張霖宙��,1987年生����,福建省惠安縣人�����,教授�����,博士生導師��,國家自然科學基金優秀青年科學基金獲得者�。主要研究興趣為智能復雜能源化工技術開發���,通過復雜分子能源轉化體系(如石油��、煤及生物質等)的過程感知及轉化規律研究���,開發分子層次過程精準模擬及優化建模工具�,為流程行業建立分子級數字孿生及智能優化系統�。
近年來以第一/通訊作者發表論文50余篇,包括化工頂級刊物AIChE Journal及Chemical Engineering Science����,出版中文學術專著1本,授權發明專利4項��。現任石油學報《(石油加工)》和《石油科學通報》的青年/執行編委�。研究成果應用于煉油及化工行業�����,轉讓及實施發明專利許可3項���,獲省部級科技一等獎3項���。講授《化工原理》及《化工數據分析處理》課程���,作為指導教師指導學生獲多項國家級及省部級學科競賽獎項��,指導學生獲研究生國家獎學金2人��,校優秀畢業論文1人��。
電話:010-89739036 電子郵箱:Lzz@cup.edu.cn
【研究方向】
能源化工復雜分子體系過程感知及分子轉化機制��、能源化工復雜分子體系模型化方法��、工業過程模擬軟件及智能優化系統構建���。
【教育背景】
● 2008-2014 中國石油大學(北京)化學工程與技術 博士學位(碩博連讀)導師:趙鎖奇 史權
● 2012-2013 美國University of Delaware能源研究所 聯合培養博士研究生(國家公派)合作導師:Michael T. Klein
● 2004-2008 中國石油大學(北京)化學工程與工藝 學士學位
【工作經歷】
● 2023-至今 中國石油大學(北京)化學工藝系 教授
● 2016-2023 中國石油大學(北京)化學工藝系 副教授
● 2014-2016 中國石油大學(北京)化學工藝系 講師
【個人榮譽】
● 2023年美國化學會能源與燃料領域新星科學家(ACS Energy and Fuels Rising Stars)
● 2023年侯德榜化工科學技術獎青年獎
● 2022年獲批國家自然科學基金優秀青年科學基金
● 2022年中國石油大學(北京)校優秀青年學者
● 2022年中國石油大學(北京)校優秀教師
● 2015年中國石油大學(北京)校青年拔尖人才
【科研獲獎】
● 2022年中國化工學會基礎研究成果獎一等獎“石油煉化分子管理基礎”
● 2020年中國化工學會基礎研究成果獎一等獎“重油非烴類大分子結構解析及反應行為研究”
● 2018年中國石油和化學工業聯合會技術發明一等獎“大規模超臨界連續分離油漿制備高性能針狀焦技術”
【講授課程】
l 本科生課程《化工原理》
● 研究生課程《化工數據分析處理》
【學科競賽】
作為指導教師指導學科競賽��,獲國家級及省部級特等獎/一等獎十余項����。代表如下:
● 2023年第六屆全國“互聯網+化學反應工程”課模設計大賽全國二等獎
● 2022年第十六屆全國大學生化工設計競賽全國二等獎
● 2021年第四屆全國“互聯網+化學反應工程”課模設計大賽全國一等獎
● 2021年第三屆北京市大學生節能節水低碳減排社會實踐與科技競賽特等獎
● 2021年第十三屆北京市大學生化學實驗競賽一等獎
● 2020年第十三屆全國大學生節能減排社會實踐與科技競賽全國三等獎
● 2019年第三屆全國大學生化工實驗大賽全國總決賽二等獎
【社會兼職】
● 《石油學報(石油加工)》期刊青年編委
● 《石油科學通報》期刊執行編委
【招生及科研條件】
在化工專業及人工智能專業招收碩士及博士研究生根據實際課題安排��,研究生的研究方向主要為:先進儀器分析表征��、化工過程模型軟件開發�、復雜分子體系智能優化系統研發����。課題組依托于重質油全國重點實驗室�,實驗室平臺包括多臺高/超高分辨率質譜及多臺氣相色譜質譜�,在國內處于領先地位�����。課題組經過多年研發��,自主開發了復雜石油分子模型的軟件平臺�,具有多臺計算服務器����,提供代碼編寫和軟件研發的全程指導�����。課題組的特點在于與工業界保持了緊密結合����,研究生可參與相關工業項目各個環節���,并可到企業實地掌握現場一手信息�����,許多研究生畢業后進入石化企業核心研發部門����。課題組具有完善的科研實驗條件�����、科研技術積累和充足的科研經費可用于研究生培養�。
【近五年代表性論文】
2023年
1.Zhang, Y.; Zhou, Z.; Zhang, X.; Guan, D.; Wang, Y.; Shi, Q.*; Zhang, L.* Molecular Characterization of Heavy Olefins in Slurry-Phase Hydrocracking Products Using High-Resolution Mass Spectrometry. Energy Fuels 2023, 37 (16), 11743–11753.(美國化學會官方微信公眾號推薦)
2.Yu, H.#; Fang, X.#; Jiang, X.; Wang, L.; Zhang, Y.; Zhang, L.* Cracking Behavior of Heavy Petroleum Polar Species in Collision-Induced Dissociation and Thermal Visbreaking. Energies 2023, 16 (8), 3448.
3.Wang, Y.; Lu, J.; Zhang, X.; Zhang, X.; Zhang, B.; Wu, J.; Guan, D.; Zhang, Y.; Chen, J.; Feng, X.; Zhang, Y.; Zhou, Z.*; Zhang, L.*; Shi, Q. Molecular Transformation of Heavy Oil during Slurry Phase Hydrocracking Process: A Comparison between Thermal Cracking and Hydrocracking. Fuel 2023, 351, 128981.
4.Guan, D.; Cai, G.; Zhang, L.* Dual‐objective Optimization for Petroleum Molecular Reconstruction Based on Property and Composition Similarities. AIChE Journal 2023, e18108.
5.Cheng, M.; Zhang, L.* Molecular Reconstruction Method Based on NIR Spectroscopy for Reformates. Energies 2023, 16 (7), 2982.
6.Chen, Z.; Wang, Y.; Li, Y.; Wu, J.; Zhang, L.* Explicit Molecule-Based Reaction Network Simplification: Theory and Application on Catalytic Reforming. Chemical Engineering Science 2023, 277, 118833.
7.Chen, Z.; Wang, G.*; Zhao, S.; Zhang, L.* A Molecular Kinetic Model for Heavy Gas Oil Catalytic Pyrolysis to Light Olefins. AIChE Journal 2023, e18116.
8.Chen, Z.#; Lyu, W.#; Wang, R.; Li, Y.; Xu, C.; Jiang, G.*; Zhang, L.* A Molecular Kinetic Model Incorporating Catalyst Acidity for Hydrocarbon Catalytic Cracking. AIChE Journal 2023, e18060.
2022年
9.Zhang, Y.; Huang, C.; Kong, F.; Wang, Y.; Shi, Q.; Zhang, L.* Selective Molecular Characterization of Olefins in Hydrocarbon Mixtures by Ag+ Complexation ESI High-Resolution Mass Spectrometry. Fuel 2022, 319, 123760.
10.Guo, R.; Bai, X.; Lu, Y.; Zhang, L.-Z.*; Lan, X.-Y.; Chen, Z.-T.; Shi, Q.; Zhao, S.-Q. Hydrogen Solubility Prediction for Diesel Molecules Based on a Modified Henry Equation. Petroleum Science 2022, 19 (1), 363–374.
11.Guan, Y.-M.#; Guan, D.#; Zhang, C.; Yuan, S.-H.; Cai, G.-Q.; Zhang, L.-Z.* Diesel Molecular Composition and Blending Modeling Based on SU-BEM Framework. Petroleum Science 2022, 19 (2), 839–847.
12.Guan, D.; Zhang, L.* Initial Guess Estimation and Fast Solving of Petroleum Complex Molecular Reconstruction Model. AIChE Journal 2022, 68 (10), e17782.
13.Gao, Z.; Xu, Z.; Zhao, S.*; Zhang, L.* Heavy Petroleum Supercritical Fluid Deasphalting Process Simulation Based On the Saturate, Aromatic, Resin, and Asphaltene Composition. Energy Fuels 2022, 36 (16), 8818–8827. (封面論文)
14.Chen, Z.; Yao, X.; Guan, D.; Zhao, S.; Zhang, L.*; Xu, C. Vacuum Residue Coking Process Simulation Using Molecular-Level Kinetic Model Coupled with Vapor-Liquid Phase Separation. Chinese Journal of Chemical Engineering 2022, 41, 301–310.
15.Chen, Z.; Wang, G.*; Zhao, S.; Zhang, L.* Prediction of Molecular Distribution and Temperature Profile of FCC Process through Molecular-Level Kinetic Modeling. Chemical Engineering Science 2022, 264, 118189.
16.Chen, Z.; Sun, N.; Zhang, L.*; Wang, G.*; Zhao, S.; Gao, J. Molecular-Level Modeling for Naphtha Olefin Reduction in FCC Subsidiary Riser: From Laboratory Reactor to Pilot Plant. Chemical Engineering Journal 2022, 437, 135429.
17.Chen, Z.; Guan, D.; Zhang, X.; Zhang, Y.; Zhao, S.; Shi, Q.; Xu, C.; Zhang, L.* A Mass-Temperature Decoupled Discretization Strategy for Large-Scale Molecular-Level Kinetic Model. Chemical Engineering Science 2022, 249, 117348.
18.Cai, G.; Liu, Z.; Zhang, L.* Transformation Rule-Based Molecular Evolution for Automatic Gasoline Molecule Design. Chemical Engineering Science 2022, 263, 118119.
19.Cai, G.-Q.; Zhang, L.-Z.* Systematic Diesel Molecular Performance Evaluation Based on Quantitative Structure-Property Relationship Model. Petroleum Science 2022, 19 (2), 809–818.
20.關冬;張霖宙*;趙鎖奇;徐春明. 重質油穩定性的耗散粒子動力學模擬. 化工學報 2022, 73 (10), 4613–4624.(封面論文)
2021年
21.Zhang, L.; Chen, P.; Pan, S.; Liu, F.; Pauchard, V.; Pomerantz, A. E.; Banerjee, S.; Yao, N.; Mullins, O. C.* Structure–Dynamic Function Relations of Asphaltenes. Energy Fuels 2021, 35 (17), 13610–13632.
22.Yang, M.; Zhang, L.*; Wang, G.*; Chen, Z.; Han, J.; Gao, C.; Gao, J. Fischer-Tropsch Wax Catalytic Cracking for the Production of Low Olefin and High Octane Number Gasoline: Experiment and Molecular Level Kinetic Modeling Study. Fuel 2021, 303, 121226.
23.Ma, J.#; Zhang, L.#; Chen, X.#; Su, R.; Shi, Q.; Zhao, S.; Xu, Q.*; Xu, C. Mass Production of Highly Fluorescent Full Color Carbon Dots from the Petroleum Coke. Chinese Chemical Letters 2021, 32 (4), 1532–1536.
24.Guan, D.; Chen, Z.; Chen, X.; Zhang, Y.; Qi, Q.; Shi, Q.; Zhao, S.; Xu, C.; Zhang, L.* Molecular-Level Heavy Petroleum Hydrotreating Modeling and Comparison with High-Resolution Mass Spectrometry. Fuel 2021, 297, 120792.
25.Chen, Z.; Feng, S.; Zhang, L.*; Wang, G.; Shi, Q.; Xu, Z.; Zhao, S.; Xu, C. Molecular‐level Kinetic Modeling of Heavy Oil Fluid Catalytic Cracking Process Based on Hybrid Structural Unit and Bond‐electron Matrix. AIChE Journal 2021, 67 (1), e17027.
26.Chen, X.; Zhang, Y.; Han, J.; Zhang, L.*; Zhao, S.; Xu, C.; Shi, Q. Direct Nickel Petroporphyrin Analysis through Electrochemical Oxidation in Electrospray Ionization Ultrahigh-Resolution Mass Spectrometry. Energy Fuels 2021, 35 (7), 5748–5757.
27.Cai, G.; Liu, Z.; Zhang, L.*; Shi, Q.; Zhao, S.; Xu, C. Systematic Performance Evaluation of Gasoline Molecules Based on Quantitative Structure-Property Relationship Models. Chemical Engineering Science 2021, 229, 116077.
2020年
28.Zhang, Y.; Chen, X.; Zhang, L.*; Shi, Q.; Zhao, S.; Xu, C. Specification of the Nitrogen Functional Group in a Hydrotreated Petroleum Molecule Using Hydrogen/Deuterium Exchange Electrospray Ionization High-Resolution Mass Spectrometry. Analyst 2020, 145 (13), 4442–4451.(封面論文)
29.Chen, X.; Li, H.; Zhang, L.*; Shi, Q.; Zhao, S.; Xu, C. Direct Sulfur-Containing Compounds Analysis in Petroleum via (+) ESI FT-ICR MS Using HBF4 as Ionization Promoter. Fuel 2020, 278, 118334.
30.Chen, X.; Li, H.; Zhang, L.*; Shi, Q.; Zhao, S.; Xu, C. CYHPO Oxidation Followed by Methylation for Selective Characterization of Thiophenic and Sulfidic Compounds in Petroleum via ESI FT-ICR MS. Fuel 2020, 265, 116907.
31.張霖宙; 趙鎖奇; 史權; 徐春明*. 石油分子表征與分子層次模型構建: 前沿及挑戰. 中國科學:化學 2020, 50 (2), 192–203.
2019年
32.Zhang, L.; Zhang, L.*; Xu, Z.; Guo, X.; Xu, C.; Zhao, S.* Viscosity Mixing Rule and Viscosity–Temperature Relationship Estimation for Oil Sand Bitumen Vacuum Residue and Fractions. Energy Fuels 2019, 33 (1), 206–214.
33.Zhang, D.; Zhang, L.*; Fang, X.; Xu, Z.; Sun, X.; Zhao, S.* Enhancement of Mesocarbon Microbead (MCMB) Preparation through Supercritical Fluid Extraction and Fractionation. Fuel 2019, 237, 753–762.
34.Lyu, W.; Zhang, L.*; Li, K.; Wang, G.; Shi, Q.; Zhao, S.; Xu, C.* Average Molecule Construction of Petroleum Fractions Based on 1 H-NMR. AIChE Journal 2019, 65 (1), 270–280.
35.Guan, D.; Feng, S.; Zhang, L.*; Shi, Q.; Zhao, S.; Xu, C.* Mesoscale Simulation for Heavy Petroleum System Using Structural Unit and Dissipative Particle Dynamics (SU–DPD) Frameworks. Energy Fuels 2019, 33 (2), 1049–1060.
36.Feng, S.; Cui, C.; Li, K.; Zhang, L.*; Shi, Q.; Zhao, S.; Xu, C. Molecular Composition Modelling of Petroleum Fractions Based on a Hybrid Structural Unit and Bond-Electron Matrix (SU-BEM) Framework. Chemical Engineering Science 2019, 201, 145–156.
37.Chen, Z.; Feng, S.; Zhang, L.*; Shi, Q.; Xu, Z.; Zhao, S.; Xu, C. Molecular-Level Kinetic Modelling of Fluid Catalytic Cracking Slurry Oil Hydrotreating. Chemical Engineering Science 2019, 195, 619–630.
