Particle technology

L. Svarovsky and A. J. Walker, "The Effect of Eeed Thickening on the Performance of a Horizontal Vacuum Belt Eilter," 1st World Congress Particle Technolog)/, Part IV, 331 Event of EFCE, Apr. 16—18, 1986, NMAmbH, Ni>mburg, Germany, 1986. 

R. J. Batterham, K. R. WeUer, T. E. Norgate, and C. J. Birkett, International Particle Technology Symposium Proceedings, Amsterdam, the Netherlands, 1980. 

U. Krauter and U. Riebel, Proceedings of the Tirst International Particle Technology Torum, Part 1, Particle Characteri tion, American Institute of Chemical Engineers, New York, 1994, p. 30. 

Bryan J. Ennis, Ph.D., President, E G Associates, and Adjunct Professor of Chemical Engineering, Vanderbilt University Member and Chair of Powder Technology Programming Group of the Particle Technology Forum, American Institute of Chemical Engineers (Section 20, Size Reduction and Size Enlargement)... 

Pui, D. Y. H. Experimental Study of Diffusion Charging of Aerosols. Thesis, Particle Technology Laboratory, Mechanical Engineering Department, University of Minnesota (1976). 

For a more detailed exposition, the reader is referred to specialist texts such as those on particle technology (Beddow, 1980 Rhodes, 1990 Rumpf, 1990), theory particulate of processes (Randolph and Larson, 1988) and particle characterization (Allen, 1996 Coulson and Richardson, 1991). 

Coulson, J.M. and Richardson, J.F., 1991. Chemical Engineering. Volume 2 Particle Technology and Separation Processes, 4th edition. Butterworth-Heinemann. 

Hess, W. and Schonert, K., 1981. Brittle-Plastic Transition in Small Particles, In 1981 Powtech Conference on Particle Technology, Birmingham, EFCE Event No. 241, Rugby Institution of Chemical Engineers, pp. D2/I/1-D2/I/9. 

Hulburt, H.M. and Katz, S., 1964. Some problems in particle technology - a statistical mechanical fomiulation. Chemical Engineering Science, 19, 555-574. 

Rhodes, M., 1990. Particle Technology. Chichester John Wiley. 

Chemical Engineering, Volume 2, Fourth edition Particle Technology and Separation Processes J. M. Coulson and J. F. Richardson with J. R. Backhurst and J. H. Harker... 

Berthiaux H, Mizonov V, Zhukov V (2005) Application of the theory of Markov chains to model different processes in particle technology. Powder Technol 157 128-137... 

Dao, H.V., Ngeh, L.N., Bigger, S.W. and Orbell, J.D. (2006) Achievement of 100% removal of oil from feathers employing magnetic particle technology. Journal... 

Compo, P., Tardos, G., and Pfeffer, R., Thermally Induced Agglomeration and Defluidization Characteristics of Fluidizable Particles, Proceedings of the Second World Congress in Particle Technology, Kyoto, Japan (1990)... 

Nienow, A. W., Fluidized Bed Granulation and Coating Application to Materials, Agriculture and Biotechnology, Proceedings of the First International Particle Technology, Forum, Denver, CO., USA (1994). 

Rumpf, H., Particle Technology, Chapman and Hall, London (1975)... 

Somasundaran, P. Smith, E.L., Jr. Harris, C.C., "Proceedings of the First International Conference in Particle Technology", IITRI, Chicago, 1973, 144-150. 

The first reversed-phase SPE sorbents were based on silica gel particles, similar to the particles used in HPLC. A number of phases are available ranging from C8 to C18 to anion- and cation-exchange functionalities. Recent advances in particle technology have included polymeric materials that combine the benefits of a water-wettable particle to retain polar analytes with a reversed-phase, hydrophobic moiety to... 

P.A. Webb and C. Orr, Analytical Methods in Fine Particle Technology, Micromeritics, Norcross, 1997. 

H. Rumpf, Particle Technology, Carl Hanser Verlag, Munich, 1990. 

R. Martin, Introduction to Particle Technology, John Wiley Sons, West Sussex, 1998. 

To improve the efficiency of separation based on conventional porous particle technology, new particles and techniques have been introduced, mainly focusing on the improvement (acceleration) of the exchange of the solute between the mo-... 

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