中国煤炭
中國煤炭
중국매탄
CHINA COAL
2014年
1期
90-94
,共5页
重介质旋流器%入料角%流场%数值模拟
重介質鏇流器%入料角%流場%數值模擬
중개질선류기%입료각%류장%수치모의
heavy medium cyclones%feeding angle%flow field%numerical simulation
在PIV试验的基础上,利用FLUENT软件中的 RSM模型对不同入料角的有压两产品重介质旋流器的流场进行了模拟。结果表明,在相同的入料压力下,与传统90°入料角重介质旋流器相比,入料角减小后旋流器的三维速度均有不同程度的增加,流体流动加强;同时旋流器内旋流区域增大,以零轴向速度包络面(LZVV)为界面外扩,从而使矿物的实际分选密度有所提高;当入料角减小到某临界角度时,切向速度不再继续增大,由数值模拟结果推测该临界角度在83°~85°之间。
在PIV試驗的基礎上,利用FLUENT軟件中的 RSM模型對不同入料角的有壓兩產品重介質鏇流器的流場進行瞭模擬。結果錶明,在相同的入料壓力下,與傳統90°入料角重介質鏇流器相比,入料角減小後鏇流器的三維速度均有不同程度的增加,流體流動加彊;同時鏇流器內鏇流區域增大,以零軸嚮速度包絡麵(LZVV)為界麵外擴,從而使礦物的實際分選密度有所提高;噹入料角減小到某臨界角度時,切嚮速度不再繼續增大,由數值模擬結果推測該臨界角度在83°~85°之間。
재PIV시험적기출상,이용FLUENT연건중적 RSM모형대불동입료각적유압량산품중개질선류기적류장진행료모의。결과표명,재상동적입료압력하,여전통90°입료각중개질선류기상비,입료각감소후선류기적삼유속도균유불동정도적증가,류체류동가강;동시선류기내선류구역증대,이령축향속도포락면(LZVV)위계면외확,종이사광물적실제분선밀도유소제고;당입료각감소도모림계각도시,절향속도불재계속증대,유수치모의결과추측해림계각도재83°~85°지간。
Based on PIV experimental research,using RSM model in FLUENT to simulate the flow field of pressure-fed 2-product heavy medium cyclones with different feeding angles.The results showed that under the same feeding pressure,compared to the traditional 90°feeding angle heavy medi-um cyclones,three-dimensional velocity increases in various degrees as feeding angle decreases,the fluid flow is being strengthened.At the same time the rotational flow vortex area is enlarged,extend LZVV interface,thereby causing the actual separation density of mineral is increased;when feeding angle de-creases to a critical point,tangential velocity is no longer continue to increase.The numerical simulation results indicate that the critical angle is between 83°~85°.