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    • 9. 发明申请
    • SHELL-AND-PLATE HEAT EXCHANGER AND USE OF A SHELL-AND-PLATE HEAT EXCHANGER
    • 壳牌热交换器和壳板换热器的使用
    • US20160161191A1
    • 2016-06-09
    • US14906602
    • 2014-08-05
    • Johnson Controls Denmark ApS
    • Christian Per BUNDE-PEDERSEN
    • F28D9/00F25B40/04F25B40/02F25B39/04
    • F28D9/0006F25B39/04F25B40/02F25B40/04F28D9/0012F28D9/0043F28D9/0093F28F3/046
    • Disclosed is a shell-and-plate heat exchanger (1) for cooling and condensing a circulating refrigerant. The heat exchanger (1) comprises a desuperheater (2) for lowering the temperature of the gaseous refrigerant to a temperature above the condensation temperature of the refrigerant, wherein the desuperheater (2) is formed by a stack of corrugated desuperheater heat transfer plates (3). The desuperheater (2) is connected to a condenser (4) for condensing a main part of the refrigerant, wherein the condenser (4) is formed by a stack of corrugated condenser heat transfer plates (5). The condenser (4) is connected to a subcooler (6) for further lowering the temperature of the condensed refrigerant, wherein the subcooler (6) is formed by a stack of corrugated subcooler heat transfer plates (7), and wherein the stack of corrugated desuperheater heat transfer plates (3), the stack of corrugated condenser heat transfer plates (5) and the stack of corrugated subcooler heat transfer plates (7) are arranged inside the same common continuous shell (8). The condenser (4) and the subcooler (6) are connected through a liquid refrigerant container (9) arranged bellow the stack of condenser heat transfer plates (5) and/or the stack of subcooler heat transfer plates (7), in that the condensed refrigerant is collected in the liquid refrigerant container (9) from which the liquid refrigerant continues into the subcooler (6) through a subcooler inlet conduit (10). Use of a shell-and-plate heat exchanger (1) is also disclosed.
    • 公开了一种用于冷却和冷凝循环制冷剂的壳板式换热器(1)。 热交换器(1)包括用于将气态制冷剂的温度降低到高于制冷剂的冷凝温度的温度的过热降温器(2),其中过热降温器(2)由一堆波纹过热降温器传热板 )。 过热降温器(2)连接到冷凝器(4),用于冷凝制冷剂的主要部分,其中冷凝器(4)由一堆波纹冷凝器传热板(5)形成。 冷凝器(4)连接到过冷却器(6),用于进一步降低冷凝的制冷剂的温度,其中过冷却器(6)由一堆波纹状过冷却器传热板(7)形成,并且其中, 过热降温器传热板(3),波纹冷凝器传热板(5)和波纹过冷器传热板(7)的堆叠布置在相同的共同连续外壳(8)的内部。 冷凝器(4)和过冷却器(6)通过布置在冷凝器传热板(5)和/或过冷却器传热板(7)堆叠的液体制冷剂容器(9)连接, 冷凝的制冷剂被收集在液体制冷剂容器(9)中,液体制冷剂通过过冷却器入口导管(10)从液体制冷剂继续进入过冷却器(6)。 还公开了壳板式换热器(1)的使用。
    • 10. 发明申请
    • REFRIGERANT PROCESSING UNIT, A METHOD FOR EVAPORATING A REFRIGERANT AND USE OF A REFRIGERANT PROCESSING UNIT
    • US20220228781A1
    • 2022-07-21
    • US17576685
    • 2022-01-14
    • Johnson Controls Denmark ApS
    • Simon StubkierPer SkovMorten Dremark-LarsenChristian Per Bunde-Pedersen
    • F25B39/00F25B40/06
    • Disclosed is a refrigerant processing unit (1) for evaporating a refrigerant. The refrigerant processing unit (1) comprises a recirculation container (2) and a refrigerant inlet (3) connected to the recirculation container (2) for leading liquid refrigerant into the recirculation container (2). The refrigerant processing unit (1) also comprises a flooded evaporator heat exchanger (4) arranged to heat the liquid refrigerant to generate a phase change of the refrigerant from a liquid phase to a gaseous phase and a standpipe (5) extending between a liquid refrigerant outlet (6) of the recirculation container (2) and an evaporator inlet (28) of the flooded evaporator heat exchanger (4). Further, the refrigerant processing unit (1) comprises a return pipe (7) arranged to guide gaseous refrigerant from the flooded evaporator heat exchanger (4) back into the recirculation container (2) and a superheater heat exchanger (8) located below the recirculation container (2), wherein the superheater heat exchanger (8) is arranged to heat the gaseous refrigerant to generate a superheated gaseous refrigerant. Furthermore, the refrigerant processing unit (1) comprises a guide pipe (9) arranged to guide gaseous refrigerant from the recirculation container (2) into the superheater heat exchanger (8), and an outlet pipe (10) arranged to guide the superheated gaseous refrigerant out of the superheater heat exchanger (8) and thereby out of the refrigerant processing unit (1), wherein the flooded evaporator heat exchanger (4) and the superheater heat exchanger (8) are formed as a single heat exchanger unit (11) located below the recirculation container (2).
      A method for evaporating a refrigerant and use of a refrigerant processing unit (1) is also disclosed.