潘明(中山大學化學工程與技術學院副教授)

基本情況

教育經歷

工作經歷

學術任職

1. 阿根廷國家科學技術局（National Agency of Science and Technology of Argentina）項目評審專家
2. 沙烏地阿拉伯法赫德國王石油礦業大學（King Fahd University of Petroleum & Minerals, Dhahran, Saudi Arabia）項目評審專家
3. 國際數學交叉學科期刊Complexity(2015 IF = 3.514)客座主編（Guest Leading Editor）
4. 擔任10多個化工和能源國際期刊審稿人（Applied Energy，Energy， Chemical Engineering Science， Energy Conversion and Management，Industrial & Engineering Chemistry Research等）
5. 美國傑出人才綠卡（EB-1A green card）過程系統工程方向學術推薦人
6. 國際科學委員會成員（Member of International Scientific Committee），國際節能減排過程集成、建模和最佳化會議（Conference Process Integration, Modelling and Optimisation for Energy Saving and Pollution Reduction — PRES）

科研方向

科研項目

1. CREATE programme in Singapore，Cambridge Centre for Carbon Reduction in Chemical Technology (C4T)，2014~2017，主要參與人；
2. 歐盟 SEVENTH FRAMEWORK PROGRAMME，Design Technologies for Multi-scale Innovation and Integration in Post-Combustion CO2 Capture: From Molecules to Unit Operations and Integrated Plants，2011~2013，主要參與人；
3. 歐盟 SEVENTH FRAMEWORK PROGRAMME，Intensified Heat Transfer Technologies for Enhanced Heat Recovery，2010~2012，主要參與人；
4. 英國EPSRC，Intensified Heat Transfer for Energy Saving in Process Industries，2009~2011，主要參與人。

獲獎情況

1. 21st European Symposium on Computer-Aided Process Engineering，“Novel optimization method for retrofitting heat exchanger networks with intensified heat transfer”，3rd Poster Award ，2011。
2. 首屆全國化工類博士生學術論壇，“一種新的順序型多目的過程工廠生產調度的MILP模型”，傑出論文，2005。

論著一覽

1. Pan, M., Sikorski, J., Akroyd, J., Mosbach, S., Lau, R., Kraft, M.*, 2016. Design technologies for multi-level innovation and integration in eco-industrial parks: from unit operations to processes, plants and industrial networks. Applied Energy. 175, 305-323.
2. PanM.*, Aziz F.,Li B.,Perry S.,Zhang N.,Bulatov I.,SmithR., 2016.Application of optimal design methodologies in retrofitting natural gas combined cycle power plants with CO2 capture. Applied Energy. 161, 695-706.
3. PanM.*, Bulatov I.,SmithR., 2016. Improving heat recovery in retrofitting heat exchanger networks with heat transfer intensification, pressure drop constraint and fouling mitigation. Applied Energy. 161, 611-626.
4. Xu, L., He, X.M., Li, X.X., Pan, M.*, 2016. A machine-vision inspection system for conveying attitudes of columnar objects in packing processes. Measurement. 87, 255-273.
5. Liang, H., Ren, J.,* Dong, L., Gao, Z., Zhang, N., Pan, M., 2016. Is the hydrogen production from biomass technology really sustainable? Answer by life cycle emergy analysis. International Journal of Hydrogen Energy. 41(25), 10507-10514.
6. Ren, J.,* Liang H., Dong L., Gao Z., He C., Pan, M., Sun L., 2016. Sustainable development of sewage sludge-to-energy in China: Barriers identification and technologies prioritization, Renewable and Sustainable Energy Reviews, 67, 384-396.
7. Chuan Zhang, Pan, M., Alessandro Romagnoli, Li Zhou, Markus Kraft*, 2016. Towards intelligent thermal energy management of eco-industrial park through ontology-based approach, Energy Procedia, Accepted.
8. Li Zhou, Markus Kraft*, Pan, M., Janusz Sikorski, Sushant Garud, Martin Kleinelanghorst, Iftekhar Karimi, 2016. System development for eco-industrial parks using ontological innovation, Energy Procedia, Accepted.
9. Pan, M., Sikorski, J., Kastner, C.A., Akroyd, J., Mosbach, S., Lau, R., Kraft, M.*, 2015. Applying Industry 4.0 to the Jurong Island Eco-industrial Park, Energy Procedia, 75, 1536-1541.
   2014~2011
10. Pan M.,* Bulatov I., and Smith R., 2014. An efficient retrofitting approach for improving heat recovery in heat exchanger networks with heat transfer intensification. Industrial & Engineering Chemistry Research. 53(27), 11107-11120.
11. Pan M.,* Bulatov I., and Smith R., 2014. Recent methods for retrofitting heat exchanger networks with heat transfer intensifications, Chemical Engineering Transaction, 39, 1435-1440.
12. Pan, M.,* Agulonu A., Gharaie M., Perry S., Zhang N., Bulatov I., Smith R., 2014. Optimal design technologies for integration of combined cycle gas turbine power plant with CO2 capture, Chemical Engineering Transaction, 39, 1441-1446.
13. Pan M.,* Bulatov I., and Smith R., 2013. Exploiting tube inserts to intensify heat transfer for the retrofit of heat exchanger networks with considering fouling mitigation. Industrial & Engineering Chemistry Research. 52: 2925-2943.
14. Pan M.,* Jamaliniya S., Smith R., Bulatov I., Gough M., Higley T., and Droegemueller P., 2013. New insights to implement heat transfer intensification for shell and tube heat exchangers. Energy. 57: 208-221.
15. Pan M.,* Smith R., and Bulatov I., 2013. A novel optimization approach of improving energy recovery in retrofitting heat exchanger network with exchanger details. Energy. 57: 188-200.
16. Pan M.,* Bulatov I., Smith R., and Kim, J.K., 2013. Optimisation for the retrofit of large scale heat exchanger networks with comprising different intensified heat transfer techniques. Applied Thermal Engineering. 53: 373-386.
17. Pan M.,* Bulatov I., Smith R., 2013. New MILP-based iterative approach for retrofitting heat exchanger networks with conventional network structure modifications. Chemical Engineering Science. 104: 498-524.
18. Pan M.,* Bulatov I., Smith R., 2013. Intensifying heat transfer for retrofitting heat exchanger networks with topology modifications, Computer Aided Chemical Engineering. 32: 307-312.
19. Pan M.,* Bulatov I., Smith R., 2013. Heat Transfer Intensified Techniques for Retrofitting Heat Exchanger Networks in Practical Implementation, Chemical Engineering Transaction. 35: 1189-1194.
20. Smith R.,* Pan, M., Bulatov I., 2013. Chapter 32: Heat Transfer Enhancement in heat exchanger networks (pp 966-1037), Handbook of Process Integration；Woodhead Publishing, Cambridge, UK. (DOI : 10.1533/9780857097255.5.964)
21. Feng, D., Pan, M.*, Qian Y., Wang, X., 2013. Control scheme of novel pressurized stripper and the industrial implementation, Applied Mechanics and Materials, 241-244: 1184-1190.
22. Pan M.,* Butalov I., Smith R., and Kim J.K., 2012. Novel MILP-based iterative method for the retrofit of heat exchanger networks with intensified heat transfer. Computers & Chemical Engineering. 42: 263-276.
23. Pan M.,* Bulatov I., and Smith R., 2012. Novel MILP-based optimization method for retrofitting heat exchanger networks. Computer Aided Chemical Engineering, 30: 567-571.
24. Pan M.,*Bulatov, I., Smith, R., 2012. Novel MILP-based optimization method for heat exchanger network retrofit considering stream splitting, Computer Aided Chemical Engineering,31: 395-399.
25. Pan M.,* Bulatov I., and Smith R., 2012. Retrofit procedure for intensifying heat transfer in heat exchanger networks prone to fouling deposition. Chemical Engineering Transactions. 29: 1423-1428.
26. Wang Y., Pan M. (equal first author), Bulatov I., Smith R., Kim J.K.,* 2012. Application of intensified heat transfer for the retrofit of heat exchanger network. Applied Energy. 89(1): 45-59.
27. Pan M., Butalov I., Smith R., and Kim J.K.,* 2011. Improving energy recovery in heat exchanger network with intensified tube-side heat transfer. Chemical Engineering Transactions. 25: 375-380.
28. Pan M., Butalov I., Smith R., and Kim J.K.,* 2011. Novel optimization method for retrofitting heat exchanger networks with intensified heat transfer. Computer Aided Chemical Engineering. 29: 1864-1868.
29. Zhou, H., Lu, J., Cao, Z., Shi, J., Pan, M., Li, W., Jiang, Q.,* 2011. Modeling and optimization of an industrial hydrocracking unit to improve the yield of diesel or kerosene, Fuel, 90: 3521-3530.
    2010~2008
30. Wu, Z., Pan, M., Li, L, Qian, Y., Tao, J., 2010. A task integration model for process operation system based on web services, Education Technology and Computer (ICETC), 2010 2nd International Conference on 22-24 June 2010.
31. Wu, Z., Li, L, Pan, M., 2010. An experimental platform for process operation system based on data integration, Education Technology and Computer (ICETC), 2010 2nd International Conference on 22-24 June 2010.
32. Pan, M., Li, X., Qian, Y.,* 2009. New approach for scheduling crude oil operations, Chemical Engineering Science, 64: 965-983.
33. Pan, M., Qian, Y.,* Li, X., 2009. Review: Continuous-time approaches for short-term scheduling of network batch processes: small-scale and medium-scale problems, Chemical Engineering Research and Design, 87(8): 1037-1058.
34. Pan, M., Qian, Y.,* Li, X., 2009. Flexible scheduling model of crude oil operations under crude supply disturbance, Science in China Series B: Chemistry, 52(3): 387-400.
35. Pan, M., Qian, Y.,* Li, X., 2008. A novel precedence-based and heuristic approach for short-term scheduling of multipurpose batch plants, Chemical Engineering Science, 63: 4313-4332.