Reaction kinetics of pressurized entrained flow coal gasification: CFD modeling and validation

Modeling pressurized entrained flow gasification of solid fuels plays an important role in the development of Integrated Gasification Combined Cycle (IGCC) power plants and other gasification applications. A better understanding of the underlying reaction kinetics is essential for the design and optimization of entrained flow gasifiers – in particular at operating conditions relevant to large-scale industrial gasifiers, i.e. at high temperatures and high pressures. CFD simulations aim to predict conversion rates as well as product gas compositions in entrained flow gasifiers. A mechanistic and consistent modeling approach is necessary in order to develop a predictive model. The presented modeling approach is based on the software Ansys Fluent 15.0 and includes several detailed submodels in a User Defined Function (UDF), in particular relating to reaction kinetics at high temperatures. The developed CFD model is validated against experimental data, obtained from a pilot-scale entrained flow gasifier operated at the Institute for Energy Systems (Technische Universität München). The comparison of the model with these experiments shows a good correlation for the investigated lignite. Therefore, the modeling approach is suitable for describing the relevant kinetic processes in entrained flow gasifiers. The validated CFD model is then applied to a Siemens test gasifier geometry. Simulation results and characteristic parameters are analyzed in detail and provide new insights into the gasification process.      «

Modeling pressurized entrained flow gasification of solid fuels plays an important role in the development of Integrated Gasification Combined Cycle (IGCC) power plants and other gasification applications. A better understanding of the underlying reaction kinetics is essential for the design and optimization of entrained flow gasifiers – in particular at operating conditions relevant to large-scale industrial gasifiers, i.e. at high temperatures and high pressures. CFD simulations aim to predict...     »