Crystallization kinetics and TCV prediction of coal ash slag under slag tapping conditions in an entrained flow gasifier

Slag blockages in the bottom of gasifiers cause unplanned shutdowns and huge losses for syngas utilization downstream of gasification. The sudden viscosity increase by crystal precipitation leads to slag blockage during slag tapping in entrained flow gasifiers. The temperature at which the viscosity abruptly increases is the tem-perature of critical viscosity (T-CV), which is the strict low limit temperature for slag tapping. A comprehensive investigation of slag crystallization kinetics was performed to illustrate T-CV in this work. Five slag samples with three different dominant mineral phases that commonly appear in coal ash slag were selected by thermodynamic calculations. The single hot thermocouple technique (SHTT) was applied to analyze the crystallization kinetics based on Avrami and JMA theory. The kinetic analysis indicated that anorthite showed heterogeneous nu-cleation and grew with a two-dimensional crystalline pattern. The temperature range for anorthite crystal-lization was approximately 150 degrees C. Corundum exhibited heterogeneous nucleation and one-dimensional growth pattern. The maximum crystal ratio was 52% for corundum at the temperature of 98 degrees C. Mullite showed a low E, value, resulting in a high T-on. Rapid crystallization of mullite was observed at 60 degrees C due to homogeneous nucleation and two-dimensional crystallization. In this work, T-CV was revealed by crystallization kinetics for the first time. The relationship between T-CV and the activation energy, maximum crystalline rate, and initial crys-tallization temperature was built to illustrate the influence of crystallization on T-CV. Three equations were used for Tcv prediction to guide coal selection and slag tapping in entrained flow gasifiers.