Sun Lanyi(Professor)

Name：

Sun Lanyi

Academic Title：

Professor

Advisor Type：

Doctoral supervisor

Department：

Department of Chemical Engineering

Research Interests：

Separation engineering, process simulation and control

E-Mail：

sunlanyi@163.com；sunlanyi@upc.edu.cn

Telephone：

◎Educational Background

(1) 1997-2001, Department of chemical engineering, Tsinghua University, major in chemical engineering, doctoral degree.

(2) 1994-1997, Institute of chemical engineering, Tianjin University, major in chemical engineering, master's degree.

(3) 1990-1994，Petroleum University refining Department, petroleum processing major, bachelor's degree.

◎Work Experience

(1) 2012.09 to now, Professor, School of chemical engineering, China University of Petroleum (East China).

(2) 2005.04-2012.08, associate professor, School of chemical engineering, China University of Petroleum (East China).

(3) 2002.01-2004.12, Delft University of technology, Netherlands, postdoctoral.

◎Research Direction

[1]Process simulation, optimization, control and energy saving.

[2]Strengthening of separation and reaction process.

[3] Technology development of separation and reaction equipment.

[4] Design and application of new solvent.

◎Research Project

[1]Subproject ofNational Key R&D Program of China:Demonstration of key technology of methanol to polymethoxy dimethyl ether, 2018-2021

[2]General project of national Natural Science Foundation of China:Fundamental Research of Low Transition Temperature Mixtures (LTTMs) Applying to Extractive Distillation Process, 2017-2020

[3] General project of national Natural Science Foundation of China:Optimization and control of self-heat recuperation distillation, 2015-2018

[4] General project of national Natural Science Foundation of China:Study on the design and optimization of the dividing wall column coupled with reactive distillation, 2013-2016

[5]Key R & D Program in Shandong Province: Design and experimental study of green solvent for the separation of olefins and alkanes in coking naphtha ,2019-2020

[6] Key R & D Program in Shandong Province: Research on cleaner production technology and equipment of diethyl carbonate and methyl ethyl carbonate, 2015-2016

[7]Scientific Research Award Fund for Outstanding Young and middle-aged Scientists of Shandong Province: Modeling and optimal control of catalytic distillation column, 2013-2014

[8]Science and Technology Innovation foundation of CNPC: Study on high efficiency catalyst and reaction process for dehydrogenation of Isobutane to Isobutene, 2013-2014

[9]Qingdao science and technology planning project: Development and Research on Key Technologies of VOCs absorption treatment with low transition temperature mixtures (LTTMS), 2019-2020

[10]Qingdao Development Zone Science and technology project: Study on the preparation of biodiesel by high efficiency reaction separation integrated reactor, 2013-2015

[11]Enterprise entrusted project:Development of numerical simulation and process simulation technology for underground coal gasification, 2019-2020

[12]Enterprise entrusted project: Development of distribution plate for high efficiency residue hydrogenation reactor, 2018-2020

[13]Enterprise entrusted project: Development of process package for synthesis of methyl ethyl carbonate by continuous reactive distillation, 2016-2017

[14]Enterprise entrusted project: Development of 10000 t / a isophorone (acetone gas phase polycondensation and separation) production process package, 2016-2017

[15]Enterprise entrusted project: Research on utilization scheme and software development of LNG cold energy in refinery, 2014-2016

◎Representative Papers and Patents

1. Paper

[1] Liu, J.; Yan, J.; Liu, W.; Kong, J.; Wu, Y.; Li, X.; Sun, L.; Design and multi-objective optimization of reactive-extractive dividing wall column with organic Rankine cycles considering safety,Separation and Purification Technology, 2022, 287(15): 120512.

[2] Liu, J.; Liu, X.; Li, J.; Ren, J.; Wang, J.; Sun, L.; Design and control of side-stream extractive distillation to separate acetic acid and cyclohexanone from wastewater by varying pressure,Process Safety and Environmental Protection, 2022, 159:1127-1149.

[3] Luo, F.; Liu, X.; Chen, S.; Song, Y.; Yi, X.; Xue, C.; Li, J.; Sun, L.; Comprehensive evaluation of a deep eutectic solvent based CO₂capture process through experiment and simulation,ACS Sustainable Chemistry & Engineering, 2021, 9(30): 10250-10265.

[4] Liu, J.; Gao, L.; Ren, J.; Liu, W.; Liu, X.; Sun, L.; Dynamic process intensification of dimethyl ether reactive distillation based on output multiplicity,Industrial & Engineering Chemistry Research, 2020, 59(45): 20155-20167.

[5] Ma, S.; Liu, J.; Xu, W.; Sun, F.; Jiang, J.;Sun, L.; Experiment and simulation for CO₂capture using low transition temperature mixtures as solvents,International Journal of Greenhouse Gas Control, 2020, 103: 103178.

[6] Song, Y.; Chen, S.; Luo, F.; Sun, L.; Absorption of toluene using deep eutectic solvents: quantum chemical calculations and experimental investigation,Industrial & Engineering Chemistry Research,2020, 59(52): 22605-22618.

[7] Shang, X.; Ma, S.; Pan, Q.; Li, J.; Sun, Y.; Ji, K.; Sun, L.; Process analysis of extractive distillation for the separation of ethanol-water using deep eutectic solvent as entrainer,Chemical Engineering Research and Design, 2019, 148: 298-311.

[8] Ma, S.; Shang, X.; Li, L.; Song, Y.; Pan, Q.; Sun, L.; Energy-saving thermally coupled ternary extractive distillation process using ionic liquids as entrainer for separating ethyl acetate-ethanol-water ternary mixture,Separation and Purification Technology, 2019, 226: 337-349.

[9] Li, J.; Zhang, F.; Pan, Q.; Yang, Y.; Sun, L.;Performance enhancement of reactive dividing wall column based on self-heat recuperation technology,Industrial & Engineering Chemistry Research, 2019.

[10] Pan, Q.; Li, J.; Shang, X.; Ma, S.; Liu, J.; Sun, M.; Sun, L.; Controllability, energy-efficiency and safety comparisons of different control schemes for producing n-butyl acetate in a reactive dividing wall column,Industrial & Engineering Chemistry Research, 2019, 58(22): 9675-9689.

[11] Pan, Q.; Shang, X.; Li, J.; Ma, S.; Li, L.; Sun, L.; Energy-efficient separation process and control scheme for extractive distillation of ethanol-water using deep eutectic solvent,Separation and Purification Technology, 2019, 219: 113-126.

[12] Sun, L.; Luo, F.; Liu, R.; Yang, H.; Huang, L.; Li, J.; Isobaric liquid–liquid equilibrium measurements and thermodynamics modeling for systems: Benzene+ cyclohexane+ DESs at 303.15 and 323.15 K.Journal of Chemical & Engineering Data, 2019, 64(3): 1113-1121.

[13] Ma, S.; Shang, X.; Li, L.; Pan, Q.; Xue, C.; Ji, K.; Sun, L.; Optimization and control of CO2 capture using low transition temperature mixtures.International Journal of Greenhouse Gas Control, 2019, 81: 126-136.

[14] Ma, S.; Shang, X.; Zhu, M.; Li, J.; Sun, L.; Design, optimization and control of extractive distillation for the separation of isopropanol-water using ionic liquids,Separation and Purification Technology, 2019, 209: 833-850.

[15] Sun, Y.; Fu, D.; Ma, S.; Ma, Z.; Sun, L.; Isobaric vapor–liquid equilibrium data for two binary systems n-hexane+ 1, 2-dimethoxyethane and methylcyclopentane+ 1, 2-dimethoxyethane at 101.3 kPa,Journal of Chemical & Engineering Data, 2018, 63(2): 395-401.

[16] Ma, S.; Shang, X.; Li, J.; Li, L.; Sun, Y.; Yang, Y.; Sun, L.; Liquid–liquid extraction of benzene using low transition temperature mixtures: COSMO-SAC predictions and experiments,Journal of Chemical & Engineering Data, 2018, 63(12): 4749-4760.

[17] Ma, S.; Li, J.; Li, L.; Shang, X.; Liu, S.; Xue, C.; Sun, L.; Liquid–liquid extraction of benzene and cyclohexane using sulfolane-based low transition temperature mixtures as solvents: Experiments and simulation,Energy & Fuels, 2018, 32(7): 8006-8015.

[18] Zhu, M.; Hou, Y.; Yu, N.; Chen, M.; Ma, Z.; Sun, L.; Design and control of a middle-vessel batch distillation for separating DMC–EMC–DEC mixture,Chinese Journal of Chemical Engineering, 2018, 26(9): 1837-1844.

[19] Wang, J.; Yu, N.; Chen, M.; Cong, L.; Sun, L.; Composition control and temperature inferential control of dividing wall column based on model predictive control and PI strategies,Chinese Journal of Chemical Engineering, 2018, 26(5): 1087-1101.

[20] Li, L.; Guo, L.; Tu, Y.; Yu, N.; Sun, L; Tian, Y; Li, Q.; Comparison of different extractive distillation processes for 2-methoxyethanol/toluene separation: Design and control.Computers & Chemical Engineering, 2017, 99: 117-134.

[21] Chen, M.; Yu, N.; Cong, L.; Wang, J.; Zhu, M.; Sun, L.; Design and control of a heat pump-assisted azeotropic dividing wall column for EDA/water separation,Industrial & Engineering Chemistry Research, 2017, 56(34): 9770-9777.

[22] Yu, N.; Li, L.; Chen, M.; Wang, J.; Liu, D.; Sun, L.; Novel reactive distillation process with two side streams for dimethyl adipate production,Chemical Engineering and Processing: Process Intensification, 2017, 118: 9-18.

[23] Ma, S.; Yu, Q.; Hou, Y.; Li, J.; Li, Y.; Ma, Z.; Sun, L.; Screening monoethanolamine as solvent to extract phenols from alkane,Energy & Fuels, 2017, 31(11): 12997-13009.

[24] Ma, S.; Hou, Y.; Sun, Y.; Li, J.; Li, Y.; Sun, L.; Simulation and experiment for ethanol dehydration using low transition temperature mixtures (LTTMs) as entrainers,Chemical Engineering and Processing: Process Intensification, 2017, 121: 71-80.

[25] Li, L.; Tu, Y.; Sun, L.; Hou, Y.; Zhu, M.; Guo, L.; Li, Q; Tian, Y.; Enhanced efficient extractive distillation by combining heat-integrated technology and intermediate heating,Industrial & Engineering Chemistry Research, 2016, 55(32): 8837-8847.

[26] Li, L.; Sun, L.; Yang, D.; Zhong, W.; Zhu, Y.; Tian, Y.; Reactive dividing wall column for hydrolysis of methyl acetate: Design and control,Chinese Journal of Chemical Engineering, 2016, 24(10): 1360-1368.

[27] Zhai, J.; Liu, Y.; Li, L.; Zhu, Y.; Zhong, W.; Sun, L.; Applications of dividing wall column technology to industrial-scale cumene production,Chemical Engineering Research and Design, 2015, 102: 138-149.

[28] Li, L.; Sun, L.; Wang, J.; Zhai, J.; Liu, Y.; Zhong, W.; Tian, Y.; Design and control of different pressure thermally coupled reactive distillation for methyl acetate hydrolysis,Industrial & Engineering Chemistry Research, 2015, 54(49): 12342-12353.

[29] Liu, Y.; Zhai, J.; Li, L.; Sun, L.; Zhai, C.; Heat pump assisted reactive and azeotropic distillations in dividing wall columns,Chemical Engineering and Processing: Process Intensification, 2015, 95: 289-301.

[30] Sun, L.; Wang, Q.; Li, L.; Zhai, J., Liu, Y.; Design and control of extractive dividing wall column for separating benzene/cyclohexane mixtures,Industrial & Engineering Chemistry Research, 2014, 53(19): 8120-8131.

[31] Sun, L.; Bi, X.; Shortcut method for the design of reactive dividing wall column,Industrial & Engineering Chemistry Research, 2014, 53(6): 2340-2347.

2.Patent

[1] Gas-liquid distributor and gas-liquid distribution disc, 201921503100.0

[2] Gas-liquid distributor and gas-liquid distribution disc, 201921449004.2

[3] Jet swirl type gas-liquid distributor, 201921234142.9

[4] Production method for linear alkylbenzenes, 201810079546.9

[5] Equipment and method for preparing isophorone through acetone gas phase condensation

, 201710766032.6

[6] Equipment and method for producing dimethyl adipate, 201610628645.9

[7] Apparatus and method for producing dimethyl adipate, 201610634150.7

[8] Process and device for separating turpentine oil through heat pump distillation of partition tower, 201610452203.3

[9] Heavy oil catalytic cracking process for producing heavy and light arene products in productive mode, 201510493527.7

[10] Method for producing aromatic hydrocarbon to the maximum from heavy oil, 201510493528.1

[11] Catalyst used for preparing isobutene through isobutane dehydrogenation and preparation method and application thereof, 201410841652.8

[12] Catalyst used for preparing isobutene through isobutane dehydrogenation and preparation method and application thereof, 201410841699.4

[13] Method for separating methylcyclohexane and toluene through differential pressure thermal coupling extractive rectification, 201210051656.7

◎Representative Works

[1]《过程工业能量系统优化:换热网络与蒸汽动力系统》, Chemical Industrial Press, 2021

[2]《换热器工艺设计》Second Edition, China Petrochemical Press, 2019

[3]《过程模拟实训—Aspen HYSYS教程》Second Edition, China Petrochemical Press, 2018

[4]《化工过程模拟实训—Aspen Plus教程》Second Edition,Chemical Industrial Press, 2017

[5]《过程模拟实训—Pro/Ⅱ教程》，China Petrochemical Press，2017

◎Awards and Honors

[1] Guided by engineering ability, build a talent training system for chemical engineering, the first prize of higher education teaching achievements in Shandong Province, 2018

[2] China University of Petroleum (East China) low carbon energy and chemical engineering innovation team (innovation team project), first prize of Qingdao scientific and technological progress, 2018

[3] Development and application of three-dimensional composite tray with high efficiency, high throughput and high operational flexibility and its supporting tower internals, first prize of scientific and technological progress of Shandong Province, 2012

◎Courses Offered

Undergraduate：“Chemical process simulation”“Principles of chemical engineering”

Postgraduate：“Progress in chemical reaction and separation engineering” “advanced separation engineering”“Chemical system engineering”

◎Student Training

1.Supervise Postgraduate Students

As of 2021, there are 8 doctoral students and 69 graduate students. Most graduates sign contracts with well-known enterprises such as Sinopec, PetroChina, Wanhua Chemical Group Co., Ltd. and Zhejiang Supcon Technology Co..

2.Admissions Instructions：

Major: Chemical Engineering and technology, materials and chemical engineering

Admission requirements:

Good ideological and moral character.

Strong English ability, able to read English literature.

Solid basic knowledge, strong innovation spirit and scientific research ability.

◎Part-time Academic Job

Reviewer of Journal of “Industrial & Engineering Chemistry Research” “Separation and Purification Technology” “Chemical Engineering and Processing-Process Intensification” “Chemical Engineering & Technology” “Journal of Chemical & Engineering Data” “China Petroleum Processing & Petrochemical Technology” and “CIESC Journal”