ТЕХНІКО-ЕКОНОМІЧНИЙ АНАЛІЗ ВИРОБНИЦТВА СИНТЕТИЧНОГО ВІДНОВЛЮВАНОГО МЕТАНУ

ТЕХНІКО-ЕКОНОМІЧНИЙ АНАЛІЗ ВИРОБНИЦТВА СИНТЕТИЧНОГО ВІДНОВЛЮВАНОГО МЕТАНУ

The high instability and intermittent nature of the generation of electrical energy from solar and wind power plants led to the creation and improvement of PtG technologies as the main means of coordinating the operating modes of such power plants with electric networks. The PtG concept involves the...

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Datum:2023
Hauptverfasser: Klimenko, V.M., Suprun, T.T.
Format: Artikel
Sprache:Ukrainian
Veröffentlicht: Institute of Engineering Thermophysics of NAS of Ukraine 2023
Online Zugang:https://ihe.nas.gov.ua/index.php/journal/article/view/526
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Назва журналу:Thermophysics and Thermal Power Engineering

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Thermophysics and Thermal Power Engineering
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spelling oai:ojs2.ihenasgovua.s43.yourdomain.com.ua:article-5262025-02-22T17:42:32Z TECHNO-ECONOMIC ANALYSIS OF SYNTHETIC RENEWABLE METHANE PRODUCTION ТЕХНІКО-ЕКОНОМІЧНИЙ АНАЛІЗ ВИРОБНИЦТВА СИНТЕТИЧНОГО ВІДНОВЛЮВАНОГО МЕТАНУ Klimenko, V.M. Suprun, T.T. The high instability and intermittent nature of the generation of electrical energy from solar and wind power plants led to the creation and improvement of PtG technologies as the main means of coordinating the operating modes of such power plants with electric networks. The PtG concept involves the production of synthetic renewable methane (SRM) using surplus energy from renewable energy sources with the use or storage of it through gas networks. To date, the world already knows a large number of projects that implement the specified PtG energy chain from obtaining renewable electricity, using it to generate hydrogen in certain electrolyzers, and to obtaining synthetic renewable methane by catalytic or biological methanation, i.e., combining hydrogen with carbon dioxide. Techno-economic analysis of a number of implemented projects made it possible to assess the influence of certain factors on the efficiency of the energy conversion process and thus determine ways to improve technologies. The levelized cost of synthetic renewable methane or also known as break-even price of the production of SRM was selected as a criterion for evaluating the efficiency of a particular technology. To date, unfortunately, there is not a single implemented technology that would allow SRM to be obtained at a price lower than the price of natural gas. The main directions for the development of PtG technologies and reduction of the levelized cost of synthetic renewable methane are: - increasing the energy efficiency of electrolysis and methanation processes, i.e. increasing the output of the product (hydrogen or methane) while reducing energy costs; due to the improvement of technologies; the use of internal energy resources (heat of methanation, oxygen from electrolysis, etc.); application of more efficient processes for obtaining hydrogen, methane, carbon dioxide; - reduction of capital investments due to the use of productive equipment and simpler technologies. A separate task of this study was to determine the prospects for the development of PtG, the most attractive for the conditions of Ukraine. Such a perspective, in our opinion, can be the bioenergy direction of the development of renewable energy, which can be organically combined with the concept of SRM production in the PtG process. In this direction, we can expect to reach a profitable level of SRM production by 2030. Розглянуті питання економічної доцільності виробництва синтетичного відновлюваного метану в різних країнах. Наведені деякі результати техніко-економічного аналізу технологій виробництва синтетичного відновлюваного метану, отримані в реалізованих проектах. Institute of Engineering Thermophysics of NAS of Ukraine 2023-02-07 Article Article application/pdf https://ihe.nas.gov.ua/index.php/journal/article/view/526 10.31472/ttpe.1.2023.9 Thermophysics and Thermal Power Engineering; Vol 45 No 1 (2023): Thermophysics and Thermal Power Engineering; 75-83 Теплофизика и Теплоэнергетика; Vol 45 No 1 (2023): Thermophysics and Thermal Power Engineering; 75-83 Теплофізика та Теплоенергетика; Vol 45 No 1 (2023): Thermophysics and Thermal Power Engineering; 75-83 2663-7235 uk https://ihe.nas.gov.ua/index.php/journal/article/view/526/450 https://creativecommons.org/licenses/by/4.0
institution Thermophysics and Thermal Power Engineering
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datestamp_date 2025-02-22T17:42:32Z
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language Ukrainian
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author Klimenko, V.M.
Suprun, T.T.
spellingShingle Klimenko, V.M.
Suprun, T.T.
ТЕХНІКО-ЕКОНОМІЧНИЙ АНАЛІЗ ВИРОБНИЦТВА СИНТЕТИЧНОГО ВІДНОВЛЮВАНОГО МЕТАНУ
author_facet Klimenko, V.M.
Suprun, T.T.
author_sort Klimenko, V.M.
title ТЕХНІКО-ЕКОНОМІЧНИЙ АНАЛІЗ ВИРОБНИЦТВА СИНТЕТИЧНОГО ВІДНОВЛЮВАНОГО МЕТАНУ
title_short ТЕХНІКО-ЕКОНОМІЧНИЙ АНАЛІЗ ВИРОБНИЦТВА СИНТЕТИЧНОГО ВІДНОВЛЮВАНОГО МЕТАНУ
title_full ТЕХНІКО-ЕКОНОМІЧНИЙ АНАЛІЗ ВИРОБНИЦТВА СИНТЕТИЧНОГО ВІДНОВЛЮВАНОГО МЕТАНУ
title_fullStr ТЕХНІКО-ЕКОНОМІЧНИЙ АНАЛІЗ ВИРОБНИЦТВА СИНТЕТИЧНОГО ВІДНОВЛЮВАНОГО МЕТАНУ
title_full_unstemmed ТЕХНІКО-ЕКОНОМІЧНИЙ АНАЛІЗ ВИРОБНИЦТВА СИНТЕТИЧНОГО ВІДНОВЛЮВАНОГО МЕТАНУ
title_sort техніко-економічний аналіз виробництва синтетичного відновлюваного метану
title_alt TECHNO-ECONOMIC ANALYSIS OF SYNTHETIC RENEWABLE METHANE PRODUCTION
description The high instability and intermittent nature of the generation of electrical energy from solar and wind power plants led to the creation and improvement of PtG technologies as the main means of coordinating the operating modes of such power plants with electric networks. The PtG concept involves the production of synthetic renewable methane (SRM) using surplus energy from renewable energy sources with the use or storage of it through gas networks. To date, the world already knows a large number of projects that implement the specified PtG energy chain from obtaining renewable electricity, using it to generate hydrogen in certain electrolyzers, and to obtaining synthetic renewable methane by catalytic or biological methanation, i.e., combining hydrogen with carbon dioxide. Techno-economic analysis of a number of implemented projects made it possible to assess the influence of certain factors on the efficiency of the energy conversion process and thus determine ways to improve technologies. The levelized cost of synthetic renewable methane or also known as break-even price of the production of SRM was selected as a criterion for evaluating the efficiency of a particular technology. To date, unfortunately, there is not a single implemented technology that would allow SRM to be obtained at a price lower than the price of natural gas. The main directions for the development of PtG technologies and reduction of the levelized cost of synthetic renewable methane are: - increasing the energy efficiency of electrolysis and methanation processes, i.e. increasing the output of the product (hydrogen or methane) while reducing energy costs; due to the improvement of technologies; the use of internal energy resources (heat of methanation, oxygen from electrolysis, etc.); application of more efficient processes for obtaining hydrogen, methane, carbon dioxide; - reduction of capital investments due to the use of productive equipment and simpler technologies. A separate task of this study was to determine the prospects for the development of PtG, the most attractive for the conditions of Ukraine. Such a perspective, in our opinion, can be the bioenergy direction of the development of renewable energy, which can be organically combined with the concept of SRM production in the PtG process. In this direction, we can expect to reach a profitable level of SRM production by 2030.
publisher Institute of Engineering Thermophysics of NAS of Ukraine
publishDate 2023
url https://ihe.nas.gov.ua/index.php/journal/article/view/526
work_keys_str_mv AT klimenkovm technoeconomicanalysisofsyntheticrenewablemethaneproduction
AT supruntt technoeconomicanalysisofsyntheticrenewablemethaneproduction
AT klimenkovm tehníkoekonomíčnijanalízvirobnictvasintetičnogovídnovlûvanogometanu
AT supruntt tehníkoekonomíčnijanalízvirobnictvasintetičnogovídnovlûvanogometanu
first_indexed 2025-12-17T13:55:54Z
last_indexed 2025-12-17T13:55:54Z
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