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Pyrolysis—gas chromatography of natural and synthetic melanins
Journal of Analytical and Applied Pyrolysis, 1983Abstract Curie-point pyrolysis—gas chromatography—mass spectrometry was used for the characterization of melanins from black human hair, bovine eyes and model polymers derived from tyrosine, 3,4-dihydroxyphenylalanine and 3,4-dihydroxyphenethylamine.
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China׳s precarious synthetic natural gas demonstration
Energy Policy, 2015Abstract In 2013, China׳s national government abandoned its previous cautious policy and started to promote large-scale deployment of coal-based synthetic natural gas (SNG). Coal-based SNG is both carbon-intensive and very water-intensive. Driven by a smog crisis and the recession of coal industry, China׳s 2013 policy change is major setback in its ...
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Downscaling - natural gas and synthetic methane transmission
2023In 2020 Australia had an extraction capacity of 4,000 PJ/year for conventional natural gas (distributed across the country) and 1,400 PJ/year for coal seam gas (CSG) (distributed in QLD and NSW). Australia’s LNG production capacity was 4,400 PJ/year located in NT, QLD and WA.
Pascale, Andrew, Smart, Simon
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CO2 removal from synthetic natural gas for city gas use
Journal of Membrane Science, 1999Membrane-based gas separation has been applied for carbon dioxide (CO2) removal from commercial city gas supply plants in Japan. This paper provides the relationship between methane reforming process, design of two-stage membrane process and their optimization.
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Power-to-Gas: Synthetic Natural Gas (SNG) from Renewable Energies
2021The Power-to-gas (PtG) is an auxiliary solution for long-term and large-scale storing renewable electrical energy in a chemical energy carrier. PtG concept not a solution for storage but it also reduces the CO2 emission by using it in process and produce CO2 neutral gas as synthetic natural gas (SNG) for transportation, industry, and households.
Chovatiya, Vishal +2 more
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Membranes utilization for biogas upgrading to synthetic natural gas
2019The use of membranes for selective CO2 separation from biogas, also commonly known as biogas upgrading, is reviewed in this chapter. Nowadays, compared to other well-established technologies such as pressure swing adsorption (PSA), or scrubbing, membrane technology has not found large industrialization for biogas upgrading because of the current ...
Medrano, Jose Antonio +3 more
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Investigation on Synthetic Natural Gas Storage in the Form of Gas Hydrate
2022Dhaval Patel +2 more
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Greenhouse gas emissions from synthetic natural gas production
Nature Climate Change, 2016Sheng Li, Lin Gao
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