液-液雾化的研究一直为众多学者所关注,其中通过喷嘴将一种液体以液滴的形式连续不断地喷射到另一种非相溶液体中的雾化形式具有结构简单、操作方便等优势,已广泛应用在精馏与萃取、乳化、分离和喷墨打印等领域。液-液雾化形成细小液滴能显著强化两相间的传热与传质过程,将具有高效传热传质能力的直接接触过程引入工程领域,充分发挥多相流动与传热的重要作用~([1-7])。目前针对液-液雾化形成液滴问题所进行的数值 Liquid-liquid atomization has been the focus of many scholars, which through a nozzle to a liquid droplets in the form of continuous spray to another non-miscible liquid atomized form has the advantages of simple structure, easy operation Advantages, has been widely used in the distillation and extraction, emulsification, separation and inkjet printing and other fields. Liquid-liquid atomization to form small droplets can significantly enhance the heat transfer and mass transfer between the two phases. The direct contact process with high efficiency of heat and mass transfer can be introduced into the engineering field to give full play to the important role of multiphase flow and heat transfer. ([1-7]). At present, the liquid-liquid atomization to form droplets of the numerical value