Affiliation:
1. Faculty of Economics and Business, University of Rijeka, 51000 Rijeka, Croatia
2. Energy Institute Hrvoje Požar, 10000 Zagreb, Croatia
Abstract
The production and use of hydrogen are encouraged by the European Union through Delegated Acts, especially in sectors that are difficult to decarbonize, such as the industrial and transport sectors. This study analyzes the possibility of partial decarbonization of the existing plant in the petrochemical industry, with a partial transition from natural gas to renewable hydrogen, as a precursor to the adoption of the hydrogen economy by 2050. This study was based on the example of a plant from the petrochemical industry, namely an existing fertilizer plant. Namely, in the petrochemical industry, hydrogen is produced by steam-reforming natural gas, which is needed in the process of producing ammonia, one of the basic raw materials for mineral fertilizers. By building an electrolyzer at the location of the existing fertilizer plant, it is possible to obtain renewable hydrogen, which enters the ammonia production process as a raw material. The electricity from which hydrogen is produced in the electrolyzer is provided through Power Purchase Agreement contracts concluded with electricity producers from 12 wind power plants. The results of this study show that the production of renewable hydrogen at the location of the analyzed plant is not profitable, but due to the specificity of the process of such an industry, the high consumption of natural gas, and large savings in CO2 emissions which can be achieved by the production of renewable hydrogen, investment is needed. With a 370 MW electrolyzer, about 31,000 tons of renewable hydrogen is produced, which represents about 50% of the hydrogen needs of the analyzed plant. By producing renewable hydrogen for part of the needs of the analyzed plant, a saving of about 300,000 tons of CO2 emissions is achieved in relation to the production of gray hydrogen, which contributes to the partial decarbonization of the analyzed plant. The authors are aware that the current market opportunities do not allow the profitability of the investment without subsidies, but with the advancement of technology and a different price ratio of electricity, natural gas, and CO2 emissions, they believe that such investments will be profitable even without subsidies.
Funder
Croatian Science Foundation
University of Rijeka
Reference72 articles.
1. European Commission (2024, April 14). Commission Sets Out Rules for Renewable Hydrogen. Available online: https://ec.europa.eu/commission/presscorner/detail/en/IP_23_594.
2. Ministry of Environment and Energy (2024, April 14). Integrated National Energy and Climate Plan for the Republic of Croatia for the Period from 2021 to 2030, Available online: https://mingor.gov.hr/.
3. (2024, April 14). Fuel Cells and Hydrogen 2 Joint Undertaking (FCH 2 JU) Study on Opportunities Arising from the Inclusion of Hydrogen Energy Technologies in the National Energy & Climate Plans (Ref. FCH/OP/Contract 234). Consortium led by: Trinomics B.V. Westersingel 34 3014 GS, Rotterdam the Netherlands. Available online: https://trinomics.eu/wp-content/uploads/2020/09/Final-Report-Hydrogen-in-NECPs.pdf.
4. International Energy Agency (2024, July 12). Renewable Energy Progress Tracker. IEA Publications, Available online: https://www.iea.org/data-and-statistics/data-tools/renewable-energy-progress-tracker.
5. International Energy Agency (2024, July 15). Renewable 2023. Analysis and Forecasts to 2028. IEA Publications, Available online: https://www.iea.org/reports/renewables-2023.