水动力学研究与进展A辑
水動力學研究與進展A輯
수동역학연구여진전A집
JOURNAL OF HYDRODYNAMICS
2009年
6期
686-695
,共10页
喷熔射流%拖网表面流场%流场均匀性%流场湍流度
噴鎔射流%拖網錶麵流場%流場均勻性%流場湍流度
분용사류%타망표면류장%류장균균성%류장단류도
melt-blown jet%the flow of collecting web%flow uniformity%flow turbulence
本文的工作是对喷熔无纺织布的常用生产设备-喷熔机的风场特性及流动控制进行研究.通过理论分析、数值模拟和模型实验三个方面对问题展开了具体的研究,首先对喷熔机风场流动进行理论分析并建立数学模型,然后进行数值模拟,最后根据模型相似理论,制作比尺为3∶1的有机玻璃模型,使用90N10型热线风速测量系统(HFA),参考数值模拟工况对喷熔装置风场流动进行了实验测量,这三个部分工作彼此验证,补充和完善.数值模拟结果和实验测量结果基本一致,吸风装置工作状态对拖网板上方流场有重要影响.随着挡风板开度和主副吸风速度搭配的改变,拖网上方流场呈现规律性的变化.研究表明在恰当的挡风板开度和吸风速度下,拖网上方流场速度分布和压力分布的均匀性都有显著提高,进而使无纺布孔径更小更均匀,孔隙形状和孔隙结构更为规整,提高了无纺布的均匀性、强度以及过滤效率.
本文的工作是對噴鎔無紡織佈的常用生產設備-噴鎔機的風場特性及流動控製進行研究.通過理論分析、數值模擬和模型實驗三箇方麵對問題展開瞭具體的研究,首先對噴鎔機風場流動進行理論分析併建立數學模型,然後進行數值模擬,最後根據模型相似理論,製作比呎為3∶1的有機玻璃模型,使用90N10型熱線風速測量繫統(HFA),參攷數值模擬工況對噴鎔裝置風場流動進行瞭實驗測量,這三箇部分工作彼此驗證,補充和完善.數值模擬結果和實驗測量結果基本一緻,吸風裝置工作狀態對拖網闆上方流場有重要影響.隨著擋風闆開度和主副吸風速度搭配的改變,拖網上方流場呈現規律性的變化.研究錶明在恰噹的擋風闆開度和吸風速度下,拖網上方流場速度分佈和壓力分佈的均勻性都有顯著提高,進而使無紡佈孔徑更小更均勻,孔隙形狀和孔隙結構更為規整,提高瞭無紡佈的均勻性、彊度以及過濾效率.
본문적공작시대분용무방직포적상용생산설비-분용궤적풍장특성급류동공제진행연구.통과이론분석、수치모의화모형실험삼개방면대문제전개료구체적연구,수선대분용궤풍장류동진행이론분석병건립수학모형,연후진행수치모의,최후근거모형상사이론,제작비척위3∶1적유궤파리모형,사용90N10형열선풍속측량계통(HFA),삼고수치모의공황대분용장치풍장류동진행료실험측량,저삼개부분공작피차험증,보충화완선.수치모의결과화실험측량결과기본일치,흡풍장치공작상태대타망판상방류장유중요영향.수착당풍판개도화주부흡풍속도탑배적개변,타망상방류장정현규률성적변화.연구표명재흡당적당풍판개도화흡풍속도하,타망상방류장속도분포화압력분포적균균성도유현저제고,진이사무방포공경경소경균균,공극형상화공극결구경위규정,제고료무방포적균균성、강도이급과려효솔.
Based on the theory analysis of turbulence, the numerical simulation and the experiment, the melt-blown (MB) flow characteristics and the flow control on collecting web were investigated in this paper. Firstly, numerical simulation was used to investigate the flow process in order to optimize the technical parameters. Then, experiment measurement was performed by using the Dantec Hot Wire Anemometry system (Dantec, Streamline 90N10) in the physical model. The numerical simulation results were consistent with the experimental results, the flow characteristics on collecting web were affected by the speed of suction equipment and its regulation plate opening angle. With the change of the plate opening angle and main/auxiliary suction speed, the distribution of flow speed and pressure on collecting web were different. Taking into account of these facts, the distribution of speed and pressure were improved evidently at the optimal main/auxiliary suction speed and the suitable opening angle, then the aperture of MB non-woven fabric was smaller and more uniform, its hole-shape and structure was more orderly. Furthermore the uniformity, intensity and filtration efficiency were enhanced for MB non-woven fabric.