Evaporation Characteristics of a Single Desulfurization Wastewater Droplet in High-temperature Gas

Understanding the high-temperature evaporation process of atomized wastewater droplets is a prereq-uisite for designing an efficient spray evaporation wastewater treatment facility. However, some dy-namic characteristics during the evaporation of high-temperature wastewater droplets have not yet been fully understood. Here, the convective evaporation process of desulfurization wastewater droplet in high-temperature gas, which is commonly encountered in the spray drying technology to treat desulfurization wastewater in power plants, was investigated adopting the single droplet drying (SDD) device. In-situ droplet information including the morphology, radius, temperature, and mass was recorded. The influ-ence of bulk temperature and the initial concentration of dissolved solids on evaporation kinetics was studied. To explore the development of resistances during the evaporation process as well as develop a reliable and flexible droplet evaporation model useful for CFD simulations, experimental results were correlated with a modified Reaction Engineering Approach (REA) framework, which revised the previous linear shrinkage model into a hybrid model to illustrate the droplet/particle deformation considering the possible inflation phenomenon at elevated temperatures. The results show that crust formation and in-ternal bubble nucleation induced by wastewater components contributed to unique evaporation features including decreasing evaporation rate and inflation of semi-dried particles. Increasing bulk temperature enhanced the evaporation rate and the degree of inflation. Finally, the rapid and accurate prediction of the modified REA model elucidated its effectiveness to illustrate the whole evaporation and drying pro-cess. (c) 2021 Elsevier Ltd. All rights reserved.

Automated summary

Understanding the evaporation process of high-temperature atomized wastewater droplets is crucial for designing efficient spray evaporation wastewater treatment facilities. This study investigated the convective evaporation process of desulfurization wastewater droplets in high-temperature gas, providing insights into the influence of wastewater components on evaporation characteristics and proposing a reliable droplet evaporation model. The results have significant implications for the improvement and optimization of wastewater treatment technologies.