화학공학소재연구정보센터
Korea-Australia Rheology Journal, Vol.13, No.1, 47-54, March, 2001
Rheology and pipeline transportation of dense fly ash-water slurry
E-mail:
Prediction of the maximum packing volume fraction with non-spherical particles has been one of the important problems in powder technology. The sphericity of fly ash particles depending on the particle diameter was measured by means of a CCD image processing instrument. An algorithm to predict the maximum packing volume fraction with non-spherical particles is proposed. The maximum packing volume fraction is used to predict the slurry viscosity under well dispersed conditions. For this purpose, Simha's cell model is applied for concentrated slurry with wide particle size distribution. Also, Usui's model developed for aggregative slurries is applied to predict the non-Newtonian viscosity of dense fly ash-water slurry. It is certified that the maximum packing volume fraction for non-spherical particles can be successfully used to predict slurry viscosity. The pressure drop in a pipe flow is predicted by using the non-Newtonian viscosity of dense fly ash-water flurry obtained by the present model. The predicted relationship between pressure drop and flow rate results in a good agreement with the experimented data obtained for a test rig with 50 mm inner diameter tube. Base on the design procedure proposed in this study, a feasibility study of fly ash hydraulic transportation system from a coal-fired power station to a controlled deposit site is carried out to give a future prospect of inexpensive fly ash transportation technology.
  1. Bunn TF, Chambers AJ, Int. J. Storing Handling Processing Powder, 5, 35 (1993)
  2. Chryss AG, Bhattacharya SN, Coal Preparation-A Multinational J., 21, 83 (1999)
  3. Lee DI, J. Paint Technol., 42, 579 (1970)
  4. Simha R, J. Appl. Phys., 23, 1020 (1952) 
  5. Suzuki M, Oshima T, Powder Technol., 35, 159 (1983) 
  6. Usui H, J. Non-Newton. Fluid Mech., 60(2), 259 (1995) 
  7. Usui H, Kag. Kog. Ronbunshu, 25(3), 459 (1999)
  8. Usui H, Kishimoto K, Suzuki H, Kag. Kog. Ronbunshu, 26(3), 423 (2000)
  9. Usui H, Kobayashi T, Suzuki H, J. Chem. Eng. Jpn., 33(5), 785 (2000) 
  10. Ward A, Bunn T, Chambers AJ, Coal Preparation J., 21, 125 (1999)
  11. Yu AB, Standish N, Ind. Eng. Chem. Res., 30, 1372 (1991)