A.E. Saba scite author profile

Co-Hydrothermal Carbonization (Co-HTC) is a thermochemical process, where coal and biomass were treated simultaneously in subcritical water, resulting in bulk-homogenous hydrochar that is carbon-rich and a hydrophobic solid fuel with combustion characteristics like coal. In this study, technoeconomic analysis of Co-HTC was performed for a scaled-up Co-HTC plant that produces fuel for 110 MWe coal-fired power plant using Clarion coal #4a and miscanthus as starting feedstocks. With precise mass and energy balance of the Co-HTC process, sizing of individual equipment was conducted based on various systems equations. Cost of electricity was calculated from estimated capital, manufacturing, and operating and maintenance costs. The breakeven selling price of Co-HTC hydrochar was $117 per ton for a 110 MWe. Sensitivity analysis indicates that this breakeven selling price could be as low as $106 per ton for a higher capacity plant. Besides plant size, the price of solid fuel is sensitive to the feedstock costs and hydrochar yield.

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Continuous electrowinning of zinc

Saba

Elsherief

2000

Hydrometallurgy

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Structure and magnetic properties of NixZn1−xFe2O4 nanoparticles prepared through co-precipitation method

Rashad

Elsayed

Moharam

et al. 2009

Journal of Alloys and Compounds

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A.E. Saba

Effect of hydrothermal carbonization temperature on pH, dissociation constants, and acidic functional groups on hydrochar from cellulose and wood

Co-Hydrothermal Carbonization of coal-biomass blend: Influence of temperature on solid fuel properties

Techno-Economic Assessment of Co-Hydrothermal Carbonization of a Coal-Miscanthus Blend

Continuous electrowinning of zinc

Structure and magnetic properties of NixZn1−xFe2O4 nanoparticles prepared through co-precipitation method

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