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Yushan Zhu |
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Ph.D. Associate Professor Department of Chemical Engineering Tsinghua University
Office Room: 345 Address: Beijing 100084, China. Tel: +86-10-62784572 Fax: +86-10-62770304 E-mail: yszhu@tsinghua.edu.cn
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Educational Background: |
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1993, B.E., Chemical Engineering, Tianjin University, China. 1996, M.E., Chemical Engineering, Tianjin University, China. 1999, Ph.D., Chemical Engineering, Chinese Academy of Sciences. |
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Research Background: |
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April, 2001~March, 2003, JSPS Postdoctoral Fellow, University of Tsukuba, Tsukuba, Japan. Professional Experiences: April, 2003 ~ March, 2004, Researcher, National Institute of Advanced Industrial Science and Technology, Tsukuba Central-5, Japan. April, 2004 ~ Present, Associate Professor, Department of Chemical engineering, Tsinghua University, China. Teaching: <Optimization of Chemical Processes>for undergraduate students ( Junior, Spring Semester As Reviewer for International Journals: 1) Chemical Engineering and Processing, 2) Journal of the Operations Research Society of Japan, 3) Journal of Membrane Science. 4) Industrial & Engineering Chemistry Research. |
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Research fields: |
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1)
Mixed-integer optimization based chemical process integration and
control structure selection; 2)
Large-scale deterministic global optimization based chemical and
biological product design; 3)
Mathematical programming based scheduling and operations management for
chemical processes; 4)
Computational protein design; 5)
High-throughput virtual screening for drug discovery. |
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Representative publications: |
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1)
Zhu, Y. & T. Kuno. “A disjunctive cutting plane based
branch-and-cut algorithm for 0-1 mixed-integer nonlinear
programs”. Industrial & Engineering Chemistry Research. 45:
187-196. ( 2006 ). 2)Zhu,
Y. & T.Kuno. “A global optimization method, QBB, for
twice-differentiable nonconvex optimization problem”. Journal of
Global Optimization. 33: 435-464 ( 2005 ). 3)
Zhu, Y, & T. Kuno. “Global optimization of nonconvex MINLP by
a hybridbranch-and-bound and revised general Benders decomposition
method”, Industrial & Engineering Chemistry Research. 42:
528-539. ( 2003 ). 4)
Zhu, Y. & K. Inoue. “Calculation of chemical and phase
equilibrium based on the stability analysis by using a general branch
and bound global optimization algorithm QBB: Application to NRTL
equation”, Chemical Engineering Science, 56: 6915-6931. ( 2001 ). 5)
Zhu, Y., H. Wen, Z.Xu. “Global stability analysis and phase
equilibrium calculations at high pressures using the enhanced simulated
annealing algorithm”, Chemical Engineering Science, 55: 3451-3459.
( 2000 ). 6)Zhu,
Y. & Z. Xu. “Calculation of liquid-liquid equilibrium
based on the global stability analysis for ternary mixtures by using a
novel branch and bound algorithm: application to UNIQUAC
equation”, Industrial & Engineering Chemistry Research, 38 (
9): 3549-3556. ( 1999 ). 7)
Zhu, Y. & Z. Xu. “A reliable prediction of the global phase
stability for liquid-liquid equilibrium through the simulated annealing
algorthm: Application to NRTL and UNIQUAC equations”, Fluid Phase
Equilibria, 154: 55-69. ( 1999 ). 8)
Zhu, Y. & H. Chen. “Pervaporation separation and
pervaporation-esterification coupling using crosslinked PVA composite
catalytic membranes on porous ceramic plate”, Journal of membrane
science,138: 123-134. ( 1998 ). |
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