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Grafiken nach Thema
Catalysts for Reforming, Power to Liquids (PtL), Ammonia and Power to X pathways
Compressed gas hydrogen refuelling station layouts
Electrolyser producers and emerging players
Ultrapure Water for Electrolysis
Ultrapure Water for Electrolysis Unit Operations
PEM-Electrolyser Stack Architecture and Critical Components
Hong Kong Town Gas –Tai Po Catalytic rich gas naphta/methane reformer and CO2 capture process
Blue Hydrogen Production Process with GHR/ATR
Blue Ammonia Production Process with GHR/ATR
Haber-Bosch Ammonia Synthesis Process
Solid Oxide Electrolysis process for hydrogen generation
Solid Oxide Electrolysis process for hydrogen generation (utility gases shown)
Solid Oxide Co-Electrolysis process for syngas generation
Solid Oxide Co-Electrolysis process for syngas generation (utility gases shown)
Pressurised PEM electrolysis process
Low pressure alkaline water electrolysis process
Potential locations for CO2 Capture from Steam Methane Reforming
E-fuels, e-fertilizers and e-chemicals production
Solid Oxide Electrolysis for energy-efficient e-fuels production
Solid Oxide Electrolysis for energy-efficient e-fertilizer production
Air, water and renewable electricity for e-fuels and e-fertilizers
Steam Methane Reforming – Chemistry
Steam Methane Reforming Decarbonisation
Hydrogen and hydrogen derivatives transport options when considering volume and distance
Renewable power and energy storage technologies, their capacity and discharge time
Methane pyrolysis technologies for turquoise hydrogen production
Hydrogen, hydrogen derivates and e-fuels
International shipping of hydrogen carriers derivatives and e-fuels
Energy density of LNG compared to alternative liquid energy vectors
Energy density of CNG compared to various forms of hydrogen
Methane reforming, pyrolysis, gasification and combustion
Electronically powered production from methane
Electrolysers: AEC, AEM, PEM and SOE for hydrogen (and syngas) production
Renewable hydrogen production, distribution, storage and utilisation value chains
SMR, ATR, POX and GHR processes for syngas production
Electronically powered syngas and hydrogen production
Methane pyrolysis for hydrogen production
RGH2 Chemical Looping Stage 1: Reduction and
biogenic CO2 production from landfill gas or biogas
Show / download PDF, 99 Kb
RGH2 Chemical Looping Stage 1:
Reduction and CO2 production from BFG BOFG
Show / download PDF, 102 Kb
RGH2 Chemical Looping Stage 2:
Steam oxidation and hydrogen production
Show / download PDF, 95 Kb
RGH2 Chemical Looping Stage 3:
Air oxidation and oxygen-depleted air generation
Show / download PDF, 81 Kb
Green iron and steel – a diversity of routes to decarbonisation
Show / download PDF, 87 Kb
The Allam cycle for natural gas – oxy-fuel thermal power generation with integrated CO2 capture
Show / download PDF, 96 Kb
The Allam cycle for natural gas or coal – oxy-fuel thermal power generation with integrated CO2 capture
Show / download PDF, 96 Kb
Business maturity and typical decarbonisation investment characteristics
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Established Carbon Capture Technologies – VSA and Amine Solvent
Potential locations for CO2 Capture from Steam Methane Reforming
High temperature industrial heat pump operation with refrigerant gas recirculation
CCUS technologies – Adsorption based & others
CCUS technologies – Absorption based
Mineralisation processes for CO2 emissions reduction in cement making and concrete production
DAC technologies for direct air capture of carbon dioxide
Air source heat pump operation with refrigerant gas recirculation
Difficult to decarbonise industries
Gasification, Oil refining, Cement & Steelmaking can use oxygen from electrolysis to decarbonise
Mineral processimg using electrolysis to enable decarbonisation
Oxygen-fed Ethylene Oxide Production with Integrated CO2 Capture
Joule-Thomson Effect for Heating and Cooling of Gases as They Expand
CO2 liquefier with ammonia refrigeration cycle
Cryogenic Nitrogen Generator to Produce Gaseous and Liquid Nitrogen
Nitrogen supply modes according to purity and volume required
Nitric Acid and Ammonium Nitrate Production
Ostwald Process for Nitric Acid Production
Air-fed Ammonia Production Process
Haber-Bosch Ammonia Synthesis Process
Gasification, combustion and oxy-fuel combustion in the Allam cycle
Show / download PDF, 242 Kb
The Allam cycle for natural gas – oxy-fuel thermal power generation with integrated CO2 capture
Show / download PDF, 96 Kb
The Allam cycle for natural gas or coal – oxy-fuel thermal power generation with integrated CO2 capture
Show / download PDF, 96 Kb
Fuel gases are where the energy sector and industrial gases meet
Product overlaps and gas flow in the energy, chemicals & industrial gases sectors
ATR for Ammonia Production
Additive manufacturing Metal powder production
Show / download PDF, 70 Kb
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