Issue 24, 2024

Market optimization and technoeconomic analysis of hydrogen-electricity coproduction systems

Abstract

Decarbonization efforts across North America, Europe, and beyond rely on variable renewable energy sources such as wind and solar, as well as alternative fuels, such as hydrogen, to support the sustainable energy transition. These advancements have prompted a need for more flexibility in the electric grid to complement non-dispatchable energy sources and increased demand from electrification. Integrated energy systems are well suited to provide this flexibility, but conventional technoeconomic modeling paradigms neglect the time-varying dynamic nature of the grid and thus undervalue resource flexibility. In this work, we develop a computational optimization framework for dynamic market-based technoeconomic comparison of integrated energy systems that coproduce low-carbon electricity and hydrogen (e.g., solid oxide fuel cells, solid oxide electrolysis) against technologies that only produce electricity (e.g., natural gas combined cycle with carbon capture) or only produce hydrogen. Our framework starts with rigorous physics-based process models, built in the open-source Institute for the Design of Advanced Energy Systems (IDAES) modeling and optimization platform, for six energy process concepts. Using these rigorous models and a workflow to optimally design each technology, the framework is shown to be capable of evaluating new and emerging technologies in varying energy markets under a plethora of future scenarios (i.e., renewables penetration, carbon tax, etc.). Ultimately, our framework finds that solid oxide fuel cell-based coproduction systems achieve positive profits for 85% of the analyzed market scenarios. From these market optimization results, we use multivariate linear regression (R2 values up to 0.99) to determine which electricity price statistics are most significant to predict the optimized annual profit of each system. The proposed framework provides a powerful tool for directly comparing flexible, multi-product energy process concepts to help discern optimal technology and integration options.

Graphical abstract: Market optimization and technoeconomic analysis of hydrogen-electricity coproduction systems

Supplementary files

Article information

Article type
Paper
Submitted
01 iyn 2024
Accepted
09 okt 2024
First published
16 okt 2024
This article is Open Access
Creative Commons BY license

Energy Environ. Sci., 2024,17, 9509-9525

Market optimization and technoeconomic analysis of hydrogen-electricity coproduction systems

D. J. Laky, N. P. Cortes, J. C. Eslick, A. A. Noring, N. Susarla, C. Okoli, M. A. Zamarripa, D. A. Allan, J. H. Brewer, A. K. S. Iyengar, M. Wang, A. P. Burgard, D. C. Miller and A. W. Dowling, Energy Environ. Sci., 2024, 17, 9509 DOI: 10.1039/D4EE02394C

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