the research consultancy for energy technologies
Cryogenic air separation is used to produce 400MTpa of oxygen, plus pure nitrogen and argon; for steel, metals, ammonia, wind-solar inputs, semiconductor, blue hydrogen and Allam cycle oxy-combustion. Hence this…
…two opportunities: ‘Oxy-Combustion’ using the Allam Cycle and Chemical Looping Combustion. Both can provide competitive energy with zero carbon coal & gas. Leading Oil Majors are supporting these solutions, to…
…combustion technologies, which can meet the world’s energy needs relatively seamlessly, with zero carbon and little incremental cost. They are ‘Oxy-Combustion’ using the Allam Cycle and Chemical Looping Combustion. Leading…
…(i.e., no nitrogen). It can readily be de-hydrated and the CO2 can be sequestered. (In thermodynamic terms, this requires using a mechanical cycle such as the Allam Cycle in lieu…
…wind and solar value chains, blue hydrogen and Allam Cycle oxycombustion. Decarbonization ambitions of different industrial gas companies are also noted in the data-file. Some of this is achieved through…
Cryogenic air separation is used to produce 400MTpa of oxygen, plus pure nitrogen and argon; for steel, metals, ammonia, wind-solar inputs, semiconductor, blue hydrogen and Allam cycle oxy-combustion. Hence this…
…post-combustion CCS, battery recycling, supercapacitors, aerial vehicles, Allam Cycle Oxy-Combustion, BECCS, direct air capture, airborne wind, metal organic frameworks, drones, molten carbonate fuel cells, deep geothermal, autonomous vehicles, chemical looping…
…separate reactors (schematic below). We first wrote about decarbonized carbon in 2019, in a note that identified NET Power’s Allam Cycle Oxy-Combustion process as the leading concept in the space….