Author(s)

Valentin Cepus^*, Markus Borth, Mathias Seitz

Department Engineering and Natural Sciences, Merseburg University of Applied Sciences, Merseburg, Germany.

The catalytic pyrolysis of lignites is a technical process whose development is complex and time-consuming with the goal to maximize the yield of the desired low-volatile hydrocarbons of choice and to minimize the yield of solid residual products. Not every type of lignite is suitable for this process due to its particular chemical composition. In order to be able to predict which lignite specimen will be an especially promising raw material for the pyrolytic liberation of target products, the chemical classification by IR spectroscopic methods was investigated. MIR spectroscopy has been demonstrated to be a valuable tool to characterize the the molecular composition of lignites and to determine the concentrations of aliphatic and aromatic functional groups in lignite as well as alcoholic OH and other forms of bound oxygen. These data provide a comprehensive chemical characterization of the material and help to predict the composition of the chemical components liberated by catalytic decomposition. With a complementary NIR spectroscopic approach, a chemometric method has been developed with which the elemental com-position of the lignites can be determined in a fast and pragmatic way leading to a prediction of the product range of a theoretical pyrolytic product range. Thus, this spectroscopic investigation is a toolbox that can answer the question if the commercial exploitation of catalytic pyrolysis of a lignite sample in question will make sense without preliminary conduction of long and time-consuming testing.

Coal, Lignite, IR Spectroscopy, Characterization, MIR, NIR, Pyrolysis

Cepus, V. , Borth, M. and Seitz, M. (2016) IR Spectroscopic Characterization of Lignite as a Tool to Predict the Product Range of Catalytic Decomposition. International Journal of Clean Coal and Energy, 5, 13-22. doi: 10.4236/ijcce.2016.51002.