Shinji Fujimoto scite author profile

In an effort to develop a novel hydrogen production process in which coal is gasified with highpressure steam in the presence of CO 2 sorbents, the fundamental CO 2 sorption characteristics of Ca-based sorbents during repetitive carbonation-calcination reactions at different pressures were investigated using a conventional TG/DTA analyzer and a laboratory-scale horizontaltube reactor. The results revealed that, as a result of sintering and crystal growth, Ca-based sorbents were significantly deactivated by high-temperature calcination treatment. As a consequence, the CO 2 uptake capacity of the sorbents decreased with cycle number under both atmospheric and pressurized conditions. An intermediate hydration treatment was found to enhance the reactivity and durability of the sorbents for multicycle CO 2 sorption. Because of the presence of eutectics in the CaO-Ca(OH) 2 -CaCO 3 ternary system, the formation of sorbent melts was observed in repetitive calcination-hydration-carbonation reactions at elevated pressures at 923 and 973 K. Even under eutectic conditions, the sorbents retained their high reactivity for CO 2 sorption.

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Hydrogen Production from Woody Biomass by Novel Gasification Using CO2 Sorbent

Hanaoka

Fujimoto

Yoshida

et al. 2004

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Shinji Fujimoto

Co-gasification of woody biomass and coal with air and steam

Wet disk milling pretreatment without sulfuric acid for enzymatic hydrolysis of rice straw

Repetitive Carbonation−Calcination Reactions of Ca-Based Sorbents for Efficient CO₂ Sorption at Elevated Temperatures and Pressures

Hydrogen Production from Woody Biomass by Novel Gasification Using CO2 Sorbent

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About

Shinji Fujimoto

Co-gasification of woody biomass and coal with air and steam

Wet disk milling pretreatment without sulfuric acid for enzymatic hydrolysis of rice straw

Repetitive Carbonation−Calcination Reactions of Ca-Based Sorbents for Efficient CO2 Sorption at Elevated Temperatures and Pressures

Hydrogen Production from Woody Biomass by Novel Gasification Using CO2 Sorbent

Contact Info

Product

Resources

About

Repetitive Carbonation−Calcination Reactions of Ca-Based Sorbents for Efficient CO₂ Sorption at Elevated Temperatures and Pressures