中国石油大学学报(自然科学版)
中國石油大學學報(自然科學版)
중국석유대학학보(자연과학판)
JOURNAL OF CHINA UNIVERSITY OF PETROLEUM(EDITION OF NATURAL SCIENCE)
2015年
3期
98-104
,共7页
张欣玮%汤积仁%卢义玉%周哲%章文峰%陈钰婷
張訢瑋%湯積仁%盧義玉%週哲%章文峰%陳鈺婷
장흔위%탕적인%로의옥%주철%장문봉%진옥정
淹没水射流%涡旋%大涡模拟%粒子成像测速
淹沒水射流%渦鏇%大渦模擬%粒子成像測速
엄몰수사류%와선%대와모의%입자성상측속
submerged water jet%vortex%large eddy simulation%particle image velocimetry
采用大涡模拟方法对淹没条件下水射流的涡量场进行数值模拟,分析流场中涡旋的产生与扩散机制,并通过相同条件下粒子图像测速仪测量射流的涡量场,对模拟结果和方法进行验证。模拟研究泵压和围压对淹没射流涡旋特性的影响。结果表明:在射流流场中,由喷嘴出口产生一系列涡量集中的点涡旋,随着射流的前进涡旋逐渐扩散,卷吸周围介质并传递能量,卷吸范围逐渐扩大,而卷吸能力沿射流轴向呈指数衰减;随着泵压升高,整个流场中涡旋的涡量值明显增大,涡旋扩散长度直线上升;围压对涡量基本没有影响,围压的增加会使涡旋扩散区长度直线下降,减小卷吸作用范围。
採用大渦模擬方法對淹沒條件下水射流的渦量場進行數值模擬,分析流場中渦鏇的產生與擴散機製,併通過相同條件下粒子圖像測速儀測量射流的渦量場,對模擬結果和方法進行驗證。模擬研究泵壓和圍壓對淹沒射流渦鏇特性的影響。結果錶明:在射流流場中,由噴嘴齣口產生一繫列渦量集中的點渦鏇,隨著射流的前進渦鏇逐漸擴散,捲吸週圍介質併傳遞能量,捲吸範圍逐漸擴大,而捲吸能力沿射流軸嚮呈指數衰減;隨著泵壓升高,整箇流場中渦鏇的渦量值明顯增大,渦鏇擴散長度直線上升;圍壓對渦量基本沒有影響,圍壓的增加會使渦鏇擴散區長度直線下降,減小捲吸作用範圍。
채용대와모의방법대엄몰조건하수사류적와량장진행수치모의,분석류장중와선적산생여확산궤제,병통과상동조건하입자도상측속의측량사류적와량장,대모의결과화방법진행험증。모의연구빙압화위압대엄몰사류와선특성적영향。결과표명:재사류류장중,유분취출구산생일계렬와량집중적점와선,수착사류적전진와선축점확산,권흡주위개질병전체능량,권흡범위축점확대,이권흡능력연사류축향정지수쇠감;수착빙압승고,정개류장중와선적와량치명현증대,와선확산장도직선상승;위압대와량기본몰유영향,위압적증가회사와선확산구장도직선하강,감소권흡작용범위。
The large eddy simulation was used to numerically simulate the vorticity field of submerged water jet in submerged condition, through which the mechanism of vortex generation and diffusion in the flow field was analyzed. And the simulation results and methods were validated using the particle image velocimetry ( PIV) measurement test of vorticity field under the same conditions. In this way the effect of pump pressure and confining pressure on vortex characteristics of submerged jet were studied. The results show that a series of point vortexes with large vorticity are generated by the nozzle exit in the jet flow field. With the progress of jet development, vortexes spread gradually and entrain the surrounding medium to transfer en-ergy, which causes the scope of entrainment expanded gradually and the entrainment ability decayed exponentially along the jet axis. With the pump pressure increasing, the vorticity of entire flow field increases significantly and the length of vortex diffusion climbs straight. While confining pressure has no effect on the magnitude of the vorticity, and the increase of confi-ning pressure leads to reduce the length of the vortex diffusion.