Process design of a thermochemical cycle for hydrogen production compatible with nuclear fusion heat sources

“…For heat exchange, the temperature change of the heat giving fluid and the heat given are shown in Table 18 , and the temperature change of the heat receiving fluid and the heat received are shown in Table 19 . The composite curves, 9,56,57 also known as temperature–enthalpy ( T – Q ) diagram, for the entire process are drawn in Fig. 18 .…”

“…To address these problems, renewable hydrogen production methods are highly sought aer. [3][4][5][6][7][8][9] In this context, hydrogen production from biomass, a renewable resource, has been attracting attention in recent years. Biomass grows by capturing and condensing solar energy into chemical energy as carbohydrates through photosynthetic reactions of carbon dioxide and water.…”

Proposal, design, and cost analysis of a hydrogen production process from cellulose via supercritical water gasification

“…For heat exchange, the temperature change of the heat giving fluid and the heat given are shown in Table 18 , and the temperature change of the heat receiving fluid and the heat received are shown in Table 19 . The composite curves, 9,56,57 also known as temperature–enthalpy ( T – Q ) diagram, for the entire process are drawn in Fig. 18 .…”

“…To address these problems, renewable hydrogen production methods are highly sought aer. [3][4][5][6][7][8][9] In this context, hydrogen production from biomass, a renewable resource, has been attracting attention in recent years. Biomass grows by capturing and condensing solar energy into chemical energy as carbohydrates through photosynthetic reactions of carbon dioxide and water.…”

Proposal, design, and cost analysis of a hydrogen production process from cellulose via supercritical water gasification

Electromagnetic–thermal–mass transport triple hybrid model for energy-efficient hydrogen release from metal particles by induction heating