1.4              Feeders and Accessories

 

1.          L. Bates, S. Dhodapkar and G.E. Klinzing, Top Ten Tips to Avoid Screw Feeder Discharge Problems, Particle Technology Forum Newsletter Fall, 1999.

2.          S.V. Dhodapkar and G.E. Klinzing, Expert System for the Selection of Feeders for Pneumatic Conveying, Bulk Solids Handling 10 (1990) 149‑154.

3.          K. Horii, Y. Matsumae, X.M. Cheng, M. Takei, B. Hashimoto and T.J. Kim, Chapter 12: Developments of a New mixing Nozzle Assembly for High Pressure Abrasive Waterjet Applications, in: Jet Cutting technology, Edit. D.Saunders, Elsevier Applied Science, Netherlands, pp.193-206, 1991.

4.          T. Jotaki and Y. Tomita, Performance Characteristics of a Blow-Tank Conveying System, in Proceedings of the 2^nd International Conference on the Pneumatic Transport of Solids in Pipes, Paper F3, Guilford, England, September, 1973.

5.          T. Jotaki and Y. Tomita, Characteristics of a Blow Tank Solids Conveyor and its Operating Points Working on Pipe Lines, in Proceedings of the 4^th International Conference on the Pneumatic Transport of Solids in Pipes, Paper D4, Carmel-by-the -Sea, U.S.A., June, 1978.

6.          H. Kimura, Y. Takino, H. Ueda, Y.-H. Zhao, Y. Tomita, K. Watanabe and K. Horii, High Performance Spiral Flow Pneumatic Conveying System for Small Diameter Pipelines, in Proceedings of World Congress on Particle Technology 3, Brighton, England, 1998.

7.          A. Levy, M.G. Jones and S. Das, An Investigation into the Performance of a Suction Nozzle, in The Best of powder & bulk solids handling & processing: Pneumatic Conveying D/2000, Ed. R. Wohlbier, pp. 73-77, Trans Tech Publication, Vol. III, 2000.

8.          P. Marjanovic, A. Levy and D.J. Mason, An Investigation of the Flow Structure Through Abrupt Enlargement of Circular Pipe, Powder Technology 104 (1999) 296-303.

9.          K. Tanida, K. Honda, N. Kawano, T. Kawaguchi, T. Tanaka and Y. Tsuji, Particle Motion in Screw Feeder Simulation by Discrete Element Method, in Proc. of IS&T's NIP14: International Conference on Digital Printing Technologies, pp.429-431, Toronto, Canada, October 1998.

10.      Y. Tomita, Feed Rate of a Blow Tank Solids Conveyor in which the Particles are non-Fluidized, Journal of Pipelines 6 (1987) 147-154.

11.      Y. Tomita, Performance Characteristics of an Injection Feeder, in Proceedings of The International Conference on Pneumatic Conveying, B20, Budapest, Hungary, May, 1990.

12.      Y. Tomita and T. Jotaki, Feed Rate of a Rotary Feeder, Bulletin of JSME 22-164 (1979) 213-217.

13.      Y. Tomita, T. Jotaki and K. Fukushima, Feed Rate Characteristics of a Blow Tank Solids Conveyor in Transport of Granular Material, Powder Technology 26 (1980) 29-33.

14.      Y. Tomita, Y. Jotaki and T. Jotaki, Flow Patterns of Solids Particles in a Blow Tank, Memoirs of Kyushu Institute of Technology Engineering 7 (1977) 19-24.

15.      Y. Tomita, Y. Jotaki, T. Jotaki and Y. Tsukida, Pneumatic Transport of Solids by a Blow Tank System, Bulletin of JSME 21-159 (1978) 1357-1363.

16.      Y. Tomita, T. Jotaki, S. Makimoto and K. Fukushima, Similarity of Granular Flow in a Blow Tank Solids Conveyor, Powder Technology 32 (1982) 1-8.

 

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