Abstract: An infrared radiator for the heat treatment of a material web has an incandescent body with a flow-receiving surface that is subjected to a flow of a gas-air mixture supplied to the infrared radiator and heated by combustion of the gas-air mixture. The incandescent body is manufactured as a sheet material formed of a multiplicity of threads and connecting elements that at least indirectly connect the threads to one another. The connecting elements at least partially engage around the threads and thus connect them at least indirectly to one another. The connecting elements are configured in such a way that they may be detached from the connection with the threads, preferably by hand, while breaking up the sheet material.

Abstract: A method for producing a wet-laid nonwoven fabric web includes the following steps: providing a fibrous web of industrially generated inorganic fibers, or fibers from synthetically generated polymers, and thermally drying the fibrous web in an alternating manner by infrared radiation and hot air, in order for the nonwoven fabric web to be generated.

Abstract: 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.

Abstract: An infrared radiator for the heat treatment of a material web has an incandescent body with a flow-receiving surface that is subjected to a flow of a gas-air mixture supplied to the infrared radiator and heated by combustion of the gas-air mixture. The incandescent body is manufactured as a sheet material formed of a multiplicity of threads and connecting elements that at least indirectly connect the threads to one another. The connecting elements at least partially engage around the threads and thus connect them at least indirectly to one another. The connecting elements are configured in such a way that they may be detached from the connection with the threads, preferably by hand, while breaking up the sheet material.

Abstract: An infrared radiator for the heat treatment of a material web includes an incandescent body with a flow-receiving surface to be impinged by a gas-air mixture that is supplied to the infrared radiator and to be heated by combustion of the gas-air mixture. The incandescent body is manufactured as a sheet material that is formed of a multiplicity of threads. The sheet material is manufactured by primary forming.

Abstract: A method for producing a wet-laid nonwoven fabric web includes the following steps: providing a fibrous web of industrially generated inorganic fibers, or fibers from synthetically generated polymers, and thermally drying the fibrous web in an alternating manner by infrared radiation and hot air, in order for the nonwoven fabric web to be generated.

Abstract: A combustion chamber which is bounded on one side by a gas-permeable barrier, on the other side by a radiant element. The radiant element having a large number of ducts and emitting infrared radiation at its front surface. A jet plate with individual jets and the ducts of the radiant element are closed on the combustion chamber side, at least in the region of the outlet openings of the jets, by which baffle surfaces are formed, and toward which the outlet openings of the jets are aimed.

Abstract: A combustion chamber which is bounded on one side by a gas-permeable barrier, on the other side by a radiant element. The radiant element having a large number of ducts and emitting infrared radiation at its front surface. A jet plate with individual jets and the ducts of the radiant element are closed on the combustion chamber side, at least in the region of the outlet openings of the jets, by which baffle surfaces are formed, and toward which the outlet openings of the jets are aimed.

Abstract: Known gas-heated infrared radiators for infrared drying units have a radiator housing (1) that is subdivided by a gas-permeable burner plate (5) in a distribution chamber (6) for the gas-air mixture and a combustion chamber (7), the front side of which emits the radiation. The radiator is held by mixing tube (9) that is affixed to the rear side. A gas-air mixture is supplied to the distribution chamber (6) via said mixing tube (9). The mixing tube (9) has a gas nozzle (11) with a gas inlet (12) and an air inlet (17) on the end opposite the radiator housing (1). The mixing tube is affixed to a holding frame of the drying unit. In order to disassemble the infrared radiator from the infrared drying unit and to mount said radiator on said unit as rapidly as possible, the rear side of the radiator housing (1) is connected to the holding frame by releasable fixing means (20, 33-36) that can be released manually from the front side.