Biomass gasification is a mature technology pathway that uses a controlled process involving heat, steam, and oxygen to convert biomass to hydrogen and other products, without combustion. Because growing biomass removes carbon dioxide from the atmosphere, the net carbon emissions of this method can be low, especially if coupled with carbon capture, utilization, and storage …
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In this overview you will find the presentations of the previous editions of the Clean Hydrogen Conference. 2021 | 2021 The presentations at the previous editions covered several topics. The gasification of biomass towards hydrogen and green CO2 Pyrolysis, a chemical recycling method The splitting of natural gas in pure carbon and hydrogen Hydrogen can …
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Most hydrogen today is produced from fossil fuels – steam methane reforming of natural gas, partial oxidation of coal or oil residues – and entails large CO2 emissions, from 8.5 tons of CO2 per ton of H2 from natural gas in modern facilities up to 20 tCO2/tH2 from coal. This fossil hydrogen can be called …
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Presented by Robin Post van der Burg, Managing director, Torrgas.Renewable hydrogen can be produced via various conversion technology chains. Torrgas has developed a systematic solution that creates the opportunity to convert a wide variety of biobased feedstocks into renewable syngas and thus renewable hydrogen.
Presentation by René Slaghek, Senior Consultant, Brightsite. Showcase of how new technologies for the production of clean hydrogen can play an essential role in the transformation of an integrated chemical cluster towards a sustainable circular site.
The 2022 conference edition is under development. The 2021 edition took place on 18 May 2021, click here for an overview of the conference program and its speakers and presentations. As the production of Hydrogen is energy intensive, a direct connection to renewable energy sources is required. A lot of research and development is done …
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Chemical process electrification replaces the use of fossil fuels with renewable energy. High-temperature applications are key in most chemical production methods and the power demand of a typical chemical process is enormous. The general trend in plant design is to replace rotating equipment based on steam turbines for electrical drives. Despite the higher costs for electricity, …
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