研究领域
主要在化工过程强化(Process Intensification)领域从事研究工作。
过程强化技术概念最早于20世纪90年代中期提出,是以“节能、降耗、环保、集约化”为目标,是解决化学工业“高能耗、高污染和高物耗”问题的最有效技术手段之一,也是目前欧美国家列为当前化学工程优先发展的三大领域之一。过程强化技术可显著提升和系统协调化工过程中的混合、传递或反应过程速率,大幅减小化工过程的设备尺寸,简化工艺流程,减少装置数量,使单位能耗、废料、副产品显著减少,提升目标产品收率和质量。
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Luo P C, Wu H*, Morbidelli M. Dispersion of single-walled carbon nanotubes by intensive turbulent shear in micro-channels. Carbon, 68, 610-618, 2014. (IF=6.16)
Yu J C, Luo P C, et al. Quantitative evaluation of biological reaction kinetics in confined nanospaces. Anal. Chem., 86(16), 8129-8135, 2014. (共同第一作者,IF=5.825)
Luo P C*, Wu J, et al. Jet trajectories of liquid mixing in multi-orifice-impinging transverse jet mixer." CIESC J (化工学报), 65(7), 2733-2740, 2014.
Luo P C*; Jia H Y, Xin C X, Xiang G Z, Jiao Z, Wu H*. An experimental study of liquid mixing in a multi-orifice-impinging transverse jet mixer using PLIF, Chem. Eng. J., 228, 554-564, 2013. (IF=4.058)
Luo P C*, Shi L, Xiang G Z, et al. Synthesis of copper pyrithione by co-precipitation method in a tee mixer reactor. Chinese J. Inorg. Chem., 29(8), 1738-1744, 2013. (IF=0.742)
Luo P C*, Cao C C, Liang Y C, et al. Kinetic study of the acetylation of cotton linter pulp, BioRes., 8(2), 2708-2718, 2013. (IF=1.549)
Luo P C*, Xin C X, Ma X L, et al. Process modeling of the batch acetylation of cotton linter pulp, BioRes., 8(4), 2708-2718, 2013. (IF=1.549)
Luo P C, Cheng Y*, Zhao Y Z, et al. Millisecond mixing of two liquid streams in a mixer model. Chem. Eng. Sci., 62, 5688-5695. 2007. (IF=2.613)
Luo P C, Cheng Y*, Jin Y, et al. Fast liquid mixing by cross-flow impingement in millimeter channels. Chem. Eng. Sci., 62, 6178-6190. 2007. (IF=2.613)
Luo P C, Cheng Y*, Wang Z W, et al. Study on the mixing behavior of thin liquid-sheet impinging jets using the PLIF technique. Ind. Eng. Chem. Res., 45, 863-870. 2006. (IF=2.235)
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