Renewable-Colocated Green Hydrogen Production: Optimal Scheduling and Profitability
For operators of renewable-colocated hydrogen plants, it provides analytical insights into optimal scheduling and profitability under different market and policy conditions.
The paper studies optimal scheduling and profitability of renewable-colocated green hydrogen production, deriving closed-form policies and analytical characterizations of profit and capacity sizing, validated with real data from three ISOs.
We study the optimal green hydrogen production and energy market participation of a renewable-colocated hydrogen producer (RCHP) that utilizes onsite renewable generation for both hydrogen production and grid services. Under deterministic and stochastic profit-maximization frameworks, we analyze RCHP's multiple market participation models and derive closed-form optimal scheduling policies that dynamically allocate renewable energy to hydrogen production and electricity export to the wholesale market. Analytical characterizations of the RCHP's operating profit and the optimal sizing of renewable and electrolyzer capacities are obtained. We use real-time renewable generation and electricity price data from three independent system operators to evaluate the impacts of market prices and environmental policies on RCHP's profitability.