2018年:
[1] K. Huang, Y. Yuan, X. Zang, H. Chen, L. Zhang, X. Qian, S. Wang; “Controllability Evaluation for Reactive Distillation Columns with Multiple Reactive Sections Disproportionation Trichlorosilane to Silane,” Industrial and Engineering Chemistry Research, 57(3), 1102−1108(2018).
2017年:
[2] X. Zang, K. Huang, Y. Yuan, H. Chen, L. Zhang, S. Wang, K. Wang; “Reactive Distillation Columns with Multiple Reactive Sections: A Case Study on the Disproportionation of Trichlorosilane to Silane,” Industrial and Engineering Chemistry Research, 56(3), 717−727(2017).
2016年:
[3] Y. Yuan, L. Zhang, H. Chen, S. F. Wang, K. Huang, H. Shao; “Interpreting the Dynamic Effect of Internal Heat Integration on Reactive Distillation Columns,” Chinese Journal of Chemical Engineering, (In press, 2016).
[4] Huang K., Y. Yuan, L. Zhang, H. Chen, S. F. Wang, N. Liu; “Unique Influences of Reboiler Inventory Control on the Operation of Totally Reboiled Reactive Distillation Columns,” Chinese Journal of Chemical Engineering, (In press, 2016).
[5] Chen H., L. Zhang, K. Huang, Y. Yuan, X. Zong, S. F. Wang, L. Liu; “Reactive Distillation Columns with Two Reactive Sections: Feed Splitting plus External Recycle,” Chemical Engineering and Processing: Process Intensification, 108, 189−196 (2016).
[6] Yu J., L. Shi, Y. Yuan, H. Chen, S. J. Wang, and K. Huang; “Thermally Coupled Reactive Distillation System for the Separations of Cyclohexene/Cyclohexane Mixtures,” Industrial and Engineering Chemistry Research, 55(1), 311−322 (2016).
2015年:
[7] Shi L., K. Huang, S. J. Wang, J. Yu, Y. Yuan, H. Chen, and D. S. H. Wong; “Application of Vapor Recompression to Heterogeneous Azeotropic Dividing-Wall Distillation Columns,” Industrial and Engineering Chemistry Research, 54(46), 11592−11609 (2015).
[8] Yuan Y., H. Chen, J. Yu, K. Huang, S. Li, and W. Chen; “Employing Feed Splitting to Eliminate the Black-Hole Problem of Dividing-Wall Distillation Columns,” Asia-Pacific Journal of Chemical Engineering, 10(6), 936−952 (2015).
[9] Zhang, L., H. Chen, Y. Yuan, J. Yu, S. Wang, and K. Huang; “Synthesis and Design of Reactive Distillation Columns with Two Reactive Sections,” Chemical Engineering Research and Design, 100, 311−322 (2015).
[10] Zong, X., K. Huang, Y. Yuan, H. Chen, J. Yu; “Design and Operation of Dividing-Wall Distillation Columns. 2. Process Dynamics and Operation,” Chemical Engineering and Processing: Process Intensification, 91, 89−103 (2015).
[11] Yu, J., S. J. Wang, K. Huang, Y. Yuan, H. Chen, and L. Shi; “Improving the Performance of Extractive Dividing-Wall Columns with Intermediate Heating,” Industrial and Engineering Chemistry Research, 54(10), 2709−2723 (2015).
[12] Zhang, L., H. Chen, Y. Yuan, S. Wang, and K. Huang; “Adopting Feed Splitting in Design of Reactive Distillation Columns with Two Reactive Sections,” Chemical Engineering and Processing: Process Intensification, 89, 9−18 (2015).
2014年:
[13] Yuan, Y., and K. Huang; “Operation of Dividing-Wall Distillation Columns. 3. A Simplified Double Temperature Difference Control Scheme,” Industrial and Engineering Chemistry Research, 53(41), 15969−15979 (2014).
[14] Yu, C., X. Yao, K. Huang, L. Zhang, S. Wang, and H. Chen; “A Reactive Distillation Column with Double Reactive Sections for the Separations of Two-Stage Consecutive Reversible Reactions,” Chemical Engineering and Processing: Process Intensification, 79, 56−68 (2014).
[15] Huang, K., H. Chen, L. Zhang, S. Wang, and W. Liu; “Effective Arrangement of an External Recycle in Reactive Distillation Columns,” Industrial and Engineering Chemistry Research, 53(5), 1986−1998 (2014).
[16] Chen, W., K. Huang, H. Chen, C. Xia, G. Wu, and K. Wang; “Design and Operation of Dividing-Wall Distillation Columns. 1. Diminishing the Black-Hole Problem Through Over-Design,” Chemical Engineering and Processing: Process Intensification, 75, 90−109 (2014).
2013年:
[17] Wu, N., K. Huang, and S. Luan; “Operation of Dividing-Wall Distillation Columns. 2. A Double Temperature Difference Control Scheme,” Industrial and Engineering Chemistry Research, 52(15), 5365−5383 (2013).
[18] Gao, J., K. Huang, S. Luan, Y. Jiao, and S. Li; “Avoiding the Black-Hole Problem by the Arrangements of Multiple Intermediate Products to Dividing-Wall Distillation Columns,” Industrial and Engineering Chemistry Research, 52(11), 4178−4201 (2013).
[19] Luan, S., K. Huang, and N. Wu; “Operation of Dividing-Wall Columns. 1. A Simplified Temperature Difference Control Scheme,” Industrial and Engineering Chemistry Research, 52(7), 2642−2660 (2013).
[20] Chen, H., K. Huang, W. Liu, L. Zhang, S. Wang, and S. J. Wang; “Enhancing Mass and Energy Integration by External Recycle in Reactive Distillation Columns,” AIChE Journal, 59(6), 2015−2032 (2013).
[21] Yao, X., K. Huang, H. Chen, and S. Li; “Employing Top-Bottom Recycled Reactive Distillation to the Separations of Adipic Acid and Glutaric Acid Esterifications,” Industrial and Engineering Chemistry Research, 52(47), 16870−16879 (2013).
[22] Ma, J., M. Li, H. Chen, K. Huang, N. Wei, and C. Xia; “A Comparative Study of Controlling the Externally Heat-Integrated Double Distillation Columns (EHIDDiC),” Chemical Engineering Research and Design, 91(12), 2299−2308 (2013).
[23] 陈海胜, 黄克谨; “一种新型的双环流反应蒸馏塔,”中国科技论文, 8(12), 1277−1281 (2013).
[24] 黄克谨, 吴宁, 陈海胜, 栾淑君; “隔离壁精馏塔的简化温差控制,” 中国科技论文, 8(9), 878−882 (2013).
2012年:
[25] Wang, P., H. Chen, Y. Wang, L. Zhang, K. Huang, and S. J. Wang; “A Simple Algorithm for the Design of Fully Thermally Coupled Distillation Columns (FTCDC),” Chemical Engineering Communications, 199(5), 608−627 (2012).
[26] Liu, W., K. Huang, L. Zhang, H. Chen, and S. J. Wang; “Dynamics and Control of Totally Refluxed Reactive Distillation Columns,” Journal of Process Control, 22(7), 1182−1197 (2012).
[27] Jiao, Y., S. J. Wang, K. Huang, H. Chen, and W. Liu; “Design and Analysis of Internally Heat-Integrated Reactive Distillation Processes,” Industrial and Engineering Chemistry Research, 51(10), 4002−4016 (2012).
[28] Wang, Y., K. Huang, S. Luan, W. Chen, S. J. Wang, and D. S. H. Wong; “Circumventing the Black-Hole Problem in Design and Control of Dividing-Wall Distillation Columns,” Industrial and Engineering Chemistry Research, 51(45), 14771−14792 (2012).
[29] Li, P., K. Huang, and Q. Lin; “A Generalized Method for the Synthesis and Design of Reactive Distillation Columns,” Chemical Engineering Research and Design, 90(2), 173−184 (2012).
[30] Wu, G., K. Huang, H. Chen, S. Wang, N. Wei, and S. J. Wang; “Simplified Design and Control of an Ideal Heat-Integrated Distillation Column (Ideal HIDiC),” Asia-Pacific Journal of Chemical Engineering, 7(6), 912−927 (2012).
[31] Wang, C., L. Zhang, K. Huang, H. Chen, S. Wang, W. Liu, and Z. Lei; “Influences of Pressure on the Operation of Reactive Distillation Columns Involving Kinetically Controlled Exothermic Reactions,” Industrial and Engineering Chemistry Research, 51(9), 3692−3708 (2012).
[32] Chen, H., K. Huang, L. Zhang, and S. Wang; “Reactive Distillation Columns with a Top-Bottom External Recycle,” Industrial and Engineering Chemistry Research, 51(44), 14473−14488 (2012).
[33] 高翔, 刘伟, 陈海胜, 黄克谨, 王聖潔; “一种外部热耦合反应蒸馏系统的模拟研究,” 化工学报, 63(2), 538−544 (2012).
2011年:
[34] Zhang, X., K. Huang, H. Chen, and S. Wang; “Comparing Three Configurations of the Externally Heat-Integrated Double Distillation Columns (EHIDDiCs),” Computers and Chemical Engineering, 35(10), 2017−2033 (2011).
[35] Lin, Q., G. Liu, K. Huang, S. Wang, and H. Chen; “Balancing Design and Control of an Olefin Metathesis Reactive Distillation Column Through Reactive Section Distribution,” Chemical Engineering Science, 66(13), 3049−3055 (2011).
[36] Liu, G., Z. Chen, K. Huang, Z. Shi, H. Chen, and S. Wang; “Studies of the Externally Heat-Integrated Double Distillation Columns (EHIDDiCs),” Asia-Pacific Journal of Chemical Engineering, 6(3), 327−337 (2011).
[37] 马江鹏, 陈海胜, 黄克谨; “简化外部热耦合双精馏塔的控制与优化,” 化工学报, 62(8), 2195−2199 (2011).
2010年:
[38] Wang, Y., K. Huang, and S. Wang; “A Simplified Scheme of Externally Heat-Integrated Double Distillation Columns (EHIDDiC) with Three External Heat Exchangers.” Industrial and Engineering Chemistry Research, 49(7), 3349−3364 (2010).
[39] Chen, H., K. Huang, and S. Wang; “A Novel Simplified Configuration for an Ideal Heat-Integrated Distillation Column (Ideal HIDiC),” Separation and purification technology, 73(2), 230−242 (2010).
[40] Huang, K., Q. Lin, H. Shao, C. Wang, and S. Wang; “A Fundamental Principle and Systematic Procedures for Process Intensification in Reactive Distillation Columns.” Chemical Engineering and Processing: Process Intensification, 49(3), 294−311 (2010).
[41] Wang, S., K. Huang, Q. Lin, and S. J. Wang; “Understanding the Impact of Operating Pressure on Process Intensification in Reactive Distillation Columns,” Industrial and Engineering Chemistry Research, 49(9), 4269−4284 (2010).
[42] Luo, X., and K. Huang; “Reducing Static Deviations of Product Qualities in the Temperature Control of an Ideal Heat-Integrated Distillation Column,” Chemical Engineering Communications, 197(10), 1273−1286 (2010).
2009年:
[43] Huang, K., W. Liu, J. Ma, and S. Wang; “Externally Heat-Integrated Double Distillation Column (EHIDDiC): Basic Concept and General Characteristics.” Industrial and Engineering Chemistry Research, 49(3), 1333−1350 (2009).
[44] Zhu, F., K. Huang, S. Wang, L. Shan, and Q. Zhu; “Towards Further Internal Heat Integration in Design of Reactive Distillation Columns—Part IV: Application to a High-Purity Ethylene Glycol Reactive Distillation Column,” Chemical Engineering Science, 64(15), 3498−3509 (2009).
[45] Sun, J., K. Huang, and S. Wang; “Deepening Internal Mass Integration in Design of Reactive Distillation Columns, 1: Principle and Procedure,” Industrial and Engineering Chemistry Research, 48(4), 2034−2048 (2009).
[46] Huang, K., F. Zhu, W. Ding, and S. J. Wang; “Control of a High-Purity Ethylene Glycol Reactive Distillation Column with Insights of Process Dynamics,” AIChE Journal, 55(8), 2106−2121 (2009).