TH137137A - - Google Patents

Abstract

DC60 (08/02/61) The portion of atmospheric gas in heating zone 1 and / or immersion zone has been sucked away. The heat exchanger was cooled through the high temperature gas passage of the heat exchanger 9 by exchanging heat with the gas in the low temperature gas passageway, then being ventilated. The following heat was further passed through a 10 gas cooler, then dehumidified. To a dew point of -45 ° C or lower in the drier 11, then heat through Low temperature gas passage of the heat exchanger 9, by exchanging heat with High temperature gas passageway The portion of the gas that flows from the dryer 11 passes through the low-temperature gas passage of the apparatus, and is returned to the heating zone 1 and / or the immersion zone. The heat exchanger 9 has been returned to the cooling zone. These two characteristics can be achieved. Low dew at -45 degrees Celsius or lower. With high energy efficiency ------ 08/02/2018 ------ (OCR) page 1 of the number 1 page invention summary The portion of atmospheric gas in the heating zone 1 and / or immersion zone has been sucked away. The heat exchanger was then cooled through the high temperature gas passage of the heat exchanger. 9 By exchanging heat with the gas in the low temperature gas passage, it was then ventilated. The heat is further passed through a 10 gas cooler, then the humidity is reduced. Until the dew point at -45? H or lower in the drier 11, then it has been heated through Low temperature gas passage of the heat exchanger 9 by exchanging heat with High temperature gas passageway The portion of the gas that flows from the dryer 11 passes through the low-temperature gas passageway of the dryer and is returned to heating zone 1 and / or immersion zone. Heat exchanger 9 has been returned to the cooling zone. These two characteristics can be achieved. Hold low at -45? C or less. With high energy efficiency ------------ Some of the atmospheric gases in heating zone 1 and / or immersion zone have been sucked away and cooled through a channel. Passing of the high temperature gas of the heat exchanger 9 by heat exchange with the gas in the low temperature gas channel After that The following heat was obtained through a 10 gas cooler, then received. Reducing the moisture to the dew point of -45 / C or lower in the dryer 11, then get Heat through low temperature gas channel of heat exchanger 9 by heat exchange with gas in high temperature gas channel And is returned to heating zone 1 and / or immersion zone; part of the gas flowing from the dryer 11 goes through the through The low temperature gas of the heat exchanger 9 was returned to the cooling zone. These two characteristics can achieve a low dew point of -45 / C or lower. With high energy efficiency

Claims (1)

Disclaimer (all) which will not appear on the advertisement page. : ------ 08/02/2018 ------ (OCR) Page 1 of 2 pages Clause 1. Apparatus which reduces the residual gas condensation in the atmosphere in continuous baking ovens. Soft to the strip Metals in a reducing atmosphere by sending a metal strip through the heating zone. And cooling zone, in this order, or through heating zone, soaking zone and cooling zone, in this order, which consists of: circulator, including heat exchanger. ) Which exchanges heat between low temperature gas and high temperature gas, gas cooler which cools the gas, dryer which reduces humidity from Gas to the residual point of -45h or lower by utilizing a desiccant or a compressor and a gas distributor, where this unit includes additions. The first gas passage extending from the heating zone And / or immersion zones, through gas passages, to high temperature gas passages, mounted in heat exchangers and through gas coolers to driers. The second gas pass leading from the drier through the gas diffuser to the passageway Of low temperature gas of heat exchanger And from the heat exchanger to the zone It provides heating and / or immersion zones and a third gas pass, which returns the portion of the gas flowing from the drier through the Of the low temperature gas of the heat exchanger to the cooling zone directly through Gas diffuser But not through the heat exchanger 2. Method of reducing the residual gas in the atmosphere in the furnace in a continuous soft annealed oven. To the metal strip in the reductive atmosphere by sending the metal strip through the heating zone and Cooling in this order Or through the heating zone, sub-tropical and thermal zone This sequence includes: (a) Provision of a device which reduces the residual gas condensation point in a continuous soft oven in accordance with claim 1 (b). Heat and / or immersion zone, page 2 of the number 2, p. (C) Transmission of the suction portion of the atmospheric gas through the high temperature gas of the apparatus. Heat exchanger And reduction of the temperature of the suction part of the atmospheric gas by exchanging Heated with a gas in the low temperature gas passage (d) the lowering of the lower atmospheric gas portion is then passed through a cooler. To the gas to cool the part of the atmospheric gas to further cool (e) the further cooling of the cooled portion of the atmospheric gas to the holding point - 45 ° C or less in the drier (f) Transmission of the dampened portion of the atmospheric gas through the gas through the Low temperature of the heat exchanger to increase the temperature of the humidified part Of atmospheric gases by gas heat exchanger in high temperature gas passage (g) return of elevated atmospheric gas portions to heating and / or immersion zones; and ( h) meanwhile (f) and (g) return the portion of the gas flowing from the drier. The low temperature gas passage of the heat exchanger to the cooling zone is Directly without through the heat exchanger. 3. Methods for producing cold rolled steel plates and annealed. Which includes Continuous annealing to cold rolled metal strips Where the condensation point of atmospheric gases In continuous annealing oven was reduced by method of claim No. 2 during continuous annealing ------------ 1.Method for continuous reduction of atmospheric gas dew point in soft furnaces in soft furnaces. For annealing of sheet metal strips in the atmosphere, reducing the temperature by sending the sheet metal strips is Through the heating zone and cooling zone in this order Or through the heating zone, sub-tropical zone and cooling zone, respectively This includes a procedure (a) for arranging a recirculator, including a heat exchanger for Heat exchange between low temperature gas and high temperature gas. Cooling machine To gas for cooling the gas And driers for dehumidification from Gas to the dew point of -45 / h or below. Procedures (b) for the suction of certain atmospheric gases from the heating and / or immersion zones; The next step (c) is for directing the sucked portion of the atmospheric gas through the passage of the Gas with the temperature of the heat exchanger and the reduction of the temperature of the suction part of the gas in Atmosphere by gas heat exchanger in low temperature gas passageway technician The next step (d) is for ordering a fraction of a gas in an atmosphere that has already cooled through A gas cooler to further cool the part of the atmospheric gas to cool down is a procedure (e) for further cooling dehumidification. Atmospheric gas to the dew point of -45 / cm or less in the drier. The next step is (f) for delivering the dehumidified portion of the atmospheric gas. Through the low temperature gas passage of the heat exchanger to increase the temperature of the Through the dehumidification of the atmospheric gas by the gas heat exchanger in High temperature gas passage The next step (g) for the return of the higher temperature atmospheric gas fraction to the Heating zone And / or the immersion zone, and at the same time with step (f) and step (g), step (h) for part return of The gas flowing from the drier towards the low temperature gas channel of the exchanger. Heat to the cooling zone directly without passing through the heat exchanger.