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宁波诺丁汉大学理工学院导师教师师资介绍简介-PhilipHall

本站小编 Free考研考试/2021-04-17

Philip Hall 化学与环境工程系系主任,环境工程副教授
化学与环境工程系 / 理工学院



联系方式 办公室
理工楼437

校园
University of Nottingham Ningbo China

地址
199 Taikang East Road, Ningbo, 315100, China

电话
+86 (0) -8018

邮箱
Philip.Hall@nottingham.edu.cn



学历
PhD (Nottingham)

个人简介
Expertise Summary I have over 20 years’ industrial experience in the areas of hazardous waste management waste recycling and energy from waste. During my time in industry, I involved in the development of various technologies in waste incineration and waste management. I have been involved in the construction and commissioning of many recycling projects in China, Japan, Belgium, the USA and UK. I have extensive knowledge of the application of research and practical engineering. I have, experience in particle separation technologies for WEEE recycling, vibration separation and pneumatic separation. I have a special interest in the use of recycled plastics in manufacturing.
I started my PhD at the University of Nottingham in 2003, Closed Loop Recycling of CRT glass, following this I was made an European Innovation Fellow and was part of an Industrial Innovation Fund to achieve industrialization of this technology. I have continued research in waste recycling since he joined University of Nottingham Ningbo China. I have collaborated with local government and industries in various projects for the development of novel technologies for waste recycling.


教学
I have taught a number of modules whilst at UNNC.
Current Teaching:
Site investigation
Hazardous Waste Management
Waste Management
Currently supervising 2 PhD students
Have taken 2 PhD students to successful completion.
External Examination of PhD and MPhil degreesExternal examiner Fudan University



研究方向
My research interests focus on resource recovery of waste materials and novel energy saving systems. Recovery of waste electronic and electrical equipment using vibrational and pneumatic separation systems. The use of recycled plastics in manufacturing. Novel methods for the separation of waste plastics. Clean in place of hydraulic pipe systems using swirl flow. The use of swirl flow in pneumatic pipelines.


奖项 / 专利
PatentsPneumatic separation device. Chinese Invention Patent, application number 0.3
Pneumatic separation device. Chinese Application Patent, application number 7.7
Vibratory separation device. Chinese Invention Patent, application number 9.9
Vibratory separation device. Chinese Invention Patent, application number 2.7


发表文章
Refereed Journal PapersDevelopment of composites based on recycled polypropylene for injection moulding automobile parts using hierarchical clustering analysis and principal component estimate. Fu Gu, Philip Hall, N.J. Miles, Journal of Cleaner Production, Volume 137, 20 November 2016, Pages 632-643.http://dx.doi.org/10.1016/j.jclepro.2016.07.028
Performance evaluation for composites based on recycled polypropylene using principal component analysis and cluster analysis. Fu Gu, Philip Hall, N.J. Miles, Journal of Cleaner Production, Volume 115, 1 March 2016, Pages 343-353. http://dx.doi.org/10.1016/j.jclepro.2016.07.028
Recycling oriented vertical vibratory separation of copper and polypropylene particles. Zheng Wang, Nicholas J. Miles, Tao Wu, Fu Gu, Philip Hall, Powder Technology, Volume 301, November 2016, Pages 694-700, http://dx.doi.org/10.1016/j.powtec.2016.06.003
Synthesis of Bio-Dimethyl Ether Based on Carbon Dioxide-Enhanced Gasification of Biomass: Process Simulation Using Aspen Plus. A. M. Parvez, I. M. Mujtaba, P. Hall, E. H. Lester, T. Wu, Energy Technol. 2016, 4, 526. DOI: 10.1002/ente.
Screening of Metal Oxidesfor Hg0Capture. Haitao Zhao, Gang Yang, Cheng Heng Pang, Hua Fan, Philip Hall, Sam Kingman, Tao Wu, Energy Procedia 08/2015; 75:2421-2426. DOI:10.1016/j.egypro.2015.07.202.
Improving the efficiency of 'Clean-In-Place' procedures using a four-lobed swirl pipe: A numerical investigation. Li, G., Hall, P., Miles, N., Wu, T., 2015 Computers and Fluids 108, pp. 116-128.
The application of pneumatic jigging in the recovery of metallic fraction from shredded printed wiring boards. Wang, Z., Hall, P., Miles, N.J., Lambert, P., Gu, F.2015 Waste Management and Research 33 (9), pp. 785-793
Discrete element modeling (DEM) of the vertically vibrated particle bed. Habib, M., Habib, U., Ahmed, J., Mohabuth, N. B., Langston, P., Miles, N. J. & Hall, P.. 2014 Particulate Science and Technology 32 (3), pp. 257-273.
PEPT investigation of particle separation in a novel vertically vibrated particle separator.Habib, M., Miles, N.J., Mohabuth, N.B., Hall P, Fan, X., Parker, D.J., 2014 Particulate Science and Technology 32 (1), pp. 28-38.
Improvement of mechanical properties of recycled plastic blends via optimizing processing parameters using the Taguchi method and principal component analysis. Gu, F., Hall, P., Miles, N.J., Ding, Q., Wu, T., 2014 Materials and Design 62, pp. 189-198.
Separation of dry particulate mixtures by controlled vertical vibration. Habib, M., Miles, N.J., Habib, U., Hall, P.. 2013 Particulate Science and Technology 31 (6), pp. 555-560.
Microwave induced pyrolysis of biomass. Shi, K.Q., Wu, T., Zhao, H.T., Lester E, Hall, P., Wang, Y.D.. 2013 Applied Mechanics and Materials 319, pp. 127-133.
Recovering metallic fractions from waste electrical and electronic equipment by a novel vibration system. Habib, M., Miles, N.J., Hall, P., 2013 Waste Management 33 (3), pp. 722-729.
Characteristics and synergistic effects of co-firing of coal and carbonaceous wastes. Wu, T., Gong, M., Lester, E., Hall, P., 2013 Fuel 104, pp. 194-200.
The recycling of plastics from ELVs -- background, practices and potentials. Gu, F., Hall, P., Wu, T., 2012 Advanced Materials Research , 542-543, 10.
Investigating the use of vertical vibration to recover metal from electrical and electronic waste. Nusruth Mohabuth*, Philip Hall, Nicholas Miles, Minerals Engineering, Volume 20, Issue 9, August 2007, Pages 926-932. doi:10.1016/j.mineng.2007.03.009.


科研项目 / 研究基金
Research Grant and Contracts“Innovation on Low Carbon Vehicles and Sustainable Manufacturing”, UNNC Innovation Project Team sponsored by Ningbo S&T Bureau, RMB9,000,000, five-year period.
Development of a novel integrated system for the maximum recovery and concentration of metal and plastics from waste electrical and electronic equipment” Funded by MOST RMB 1,000,000
Innovation Team for Integrated WEEE Recycling Technologies Ningbo S&T Bureau RMB 1,500,000
Development and Application of Marine Related Composites based on recycled materials Ningbo S&T Bureau RMB 3,000,000


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