Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
6656385 | Fuel Processing Technology | 2018 | 9 Pages |
Abstract
The flow temperature of the coal ash can noticeably be reduced if the sewage sludge ash content is increased up to 50â¯wt%. Thermochemical calculations using FactSage⢠are in good agreement with the experimental ash fusion behavior. This paper describes a method to improve the calculation to better fit the experimental values. The elemental liberation of the main ash components are modeled using FactSage⢠and experimentally validated. Except for potassium, no significant release into the gas phase was detected in the experiment. This is in contrast to the predicted evaporation of phosphorous. The addition of sewage sludge results in a lower viscosity of the slags of the mixtures in this study. As a result, the studied entrained-flow gasifier can be operated at lower temperatures while staying at an optimal viscosity for slag tapping. On the other hand, it decreases the temperature working range inside a slagging gasifier, where the slag viscosity lies between 2 and 25â¯Paâ¯s. The resulting implications on the process parameters of entrained flow gasification have been modeled with ASPENplusâ¢. Even low sewage sludge additions to the brown coal allow for lower gasifier temperatures, decreasing the specific oxygen consumption. Moreover, the cold gas efficiency and the H2/CO ratio are increased.
Keywords
Related Topics
Physical Sciences and Engineering
Chemical Engineering
Chemical Engineering (General)
Authors
Daniel Schwitalla, Markus Reinmöller, Clemens Forman, Christian Wolfersdorf, Matthias Gootz, Jin Bai, Stefan Guhl, Markus Neuroth, Bernd Meyer,