Add to ORKGPulse combustion is known to have the higher combustion efficiency compared to conventional steady type burner in heating application (Putnam, 1971). However, there are many parameters need for scientific study in designing this kind of combustor. This study intends to model the pulse combustion in order to determine important characteristics that govern the performance of the pulse combustor. The important parameters identified in this study namely frequency, pressure oscillation and pulsating flow inside tailpipe. This study will be useful for predicting the capability of pulse combustor especially in heating application
The paper presents some results of computational modelling of a gas-fired pulse combustor with aerod...
Combustion systems that take advantage of a periodic combustion process have many advantages over co...
The pulse combustor has a number of attractive features for heating applications. These include simp...
A commonly cited advantage of pulse combustors is a high rate of heat transfer in the tail pipe. Pas...
The purpose of this investigation was to experimentally characterize a pulse combustor with respect ...
In most pulse combustors, the combustion occurs near the closed end of a tube where inlet valves ope...
In this work a part of the results from experimental investigation of pulsating combustion with appl...
Pulse combustion is a periodic oscillating combustion process. Compared to traditional steady combus...
Pulse combustion devices offer several potential advantages over conventional burners, including enh...
In the search for high efficiency combustion systems pulsating combustion has been identified as one...
The primary objectives of the present research were the development and validation of a simplified m...
Summary. Numerical modelling of pulse combustors may give important guide-lines on how design parame...
The inlet geometry of the combustion chamber of a Helmholtz type pulse combustor was changed by alte...
Abstract This paper describes the modifications and evolution of a thermal pulse combustion model fo...
The need for efficient combustion systems has led to active research in pulse combustion. One advant...
The paper presents some results of computational modelling of a gas-fired pulse combustor with aerod...
Combustion systems that take advantage of a periodic combustion process have many advantages over co...
The pulse combustor has a number of attractive features for heating applications. These include simp...
A commonly cited advantage of pulse combustors is a high rate of heat transfer in the tail pipe. Pas...
The purpose of this investigation was to experimentally characterize a pulse combustor with respect ...
In most pulse combustors, the combustion occurs near the closed end of a tube where inlet valves ope...
In this work a part of the results from experimental investigation of pulsating combustion with appl...
Pulse combustion is a periodic oscillating combustion process. Compared to traditional steady combus...
Pulse combustion devices offer several potential advantages over conventional burners, including enh...
In the search for high efficiency combustion systems pulsating combustion has been identified as one...
The primary objectives of the present research were the development and validation of a simplified m...
Summary. Numerical modelling of pulse combustors may give important guide-lines on how design parame...
The inlet geometry of the combustion chamber of a Helmholtz type pulse combustor was changed by alte...
Abstract This paper describes the modifications and evolution of a thermal pulse combustion model fo...
The need for efficient combustion systems has led to active research in pulse combustion. One advant...
The paper presents some results of computational modelling of a gas-fired pulse combustor with aerod...
Combustion systems that take advantage of a periodic combustion process have many advantages over co...
The pulse combustor has a number of attractive features for heating applications. These include simp...