Distributed kinetic parameters for the evolution of gaseous species in the pyrolysis of coal

Kinetic data show that the pyrolysis reactions of hard coal may be interpreted in terms of parallel first order reactions, relating to the coal functional groups which can be considered as predecessors of the pyrolysis products. This relation is confirmed by C-, H-and O-balances of pyrolysis product

## Ahstraet The chenulummescence reactlon of CIO-with H,O, m akahne solution was apphed to the determmatron of gaseous chlorme species such as Cl, and HCl m ambient au The detection htmt for Cl, was 1 ppm (v/v) and the relative standard devlatlon of fne measurements of 2 5 ppm Cl, was 3 8% Hydroca

A high-volatile A bituminous coal was oxidized with 180, at 1OO'C for 72 h to simulate weathering, and subsequently pyrolysed at various temperatures to drive off C180,, C1801%, C1%,, C180, C160, Hz180, Hz'%. These gases were subsequently analysed by massspectrometry. The results indicate that 60%

Structures are often characterized by parameters, such as mass and stiffness, that are spatially distributed. Parameter identification of distributed structures is subject to many of the difficulties involved in the modelling problem, and the choice of the model can greatly affect the results of the