Chemical Kinetics of Nitrous Oxide Decomposition at Elevated Pressures and Temperatures PDF Download
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Author: E. Stokes Fishburne Publisher: ISBN: Category : Chemical kinetics Languages : en Pages : 0
Book Description
Kinetic studies of the thermal decomposition of nitrous oxide were conducte in the temperature range from 1000 to 2500 . the decomposition of nitrous oxide behind t e reflected shock wave in a shock tube wa investigated using photographic techniques. It appears that the rate of decomposition may be governed by the vibrational relaxation time of the lower energy valence b nd. Induction times for the rapid decompo ition of nitrous oxide range from 152 microseconds at 1430 K to zero microseconds at abo t 2500 K. The value of about 150 microseconds at 1430 K agrees qualitatively with approximate val e obtained by other investigators. (Author).
Author: E. Stokes Fishburne Publisher: ISBN: Category : Chemical kinetics Languages : en Pages : 0
Book Description
Kinetic studies of the thermal decomposition of nitrous oxide were conducte in the temperature range from 1000 to 2500 . the decomposition of nitrous oxide behind t e reflected shock wave in a shock tube wa investigated using photographic techniques. It appears that the rate of decomposition may be governed by the vibrational relaxation time of the lower energy valence b nd. Induction times for the rapid decompo ition of nitrous oxide range from 152 microseconds at 1430 K to zero microseconds at abo t 2500 K. The value of about 150 microseconds at 1430 K agrees qualitatively with approximate val e obtained by other investigators. (Author).
Author: David Gutman Publisher: ISBN: Category : Gases, Kinetic theory of Languages : en Pages : 158
Book Description
A quadrupole mass-filter was built and coupled to a shock tube in order to study high temperature gas kinetics. The chemical kinetics of the decomposition of nitrous oxide was studied with this apparatus in order to establish the mechanism of the reaction at temperatures above 1000K. Several instrumentation problems unique to shock tube mass-spectrometry were solved. The most serious problem, that of a rapid-pumping ion source, was overcome by the design and construction of an unusually thin ion source. The thermal decomposition of nitrous oxide was studied by shock-heating a mixture of 4% N2O in argon and monitoring the ion currents corresponding to all of the principal species involved in the reaction: N2O, N2, O2, NO, and O. In each run with the shock tube, the mass-filter was tuned to follow the concentration of a single species. Because enough runs were made with all of the species, a run for each species at the same temperature was made for several temperatures.
Author: E. Stokes Fishburne
Author: E. Stokes Fishburne
Author: C.H. Bamford
Author: Normand Maurice Laurendeau
Author: David Gutman
Author: Yu-Sheng Tao
Author: Gerald Leroy DePoorter
Author: Robert William McCullough
Author: 
Author: Gerald L. DePoorter
Author: