Inception and growth of soot particles in dependence on the surrounding gas phase

The effects of the addition of dicyclopentadienyl iron, ferrocene, on soot particle inception and growth were studied in atmospheric pressure, premixed ethylene flames with C/O = 0.71-0.83 at 0.015-0.46% ferrocene by weight of the fuel. The rate of surface growth of soot in undoped and doped flames

The effect of flame structure on soot particle inception is studied by varying the mixture fraction at stoichiometry Z,, and, consequently, flame location. Z,, is varied by reassigning the nitrogen from the oxidizer to the fuel such that the flame temperature is not changed. Strain rates in the coun

Experiments have been performed on laminar diffusion flames of mixtures of water and hydrocarbon vapor of different compositions with the mole fractions of water ranging up to about 0.9. The soot emission from the flame decreased steadily with an increase in water concentration; concurrently, there

## Abstract The improved multigrain model was used to simulate the gas phase polymerization of butadiene catalyzed by low‐, medium‐, and high‐activity catalysts, respectively. For the low‐activity catalyst, the mass and heat transfer resistances in the particle were negligible. The morphology of th

The variation in the behaviour of bulk solids as a result of sudden pressure changes in the surrounding gas phase is of interest in the application of lock hoppers for transfer of bulk solids into pressure vessels. By using such sluice systems, problems occur due to consolidation of the pressurized

## Abstract The structure of gas–liquid two‐phase flow is investigated in order to establish a reliable criterion for the development of disturbance waves and droplets considering the effects of liquid viscosity. The structure of the gas–liquid interface and the flow rate of droplets entrained in g