Manufacture of benzene by hydrogenation of liquid pyrolysis products

Pyrolysis of benzene at ca 6OC~9OO"C over Ni powder generated different types of carbon nanostructures possessing a wide range of morphologies. The effects of temperature and time on carbon nanotubes growth were evaluated. The deposited carbon yield was measured, and the quality of the nanotubes was

## (In Japanese) The combustion system under discussion, includes a means for converting hydrocarbon fuels, such as petroleum and coal into a gas, which contains CO, Hz; and COz. The system also has a means for desuifurizing the gas, a means for CO conversion (by steam reforming) to form hydrogen a

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

The pore structure of the pyrolysis residues of poiy-2.~dimethylphenyleneoxide (PPO) and oxidized PPO were studied by adsorption measurements. The Dubinin method with different gases as adsorbents was used for determination of the micropore volume. In all cases slit-shaped micropores were found, Pre