Seasonal Energy Storage with Power-to-Methane Technology

Seasonal Energy Storage with Power-to-Methane Technology

For a sustainable future, the need to use renewable sources to produce electricity is inevitable. Some of these sources—particularly the widely available solar power—are weather-dependent; therefore, utility-scale energy storage will be more and more important. These solar and wind power fluctuation...

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Imre, Attila R.
Year of Publication:2022
Language:English
Physical Description:1 electronic resource (146 p.)
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spelling Imre, Attila R. edt
Seasonal Energy Storage with Power-to-Methane Technology
Basel MDPI Books 2022
1 electronic resource (146 p.)
text txt rdacontent
computer c rdamedia
online resource cr rdacarrier
For a sustainable future, the need to use renewable sources to produce electricity is inevitable. Some of these sources—particularly the widely available solar power—are weather-dependent; therefore, utility-scale energy storage will be more and more important. These solar and wind power fluctuations range from minutes (passing cloud) to whole seasons (winter/summer differences). Short-term storage can be solved (at least theoretically) with batteries; however, seasonal storage—due to the amount of storable energy and the self-discharging of some storage methods—is still a challenge to be solved in the near future. We believe that biological Power-to-Methane technology—especially combined with biogas refinement—will be a significant player in the energy storage market within less than a decade. The technology produces high-purity methane, which can be considered—by using green energy and carbon dioxide of biological origin—as a Renewable Natural Gas, or RNG. The ease of storage and use of methane, as well as the effective carbon-freeness, can make it a competitor for batteries or hydrogen-based storage, especially for storage times exceeding several months.
English
Technology: general issues bicssc
History of engineering & technology bicssc
seasonal energy storage
power-to-methane
wastewater treatment plants
techno-economic assessment
power-to-gas
regulation
energy storage
biogas
biomethane
disruptive technology
decarbonization
innovation
Power-to-Gas
Power-to-Fuel
P2M
P2G
P2F
biomethanization
biomethanation
competitiveness
hydrogen utilization
Hungary
Power-to-X
Power-to-Hydrogen
Power-to-Methane
hydrogen
methanation
sector coupling
sectoral integration
energy transition
eFuels
electric fuels
100% renewable energy scenarios
thermophilic biogas
fed-batch reactor
Methanothermobacter
metagenome
starvation
H2 and CO2 conversion
methane
acetate
3-0365-4889-0
3-0365-4890-4
Imre, Attila R. oth
language English
format eBook
author2 Imre, Attila R.
author_facet Imre, Attila R.
author2_variant a r i ar ari
author2_role Sonstige
title Seasonal Energy Storage with Power-to-Methane Technology
spellingShingle Seasonal Energy Storage with Power-to-Methane Technology
title_full Seasonal Energy Storage with Power-to-Methane Technology
title_fullStr Seasonal Energy Storage with Power-to-Methane Technology
title_full_unstemmed Seasonal Energy Storage with Power-to-Methane Technology
title_auth Seasonal Energy Storage with Power-to-Methane Technology
title_new Seasonal Energy Storage with Power-to-Methane Technology
title_sort seasonal energy storage with power-to-methane technology
publisher MDPI Books
publishDate 2022
physical 1 electronic resource (146 p.)
isbn 3-0365-4889-0
3-0365-4890-4
illustrated Not Illustrated
work_keys_str_mv AT imreattilar seasonalenergystoragewithpowertomethanetechnology
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carrierType_str_mv cr
is_hierarchy_title Seasonal Energy Storage with Power-to-Methane Technology
author2_original_writing_str_mv noLinkedField
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