Sentence examples for reaction zone increases from inspiring English sources

with increasing concentrations of CF3Br in the oxidizer stream the maximum temperature in the reaction zone increases, and the amount of oxygen leaking through the reaction zone increases.

While the inner premixed flame is only weakly affected by gravity, the outer flame shows significant spatial differences for the two cases due to buoyancy-induced entrainment, since advection of air into the outer reaction zone increases in the presence of gravity.

The air supplied into the reaction zone increases the removal degree and sulphur conversion by 5% 10% %.

In general the microstructural instability measured as the size of the reaction zone increased with the increase in composition difference between the two initial alloys and in atomic mobility difference between the diffusing species.

This may be due to increased capabilities either to quench the reaction zone by increased specific heat or due to reduced transport rates.

Diluents became more effective (provided greater reductions of the laminar burning velocity for a given diluent concentration) in the order helium, argon, nitrogen, and carbon dioxide, which reflects their increased capabilities either to quench the reaction zone by increased specific heats or to reduce flame velocities by reduced transport rates.

As the unburnt gases are preheated, the viscosity ratio across the flame is reduced and the Karlovitz number at the reaction zone is increased.

The simulations show that equilibrium levels of the OH radical (< 10 ppm) in the oxidant stream significantly intensifies a MILD CH4 reaction zone, by increasing CH3 oxidation, however such levels have little effect on tribrachial, spontaneously-igniting flames.

There was no significant broadening of the high-temperature reaction zone or increase in flame area under turbulent conditions due to the lack of dilution of the freestream conditions, unlike previous observations in jet flames.

For intensification of heat exchange between OG particles and the flow of fuel combustion products, the turbulence in the reaction zone is increased.

The experimental results show that increasing the air flow over the foam's surface not only enhances the mass transfer of oxygen to the smoldering reaction zone, but also increases the heat loss to the surroundings.