Add to ORKGFour different combustion efficiencies commonly used for assessing ramjet engines are compared. The mixture ratios cover a range from stoichiometric to an equivalence ratio of 0.2, and the polyethylene/air propellant system is used. The ratio of effective to ideal temperature rise is taken as reference efficiency. As might be expected, major differences can be observed near stoichiometric and down to equilvalence ratios of 0.5. These are quantitatively demonstrated
Heat energy can be converted into mechanical energy only by the expansion of a high temperature high...
The supersonic combustion ramjet or scramjet, is the most suitable engine cycle for sustained hypers...
Emissions and performance characteristics were determined for full-annulus swirl-can modular combust...
The results of an analytical investigation of the theoretical air specific impulse performance and a...
The desirability of obtaining an even distribution of temperature at the outlet of a ramjet combust...
An analytical evaluation of the air and fuel specific-impulse characteristics of magnesium, magnesiu...
The ram jet is basically one of the most dimple types of aircraft engine. It consists only of an inl...
The performance of a hypersonic flight vehicle will depend on existing materials and fuels; this wor...
The results of fuel-air ratio and temperature surveys made in the flame stabilizing zone of a 16-inc...
The performances of a dual-combustion ramjet (DCR) and a scramjet were compared via computational fl...
Theoretical studies of the turbojet and ramjet combustion process are summarized and the resulting e...
A preliminary evaluation was made of three types of combustor configurations in a 48-inch-diameter r...
Combustion efficiencies obtained with gaseous methane were compared with reported data obtained with...
Combustion must be maintained in the turbojet-engine combustor over a wide range of operating condit...
Calculated design-point performance of ram-jet engines using JP-4 fuel is presented for a wide range...
Heat energy can be converted into mechanical energy only by the expansion of a high temperature high...
The supersonic combustion ramjet or scramjet, is the most suitable engine cycle for sustained hypers...
Emissions and performance characteristics were determined for full-annulus swirl-can modular combust...
The results of an analytical investigation of the theoretical air specific impulse performance and a...
The desirability of obtaining an even distribution of temperature at the outlet of a ramjet combust...
An analytical evaluation of the air and fuel specific-impulse characteristics of magnesium, magnesiu...
The ram jet is basically one of the most dimple types of aircraft engine. It consists only of an inl...
The performance of a hypersonic flight vehicle will depend on existing materials and fuels; this wor...
The results of fuel-air ratio and temperature surveys made in the flame stabilizing zone of a 16-inc...
The performances of a dual-combustion ramjet (DCR) and a scramjet were compared via computational fl...
Theoretical studies of the turbojet and ramjet combustion process are summarized and the resulting e...
A preliminary evaluation was made of three types of combustor configurations in a 48-inch-diameter r...
Combustion efficiencies obtained with gaseous methane were compared with reported data obtained with...
Combustion must be maintained in the turbojet-engine combustor over a wide range of operating condit...
Calculated design-point performance of ram-jet engines using JP-4 fuel is presented for a wide range...
Heat energy can be converted into mechanical energy only by the expansion of a high temperature high...
The supersonic combustion ramjet or scramjet, is the most suitable engine cycle for sustained hypers...
Emissions and performance characteristics were determined for full-annulus swirl-can modular combust...