基本信息
丁玉龙 男 博导 过程工程研究所
电子邮件:ylding@home.ipe.ac.cn
通信地址:
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研究领域(1) 多相反应系统的输运现象,特别是跨尺度的流动与传热
(2) 储能过程研究,特别是基于深冷和压缩空气的储能技术、储能过程热力学和动力学、储能与工业系统的集成、系统的小型/微型化、系统模拟与优化
(3) 储热材料和储热换热系统,特别是高性能储冷和中高温储热材料的纳微结构设计、合成、储热换热系统的界面热阻调控、储释热过程的动力学调控等
(4) 功能流体的合成、性能研究及应用,特别是纳微颗粒的合成、纳微颗粒悬浮液(包括纳米流体)的制备、悬浮液的传热和流变性能研究、悬浮液内颗粒结构与性能的关系、 纳微颗粒悬浮液在高温条件下的稳定性、基于纳微结构功能流体的表面清洗和杀菌机理研究
(5) 先进余热及太阳能热回收利用研究,特别是研究适用于工业余热和太阳能热回收利用的,集储热、储电、热管理和热电负荷调峰等多功能于一体的通用系统
招生信息硕士招生专业
081701 化学工程 - 储能过程中多相流动与传热、先进能源转化过程、纳微颗粒悬浮液的制备与性能研究
085002 材料学 - 中高温储能材料、智能自适应材料、纳微结构功能材料
085204 材料工程(专业学位)- 中高温储能材料合成与应用
085216 化学工程(专业学位)- 先进工业余热回收系统
博士招生专业
081701 化学工程 - 储能过程中多相流动与传热、先进能源转化过程、纳微颗粒悬浮液的制备与性能研究、先进余热及太阳能热回收利用
085002 材料学 - 中高温储能材料、智能自适应材料、纳微结构功能材料
招生专业 化学工程
材料学
化学工艺
招生方向 储能过程中多相流动与传热,先进能源转化过程,纳微颗粒悬
中高温储能材料,智能自适应材料,纳微结构功能材料合成与应用
先进工业余热回收系统
教育背景
学历1994年11月至1997年6月 就读于英国伯明翰大学化学工程系
1985年9月至1988年7月 就读于北京科技大学热能工程系
1981年9月至1985年7月 就读于北京科技大学热能工程系
学位1997获英国伯明翰大学工学博士学位
1988年获北京科技大学工学硕士学位
1985获北京科技大学工学学士学位
工作经历1988年在北京科技大学获硕士学位后留校任教,先后任助教、讲师和副教授。 1994年11月在英国CVCP海外奖学金的资助下赴英国伯明翰大学攻读博士学位并于1997年7月获博士学位。其后,他先后在英国伦敦大学帝国理工学院、英国伯明翰大学、英国利兹大学任博士后研究员、讲师、高级讲师和教授等职。2009年入选首批国家“****”,2010年3月回国,任中国科学院过程工程研究所研究员、博士生导师、储能过程与能源材料研究团队负责人。现为中国颗粒学会理事、英国皇家化学会会士、****联谊会化学化工学专业委员会副主任、英国化学工程师学会颗粒学会理事、英国皇家化学会颗粒测量学会理事、英国(EPSRC)- 德国能源(E.ON)CO2 减排专项项目学术顾问。担任过壳牌石油公司(Shell)、葛兰素(GlaxoSmithKline)及宝洁(P&G)等大型跨国公司的技术顾问。担任英国工程与物理科学国家基金评委及专家组成员、美国Petroleum Research Funds基金、意大利Fondazione Cariverona 基金、捷克国家科学基金、新加坡国家科学基金等多个国际研究基金的评审人,担任50 余个国际权威刊物编委/评审人等。 2009年起担任英国化学工程师学会期刊评奖专家委员,2010年起,担任中国鞍钢集团技术专家。
工作简历
社会兼职
教授课程
专利与奖励获得超过13项专利,以下是近期专利成果:
(1) 丁玉龙,金翼和汪翔等(2011): 内燃发电机系统低谷电及余热回收、储存和再利用,申请号:**6.2
(2) 丁玉龙,李永亮和金翼等(2011):一种高峰负荷发电装置,申请号:**8.7
(3) M. Povey and Y.L. Ding (2009): Production of nanoemulsions, PCT/GB2009/051305
(4) Y.L. Ding (2006): Particulate phase chromatography, WO2006/082431.
(5) A.D. Brooker, R.N. Somerville, D.W. York and Y.L. Ding (2007): Nano-based cleaning method, WO 2007/109239.
(6) H.S. Chen, Y.L. Ding, T. Peters and F. Berger (2007): A method of storing energy and a cryogenic energy storage system, WO 2007/096656.
(7) Y.L. Ding, D.S. Wen and P. Dearman (2007) Cryogenic engines, WO 2007/080394
奖励信息
专利成果
出版信息编著的书目:
[1] S.J. Antony, W. Hoyle and Y.L. Ding, Granular Materials – Fundamentals and Applications, 371 pages, London, Royal Society of Chemistry (ISBN 0-85404-586-4), 2004.
[2] T.J. Yang, D.Q. Cang and Y.L. Ding, Oxygen Enriched BF Pulverised Coal Injection, 341 pages, Beijing, Metallurgical Industry Press (ISBN 7-5024-1769-9), 1996.
[3] S. Witharana, H.S. Chen and Y.L. Ding, Nanofluids for Heat Transfer, a chapter for Handbook of Nanophysics, Klaus Sattler eds., Taylor & Francis (CRC Press), 2010.
[4] M. Ghadiri, C.C. Kwan and Y.L. Ding, Analysis of Milling and the Role of Feed Properties. In: Chapter 14 of Handbook of Powder Technology, Salman A., Ghadiri M. and Hounslow M. eds., Elsevier Science B.V., 605-634, 2007
[5] M.J.W. Povey, T.S. Awad, R. Huo and Y.L. Ding, Crystallization in monodisperse emulsions with particles in size Range 20–200 nm, in Chapter 27 of Food Colloids, 399-411, Royal Society of Chemistry, ISBN 978-0-85404-271-5, 2007.
[6] Y.L. Ding, Transport phenomena, W. Sha, Advances in Materials Science and Engineering Research, 34-63, Beijing, Mechanical Industry Press, 2000.
杂志文章(1997年以来, 按年份)
2011 年
[7] Y. Li and Y.L. Ding (2011) An integrated solar-cryogen hybrid power system, Renewable Energy, Accepted.
[8] G. Okake, S. Witharana, S.J. Antony and Y.L. Ding (2011) Computational analysis of factors influencing thermal conductivity of nanofluids, Journal of Nanoparticle Research, Accepted.
[9] E. K. Goharshadi, Y.L. Ding, X. Lai and P. Nancarrow (2011) Facile and green synthesis of ZnO nanostructures in a room temperature ionic liquid 1-hexyl-3-methylimidazolium bis(trifluoromethylsulfonyl)imide1, Inorganic Materials, 47, 379-384.
[10] H.S. Chen, Y.L. Ding, N.T. Cong, B.L. Dou, V. Dupont, M. Ghadiri and P.T. Williams (2011) A comparative study on hydrogen production from steam-glycerol reforming: thermodynamics and experimental. Renewable Energy, 36, 779-788.
[11] Y. Wang, Y. Huang, E. Chiremba, A. P. Roskilly, N. Hewitt, Y.L. Ding, D. Wua, H Yu, X. Chen, Y. Li, , J. Huang, R. Wang and J. Wu, Z. Xia, C. Tan (2011) An investigation of a household size trigeneration running with hydrogen, Applied Energy, Accepted.
[12] S. Witharana, H.S. Chen and Y.L. Ding (2011) Stability of nanofluids in quienscient and shear flow fields, Nanoscale Research Letters, 6, 231.
[13] L.L. Zhang, S.Q. Li, X.M. Liu, D.Q. Cang and Y.L. Ding (2011) Disinfection of water and wastewater using ZnO nanofluids - effect of shaking speed of incubator, Advanced Materials Research, 183 – 185, 2298-2302.
[14] V. Sibanda, Y.L. Ding, R.W. Greenwood, J.P.K. Seville and S.E. Iyuke (2011) Predicting particle segregation during cross-flow filtration, Powder Technology, Accepted.
[15] D. Olusanmi, K. Roberts, M.Ghadiri, Y.L. Ding (2011) The breakage behaviour of Aspirin under quasi-static indentation and single particle impact loading: effect of crystallographic anisotropy., International Journal of Pharmaceutics, Accepted.
[16] Y. He, C. Qi, Y. Hu, B. Qin, F. Li and Y.L. Ding (2011) Lattice Boltzmann simulation of alumina-water nanofluid in a square cavity, Nanoscale Research Letters, 6, 184.
[17] X.H. Li, W.L. Li, Y.G. Xing, Y.H. Jiang, Y.L. Ding and P.P. Zhang (2011) Effects of nano-ZnO power-coated PVC film on the physiological properties and microbiological changes of fresh-cut ‘Fuji’ apple, Advanced Materials Research, 152-153, 450-453.
[18] C.Y. Yang and Y.L. Ding (2011) Multi-scale modelling of liquid suspensions of micron particles in the presence of nanoparticles, Advances in Transport Phenomena 2011, Accepted.
[19] 叶锋,曲江兰,仲俊瑜,王彩霞,孟立静,杨军,丁玉龙(2011)相变储热材料研究进展, 过程工程学报, 已录用。
2010 年
[20] D. Xu, C. Hodges, Y. Ding, S. Biggs, A. Brooker and D. York (2010) Adsorption kinetics of laponite and ludox silica nanoparticles onto a deposited poly(diallyldimethylammonium chloride) layer measured by a quartz crystal microbalance and optical reflectometry, Langmuir, 26, 18105-18112.
[21] C.S. Hodges, Y.L. Ding, S.R. Biggs (2010) The influence of nanoparticle shape on the drying of colloidal suspensions, Journal of Colloid and Interface Science, 352, 99-106.
[22] Yi Jin, W.P. Lee, Z. Musina and Y.L. Ding (2010) A one-step method for producing microencapsulated phase change materials, Particuology, 8, 588-590.
[23] Y. Li, Y. Jin, H. Chen, C. Tan and Y.L. Ding (2010) An integrated system for thermal power generation, electrical energy storage and CO2 capture, International Journal of Energy Research, accepted.
[24] Y. Li, H. Chen, X. Zhang, C. Tan and Y.L. Ding (2010) Renewable energy carriers: hydrogen or liquid air / nitrogen? Applied Thermal Engineering, 30, 1985-199.
[25] H.S. Chen, Y.L. Ding, Y.L. Li, X.J. Zhang and C.Q. Tan (2010) Air fuelled zero emission road transportation: A comparative study, Applied Energy, 88, 337–342.
[26] H.S. Chen, Y.L. Ding, N.T. Cong, B.L. Dou, V. Dupont, M. Ghadiri and P.T. Williams (2010) Progress in low temperature hydrogen production with simultaneous CO2 abatement. Chemical Engineering Research and Design, In Press.
[27] D. Olusanami, Y. Ding, M. Ghadiri and K.J. Roberts (2010) Effect of temperature and humidity on the breakage behaviour of aspirin and sucrose, Powder Technology, 201, 248-252.
[28] Y.L. Li, H.S. Chen and Y.L. Ding (2010) Fundamentals and applications of cryogen as a thermal energy carrier, International Journal of Thermal Sciences, in Press.
[29] Y.D. Wang, Y. Huang, A.P. Roskilly, Y.L. Ding and N. Hewitt (2010) Trigeneration running with raw jatropha oil, Fuel Processing Technology, in Press.
[30] B. Dou, Rickett, V. Dupont, P.T. Williams, H.S. Chen, Y.L. Ding and M. Ghadiri (2010) Steam reforming of crude glycerol with in-situ CO2 sorption, Bioresource Technology, 101, 2436-2442.
[31] D. Xu, C.S. Hodges, Y.L. Ding, S.R. Biggs, A. Brooker and D.J. York (2010) A QCM study on the adsorption of colloidal laponite at the solid/liquid interface, Langmuir, in press.
[32] C.S. Hodges, Y.L. Ding and S.R. Biggs (2010) The influence of nanoparticles on polystyrene adhesion, Advanced Powder Technology, 21, 13-18.
[33] Y.L. Ding, H.S. Chen, Z. Musina, Y. Jin, T.F. Zhang, S. Witharana and W. Yang (2010) Relationship between thermal conductivity and shear viscosity of nanofluids, Physica Scripta T, in Press.
[34] D.C. Venerus et al. (68 co-authors from 33 organisations worldwide) (2010) Viscosity measurements on colloidal dispersions (nanofluids) for heat transfer applications, Journal of Applied Rheology, accepted for publication.
2009 年
[35] Waipeng Lee, Albert Martinez, Dan Xu, Anju Brooker, David York and Yulong Ding (2009) Effects of laponite and silica nanoparticles on the cleaning performance of amylase enzyme towards starch soils, Particuology, in press.
[36] Jacopo Buongiorno et al. (68 co-authors from 33 organisations worldwide) (2009) A benchmark study on the thermal conductivity of nanofluids, Journal of Applied Physics, accepted for publication.
[37] Liang Wang, Guiping Lin, Haisheng Chen, Y.L. Ding, (2009), Convective heat transfer of Nano-enabled phase change material, Science in China - E Series, 52, 1744-1750
[38] Y.R. He, Y.B. Men, X. Liu, H. Lu, H. Chen, Y.L. Ding (2009) Study on Forced Convective Heat Transfer of Non-Newtonian Nanofluids, Journal of Thermal Science, 18(1), 20-26.
[39] X. Fan, B.H. Ng, Y.L. Ding and M. Ghadiri, Impact of surface tension and viscosity on solid motion in a conical high shear mixer granulator, AIChE J., accepted for publication, 2009.
[40] H.S. Chen, Y.L. Ding and A.A. Lpakin, Rheological behaviour of nanofluids containing tube / rod-like nanoparticles, Powder Technology, accepted for publication, 2009.
[41] H.S. Chen and Y.L. Ding, Heat transfer and rheological behaviour of nanofluids – a review, Advances in Transport Phenomena, accepted, 2009.
[42] B.H. Ng, Y.L. Ding and M. Ghadiri, Modelling of Dense and Complex Granular Flow in High Shear Mixer Granulator - a CFD Approach, Chemical Engineering Science, accepted, 2009.
[43] H.S. Chen, T. Zhang, B. Dou, V. Dupont, P.T. Williams, M. Ghadiri and Y.L. Ding, Thermodynamic Analyses of Adsorption Enhanced Steam Reforming of Glycerol for Hydrogen Production, International Journal of Hydrogen Energy, in press.
[44] L. Zhang, Y. Jiang, Y.L. Ding, N. Daskalakis and L. Jeuken, M. Povey and D.W. York, Mechanistic investigation into antibacterial behaviour of suspension of ZnO nanoparticles against E. coli, Journal of Nanoparticle Research, 2009, Accepted.
[45] W.P. Lee, H. Chen, R. Dryfe and Y.L. Ding, Kinetics of Nanoparticles Synthesis by Liquid-liquid Interfacial Reaction, Colloids and Surfaces A, in press, 2009.
[46] H. Chen, Y.L. Ding, A. Lapkin and X. Fan, Rheological behaviour of ethylene glycol-titanate nanotube nanofluids, Journal of Nanoparticle Research, in press, 2009
[47] Binlin Dou, Valerie Dupont, P.T. Williams, H. Chen and Y.L. Ding, Thermogravimetric kinetics of crude glycerol, Bioresource Technology, 100 (9), 2613-2620, 2009.
[48] Y. He, Y. Men, Y. Zhao, H.L. Lu, Y.L. Ding, Numerical investigation into the convective heat transfer of TiO2 nanofluids flowing through a straight tube under the laminar flow conditions, Applied Thermal Engineering, 29(10), 1965-1972, 2009.
[49] H. Chen, N.T. Cong, W. Yang, C. Tan, Y.L. Li, Y.L. Ding, Progress in electrical energy storage system—a critical review, 19 (3), 291-312, Progress in Natural Science, 2009.
[50] H. Chen, S. Witharana, Y. Jin, C.Y. Kim, Y.L. Ding, Predicting thermal conductivity of liquid suspensions of nanoparticles (nanofluids) based on rheology, 7(2), 151-157, Particuology, 2009
[51] H. Chen, Y.L. Ding and A. Lapkin, Rheological behaviour of nanofluids containing tube / rod-like particles, Powder Technology, in press, 2009.
[52] A. Hassanpour, C.C. Kwan, N. Rahmanian, Y.L. Ding, S.J. Antony, X. Jia and M. Ghadiri, Effect of granulation scale-up on the structure and strength of granules, Powder Technology, 189, 304-312, 2009.
[53] B.L. Dou, V. Dupont, G. Rickett, N. Blakeman, P.T. Williams, H. Chen, Y.L. Ding and M. Ghadiri (2009) Hydrogen production by sorption-enhanced steam reforming of glycerol, Bioresource Technology, in press, 2009.
[54] M.J.W. Povey, T.S. Awad, R. Huo and Y.L. Ding (2009) Quasi-isothermal crystallisation kinetics, non-classical nucleation and surfactant-dependent crystallisation of emulsions, European Journal of Lipid Science & Technology, 111, 236-242.
2008 年
[55] D. Wen, Y.L. Ding and G. Lin, Phase change heat transfer of liquid nitrogen upon injection into aqueous based TiO2 nanofluids, Journal of Nanoparticle Research, 10, 987-996, 2008.
[56] W. Yang and Y.L. Ding, Gas classification of particles using a packed bed, Particle and Particle System Characterisation, 25, 376-382, 2008.
[57] X. Fan, H. Chen, Y.L. Ding, P.K. Plucinski and A.A. Lapkin, Potential of ‘nanofluids’ to further intensify microreactors, Green Chemistry, 10, 670-677, 2008.
[58] Y. Song, N. McMillan, D. Long, J. Thiel, Y.L. Ding, H. Chen, N. Gadegaard and L. Cronin, Design of hydrophobic polyoxometalate hybrid assemblies beyond surfactant encapsulation, Chemistry - A European Journal, 14, 2349 – 2359, 2008.
[59] Y.L. Ding, Y. He, N.T. Cong, W. Yang and H. Chen, Hydrodynamics and heat transfer of gas-solid two-phase mixtures flowing through packed beds, Progress in Natural Science, 18, 1185-1196, 2008.
[60] M. Giraldo, Y.L. Ding and R.A. Williams, Boundary integral study of nanparticle flow behaviour in the proximity of a solid wall, Journal of Physics D: Applied Physics, 41, 085503, 2008.
[61] L. Zhang, Y.L. Ding, M. Povey and D.W. York, ZnO nanofluids - a potential antibacterial agent, Progress in Natural Science, 18, 939-944, 2008.
[62] E.K. Goharshadi, Y.L. Ding and P. Nancarrow, Green synthesis of ZnO nanoparticles in a room-temperature ionic liquid 1-ethyl-3-methylimidazolium bis(trifluoromethylsulfonyl)imide, Journal of Physics and Chemistry of Solids, 69, 2057-2060, 2008.
[63] H. Chen, Y. He, J. Zhu, H. Alias, Y.L. Ding, P. Nancarrow, C. Hardacre, D. Rooney and C. Tan, Rheological and heat transfer behaviour of the ionic liquid, [C4mim][NTf2], International Journal of Heat and Fluid Flow, 29, 149-155, 2008.
[64] B.H. Ng, Y.L. Ding and M. Ghadiri, On the relative importance of the kinetic and frictional contributions to granular motion in an annular Couette flow, Chemical Engineering Science, 63, 1733-17399, 2008.
[65] B.H. Ng, C.C. Kwan, Y.L. Ding, M. Ghadiri, X.F. Fan and D.J. Parker, Granular flow fields in vertical high shear mixer granulators, AIChE Journal, 54, 415-426, 2008.
[66] E.K. Goharshadi, Y.L. Ding and P. Nancarrow, Ultrasound-assisted green synthesis of nanocrystalline ZnO in the ionic liquid [hmim] [NTf2], Ultrasonics Sonochemistry, 16, 120-123, 2008.
[67] N. Rahmanian, M. Ghadiri and Y.L. Ding, Effect of scale of operation on granule strength in high shear granulators, Chemical Engineering Science, 63, 915-923, 2008.
[68] W. Yang, F. Yang and Y.L. Ding, A numerical investigation into the solids phase chromatography using a combined continuous and discrete approach, Particuology, 6, 557-571, 2008.
2007 年
[69] L. Gao, X. Zhou and Y.L. Ding, Effective thermal and electrical conductivity of carbon nanotube composites, Chemical Physics Letters, 434, 297-300, 2007.
[70] N.T. Cong, Y. He, H. Chen, Y.L. Ding and D. Wen, Heat transfer of gas-solid two-phase mixtures flowing through a packed bed under constant wall heat flux conditions, Chemical Engineering Journal, 130, 1-10, 2007.
[71] W. Yang, C.C. Kwan, Y.L. Ding, M. Ghadiri and K.J. Roberts, Milling of sucrose, Powder Technology, 174, 14-17, 2007.
[72] H. Watanabe, M. Ghadiri, T. Matsuyama, Y.L. Ding, K.G. Pitt, H. Maruyama, S. Matsusaka and H. Masuda, Triboelectrification of pharmaceutical powders by particle impact, International Journal of Pharmaceutics, 334, 149-155, 2007.
[73] L. Zhang, Y.L. Ding, M. Povey and D.W. York, Investigation into the antibacterial behaviour of suspensions of ZnO nanoparticles (ZnO nanofluids), Journal of Nanoparticle Research, 9, 479-489, 2007.
[74] B.H. Ng, C.C. Kwan, Y.L. Ding, M. Ghadiri and X.F. Fan, Solids motion in a conical frustum-shaped high shear mixer granulator, Chemical Engineering Science, 62, 756-765, 2007.
[75] Y. He, Y. Jin, H. Chen, Y.L. Ding, D. Cang, H. Lu, Heat transfer and flow behaviour of aqueous suspensions of TiO2 nanoparticles (nanofluids) flowing upward through a vertical pipe, International Journal of Heat and Mass Transfer, 50, 2272-2281, 2007.
[76] Y. He, H. Chen, Y.L. Ding, and B. Lickiss, Numerical study of particle segregation of binary mixtures in a rotating drum mixer, Chemical Engineering Research and Design, 85(A), 963-973, 2007.
[77] D. Wen, N.T. Cong, Y. He, H. Chen and Y.L. Ding, Heat transfer of gas-solid two-phase mixtures flowing through a packed bed, Chemical Engineering Science, 62, 4241-4249, 2007.
[78] Y.L. Ding, H. Chen, Y. He, A.A. Lapkin, M. Yeganeh, L. Siller and Y. Butenko, Forced convective heat transfer of nanofluids, Advanced Powder Technology, 18, 813-824, 2007.
[79] H.S. Chen, Y.L. Ding, Y.R. He and C.Q. Tan, Rheological behaviour of ethylene glycol based titania nanofluids, Chemical Physics Letter, 444, 333-337, 2007.
[80] G. Koumpouras, E. Alpay, A. Lapkin, Y.L. Ding and F. Stepanek, The effect of adsorbent characteristics on the performance of a continuous sorption-enhanced steam methane reforming process, Chemical Engineering Science, 62, 5632-5637, 2007.
[81] H. Chen, Y.L. Ding, and C. Tan, Rheological behaviour of nanofluids, New Journal of Physics, 9, 1-24, 2007.
[82] Y.L. Ding, H. Chen, L. Wang, C.Y. Yang, Y. He, W. Yang, W.P. Lee, L. Zhang and R. Huo, Heat transfer intensification using nanofluids, KONA Powder and Particle, (25), 23-38 2007.
[83] H. Chen, W. Yang, Y. He, Y.L. Ding, L. Zhang, C. Tan, A. Lapkin and D.V. Bavykin, Heat transfer and flow behaviour of aqueous suspensions of titanate nanotubes (nanofluids), Powder Technology, 183, 63-72, 2007.
[84] B.H. Ng, C.C. Kwan, Y.L. Ding, M. Ghadiri, X.F. Fan, Solids motion of calcium carbonate particles in a high shear mixer granulator: a comparison between dry and wet conditions, Powder Technology, 177, 1-11, 2007.
[85] B.H. Ng, Y.L. Ding and M. Ghadiri, Assessment of the Kinetic-Frictional Model for Dense Granular Flow, Particuology, 50-58, 2007.
[86] S.Y. Wang, Y. He, H. Lu, J. Zheng, G. Liu, and Y.L. Ding, Numerical simulations of flow behaviour of agglomerates of nano-size particles in bubbling and spouted beds with an agglomerate-based approach, Food and Bioproducts Processing, 85, 231-240, 2007.
[87] Y. He, H. Chen, Y.L. Ding and J.R Lickiss, Solids motion and segregation of binary mixtures in a rotating drum mixer, Chemical Engineering Research and Design, 85, 963-873, 2007.
[88] S. Li, Q. Yao, B. Chen, X. Zhang and Y.L. Ding, Molecular dynamics simulations of granular surface flow in rotating drums, Chinese Science Bulletin, 52, 692–700, 2007.
2006 年
[89] D.S. Wen and Y.L. Ding, Heat transfer of gas flow through a packed bed, Chemical Engineering Science, 61, 3532-3542, 2006.
[90] S.Q. Li and Y.L. Ding Modelling of the behaviour of gas-solid two-phase mixtures flowing through packed beds, Chemical Engineering Science, 61, 1922-1931, 2006.
[91] D.S. Wen, H.S. Chen, Y.L. Ding and P. Dearman, Liquid nitrogen injection into a heat transfer fluid: pressure build-up and heat transfer, Cryogenics, 46, 740-748, 2006.
[92] Y.L. Ding, Hajar Alias, Dongsheng Wen, Richard A. Williams Heat transfer of aqueous suspensions of carbon nanotubes (CNT nanofluids), International Journal of Heat and Mass Transfer, 49, 240-250, 2006
[93] D.S. Wen and Y.L. Ding Natural convective heat transfer of suspensions of TiO2 nanoparticles (nanofluids), Transactions of IEEE on Nanotechnology, 5, 3, 220-227, 2006.
[94] Y.L. Ding, Z.L. Wang, D.S. Wen, M. Ghadiri, X. Fan and D. Parker Solids behaviour in a dilute gas-solid two-phase mixture flowing through monolith channels, Chemical Engineering Science, 61, 1561-1570, 2006.
[95] H. Watanabe, A. Samimi, Y.L. Ding, M. Ghadiri, T. Matsuyama and K. Pitt, Measurements of charge transfer due to single particle impact, Particle and Particle Systems Characterisation, 23, 2, 133-137, 2006.
[96] Y.R. He, H.L. Lu, D.S. Wen, Y.L. Ding, A numerical study on the gas fluidisation of secondary agglomerates of nanoparticles, Progress in Natural Science, 15, 111-116, 2006.
[97] Y.H. Jiang, D.P Liu, Y.L. Ding and X.H. Liu, Study on polluting mechanism of dioctyl phthalate (DOP) released from polyvinyl chloride (PVC) packaging for apples, Progress in Natural Science, 15, 2006.
[98] Y. He, T.N. Cong and Y.L. Ding, Gas-solid two-phase mixtures flowing upward through a confined packed bed, Particle and Particle System Characterisation, 23, 1-10, 2006.
[99] Y.L. Ding, D. Wen and R.A. Williams, Pool boiling heat transfer of aqueous based TiO2 nanofluids, Journal of Enhanced Heat Transfer, 13, 231-244, 2006.
[100] H. Lu, Y.L. Ding and Y. He, Numerical simulations of flow behaviour of gas-solid two-phase flows in turbulent fluidised beds, Journal of Engineering Thermophysics, 2006.
2005 年
[101] Y.L. Ding, Z.L. Wang, D.S. Wen, M. Ghadiri, X.F. Fan and D.J. Parker, Solids behaviour in a gas–solid two-phase mixture flowing through a packed particle bed, Chemical Engineering Science, 60, 5231-5239, 2005.
[102] Y.L. Ding, Z.L. Wang, D.S. Wen, M. Ghadiri, Hydrodynamics of gas–solid two-phase mixtures flowing upward through packed beds, Powder Technology, 153, 13-22, 2005.
[103] Y.L. Ding, Z.L. Wang, M. Ghadiri, D.S. Wen, Vertical upward flow of gas–solid two-phase mixtures through monolith channels, Powder Technology, 153, 51– 58, 2005.
[104] Y.L. Ding and D.S. Wen, Particle migration in a flow of nanoparticle suspensions, Powder Technology, 149, 84-92, 2005.
[105] D.S. Wen and Y.L. Ding, Experimental investigation into the pool boiling heat transfer of aqueous based -alumina nanofluids, Journal of Nanoparticle Research, 7, 265-274, 2005.
[106] D.S. Wen and Y.L. Ding, Effect of particle migration on heat transfer in suspensions of nanoparticles flowing through minichannels, Microfluidics and Nanofluidics, 1, 2, 183– 189, 2005.
[107] D.J. Parker, X.F. Fan, R.N. Forster, P. Fowles, Y.L. Ding, J.P.K. Seville, Positron Imaging Studies of Rotating Drums, Canadian Journal of Chemical Engineering, 83, 83-87, 2005.
[108] C.C. Kwan, H. Mio, Y.Q. Chen, Y.L. Ding, F. Saito, D.G., Papadopoulos, A.C. Bentham, M. Ghadiri, Analysis of the milling rate of pharmaceutical powders using the Distinct Element Method (DEM), Chemical Engineering Science, 60, 5, 1441-1448, 2005.
[109] D.S. Wen and Y.L. Ding, Formulation of nanofluids for natural convective heat transfer applications, International Journal of Heat and Fluid Flow, 26, 855-864, 2005.
2004 年
[110] D.S. Wen and Y.L. Ding, Effective thermal conductivity of carbon nanotube suspensions (CNT nanofluids), AIAA Journal of Thermophysics and Heat Transfer, 18, 4, 481-485, 2004.
[111] D.S. Wen and Y.L. Ding, Experimental investigation into convective heat transfer of nanofluids at the entrance region under laminar flow conditions, International Journal of Heat and Mass Transfer, 47, 24, 5181-5188, 2004.
[112] C.C. Kwan, Y.Q. Chen, Y.L. Ding, D.G. Papadopoulos, A.C. Bentham and M. Ghadiri, (2004) Development of a Novel Approach towards Predicting the Milling Behaviour of Pharmaceutical Powders, European Journal of Pharmaceutical Science, 23, 327-336, 2004.
[113] A. Hassanpour, Y.L. Ding and M. Ghadiri, Shear deformation of binary mixtures of dry particulate solids, Advanced Powder Technology, 15, 6, 687-698, 2004.
[114] Z.L. Wang, Y.L. Ding and M. Ghadiri, Flow of a gas-solid mixture through a packed bed, Chemical Engineering Science, 59, 3071-3079, 2004.
[115] Y.Q. Chen, Y.L. Ding, D.G. Papadopoulos, and M. Ghadiri, Milling of ?-lactose monohydrate using a single ball mill, Journal of Pharmaceutical Sciences, 93, 4, 886-895, 2004.
2003年
[116] S. Fitzpatrick, Y.L. Ding, C. Seiler, C. Lovegrove, S. Booth, R. Forster, D. Parker and J. Seville, Positron emission particle tracking studies of a Wurster process for coating applications, Pharmaceutical Technology, September, 70-78, 2003.
[117] A.C. Santomaso, Y.L. Ding, J.R. Lickiss and D.W. York, Investigation of the granular behaviour in a rotating drum operated over a wide range of rotational speed, Transaction of IChemE, 81, A, 936-945, 2003.
2002 年
[118] M. Stein, Y.L. Ding and J.P.K. Seville, Experimental verification of the scaling relationships for bubbling gas fluidised beds using the PEPT technique, Chemical Engineering Science, 57, 3649-3658, 2002.
[119] Y.L. Ding, R.N. Forster, J.P.K. Seville and D.J. Parker, Segregation of granular flow in the transverse plane of a rolling mode rotating drum, International Journal of Multiphase Flow, 28, 635-663, 2002.
[120] Y.L. Ding, R.N. Forster, J.P.K. Seville and D.J. Parker, Granular motion in rotating drums: bed turnover time and slumping to rolling transition, Powder Technology, 124, 18-27, 2002.
2001年
[121] Y.L. Ding, J.P.K. Seville, R.N. Forster and D.J. Parker, Scaling relationships for rotating drums, Chemical Engineering Science, 56, 3737-3750, 2001.
[122] Y.L. Ding, R.N. Forster, J.P.K. Seville and D.J. Parker, Some aspects of heat transfer in rolling mode rotating drums operated at low to medium temperatures, Powder Technology, 121, 168-181, 2001.
[123] Y.L. Ding, R.N.G. Forster, J.P.K. Seville and D.J. Parker, Solids motion in rotating drums operated at low to medium rotational speeds, Chemical Engineering Science, 56, 1769-1780, 2001.
[124] Y.L. Ding and E. Alpay, High temperature CO2 recovery from flue gases using hydrotalcite adsorbent, Transaction of IChemE (Part B: PSEP), 79, 45-51, 2001.
2000年
[125] Y.L. Ding and E. Alpay, Equilibria and kinetics of CO2 adsorption on hydrotalcite adsorbent, Chemical Engineering Science, 55, 3461-3474, 2000.
[126] Y.L. Ding and E. Alpay, Adsorption enhanced steam-methane reforming, Chemical Engineering Science, 55, 3929-3940, 2000.
[127] M. Stein, Y.L. Ding, J.P.K. Seville and D.J. Parker, Solids motion in gas bubbling fluidised beds, Chemical Engineering Science, 55, 5291-5300, 2000.
[128] R.N. Forster, J.P.K. Seville, D.J. Parker and Y.L. Ding, Tracking of a single particle using the PEPT technology, KONA Powder and Particle, 18, 139-148, 2000.
1997- 1999 年
[129] Y.L. Ding and A.J. Merchant, Kinetics and mechanism of smelting reduction of fluxed chromite - Part 1: carbon-chromium-flux composite pellets in Fe-Cr-C-Si melts, Ironmaking and Steelmaking, 26, 247-253, 1999.
[130] Y.L. Ding and A.J. Merchant, Kinetics and mechanism of smelting reduction of fluxed chromite - Part 2: chromite-flux pellets in Fe-C-Si melts, Ironmaking and Steelmaking, 26, 254-261, 1999.
[131] Y.L. Ding and A.J. Merchant, Production of high carbon ferrochromium using melt circulation, Journal of USTB, 5, 192-202, 1998.
[132] Y.L. Ding and N.A. Warner, Kinetics and mechanism of the reduction of carbon-chromite composite pellets, Ironmaking and steelmaking, 24, 3, 224-229, 1997.
[133] Y.L. Ding and N.A. Warner, Reduction of carbon-chromite composite pellets with silica flux, Ironmaking and Steelmaking, 24, 4, 283-287, 1997.
[134] Y.L. Ding and N.A. Warner, Catalytic reduction of chromite by lime, Thermochimica Acta, 292, 85-94, 1997.
[135] Y.L. Ding, N.A. Warner and A.J. Merchant, Mathematical modelling of the reduction of carbon-chromite composite pellets, Scandinavian Journal of Metallurgy, 26, 1-8, 1997.
[136] Y.L. Ding, N.A. Warner and A.J. Merchant, Reduction of chromite by graphite with CaO-SiO2 fluxes, Scandinavian Journal of Metallurgy, 26, 55-63, 1997.
[137] Y.L. Ding and N.A. Warner, Smelting reduction of carbon-chromite composite pellets Part I: Reduction kinetics and mechanism, Transaction of Institution of Mining and Metallurgy, 106, C, 55-63, 1997.
[138] Y.L. Ding and N.A. Warner, Smelting reduction of carbon-chromite composite pellets Part II: Dissolution kinetics and mechanism, Transaction of Institution of Mining and Metallurgy, 106, C, 64-68, 1997.
发表论文
发表著作
科研活动目前研究领域包括先进能源、材料、过程和装备技术与工程。
近来具体的研究方向包括(i)过程工业,特别是钢铁行业的余能回收、储存和高效利用技术,(ii)先进轧钢过程润滑技术,(iii)基于熔体循环的熔融还原技术,(iv)高性能储热材料、储热换热系统和热管理器,(v)高炉炉渣高附加值资源化,(vi)新型过程强化技术(如高效能冷却技术、高炉煤气热值增加技术和基于分离促进化学反应的低温制氢技术等), (vii) 可再生能源与城市和工业过程的集成,(viii)纳米结构材料和纳米流体技术,(viii)能源储存过程和技术,(ix)基于光催化的将CO2转化为燃料的技术。
科研项目
参与会议
合作情况与美国麻省理工、德国汉堡国防大学、英国牛津大学、英国利兹大学、英国Strathclyde大学、英国Warwick大学、英国帝国理工、英国伯明翰大学、韩国高丽大学和日本京都大学等建立良好的合作关系。与美国宝洁公司、西班牙阿本戈太阳能技术公司、英国HPS公司、鞍钢集团、宝钢集团等建了合作关系。
项目协作单位
指导学生
研究生胡威威,硕士研究生,2010年入学
万庆明,博士研究生,2010年入学
刘 卉, 博士研究生,2010年入学
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中国科学院大学研究生导师简介-丁玉龙
中国科学院大学 免费考研网/2016-05-09
相关话题/材料 过程 技术 英国 系统
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