mixture strength
Combustion.
yes because combustion is where you blow something up so when blowing something up it sepatates the components of a mixture.
Gasoline is a mixture of fuel, combustion aids, and engine cleaning detergents.
A combustion reaction
when you burn propane to complete combustion you will get a mixture of carbon dioxide and water vapor.
Consumption by fire.
Combustion.
yes because combustion is where you blow something up so when blowing something up it sepatates the components of a mixture.
Gasoline is a mixture of fuel, combustion aids, and engine cleaning detergents.
A combustion reaction
Surface.
when you burn propane to complete combustion you will get a mixture of carbon dioxide and water vapor.
You'd need to supply some context to define what you mean by "strength".
Hot gases from the combustion of the fuel and oxidizer mixture.
The formation of combustion oscillations can occur during an operation of a gas turbine burner. This is also known under the concepts of "combustion chamber humming", "combustion chamber oscillations", "combustion-induced pressure pulsations", "oscillating combustion processes". The combustion oscillations are due to an interaction between the quantity supplied per unit time of combustion air/fuel mixture flowing in the flow duct of the burner. The mixture is ignited after entry into a combustion chamber and burns in a flame, with the momentary combustion conversion in the flame. Combustion conversion designates the quantity of combustion air/fuel mixture converted per unit time during a combustion process in a flame. Pressure fluctuations in the combustion chamber, which can lead to the formation of a stable pressure oscillation, can occur due to a change in the combustion conversion. In addition to an increased production of noise, the combustion oscillations cause an increased mechanical and thermal load on walls associated with the combustion chamber and on other parts belonging to the combustion system. Sandro Garcia
define luminous zone of flame
Internal combustion engines are 4 stroke: 1) Intake (air/fuel mixture is introduced to combustion chamber) 2) Compression (piston rises to compress this mixture) 3) Ignition (spark is introduced to compressed fuel/air mixture ignited same) 4) Exhaust (waste product is expelled from combustion chamber)