Affiliation:
1. Faculty of Electrical and Environmental Engineering, Institute of Power Engineering, Riga Technical University, 1048 Riga, Latvia
2. ABB Electrification, ABB Switzerland Ltd., Bruggerstrasse 72, 5400 Baden, Switzerland
Abstract
The synthesis of methane from hydrogen and carbon dioxide creates an energy resource that is suitable for long-term storage. Once this process is powered by renewable electricity, it produces a clean fuel for producing electricity and heat and supports large-scale renewable energy deployment, energy transition and climate change mitigation. This paper proposes a pragmatic approach to assessing the economic potential of synthetic methane-based power. Today, natural gas plays an important role in the Baltic region due to the existing infrastructure, which includes a transmission and distribution pipeline network, gas power plants and a large underground storage reservoir. Replacing natural gas with synthetic methane would fulfil carbon emission reduction ambitions. In this paper, we simulate electricity producers’ actions at market conditions and consider the generation portfolio in the Baltics and the interconnections with Scandinavia and Poland operating in the NORDPOOL electricity market. As a result of these calculations, we obtain the volume of the synthetic gas, the production costs, the volume of gas storage, the installed capacity of the gas power plant, and the investments required to ensure energy transition and system adequacy. These results are essential for the informed decisions made by policymakers, investors and system operators.
Funder
Latvian Council of Science
Subject
Energy (miscellaneous),Energy Engineering and Power Technology,Renewable Energy, Sustainability and the Environment,Electrical and Electronic Engineering,Control and Optimization,Engineering (miscellaneous),Building and Construction
Reference62 articles.
1. European Council (2023, October 23). 2030 Climate and Energy Policy Framework EUCO 169/14. Available online: https://www.eea.europa.eu/policy-documents/euco-169-14.
2. Transition toward net zero emissions—Integration and optimization of renewable energy sources: Solar, hydro, and biomass with the local grid station in central Italy;Gul;Renew Energy,2023
3. Siemens Energy (2023, July 29). Prospects for Using Hydrogen in Gas Power Plants are Becoming Tangible|Press|Siemens Energy. Available online: https://press.siemens-energy.com/global/en/pressrelease/prospects-using-hydrogen-gas-power-plants-are-becoming-tangible.
4. Regulations for carbon capture, utilization and storage: Comparative analysis of development in Europe, China and the Middle East;Zhang;Resour. Conserv. Recycl.,2021
5. Modelling the Future of the Baltic Energy Systems: A Green Scenario;Petrichenko;Latv. J. Phys. Tech. Sci.,2021