can be further reduced if policy interventions like tax rebates and tariff rate subsidies are in place.
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