TH66335B - - Google Patents

Abstract

DC60 (19/12/60) The atmospheric gas portion in heating zone 1 and / or immersion zone has been sucked out and received. Cooling through high temperature gas of heat exchanger 9 by exchanging The gas is heated in a low-temperature gas pass, then further cooled by mixing with The atmospheric gas portion in cooling zone 2, is then further cooled through a heater. The gas is cooled 10, then it is dehumidified to a dew point of -45 ° C or less in The dryer 11, is then heated through the low temperature gas of the heat exchanger 9 by exchanging heat with the gas in the high temperature gas passageway, and is returned to heating zone 1 and / Or immersion zone They can achieve a dew point as low as -45 ° C or Less with high energy efficiency ------ 19/12/2017 ------ (OCR) page 1 of number 1 page invention summary. The atmospheric gas portion in heating zone 1 and / or immersion zone has been sucked out and received. Cooling through high temperature gas of heat exchanger 9 by exchanging The gas is heated in a low-temperature gas pass, then further cooled by mixing with The atmospheric gas portion in cooling zone 2, is then further cooled through a heater. The gas is cooled 10, then it is dehumidified to a dew point of -45 ° C or less in The dryer 11, is then heated through the low temperature gas of the heat exchanger 9 by exchanging heat with the gas in the high temperature gas passageway, and is returned to heating zone 1 and / Or immersion zone They can achieve a dew point as low as -45 ° C or Less with high energy efficiency ------------ The atmospheric gas portion in heating zone 1 and / or immersion zone has been sucked out and It was cooled via high temperature gas of heat exchanger 9 by gas heat exchange in the low temperature gas passageway, then further cooled by mixing with the atmospheric gas portion in the vent zone. Heat 2, then further cooled through The gas coolers 10, are then dehumidified to a dew point of -45 ° C or less in the drier 11, then heated through the low temperature gas of the apparatus. Heat exchanger 9 is by exchanging heat with gas in a high temperature gas passageway, and is returned to the heated zone 1 and / or sintered zone. These can contain a dew point equal to -45 องศาC or less with high energy efficiency.

Claims (1)

Disclaimers (all) which will not appear on the advertisement page: Amendment 09/11/2018 Claims None -------------------------------------------------- -------------------------------------------------- ------ 19/12/2017 ------ (OCR) Page 1 of 3 pages Disclaimer 1. Method for reducing furnace atmospheric gas dew point in continuous soft oven for Annealing the metal strip in the redox atmosphere by passing the metal strip to the heating zone and cooling zone respectively or to the heating zone, the immersion zone and the cooling zone respectively, which consists of steps ( a) for the provision of a circulator, including a heat exchanger for Heat exchange between low temperature gas and high temperature gas, gas cooler for Gas cooling, and drier for removing moisture to gas to a holding point of -45 ° C or less, step (b) for the suction of the atmospheric gas portion from the heating and / or immersion zones. The procedure (c) is then for the passage of the suction portion of the atmospheric gas to the temperature gas passageway. Of the heat exchanger and reduce the temperature of the suction part of the atmospheric gas by Then a procedure (d) for mixing the lower temperature atmospheric gas fraction with the low temperature gas passageway. Then, the procedure (e) for the passage of the additional refrigerated atmospheric gas portion by Mixing with the atmospheric gas portion sucked from the cooling zone to a gas cooler for ventilation. Additional heat to the atmospheric gas portion, then a step (f) for removing moisture to the cooled atmospheric gas portion. Further, it goes to the gas cooler to a dew point of -45 ° C or less in the drier, then a procedure (g) for passing through the dehumidified portion of the atmospheric gas. It also provides a low temperature gas passageway of the heat exchanger to increase the temperature of the eliminated part. The moisture content of the atmospheric gas is by heat exchange with the gas in the high temperature gas passageway and then the (h) procedure for the recovery of the increased temperature portion of the atmospheric gas to The heating zone and / or immersion zone, page 2 of the number 3, page 2. Method for reducing the residue of atmospheric gases in the soft oven according to claim 1, where the gas part flowing from the dryer approaches. Low temperature gas passageway of the exchanger The heat is returned directly to the cooling zone without passing through the heat exchanger. 3. Machine for reducing the dew point of atmospheric gases in a continuous soft oven for baking. Softening the metal strip in the redox atmosphere by passing the metal strip to heating zone 1 and cooling zone 2 times, or to heating zone, immersion zone and cooling zone, respectively. Which includes Gas passageway, including 9 heat exchangers for heat exchange Between low temperature gas and high temperature gas Gas cooler 10 for gas cooling 11.Dryer for gas removal to a dew point of -45 ° C or less. And a 20 gas mixer, where it includes Gas passageway extending from heating zone 1 and / or immersion zone, via gas passageway 15, through heat exchanger high temperature gas passageway 9, and through gas cooler 10 to drier. 11 Gas passage 16, which extends from the drier 11 towards the low temperature gas passageway. Of heat exchanger 9 and from heat exchanger 9 to heating zone and / or immersion zone and gas passageway 19 extending from cooling zone 2 where gas passageway 19 is connected to The gas passageway extends from the heat exchanger 9 to the gas cooler 10 in the gas mixer 20 4. Apparatus for reducing the dew point of atmospheric gases in the soft oven in accordance with claim 3, which It is further assembled with a gas pass 17 for the recovery of the portion of gas flowing from the drier 11 towards the low temperature gas pass of the heat exchanger 9 directly to the cooling zone through Gas distributors 13, but not through the heat exchanger 9 5. Methods for producing cold rolled and annealed steel plates. Included With continuous annealing to cold-rolled steel strips, where p. 3 of 3 p., The dew point of atmospheric gases in continuous annealing oven was reduced by means for Reduction of the dew point of atmospheric gases in the soft oven according to claim 1 or 2 during continuous annealing ------------ 1.Methods for reducing the dew point of atmospheric gas, furnaces in annealing furnaces. For the annealing of sheet metal in a redundant atmosphere by passing the sheet metal to Heating zone and cooling zone respectively or to heating zone, sintering zone and cooling zone respectively, including steps (a) for arranging the circulator including heat exchanger. For heat exchange between low temperature gas and high temperature gas. Gas cooler For gas cooling And drier for removing moisture in the gas to a dew point of -45 ° C or less, step (b) for the suction of the atmospheric gas fraction from the heat and / or sintering zone, then step (c ) For the passage of the suction portion of this atmospheric gas to the gas pass High temperature of the heat exchanger And reduce the temperature of the suction part of this atmospheric gas by Heat exchanger with gas in the low temperature gas passage step (d) for mixing the part of the atmospheric gas having a lower temperature with The part of the atmospheric gas that is diverted from the cooling zone to reduce the temperature of this atmospheric gas part adds another step (e) for the passage of the additional refrigerated atmospheric gas portion by By mixing with the atmospheric gas part drawn from the cooling zone, the machine cools the gas in order to vent. Additional heat for the atmospheric gas section Through cooling Then to the gas cooler to a dew point of -45 ° C or less in Drier Then the procedure (g) for passing the dehumidified portion of the atmospheric gas to Through the low temperature gas of the heat exchanger to increase the temperature of the eliminated part. The moisture content of the atmospheric gas by heat exchange with the low-temperature gas passageway and the procedure (h) for the recovery of the atmospheric gas portion which has increased temperature to Heating zone and / Or sintering field