Add to ORKGConstant-volume (pressure-gain) combustion cycles show much promise for further increasing the efficiency of modern gas turbines, which in the last decades have begun to reach the boundaries of modern technology in terms of pressure and temperature, as well as the ever more stringent demands on reducing exhaust gas emissions. The thermodynamic model of the gas turbine consists of a compressor with a polytropic efficiency of 90%, a combustor modeled as either a pulse detonation combustor (PDC) or as an isobaric homogeneous reactor, and a turbine, the efficiency of which is calculated using suitable turbine operational maps. A simulation is conducted using the one-dimensional reacting Euler equations to obtain the unsteady PDC outlet paramete...
The constant pressure combustion of the Joule cycle is a dominant source of losses in gas turbines. ...
This paper describes a new method for calculating the performance of pressure gain combustors for ga...
Among the solutions to reduce emissions from stationary gas turbines, replacing conventional combust...
Constant-volume (pressure-gain) combustion cycles show much promise for further increasing the effic...
With the ongoing stagnation of the progress towards higher efficiency gas turbines, alternative appr...
The growing demand in electrical power, the increased number of flight passengers, and the constantl...
The Shockless Explosion Combustion (SEC) is a novel approach to approximating constant volume combus...
There is longstanding government and industry interest in pressure-gain combustion for use in Brayto...
This paper develops performance metrics for a Pulse Detonation Turbine Engine (PDTE) which incorpora...
Conventional gas turbines are a very mature technology, and performance improvements are becoming in...
In order to capture the behaviour of the oxyfuel cycle operating with high combustor-outlet temperat...
Conventional gas turbines are approaching their efficiency limits and performance gains are becoming...
This paper proposes a pulse detonation combustion (PDC) model integrated within Chalmers University\...
Classical gas turbine thermodynamic cycle has undergone no change over the last decades. The most im...
This paper presents a model-based, off-line method for analyzing the performance of individual compo...
The constant pressure combustion of the Joule cycle is a dominant source of losses in gas turbines. ...
This paper describes a new method for calculating the performance of pressure gain combustors for ga...
Among the solutions to reduce emissions from stationary gas turbines, replacing conventional combust...
Constant-volume (pressure-gain) combustion cycles show much promise for further increasing the effic...
With the ongoing stagnation of the progress towards higher efficiency gas turbines, alternative appr...
The growing demand in electrical power, the increased number of flight passengers, and the constantl...
The Shockless Explosion Combustion (SEC) is a novel approach to approximating constant volume combus...
There is longstanding government and industry interest in pressure-gain combustion for use in Brayto...
This paper develops performance metrics for a Pulse Detonation Turbine Engine (PDTE) which incorpora...
Conventional gas turbines are a very mature technology, and performance improvements are becoming in...
In order to capture the behaviour of the oxyfuel cycle operating with high combustor-outlet temperat...
Conventional gas turbines are approaching their efficiency limits and performance gains are becoming...
This paper proposes a pulse detonation combustion (PDC) model integrated within Chalmers University\...
Classical gas turbine thermodynamic cycle has undergone no change over the last decades. The most im...
This paper presents a model-based, off-line method for analyzing the performance of individual compo...
The constant pressure combustion of the Joule cycle is a dominant source of losses in gas turbines. ...
This paper describes a new method for calculating the performance of pressure gain combustors for ga...
Among the solutions to reduce emissions from stationary gas turbines, replacing conventional combust...