It is expected that, in the future, gas turbines will be operated on gaseous fuels currently unutilized. The ability to predict the range of feasible fuels, and the extent to which existing turbines must be modified to accommodate these fuels, rests on the nature of these fuels in the combustion environment. Understanding the combustion behavior is aided by investigation of syngases of similar composition. As part of an ongoing project at the Lund University Departments of Thermal Power Engineering and Combustion Physics, to investigate syngases in gas turbine combustion, the laminar flame speed of five syngases (see table) have been measured. The syngases examined are of two groups. The first gas group (A), contains blends of H-2, CO and C...
To characterize the combustion behaviour of hydrogen rich syngas fuels in swirl-stabilized flames at...
Synthetic gas, or syngas, is a popular alternative fuel for gas turbine industry. However, the compo...
In the interest of understanding the prospects and restrictions of fuel flexibility in a prototype i...
Fuel flexibility in gas turbines is of particular importance because of the main fuel source, natura...
The laminar burning velocities of hydrogen-air and hydrogen-methane-air mixtures are very important ...
The laminar flame speed is one of the most important combustion properties of a combustible mixture....
This study has been undertaken to investigate turbulent burning velocities of alternative gaseous fu...
In this study, burning velocities of hydrogen-carbon monoxide (H2-CO) mixtures, which are primary co...
In a future sustainable society, hydrogen is likely to play an important role as an energy carrier. ...
An experimental apparatus to measure laminar flame speeds and Markstein lengths of a fuel/air mixtur...
In this study, burning velocities of hydrogen-carbon monoxide (H 2-CO) mixtures, which are primary c...
Laminar flame speeds of undiluted syngas (H2/CO) mixtures have been studied at atmospheric condition...
This thesis investigates the laminar flame speed of C₁-C₃ alkanes and their binary mixtures at condi...
Gas turbines for power generation are optimised to run with fossil fuels but as a response to tighte...
Applications of natural gas and hydrogen co-firing have received increased attention in the gas turb...
To characterize the combustion behaviour of hydrogen rich syngas fuels in swirl-stabilized flames at...
Synthetic gas, or syngas, is a popular alternative fuel for gas turbine industry. However, the compo...
In the interest of understanding the prospects and restrictions of fuel flexibility in a prototype i...
Fuel flexibility in gas turbines is of particular importance because of the main fuel source, natura...
The laminar burning velocities of hydrogen-air and hydrogen-methane-air mixtures are very important ...
The laminar flame speed is one of the most important combustion properties of a combustible mixture....
This study has been undertaken to investigate turbulent burning velocities of alternative gaseous fu...
In this study, burning velocities of hydrogen-carbon monoxide (H2-CO) mixtures, which are primary co...
In a future sustainable society, hydrogen is likely to play an important role as an energy carrier. ...
An experimental apparatus to measure laminar flame speeds and Markstein lengths of a fuel/air mixtur...
In this study, burning velocities of hydrogen-carbon monoxide (H 2-CO) mixtures, which are primary c...
Laminar flame speeds of undiluted syngas (H2/CO) mixtures have been studied at atmospheric condition...
This thesis investigates the laminar flame speed of C₁-C₃ alkanes and their binary mixtures at condi...
Gas turbines for power generation are optimised to run with fossil fuels but as a response to tighte...
Applications of natural gas and hydrogen co-firing have received increased attention in the gas turb...
To characterize the combustion behaviour of hydrogen rich syngas fuels in swirl-stabilized flames at...
Synthetic gas, or syngas, is a popular alternative fuel for gas turbine industry. However, the compo...
In the interest of understanding the prospects and restrictions of fuel flexibility in a prototype i...