High-yield hydrogen production by catalytic gasification of coal or biomass

from plants is seldom possible. This article reviews the options, covering both established commercial activities (such as starch, vegetable oil, paperpulp and natural fibres), as well as the extensive research and development activities that should lead to new crops, new products and new markets.

The catalytic pyrolysis of plant biomass was investigated in a dual-particle powder fluidized-bed (PPFB), where the primary decompositions and secondary reactions occurred simultaneously under ambient pressure. The yields and distributions of the pyrolysis products were studied under various operati

An environmentally friendly and cost-competitive way of producing hydrogen is the catalytic steam reforming of biomass pyrolysis liquids, known as bio-oil, which can be separated into two fractions: ligninic and aqueous. Acetic acid has been identified as one of the major organic acids present in th

## Abstract **Cocktail reception**: Biohydrogen is produced in high yield from cellulosic materials and water in a one‐pot process catalyzed by up to 14 enzymes and one coenzyme. This assembly of enzymes results in non‐natural catabolic pathways. These spontaneous reactions are conducted under mode

03 Gaseous fuels (derived gaseous fuels) oxygen) in these power plants are also discussed, together with coal combined power plants with carbon monoxide conversion and absorptive carbon dioxide scrubbing, fundamentals for calculation and analysis of combined-cycle power plants with integrated coal g