A furnace for implementing an endothermic process, including a combustion chamber delimited by a wall, at least one tubular reactor positioned in the combustion chamber, at least one burner arranged in the combustion chamber configured to supply the tubular reactor with the heat required for the endothermic process, with the burner including at least one nozzle for discharging a flame, the nozzle being oriented along an axis of the nozzle. Wherein the chamber has, over at least part of an inner surface of the wall, a convex inner profile curved in a direction of the axis of the nozzle, the profile being adjacent to the burner and facing the axis.

A furnace for implementing an endothermic process, including a combustion chamber delimited by a wall, at least one tubular reactor positioned in the combustion chamber, at least one burner arranged in the combustion chamber configured to supply the tubular reactor with the heat required for the endothermic process, with the burner including at least one nozzle for discharging a flame, the nozzle being oriented along an axis of the nozzle. Wherein the chamber has, over at least part of an inner surface of the wall, a convex inner profile curved in a direction of the axis of the nozzle, the profile being adjacent to the burner and facing the axis.

An air heater is used for a drying tower, wherein the air heater includes a combustion chamber, a burner, an air heating chamber, a process air access, a process air exit and/or a flue gas exit. During operation of the air heater, a process air is supplied to the air heating chamber by way of the process air access, a fuel is burned by means of the burner, a heat thus generated in the combustion chamber is transferred to the process air in the air heating chamber and the heated process air is discharged out of the air heater by way of the process air exit, and the air heater comprises an expendable combustion chamber, wherein the expendable combustion chamber is disposed within the combustion chamber. Further, a drying tower is used for drying a product to be dried with an air heater.

The present disclosure relates to a device for indirect heating by radiation in the form of a radiant housing having two front walls and two side walls and comprising at least one heat source, said radiant housing having front walls joining one another such that the housing has a lenticular shape in cross-section.

The present disclosure relates to a device for indirect heating by radiation in the form of a radiant housing having two front walls and two side walls and comprising at least one heat source, said radiant housing having front walls joining one another such that the housing has a lenticular shape in cross-section.

The present disclosure relates to a device for indirect heating by radiation in the form of a radiant housing having two front walls and two side walls and comprising at least one heat source, the radiant housing having front walls joining one another such that the housing has a lenticular shape in cross-section.

The present disclosure relates to a device for indirect heating by radiation in the form of a radiant housing having two front walls and two side walls and comprising at least one heat source, the radiant housing having front walls joining one another such that the housing has a lenticular shape in cross-section.

A combustion system includes a fuel and oxidant source that outputs fuel and oxidant, a first perforated flame holder, and a second perforated flame holder separated from the first perforated flame holder by a gap. The first and second perforated flame holders sustain a combustion reaction of the fuel and oxidant within the first and second perforated flame holders.

A combustion system includes a fuel and oxidant source that outputs fuel and oxidant, a first perforated flame holder, and a second perforated flame holder separated from the first perforated flame holder by a gap. The first and second perforated flame holders sustain a combustion reaction of the fuel and oxidant within the first and second perforated flame holders.

A fire tube boiler includes a perforated flame holder configured to hold a combustion reaction that produces very low oxides of nitrogen (NOx).