Friedrich Emil Brauns, The Institute of Paper Chemistry, Apple- ton, Wisconsin. Academic Press, Inc., NewYork, 1952. xv. +. 808 pp. Illustrated. 15.5 ...
Fluid Flow in Pipes (McClain, Clifford H.) Kenneth A. Kobe. J. Chem. Educ. , 1952, 29 (8), p 426. DOI: 10.1021/ed029p426.1. Publication Date: August 1952.
APRIL, 1939. INDUSTRIAL AND ENGINEERING CHEMISTRY. 477. R = gas constant s. = ratio of specific heats. T = temperature. °. Rankine. V = velocity, ft./sec.
May 27, 2009 - Max Whitby, Laurent Cagnon, Maya Thanou, and. Nick Quirke*. Enhanced Fluid Flow through Nanoscale Carbon Pipes. Page 2636. An error ...
HE theoretical work of von KBrmBn, Prandtl, and G. I.. Taylor, and the experiments of Hopf, Fromm, Nikuradse,. Schiller, and others have explained many ...
Aug 5, 2008 - Recent experimental and theoretical studies demonstrate that pressure driven flow of fluids through nanoscale (d < 10 nm) carbon pores occurs ...
May 27, 2009 - Enhanced Fluid Flow through Nanoscale Carbon Pipes. Max Whitby, Laurent Cagnon, Maya Thanou and Nick Quirke*. Nano Lett. , 2009, 9 (7), ...
The applicability of the one-dimensional turbulent dispersion equation as a model ... In fully developed turbulent flow the dispersion coefficient was independent.
The frictional occurrences for channel flow are correlated by the Darcy-Weisbach friction factor, f, defined by the rela- tion for pressure loss. (3) where Ap is the ...
cleaning the pipes after slurries were pumped through them. The operation of all three pipes was tested with water. The data are given in Table I. The pressure ...
an 8-foot section. All pipes were in two lengths joined by care- fully fitted butt connections held together by sweated sleeves. The pressure taps for the brass ...