Add to ORKGA wave rotor is proposed for use as a constant volume combustor. A novel design feature is investigated as a remedy for hot gas leakage, premature ignition, and pollutant emissions that are possible in this class of unsteady machines. The base geometry involves fuel injection partitions that allow stratification of fuel/oxidizer mixtures in the wave rotor channel radially, enabling pilot ignition of overall lean mixture for low NOx combustion. In this study, available turbulent combustion models are applied to simulate approximately constant volume combustion of propane and resulting transient compressible flow. Thermal NO production histories are predicted by simulations of the STAR-CD code. Passage inlet/outlet/wall boundary conditions a...
For some decades, efforts have been made to exploit nonsteady combustion and gas dynamic phenomenon....
Modern gas turbines use turbulent lean partially premixed combustion in order to minimise nitrous ox...
Nitric oxide formation in gas turbine combustion depends on four key factors: flame stabilization, h...
Wave rotor cycles which utilize premixed combustion processes within the passages are examined numer...
Combustion within the channels of a wave rotor is examined as a means of obtaining pressure gain dur...
A wave rotor may be used as a pressure-gain combustor effecting non-steady flow, and intermittent, c...
The wave rotor is a promising means of pressure-gain for gas turbine engines. This paper examines no...
Design and testing of a wave-rotor constant-volume combustor achieved stable combustion at near-atmo...
A wave rotor may be used as a pressure-gain combustor, effecting wave compression and expansion, and...
Wave rotor cycles that utilize premixed combustion processes within the passages are examined numeri...
Testing of a wave-rotor constant-volume combustor (WRCVC) showed the viability of the application of...
Gas turbines are important for power generation and aircraft engines. Over the past century, there h...
Gas turbines are important for power generation and aircraft engines. Over the past century, there h...
A wave rotor constant volume combustor was designed and built as a collaborative work of Rolls-Royce...
poster abstractWave Rotor Combustor Aerothermodynamic Design and Model Validation based on Initial T...
For some decades, efforts have been made to exploit nonsteady combustion and gas dynamic phenomenon....
Modern gas turbines use turbulent lean partially premixed combustion in order to minimise nitrous ox...
Nitric oxide formation in gas turbine combustion depends on four key factors: flame stabilization, h...
Wave rotor cycles which utilize premixed combustion processes within the passages are examined numer...
Combustion within the channels of a wave rotor is examined as a means of obtaining pressure gain dur...
A wave rotor may be used as a pressure-gain combustor effecting non-steady flow, and intermittent, c...
The wave rotor is a promising means of pressure-gain for gas turbine engines. This paper examines no...
Design and testing of a wave-rotor constant-volume combustor achieved stable combustion at near-atmo...
A wave rotor may be used as a pressure-gain combustor, effecting wave compression and expansion, and...
Wave rotor cycles that utilize premixed combustion processes within the passages are examined numeri...
Testing of a wave-rotor constant-volume combustor (WRCVC) showed the viability of the application of...
Gas turbines are important for power generation and aircraft engines. Over the past century, there h...
Gas turbines are important for power generation and aircraft engines. Over the past century, there h...
A wave rotor constant volume combustor was designed and built as a collaborative work of Rolls-Royce...
poster abstractWave Rotor Combustor Aerothermodynamic Design and Model Validation based on Initial T...
For some decades, efforts have been made to exploit nonsteady combustion and gas dynamic phenomenon....
Modern gas turbines use turbulent lean partially premixed combustion in order to minimise nitrous ox...
Nitric oxide formation in gas turbine combustion depends on four key factors: flame stabilization, h...