Add to ORKGA hydrogen production plant was designed based on a hybrid electrolytic-thermochemical process for decomposing water. The sulfur cycle water decomposition system is driven by a very high temperature nuclear reactor that provides 1,283 K helium working gas. The plant is sized to approximately ten million standard cubic meters per day of electrolytically pure hydrogen and has an overall thermal efficiently of 45.2 percent. The economics of the plant were evaluated using ground rules which include a 1974 cost basis without escalation, financing structure and other economic factors. Taking into account capital, operation, maintenance and nuclear fuel cycle costs, the cost of product hydrogen was calculated at $5.96/std cu m for utility financin...
An updated reference design for a commercial-scale high-temperature electrolysis (HTE) plant for hyd...
OAK B188 High Efficiency Generation of Hydrogen Fuels using Nuclear Power for the period May 1, 2002...
OAK B202 HIGH EFFICIENCY GENERATION OF HYDROGEN FUELS USING NUCLEAR POWER. Combustion of fossil fuel...
A reference design for a commercial-scale high-temperature electrolysis (HTE) plant for hydrogen pro...
This report documents a detailed study to determine the expected efficiency and product costs for pr...
An advanced nuclear-electrolytic hydrogen-production facility concept was synthesized at a conceptua...
The sulfur-ammonia thermochemical water-splitting cycle for hydrogen production driven by solar ther...
The Sulfur–Iodine (S_I) cycle, driven by nuclear power, seems to be one of the main candidates to p...
Thesis (S.B.)--Massachusetts Institute of Technology, Dept. of Nuclear Science and Engineering, 2006...
OAK-B135 A significant ''Hydrogen Economy'' is predicted that will reduce our dependence on petroleu...
The Sulfur–Iodine (S_I) cycle, driven by nuclear power, seems to be one of the main candidates to p...
A conceptual design is presented for a Hybrid Sulfur process for the production of hydrogen using a ...
Demand for hydrogen in the transportation energy sector is expected to keep growing in the coming de...
With the resurgence of nuclear power around the world, and the increasingly important role of hydrog...
Two Sulfur-based cycles--the Sulfur-Iodine (SI) and the Hybrid Sulfur (HyS)--have emerged as the lea...
An updated reference design for a commercial-scale high-temperature electrolysis (HTE) plant for hyd...
OAK B188 High Efficiency Generation of Hydrogen Fuels using Nuclear Power for the period May 1, 2002...
OAK B202 HIGH EFFICIENCY GENERATION OF HYDROGEN FUELS USING NUCLEAR POWER. Combustion of fossil fuel...
A reference design for a commercial-scale high-temperature electrolysis (HTE) plant for hydrogen pro...
This report documents a detailed study to determine the expected efficiency and product costs for pr...
An advanced nuclear-electrolytic hydrogen-production facility concept was synthesized at a conceptua...
The sulfur-ammonia thermochemical water-splitting cycle for hydrogen production driven by solar ther...
The Sulfur–Iodine (S_I) cycle, driven by nuclear power, seems to be one of the main candidates to p...
Thesis (S.B.)--Massachusetts Institute of Technology, Dept. of Nuclear Science and Engineering, 2006...
OAK-B135 A significant ''Hydrogen Economy'' is predicted that will reduce our dependence on petroleu...
The Sulfur–Iodine (S_I) cycle, driven by nuclear power, seems to be one of the main candidates to p...
A conceptual design is presented for a Hybrid Sulfur process for the production of hydrogen using a ...
Demand for hydrogen in the transportation energy sector is expected to keep growing in the coming de...
With the resurgence of nuclear power around the world, and the increasingly important role of hydrog...
Two Sulfur-based cycles--the Sulfur-Iodine (SI) and the Hybrid Sulfur (HyS)--have emerged as the lea...
An updated reference design for a commercial-scale high-temperature electrolysis (HTE) plant for hyd...
OAK B188 High Efficiency Generation of Hydrogen Fuels using Nuclear Power for the period May 1, 2002...
OAK B202 HIGH EFFICIENCY GENERATION OF HYDROGEN FUELS USING NUCLEAR POWER. Combustion of fossil fuel...