Elucidation of Coal Liquefaction Mechanism Using a Tritium Tracer Method. Effect of H2S and H2O on Hydrogen Exchange Reaction of Tetralin with Tritiated Molecular Hydrogen
- 1 March 1997
- journal article
- research article
- Published by American Chemical Society (ACS) in Energy & Fuels
- Vol. 11 (2) , 470-476
- https://doi.org/10.1021/ef960119m
Abstract
No abstract availableThis publication has 24 references indexed in Scilit:
- Estimation of hydrogen mobility in coal using a tritium tracer method. Hydrogen exchange reactions of coals with tritiated water and molecular hydrogenEnergy & Fuels, 1993
- Tritium as a tracer in coal liquefaction. 1. Hydrogen mobility of Tetralin under coal liquefaction conditionsIndustrial & Engineering Chemistry Research, 1991
- Tritium as a tracer in coal liquefaction. 3. Reactions of morwell brown coal with tritiated hydrogen moleculesEnergy & Fuels, 1990
- Catalytic roles of iron and hydrogen sulphide on hydrogenation of coalFuel, 1984
- Hydrogen incorporation during coal liquefactionFuel, 1984
- Use of INEPT and GASPE n.m.r. pulse sequences: Assignment of position of incorporation of deuterium into tetralin during coal hydrogenationFuel, 1983
- Hydrogen/deuterium transfer in coal liquefactionFuel, 1982
- Effects of pressure and isotopic substitution on the rate of reaction of coal with TetralinThe Journal of Organic Chemistry, 1982
- Aspects of the chemistry of donor solvent coal dissolution. The hydrogen-deuterium exchange reactions of tetralin-d12 with Illinois No. 6 coal, coal products and related compoundsFuel, 1982
- Deuterium magnetic resonance spectrometry as a tracer tool in coal liquefaction processesAnalytical Chemistry, 1976