Metal-water Reactions
Author : E. Janssen
Publisher :
Page : 74 pages
File Size : 12,27 MB
Release : 1959
Category : Chemical kinetics
ISBN :
Author : E. Janssen
Publisher :
Page : 74 pages
File Size : 12,27 MB
Release : 1959
Category : Chemical kinetics
ISBN :
Author : Sydney C. Furman
Publisher :
Page : 56 pages
File Size : 46,36 MB
Release : 1960
Category : Nuclear reactor kinetics
ISBN :
Author : Leo F. Epstein
Publisher :
Page : 84 pages
File Size : 20,98 MB
Release : 1960
Category : Heavy water reactors
ISBN :
Author : K. Hikido
Publisher :
Page : 22 pages
File Size : 21,48 MB
Release : 1959
Category : Heat
ISBN :
Author : J. I. Owens
Publisher :
Page : 40 pages
File Size : 26,5 MB
Release : 1959
Category : Water cooled reactors
ISBN :
Author : W. F. Zelezny
Publisher :
Page : 62 pages
File Size : 37,13 MB
Release : 1960
Category : Aluminum-uranium alloys
ISBN :
Author : K. M. Horst
Publisher :
Page : 58 pages
File Size : 44,31 MB
Release : 1959
Category : Nuclear fuel claddings
ISBN :
Author : Sydney C. Furman
Publisher :
Page : 80 pages
File Size : 38,99 MB
Release : 1959
Category : Aluminum
ISBN :
Author :
Publisher :
Page : pages
File Size : 19,94 MB
Release : 1959
Category :
ISBN :
A technique was developed for the purpose of studying the kinetics of metal reactions with water vapor at low partial pressures of H/sub 2/O(g). The details of the method were worked out in the study of the reaction of sodium and water vapor and adapted to work involving zirconium and aluminum alloys. Sodiurn investigations were made at 200 to 350 deg C and water vapor concentrations up to 400 ppm in a moving stresrn of helium carrier gas at a total pressure of one atmosphere. Studies involving zirconium and Zircaloy-2 were conducted at temperatures up to 1700 deg C and water vapor concentrations up to 30,000 ppm in one atmosphere He. The results of these experiments can be explained on the premise that the rate of reaction is controlled by the transport of water vapor through the helium. Good agreement was obtained between experimental results and calculations employing mass transfer considerations. A short stady of aluminum was made at 900 to 1400 deg C with water vapor concentrations up to 6400 ppm. It was concluded from the essentially quantitative reduction of water vapor and the appearance of powdered oxide in the system that a vapor phase reaction between aluminum and water vapor occurred. (auth).
Author : H. M. Higgins
Publisher :
Page : 66 pages
File Size : 44,27 MB
Release : 1955
Category : Aluminum-lithium alloys
ISBN :