Details zur Publikation |
Kategorie | Textpublikation |
Referenztyp | Zeitschriften |
Titel (primär) | Model-based estimation of market potential for Bio-SNG in the German biomethane market until 2030 within a system dynamics approach |
Autor | Horschig, T.; Billig, E.; Thrän, D. |
Quelle | Agronomy Research |
Erscheinungsjahr | 2016 |
Department | BIOENERGIE |
Band/Volume | 14 |
Heft | 3 |
Seite von | 754 |
Seite bis | 767 |
Sprache | englisch |
Keywords | bio-SNG; System Dynamics; Bioenergy markets; biomethane |
UFZ Querschnittsthemen | RU6; |
Abstract | One option for energy provision from renewables is the production and grid injection of synthetic natural gas from lignin-rich biomass like wood and straw. Bio-SNG (biological produced synthetic/substitute natural gas) is the product of the thermochemical production of methane via gasification and methanation of lignin-rich biomass. The first commercial bio-SNG plant went successfully into operation in the end of 2014, in Gothenburg (Sweden). Regarding the huge potential of lignin-rich biomass bio-SNG is expected to have a high potential for a sustainable and greenhouse gas reducing contribution in power, heat and fuel markets. Being a future technology with great advantages like storability and transportability within a gas grid but recently too high prices for market implementation, possible future market shares are uncertain because bio-SNG has to compete with anaerobic biomethane as well as fossil alternatives. With the combination of an extensive techno-economic evaluation for present and future costs of bio-SNG depending on the feedstock supply chain and economy of scale, Delphi-Survey and a quantitative market simulation we determined future market shares for biomethane and bio-SNG for Germany under varying scenarios like incentive schemes, economy of scale and feedstock prices. Results indicate that substantial governmental support in terms of either R&D effort to lower bio-SNG prices or direct subsidies for a further capacity development is necessary to achieve significant market shares for biogenic methane. |
dauerhafte UFZ-Verlinkung | https://www.ufz.de/index.php?en=20939&ufzPublicationIdentifier=17596 |
Horschig, T., Billig, E., Thrän, D. (2016): Model-based estimation of market potential for Bio-SNG in the German biomethane market until 2030 within a system dynamics approach Agronomy Research 14 (3), 754 - 767 |