Crossref Cited-by Linking logo

Collect. Czech. Chem. Commun. 1991, 56, 1856-1867

Energy dissipation rate in a baffled vessel with pitched blade turbine impeller

Zdzisław Jaworskia and Ivan Fořtb

a Department of Chemical Engineering and Physical Chemistry, Technical University of Szczecin, 7 1065 Szczecin, Poland
b Department of Chemical and Food Process Equipment Design, Czech Technical University, 166 07 Prague 6, Czechoslovakia

Crossref Cited-by Linking

  • Shi Shuaixing, Zhang Ming, Fan Xuesai, Chen Dong: Experimental and computational analysis of the impeller angle in a flotation cell by PIV and CFD. International Journal of Mineral Processing 2015, 142, 2. <>
  • Fořt Ivan: Comments on “CFD simulation and PIV measurement of the flow field generated by modified pitched blade turbine impellers” by Ge et al. [Chem. Eng. Res. Des. (2013),]. Chemical Engineering Research and Design 2014, 92, 989. <>
  • Yang L., Cheng J., Fan P., Yang C., Mao Z.: Micromixing of Solid‐liquid Systems in a Stirred Tank with Double Impellers. Chem Eng & Technol 2013, 36, 443. <>
  • Joshi Jyeshtharaj B., Nere Nandkishor K., Rane Chinmay V., Murthy B. N., Mathpati Channamallikarjun S., Patwardhan Ashwin W., Ranade Vivek V.: CFD simulation of stirred tanks: Comparison of turbulence models (Part II: Axial flow impellers, multiple impellers and multiphase dispersions). Can J Chem Eng 2011, 89, 754. <>
  • Fořt Ivan: On hydraulic efficiency of pitched blade impellers. Chemical Engineering Research and Design 2011, 89, 611. <>
  • Ståhl Marie, Rasmuson Åke C.: Towards predictive simulation of single feed semibatch reaction crystallization. Chemical Engineering Science 2009, 64, 1559. <>
  • Ibemere S., Kresta S.: Modelling the Mixing and Dissolution Kinetics of Partially Miscible Liquids. Chemical Engineering Research and Design 2007, 85, 710. <>
  • Khan F.R., Rielly C.D., Brown D.A.R.: Angle-resolved stereo-PIV measurements close to a down-pumping pitched-blade turbine. Chemical Engineering Science 2006, 61, 2799. <>
  • Baldi Sandro, Yianneskis Michael: On the Direct Measurement of Turbulence Energy Dissipation in Stirred Vessels with PIV. Ind. Eng. Chem. Res. 2003, 42, 7006. <>
  • Mavros P.: Flow Visualization in Stirred Vessels. Chemical Engineering Research and Design 2001, 79, 113. <>
  • Uehara-Nagamine E., Armenante P.M.: Effect of Process Variables on the Single-Feed Semibatch Precipitation of Barium Sulphate. Chemical Engineering Research and Design 2001, 79, 979. <>
  • Sheng J., Meng H., Fox R.O.: A large eddy PIV method for turbulence dissipation rate estimation. Chemical Engineering Science 2000, 55, 4423. <>
  • Pettersson Michael, Rasmuson Åke C.: Hydrodynamics of suspensions agitated by pitched‐blade turbine. AIChE Journal 1998, 44, 513. <>
  • Kresta Suzanne: Turbulence in stirred tanks: Anisotropic, approximate, and applied. Can J Chem Eng 1998, 76, 563. <>
  • Sheng Jian, Meng Hui, Fox Rodney O.: Validation of CFD simulations of a stirred tank using particle image velocimetry data. Can J Chem Eng 1998, 76, 611. <>
  • Joshi J B, Sahu A K, Kumar P: LDA measurements and CFD simulations of flow generated by impellers in mechanically agitated reactors. Sadhana 1998, 23, 505. <>
  • Sahu A. K., Kumar P., Joshi J. B.: Simulation of Flow in Stirred Vessel with Axial Flow Impeller:  Zonal Modeling and Optimization of Parameters. Ind. Eng. Chem. Res. 1998, 37, 2116. <>
  • Baudou C., Xuereb C., Bertrand J.: 3‐D hydrodynamics generated in a stirred vessel by a multiple‐propeller system. Can J Chem Eng 1997, 75, 653. <>
  • Pettersson M., Rasmuson Å.C.: Application of Three-Dimensional Phase-Doppler Anemometry to Mechanically Agitated Crystallizers. Chemical Engineering Research and Design 1997, 75, 132. <>
  • Jaworski Z, Wyszynski M L, Moore I P T, Nienow A W: Sliding mesh computational fluid dynamics—a predictive tool in stirred tank design. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering 1997, 211, 149. <>
  • Bohlin Martin, Rasmuson Åke C.: Importance of macromixing in batch cooling crystallization. AIChE Journal 1996, 42, 691. <>
  • Fokema M. D., Kresta S. M., Wood P. E.: Importance of using the correct impeller boundary conditions for CFD simulations of stirred tanks. Can J Chem Eng 1994, 72, 177. <>
  • Kresta Suzanne M., Wood Philip E.: The flow field produced by a pitched blade turbine: Characterization of the turbulence and estimation of the dissipation rate. Chemical Engineering Science 1993, 48, 1761. <>