Prototype confined jet in hot coflow burnerShaun Chan
The aim of this project is to extend the well-established jet-in-hot-coflow (JHC) burner design approach to enable operation at higher pressure. To achieve this aim, the basic operating principle is retained, but the coflow annulus is extended to form a shroud. By adding a flow-restricting-device to the exhaust of the system the pressure inside the chamber can be increased.
The motivation of this work is to resolve the role of pressure on the reaction zone structure of the MILD combustion regime.
Prototype confined jet in hot coflow burnerShaun Chan
The aim of this project is to extend the well-established jet-in-hot-coflow (JHC) burner design approach to enable operation at higher pressure. To achieve this aim, the basic operating principle is retained, but the coflow annulus is extended to form a shroud. By adding a flow-restricting-device to the exhaust of the system the pressure inside the chamber can be increased.
The motivation of this work is to resolve the role of pressure on the reaction zone structure of the MILD combustion regime.