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China and Me - Sai Gu

Prof Sai Gu (顾赛)
Head of Department
Department of Chemical and Process Engineering
Summary of collaboration with China:

  • Collboration with 9 universities/research institutes in China
  • Coordinated 3 EU projects with China
  • Published 24 journal papers with Chinese partners

This page summarises current research collaborations and other academic links between Prof Sai Gu (顾赛) and China.

Organisations

  1. 上海交通大学 (Shanghai Jiaotong University)
  2. 西安交通大学 (Xi'an Jiaotong University)
  3. 清华大学 (Tsinghua University)
  4. 天津大学 (Tianjin University)
  5. 东南大学 (Southeast University)
  6. 中国科技大学 (University of Science and Technology of China)
  7. 浙江大学 (Zhejiang University)
  8. 厦门大学 (Xiamen University)
  9. 中国科学院广州能源研究所 (Guangzhou Institute of Energy Conversion, Chinese Academy of Sciences)

Projects and Activities

  1. Overseas Scholars Fund Collaborative Research project (海外及港澳学者合作研究基金项目) by National Natural Science Foundation of China (NSFC, 国家自然科学基金委员会) with the 东南大学 (Southeast University) of China on research "Catalytic thermal conversion mechanism to produce aromatic compounds from lignin"
  2. EU project with Chinese partner: ICOMFLUID (International Collaboration on Computational Modelling of Fluidised Bed Systems for Clean Energy Technologies)
  3. EU project with Chinese partner: ECOFUEL (EU-China Cooperation for Liquid Fuels from Biomass Pyrolysis)
  4. EU project with Chinese partner: IPACTS (International Partnership for Advanced Coatings by Thermal Spraying)

Publications with Chinese Partners

  1. Mahrukh Mahrukh, Arvind Kumar, Sai Gu, Spyros Kamnis and Ebrahim Gozali, Modeling the Effects of Concentration of Solid Nanoparticles in Liquid Feedstock Injection on High-Velocity Suspension Flame Spray Process, Industrial & Engineering Chemistry Research 2016, 55 (9), 2556–2573.
  2. V. S. Kiran Kumar Palla, K. Papadikis, S. Gu, Computational modelling of the condensation of fast pyrolysis vapours in a quenching column. Part B: Phase change dynamics and column size effects, Fuel Processing Technology 144(2016) 42–55.
  3. Daniel Sebastia-Saeza, Sai Gu, Panneerselvam Ranganathana, Konstantinos Papadikis, Micro-scale CFD modeling of reactive mass transfer in falling liquid films within structured packing materials, International Journal of Greenhouse Gas Control 42 (2015) 388–399.
  4. Daniel Sebastia-Saeza, Sai Gu, Panneerselvam Ranganathana, Konstantinos Papadikis, Meso-scale CFD study of the pressure drop, liquid hold-up, interfacial area and mass transfer in structured packing materials, International Journal of Greenhouse Gas Control 33 (2015) 40–50.
  5. D. Sebastia-Saez, S. Gu, P. Ranganathan, K. Papadikis, Micro-scale CFD study about the influence of operative parameters on physical mass transfer within structured packing elements, International Journal of Greenhouse Gas Control, 28: 180–188, 2014.
  6. D. Sebastia-Saez, S. Gu, P. Ranganathan, K. Papadikis, 3D modeling of hydrodynamics and physical mass transfer characteristics of liquid film flows in structured packing elements, International Journal of Greenhouse Gas Control, 19: 492–502, 2013.
  7. D.K. Shen, S. Gu, Baosheng Jin, M.X. Fang, Thermal degradation mechanisms of wood under inert and oxidative environments using DAEM methods, Bioresource Technology, 102 2047-2052 (2011).
  8. D.K. Shen, S. Gu, A.V. Bridgwater, Study on the pyrolytic behaviour of xylan-based hemicellulose using TG-FTIR and Py-GC-FTIR, Journal of Analytical and Applied Pyrolysis, 87 (2) 199-206 (2010).
  9. D.K. Shen, S. Gu, K.H. Luo, S. Wang, M. Fang, The pyrolytic degradation of wood-derived lignin from pulping process, Bioresource Technology, 101 (2010) 6136–6146.
  10. D.K. Shen, S. Gu, A.V. Bridgwater, The thermal performance of the polysaccharides extracted from hardwood: Cellulose and hemicelluloses, Carbohydrate Polymers, 82 (1): 39-45 (2010).
  11. D.K. Shen and S. Gu, The mechanism for thermal decomposition of cellulose and its main products, Bioresource Technology, 100(24): 6496-6504 (2009).
  12. D.K. Shen, S. Gu, K.H. Luo, A.V. Bridgwater, Analysis of wood structural changes under thermal radiation, Energy & Fuels, 23 (2), 1081–1088, (2009).
  13. D.K. Shen, S. Gu, K.H. Luo, A.V. Bridgwater, M.X. Fang, Kinetic study on thermal decomposition of woods in oxidative environment, Fuel, 88(6), 1024-1030 (2009).
  14. S. Kamnis, S. Gu, T.J. Lu, C. Chen, Numerical Modelling the Bonding Mechanism of HVOF Sprayed Particles, Computational Materials Science, 46, 1038–1043 (2009).
  15. S. Kamnis , S. Gu, T.J. Lu, C. Chen, Numerical Modelling of Sequential Droplet Impingements, Journal of Physics D: Applied Physics, Vol. 41, pp. 1-7 (2008)
  16. V. S. Kiran Kumar Palla, K. Papadikis, S. Gu, A numerical model for the fractional condensation of pyrolysis vapours, Biomass and Bioenergy (2015) 74:180-192.
  17. V. S. Kiran Kumar Palla, K. Papadikis, S. Gu, Computational modelling of the condensation of fast pyrolysis vapours in a quenching column. Part A: Hydrodynamics, heat transfer and design optimisation, Fuel Processing Technology 131 (2015) 59–68.
  18. D Zhang, K Papadikis, S Gu, Application of a high density ratio lattice-Boltzmann model for the droplet impingement on flat and spherical surfaces, International Journal of Thermal Sciences, 84: 75-85, 2014.
  19. D Zhang, K Papadikis, S Gu, Investigations on the Droplet Impact onto a Spherical Surface with a High Density Ratio Multi-Relaxation Time Lattice-Boltzmann Model, Computational Physics, 16 (2014) 892-912.
  20. D Zhang, K Papadikis, S Gu, Three-dimensional multi-relaxation time lattice-Boltzmann model for the drop impact on a dry surface at large density ratio, International Journal of Multiphase Flow, 64: 11-18, 2014.
  21. E Gozali, S Kamnis, S Gu, Numerical investigation of combustion and liquid feedstock in high velocity suspension flame spraying process, Surface and Coatings Technology, 228: 176-186, 2013.
  22. Dekui Shen, Rui Xiao, Sai Gu and Kaihong Luo, The pyrolytic behavior of cellulose in lignocellulosic biomass: a review, RSC Advances, 1, 1641–1660 (2011).
  23. Zhiwei Guo, Shuo Yin, Hanlin Liao, Sai Gu, Three-dimensional simulation of an argon–hydrogen DC non-transferred arc plasma torch, International Journal of Heat and Mass Transfer, 80 (2015) 644–652.
  24. Zhiwei Guo, Shuo Yin, Zhongdong Qian, Hanlin Liao, Sai Gu, Effect of the deviation of the current density profile center on the three-dimensional non-transferred arc plasma torch, Computers & Fluids 114 (2015) 163–171.
Page last modified on August 28, 2016, at 03:48 PM