化工进展
化工進展
화공진전
CHEMICAL INDUSTRY AND ENGINEERING PROGRESS
2012年
12期
2615-2625
,共11页
孟辉波%王艳芬%禹言芳%王伟%王丰%吴剑华
孟輝波%王豔芬%禹言芳%王偉%王豐%吳劍華
맹휘파%왕염분%우언방%왕위%왕봉%오검화
射流混合%混合时间%设计参数%计算流体力学
射流混閤%混閤時間%設計參數%計算流體力學
사류혼합%혼합시간%설계삼수%계산류체역학
jet mixing%mixing time%design parameters%CFD
介绍了有关射流混合设备内混合时间的实验研究进展,概述了计算流体力学(CFD)技术在射流混合设备内流场结构演化和混合效率评价中的应用,总结了不同研究者提出的混合时间关联式。分析影响射流混合效率的参数发现:混合时间随着混合槽直径的增加而增加,并与混合槽的高度呈正比;射流速度的增加可有效地降低混合时间;射流喷嘴的最佳直径与形状由混合槽的具体结构决定,但其最佳位置取决于混合槽高度与直径的比值;多股对置射流明显地提高混合效率。最后指出将CFD方法与压力波动信号(PFS)、PIV和PLIF等实验方法相结合可有效地推进射流强化混合机理研究和新型射流混合反应器的开发进程。
介紹瞭有關射流混閤設備內混閤時間的實驗研究進展,概述瞭計算流體力學(CFD)技術在射流混閤設備內流場結構縯化和混閤效率評價中的應用,總結瞭不同研究者提齣的混閤時間關聯式。分析影響射流混閤效率的參數髮現:混閤時間隨著混閤槽直徑的增加而增加,併與混閤槽的高度呈正比;射流速度的增加可有效地降低混閤時間;射流噴嘴的最佳直徑與形狀由混閤槽的具體結構決定,但其最佳位置取決于混閤槽高度與直徑的比值;多股對置射流明顯地提高混閤效率。最後指齣將CFD方法與壓力波動信號(PFS)、PIV和PLIF等實驗方法相結閤可有效地推進射流彊化混閤機理研究和新型射流混閤反應器的開髮進程。
개소료유관사류혼합설비내혼합시간적실험연구진전,개술료계산류체역학(CFD)기술재사류혼합설비내류장결구연화화혼합효솔평개중적응용,총결료불동연구자제출적혼합시간관련식。분석영향사류혼합효솔적삼수발현:혼합시간수착혼합조직경적증가이증가,병여혼합조적고도정정비;사류속도적증가가유효지강저혼합시간;사류분취적최가직경여형상유혼합조적구체결구결정,단기최가위치취결우혼합조고도여직경적비치;다고대치사류명현지제고혼합효솔。최후지출장CFD방법여압력파동신호(PFS)、PIV화PLIF등실험방법상결합가유효지추진사류강화혼합궤리연구화신형사류혼합반응기적개발진정。
This paper introduced the experimental researches on mixing time of jet mixers,overviewed the applications of CFD technologies in the evaluation of mixing efficiency and flow field structure,and summarized the correlations for mixing time proposed by different researchers.By analyzing the effect of parameters on jet mixing efficiency,it was found that mixing time increased with the increasing of tank diameter and was proportional to the height of tank.The increasing of jet velocity can effectively reduce the mixing time.The optimum diameter and shape of jet nozzles were decided by the concrete structures of jet mixers,but the optimum position of jet nozzle depended on the height-to-diameter ratio of tank.Multiple opposed jets can improve the mixing efficiency obviously.This research indicated that the research and development process of jet mixing enhancement mechanism and novel jet mixing reactor can effectively promoted by combining CFD methods with experimental methods such as pressure fluctuation signal(PFS),PIV and PLIF technology.
