Sun Jinsheng
School
School of Chemical Engineering and Technology
Professional Title
Associate professor
Discipline
Process System Engineering / Process Intensification / Heat / Catalytic Pyrolysis of Dehydrogenation / Biological / Biomimetic Syntheses of Metal Nano
Contact Information
jssun2006@vip.163.com
92 Weijin Road, Tianjin 300072, China
Education Background
- Ph.D.| Tianjin University| Chemical Engineering| 2005
- Master of Engineering| Tianjin University| Chemical Engineering| 1996
- Bachelor of Engineering| Tianjin University| Chemical Engineering| 1989
Research Interests
- 1. PI(Process intensification)
- 2. PSE (process engineering & technology)
- 3. Nano syntheses & Pyrolysis serving for green biofuel refinery
Positions & Employments
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1992.7-2020.11
Chemical Engineering Research Centre | Tianjin University | Engineer, Lecturer, Associate Research Fellow -
2013.6-2014.8
Dept. of Agricultural and Biological Eng., College of Agricultural, Consumer & Environ. Sci. | Univ. of Illinois at Urbana-Champaign(UIUC) | Visiting Scholar -
2001.9-2009.10
National Engineering Research Centre for Distillation Technology, | Tianjin University | Deputy chief Engineer -
1989.7-1992.7
Center of Packed Column Tech. | Tianjin University | Assistant engineer
Academic Achievements
- Papers
- [1] Electrical-driven self-heat recuperative pressure-swing azeotropic distillation to minimize process cost and CO2 emission: Process electrification and simultaneous optimization
- [2] Eliminating the vapor split in dividing wall columns through controllable double liquid-only side-stream distillation configuration
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- [3] Optimal integration of methanol-to-gasoline process with organic Rankine cycle
- [4] Rigorous design and simultaneous optimization of extractive distillation systems considering the effect of column pressures
- [5] Design and optimization of energy-efficient liquid-only side-stream distillation configurations using stochastic algorithm
- [6] An enumeration-based synthesis framework for multi-effect distillation processes
- [7] Design and economic evaluation of energy-saving industrial distillation processes for separating close-boiling cyclohexanone-cyclohexanol mixture
- [8] Design of a Fully Heat-Integrated Pressure-Swing Distillation for Close-Boiling Separation
- [9] Design of an Energy Saving ACN-based Butadiene Production Process by Using Dividing Wall Columns
- [10] Simultaneous Optimization of Heat-Integrated Extractive Distillation with a Recycle Feed Using Pseudo Transient Continuation Models
- [11] Optimal selection of operating pressure for distillation columns
- [12] Influence of Orifice Position Deviations on Distribution Performance of Gravity-Type Liquid Distributor Analyzed Through Mathematical Pathway
- [13] Feasibility assessment of a novel refrigeration FCC gas plant driven by self waste heat
- [14] Morphological Control of Gold Nanoparticles by Green Synthesis Using l-Tryptophan and Other Additives
- [15] Enhanced product quality in lubricant type vacuum distillation unit by implementing dividing wall column
- [16] Utilizing heat sinks for further energy efficiency improvement in multiple heat integrated five-column methanol distillation scheme
- [17] A novel synergistic 4-column methanol distillation process
- [18] Towards energy efficient styrene distillation scheme: From grassroots design to retrofit
- [19] A hybrid design combining double-effect thermal integration and heat pump to the methanol distillation process for improving energy efficiency
- [20] Review of denitrogenation of algae biocrude produced by hydrothermal liquefaction
- [21] Re-express hydrothermal liquefaction bio-crude in petroleum way
- [22] Coupling design of interunit heat integration in an industrial crude distillation plant using pinch analysis
- [23] Quick decision-making for close-boiling distillation schemes
- [24] Optimization of coal-based methanol distillation scheme using process superstructure method to maximize energy efficiency
- [25] Research on pyrolysis of biocrude for light olefins
- [26] Preparation and research on porous heat resistant Au@ NiO
- [27] Selecting suitable energy-saving distillation schemes: Making quick decisions
- [28] Progress in kinetic predictions for complex reaction of hydrocarbons: from mechanism studies to industrial applications
- [29] Design-oriented thermodynamic analysis of novel heat-integrated C5 isomeride distillation scheme on pilot scale
- [30] Ethanol-water near-azeotropic mixture dehydration by compound starch-based adsorbent
- [31] Thermal cycling aging effects on the ratcheting behavior of anisotropic conductive film
- [32] Olefin profile prediction of naphtha pyrolysis using a feeding-independent continuous lumping method with mechanism analysis
- [33] Characterization of biomass adsorbent ZSG-1 through isopropanol and water azeotrope dehydration
- [34] Further optimization of a parallel double-effect organosilicon distillation scheme through exergy analysis
- [35] Computational Fluid Dynamics Hydrodynamic Analysis of a Cross‐Orthogonal Fixed‐Valve Tray
- [36] Biosorptive distillations to purify isopropanol: improvements over the current process in terms of energy consumption and exergy
- [37] Characterization of a Compound Starch-Based Adsorbent for Alcohol—Water Azeotrope Dehydration
- [38] CFD Simulation of a Large-diameter Combined Gas Distributor
- [39] Paralleled Double-Effect Distillation: Simulative Case Studies
- [40] Selective competitive biosorption of Au (III) and Cu (II) in binary systems by Magnetospirillum gryphiswaldense
- [41] Hybrid distillation-biomass adsorption process for isopropanol–water azeotrope separation
- [42] Exergy analysis of a parallel double-effect organosilicon monomer distillation scheme
- [43] Energy and exergy analysis of a five-column methanol distillation scheme
- [44] Numerical simulation of gas–solid flow in a conveying vessel
- [45] Simulative Model and Multicriteria Optimization of Truss Beam in Super-Large Columns at High Temperature
- [46] Different distillation scheme options for light and heavy oil: Thermodynamic analysis with pre-flashing or pre-fractionation unit
- [47] Modeling fixed triangular valve tray hydraulics using computational fluid dynamics
- [48] Biosorptive dehydration of tert-butyl alcohol using a starch-based adsorbent: Characterization and thermodynamics
- [49] Biosynthesis of gold nanoparticles by biosorption using Magnetospirillum gryphiswaldense MSR-1
- [50] Novel packing-enhanced distillation separation of isoamyl alcohol isomer: Experimental and pilot scale study
- [51] Hydrodynamic characters of co-current operation for SO2 absorption in a laboratory packed column
- [52] Selecting the optimum predistillation scheme for heavy crude oils
- [53] Experimental probation on the binding kinetics and thermodynamics of Au (III) onto Bacillus subtilis
- [54] Simulative Programming of a Hybrid Washing Oil Separation Scheme for Pure Chemicals
- [55] Selective reinforced competitive biosorption of Ag (I) and Cu (II) on Magnetospirillum gryphiswaldense
- [56] Enhancement of biological treatment of wastewater by magnetic field
- [57] Separation of ethanol/water azeotrope using compound starch-based adsorbents
- [58] Treatment of wastewater containing Pd(Ⅱ) and Al(Ⅲ) by biosorption-magnetic separation method
- [59] Biosorption equilibrium and kinetics of Au (III) and Cu (II) on magnetotactic bacteria
- [60] Design and application of a highly efficient separation technology for C9 arenes
- [61] Treatment of wastewater containing Au3+ Ions using the anaerobic activated sludge
- [62] A novel technology for treatment of wastewater containing Cr() ions
- [63] Removal of cadmium by electro-intensified combined bioadsorption
- [64] Simulation of separation of coal tar
- [65] Study on adsorption of metal ions by magnetotactic bacteria
- [66] Isolation , Identification and Degradation Characteristics of MethylTert-Butyl Ether (MTBE)-Degradation Strain
- [67] Technology for adsorption of Pb2+by magnetotactic bacteria
- [68] Studies on adsorption of palladium (Ⅱ) by magnetotactic bacteria(MTB)
- [69] Aerating technology for treatment of contaminated water by using aerobic microbes
- [70] Study on the Application of Carbon Materials to Water Treatment
- [71] Simultaneous determination of pentachlorophenol and hexachlorobenzene in river sediments
- [72] Novel packing technologies and their application in China
- [73] Study on Absorption Cr3+by Micro Aerobe MTB
- [74] Liquid dispersing features in inner chamber of single VST cap
- Patents
- [1] Circular floating valve with supporting feet evenly distributed along valve deck by 120 degrees in radial direction and making method
- [2] A circular float valve uniformly distributed along the radial direction of the valve cover at 120 degrees angle
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- [3] Method for purifying isopropanol by using biomass adsorption rectification coupling device
- [4] Biomass adsorption rectification coupling device for isopropanol refining
- [5] Isopropanol purification, biomass adsorption rectification coupling device, method and Application
- [6] Cross shaped solid valve and tower
- [7] Energy-Saving Water-Saving Organic Silicon Monomer Rectifying Method
- [8] A method for deep processing of carbon five raffinate materials separated from double olefins
- [9] Variable pressure stripping method for extracting solvent of carbon five fraction
- [10] Large-Scale Methanol Multi-Effect Energy-Saving Rectifying Device and Process
- [11] Methanol Double-Effect Rectification High-Elasticity Combined Technique and System Therefor
- [12] Double-effect rectification method and system thereof for finely separating hybrid pentane isomer
- [13] Method for Improving Yield of Liquefied Gas by Downstream Separation System of Catalytic Cracking Device
- [14] Coking, absorbing and stabilizing energy-saving process
- [15] System and operating method for removing light oil impurity by methanol rectification
- [16] Combination Type Gas Inlet Distributor for Columns
- [17] Dehydration Adsorbent for Lower Alcohol and Preparation Method Thereof
- [18] Differential pressure low-energy-consumption distillation method and equipment
- [19] Inclined jetting column plate
- [20] Stepwise condensation process for catalytic cracking absorbing-stabilizing system and its combining process
- [21] Parallel trimethyl benzene separating apparatus and method
- [22] Double-layer deflecting gas distributor
- [23] Distillation Process and Equipments for Methanol of High Purity
- [24] Double-Efficient Energy-Saving and Water-Saving Rectifying System and Process for Methanol
- [25] Double-Efficient Energy-Saving Methanol Rectifying Apparatus and Method
- [26] Magnetic taxis Bacteria Separating Apparatus of Heavy Metal Ion Waste Water
- [27] Stepwise condensation process for catalytic cracking absorbing-stabilizing system and its combining process
Team
Research Group
This team of 7, 3 PhD candidates and 4 Postgraduate, is contributing academic achievements in PI(Process intensification), PSE(process engineering & technology), nano syntheses & pyrolysis serving for green biofuel refinery. The achievements, in forms of papers and patents, are applied by our engineering group in industrial services.
Engineering Group
This part of team uses research achievements to serve the industrial community, in form of process package, consultation, design , trouble shooting & debottlenecking, and other technical supports to petroleum petrochrmical and coal chemical enterprices, and equpmental manufactures as well. We are the indispensable patent supplier of energy efficient distillation systems for coal based methanol/ethanol/
glycol, caprolactam, cracking C5 for isoprene, lubricant-asphalt AVDU, solvent naphtha and white oli, etc.. We design or retrofit over 100 columns yearly in contribution to Chinese economic construction.
glycol, caprolactam, cracking C5 for isoprene, lubricant-asphalt AVDU, solvent naphtha and white oli, etc.. We design or retrofit over 100 columns yearly in contribution to Chinese economic construction.
- Honors & Awards
- [1] The 2nd class Prize by Tianjin Local Government for Progresses in Science and Technology, 2012.
- [2] Second-class prize by China Petroleum and Chemical Industry Association for Scientific and Technological Progresses, 2007.
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- [3] Second-class prize by China Petroleum and Chemical Industry Association for Scientific and Technological Progresses, 2006.
- [4] Third-class Prize by Tianjin Local Government for Progresses in Science and Technology, 2006.
- [5] Second-class Prize by National Education Ministry for Progresses in Science and Technology, 2005.
- [6] Second class Prize by Tianjin Local Government for Progresses in Science and Technology, 2005.
- [7] Top ten technological progresses among Chinese Institutions of Higher Learning by National Education Ministry, 2005.
- [8] Second class Prize by Tianjin Local Government for Progresses in Science and Technology, 2003.
- [9] Houxianglin Prize for Progresses in Science and Technology in Petroleum Refinery and Outstanding Young Scientific Researcher by China Science Foundation, 2002.
- [10] Third class Prize by National Education Committee for Progresses in Science and Technology, 1998.
- [11] Second class Prize by National Education Committee for Progresses in Science and Technology, 1996.
- [12] First class Prize by Hebei Provincial Government for Progresses in Science and Technology, 1995.