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DENSE PHASE PNEUMATIC CONVEYING CHARACTERISTICS OF A BLOW TANK FED CONVEYOR TRANSPORTING PULVERISED COAL.

Journal Article


Abstract


  • A convenient means of summarizing dense phase pneumatic conveying characteristics is necessary for efficient evaluation of system performance. One suggested procedure is presented and discussed. Various conveying modes have also been investigated with particular attention being given to the transportation of pulverized coal. Flow transients from a well instrumented experimental rig indicate the importance of supplementary pipeline air for purposes of solids flow control. The effects of initial acceleration length upon dense phase pneumatic conveying characteristics are also discussed.

Publication Date


  • 1983

Citation


  • Wypych, P. W., Arnold, P. C., & McLean, A. G. (1983). DENSE PHASE PNEUMATIC CONVEYING CHARACTERISTICS OF A BLOW TANK FED CONVEYOR TRANSPORTING PULVERISED COAL.. Transactions of the Institution of Engineers, Australia. Mechanical engineering, ME8(3), 135-140.

Scopus Eid


  • 2-s2.0-0020514622

Web Of Science Accession Number


Start Page


  • 135

End Page


  • 140

Volume


  • ME8

Issue


  • 3

Abstract


  • A convenient means of summarizing dense phase pneumatic conveying characteristics is necessary for efficient evaluation of system performance. One suggested procedure is presented and discussed. Various conveying modes have also been investigated with particular attention being given to the transportation of pulverized coal. Flow transients from a well instrumented experimental rig indicate the importance of supplementary pipeline air for purposes of solids flow control. The effects of initial acceleration length upon dense phase pneumatic conveying characteristics are also discussed.

Publication Date


  • 1983

Citation


  • Wypych, P. W., Arnold, P. C., & McLean, A. G. (1983). DENSE PHASE PNEUMATIC CONVEYING CHARACTERISTICS OF A BLOW TANK FED CONVEYOR TRANSPORTING PULVERISED COAL.. Transactions of the Institution of Engineers, Australia. Mechanical engineering, ME8(3), 135-140.

Scopus Eid


  • 2-s2.0-0020514622

Web Of Science Accession Number


Start Page


  • 135

End Page


  • 140

Volume


  • ME8

Issue


  • 3