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经过1年多的修改,投递,改投,大修、小修,终于录用了。辛苦,也学到很多,谢谢专家、评审、出版单位、协助单位。这是第2篇SCI论文,第一篇SCI论文今年1 月在Advanced powder technology已发表,两篇论文,IF都是2.0+,只要开始,就不停息,不凑合,继续努力,争取更进一步。
粘贴论文摘要,与大家分享。
Developments in Studies ofAir EntrainedbyFalling Bulk Materials
Li Xiaochuana,b,*, Wang Qilia, Liu Qic,Hu Yafeia
a School of ChemicalEngineering and Technology, China University of Mining and Technology, Xuzhou221008, China
b National EngineeringResearch Center of Coal Preparation and Purification, China University ofMining and Technology, Xuzhou 221008, China
cSchool of Electric Power Engineering , ChinaUniversity of Mining and Technology, Xuzhou, 221116, China
Abstract:Air entrainedduringthe transfer of bulk materialsfrom one beltconveyor to another is a primaryfactor of dust emissions. However, theoreticalcalculation ofthe volumetric flow rate of air entrainment is very difficult toobtain, resulting in inaccurate and unreliable design and operation of dustcontrol systems. This paper summarizes existing theoretical calculation andexperimental methods, as well as techniques employed to decrease airentrainment. The current study focuses on theprocess of physical motion andenergy conversionof fallingbulk materials, the flow pattern of free-fallingparticles,and the factors which influence the generation of air entrainment.Additionally, the impact of certain devices on the weakening or guiding of airentrainment is also discussed. Finally, the authorspropose several futureresearch options to further investigate air entrainment.
Keywords: Air entrainment; dust emissions;falling particles
http://www.sciencedirect.com/science/article/pii/S0032591015302321
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