机译:基于跨音速速度可压缩流的超音速气动雾化除尘喷嘴雾化尺寸变换的数值模拟
College of Safety Science and Engineering Liaoning Technical University Fuxin ChinaResearch Institute of Safety Science and Engineering Liaoning Technical University Fuxin ChinaThermodynamic Disasters and Control of Ministry of Education Liaoning Technical University Fuxin China;
College of Safety Science and Engineering Liaoning Technical University Fuxin ChinaResearch Institute of Safety Science and Engineering Liaoning Technical University Fuxin ChinaThermodynamic Disasters and Control of Ministry of Education Liaoning Technical University Fuxin China;
Safety and Emergency Management Engineering College Taiyuan University of Technology Taiyuan China;
College of Safety Science and Engineering Liaoning Technical University Fuxin ChinaResearch Institute of Safety Science and Engineering Liaoning Technical University Fuxin ChinaThermodynamic Disasters and Control of Ministry of Education Liaoning Technical University Fuxin China;
College of Safety Science and Engineering Liaoning Technical University Fuxin ChinaResearch Institute of Safety Science and Engineering Liaoning Technical University Fuxin ChinaThermodynamic Disasters and Control of Ministry of Education Liaoning Technical University Fuxin China;
College of Safety Science and Engineering Liaoning Technical University Fuxin ChinaResearch Institute of Safety Science and Engineering Liaoning Technical University Fuxin ChinaThermodynamic Disasters and Control of Ministry of Education Liaoning Technical University Fuxin China;
Aerodynamic atomization; Dust-removing; Laval nozzle; Compressible flow field; Transonic speed; Dimension transform;