TY - JOUR
AU - Mosolov, G.
AB - Chemical and Petroleum Engineering, Vol. 30, Nos. 9-10, 1994 I. T. Kretov, S. T. Antipov, S. V. Shakhov, UDC 66.066:62-268 O. N. Vetrova, and G. I. Mosolov At the present time membrane processes are widely used for the concentration, purification, and fractionation of technical-grade solutions. In contrast to vacuum evaporation, cryoconcentration, rectification absorption, and extraction, the separation of solutions by membrane processes occurs at ambient temperature and without phase changes [1]. With membrane processes it is possible to develop highly economical, ecologically pure, and low-waste technologies for the treatment of solutions of inorganic and organic compounds. A large number of designs for membrane modules and units based on them have been developed in order to carry out these processes. However, a considerable number of them have several serious defects, the main problem being the high degree of concentration polarization. In order to reduce the level of concentration polarization, it has been proposed in a number of designs that flow turbulence should be created by rotation of the filter element in the unit pulsation of flow of the mixture to be separated, filling the delivery channels with microspheres or porous coherent materials, or by changing the shape of the delivery 
TI - Membrane module with a rotating filter element
JF - Chemical and Petroleum Engineering
DO - 10.1007/BF01148813
DA - 2005-01-28
UR - https://www.deepdyve.com/lp/springer-journals/membrane-module-with-a-rotating-filter-element-G1tpiQfxfd
SP - 417
EP - 419
VL - 30
IS - 9
DP - DeepDyve
ER -