The disclosure relates to a gas-heated infrared radiation emitter comprising a burner plate, the burner plate serving as a combustion surface, and a radiating screen positioned on the combustion surface side of the burner plate. The radiating screen is formed by a mesh material or material with open pores, and has an inner face oriented towards the combustion surface side of the burner plate.

The inner surface of the screen comprises at least a first portion and a second portion offset from one another in relation to the combustion surface, such that the distance between the combustion surface and the first portion is less than the distance between the combustion surface and the second portion.

A gas induction heater and a gas induction heater and outdoor table connection system including a gas induction heater and an outdoor table are disclosed. The gas induction heater has an aluminum reflector, an infrared emanation screen, a protection fence, aglass tube, a heating portion, a pedestal, a fix plate and bolt assembly, a Quick Disconnect Device (QDD), a gas hose, a gas regulator, and fastening pieces. The QDD on the gas hose is intended to connect the gas valve to the gas regulator, such that an easy and safe connection of the gas line for users can be achieved. The gas induction heater is assembled on the outdoor table by utilizing an umbrella hole. Thus, two different applications can be achieved in one outdoor table.

A heat tent for a gar grill apparatus located between the burner and the food to shield the burners of a gar grill to protect the burners from grease drippings and food deposits, to allow additional heat to reach the food for searing and other application, to glow and provide radiant heat to optimally and evenly cook of the food while allowing the flames to be more visible so as to know that the burner is turned on even food is placed all over the tent.

The present invention provides a foraminous burner liner for a gas abatement system. The burner liner comprises a hollow body defined by a wall, the wall comprising a plurality of interconnected substantially concentric layers. Each layer of the wall comprises a substantially regular openwork mesh; wherein the substantially regular openwork mesh of each layer is configured such that it is out of phase with one or more adjacent layers, and wherein the wall comprises sufficient layers arranged such that the wall is optically opaque when viewed externally in any radially inward direction normal to the wall.

A combustion system includes a fuel and oxidant source and a flame holder. The flame holder includes a plurality of discrete slats arranged in parallel defining combustion channels between adjacent slats. The fuel and oxidant source outputs fuel and oxidant into the combustion channels. The flame holder holds a combustion reaction of the fuel and oxidant in the combustion channels.

An infrared radiator for the heat treatment of a material web has an incandescent body, which is flowed along a flow-receiving surface by a gas-air mixture supplied to the infrared radiator and heated by combustion of the gas-air mixture. The incandescent body has a surface with which the gas-air mixture or combustion products thereof come into contact. A ratio of the surface area of the incandescent body to the surface area of the flow-receiving surface of the incandescent body is greater than two.

A combustion system includes a fuel and oxidant source and a flame holder. The flame holder includes a plurality of discrete slats arranged in parallel defining combustion channels between adjacent slats. The fuel and oxidant source outputs fuel and oxidant into the combustion channels. The flame holder holds a combustion reaction of the fuel and oxidant in the combustion channels.

A heat tent for a gas grill apparatus located between the burner and the food to shield the burners of a gas grill to protect the burners from grease drippings and food deposits, to allow additional heat to reach the food for searing and other application, to glow and provide radiant heat to optimally and evenly cook of the food while allowing the flames to be more visible so as to know that the burner is turned on even food is placed all over the tent.

The present invention provides a safer all-around radiation heating assembly than similar traditional heaters. As typical with traditional heaters, a shroud is used to surroundably cover a portable liquid propane tank. To replace the portable liquid propane tank, the shroud must be continuously raised to a predetermined height while a service person accesses the propane tank. There is a danger that if and when the shroud drops, a spark could be created resulting in igniting highly flammable escaped propane gas. The present invention overcomes dangers associated with the traditional heaters by eliminating the spark creation danger and by introducing a ventilation system to allow any leaked propane gas to escape away from the heater.

The burner (100) comprises a cylindrical porous substrate (110); and an end cap (130) at a first end of the cylindrical porous substrate (110). The cylindrical porous substrate (110) is provided for flow of a premix of combustible gas and air from the outside of the cylindrical porous substrate (110) through the pores of the cylindrical porous substrate (110) to an interior cavity (140), for the combustible gas to be combusted on the inner surface of the cylindrical porous substrate (110) thereby generating hot gas. The burner has an opening (182) at the second end of the cylindrical porous substrate (110) to exit the hot flue gas out of the interior cavity (140). The cylindrical porous substrate (110) has a higher permeability section (170), located at the opening (182) at the second end. The higher permeability section (170) has a lower resistance to gas flow than other sections of the cylindrical porous substrate (110).