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      Effect of pyrolysis atmospheres on gaseous products evolution of coal pyrolysis at high temperature

      , , , , , , , ,
      Fuel
      Elsevier BV

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          Hydrogen from catalytic reforming of biomass-derived hydrocarbons in liquid water.

          Concerns about the depletion of fossil fuel reserves and the pollution caused by continuously increasing energy demands make hydrogen an attractive alternative energy source. Hydrogen is currently derived from nonrenewable natural gas and petroleum, but could in principle be generated from renewable resources such as biomass or water. However, efficient hydrogen production from water remains difficult and technologies for generating hydrogen from biomass, such as enzymatic decomposition of sugars, steam-reforming of bio-oils and gasification, suffer from low hydrogen production rates and/or complex processing requirements. Here we demonstrate that hydrogen can be produced from sugars and alcohols at temperatures near 500 K in a single-reactor aqueous-phase reforming process using a platinum-based catalyst. We are able to convert glucose -- which makes up the major energy reserves in plants and animals -- to hydrogen and gaseous alkanes, with hydrogen constituting 50% of the products. We find that the selectivity for hydrogen production increases when we use molecules that are more reduced than sugars, with ethylene glycol and methanol being almost completely converted into hydrogen and carbon dioxide. These findings suggest that catalytic aqueous-phase reforming might prove useful for the generation of hydrogen-rich fuel gas from carbohydrates extracted from renewable biomass and biomass waste streams.
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            Review of methane catalytic cracking for hydrogen production

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              The reversibility of the reaction CaCO3 ⇄ CaO+CO2

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                Author and article information

                Journal
                Fuel
                Fuel
                Elsevier BV
                00162361
                June 2024
                June 2024
                : 366
                : 131336
                Article
                10.1016/j.fuel.2024.131336
                96b3282f-a7bb-42e4-9438-60fe7dcc9a2e
                © 2024

                https://www.elsevier.com/tdm/userlicense/1.0/

                https://www.elsevier.com/legal/tdmrep-license

                https://doi.org/10.15223/policy-017

                https://doi.org/10.15223/policy-037

                https://doi.org/10.15223/policy-012

                https://doi.org/10.15223/policy-029

                https://doi.org/10.15223/policy-004

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