hot end

hot end

hot end
That portion of the gas turbine engine that operates at high temperature. It includes all parts after the compressor (combustors, the turbine, and the exhaust system). Also called the hot section.
References in periodicals archive ?
The lengthened thermal core in the performance extruders are up to 50% longer than a standard hot end to enable faster extrusion, resulting in up to 2X faster print speeds than desktop 3D printers.2
Tenders are invited for procurement of hot end, cold end heating element and aph seals for unit 7
Widely used types of container glass coatings comprise hot end coatings, which are applied before the annealing and cold end coatings, which are applied after the annealing.
Even with the weather still on the hot end, their large windows mean you can enjoy the lights of the marina when you're sitting indoors.
In order to feed properly into a 0.5-mm hot end, a diameter of less than 2 mm is necessary to prevent binding of the filament.
"The Ashland Works Hot End remains on temporary idle and no determination has been made at this time regarding the long-term status of the operations.
The thermodynamic effects of inlet temperature, pressure ratio, outlet temperature at the hot end of condenser, and terminal temperature difference of regenerator 1 and regenerator 2 on the SC[O.sub.2] Brayton Cycle are studied.
Charge carriers from the hot end move through the material to the cold end, generating an electrical voltage.
B = 0 T B = 1 T Hot end temperature [T.sub.C] = 4.2 K [T.sub.C] = 4.2 K [T.sub.B] = 20 K [T.sub.C] = 6 K [T.sub.C] = 6 K [T.sub.C] = 8 K [T.sub.C] = 8 K [T.sub.C] = 10 K [T.sub.C] = 10 K B = 3 T B = 4.3 T Hot end temperature [T.sub.C] = 4.2 K [T.sub.C] = 4.2 K [T.sub.B] = 20 K [T.sub.C] = 6 K [T.sub.C] = 6 K [T.sub.C] = 8 K [T.sub.C] = 8 K [T.sub.C] = 10 K [T.sub.C] =10 K
Extrusion-based 3-D printing (fused deposition modeling) takes raw plastic material, runs it through a hot end, similar to a hot glue gun, and lays it down in beads to build up a 3-D model.
To summarize, the Stirling engine uses the temperature difference between its hot end and cold end to establish a cycle of a fixed mass of gas, heated and expanded, and cooled and compressed, thus converting thermal energy into mechanical energy.
Asked if there is a future for downstream plants such as Trostre using steel from scrap, he said: "If you decouple the hot end [furnaces] from the rest, those businesses I believe are rescuable in any case.