An absorption heat pump including a generator or desorber which generates vapour from a first fluid fed to a first condenser, an evaporator provided downstream of the condenser, an outlet of the evaporator connected by a third line to an inlet of a mixer of a low pressure absorber connected to a suc
An absorption heat pump including a generator or desorber which generates vapour from a first fluid fed to a first condenser, an evaporator provided downstream of the condenser, an outlet of the evaporator connected by a third line to an inlet of a mixer of a low pressure absorber connected to a suction side of a pump feeding solution to the generator. The generator having a poor solution outlet connected by a sixth line provided with at least one lamination valve to a poor solution inlet feeding the absorber. The second line is brought into heat exchange contact with the low pressure absorber and opens into a liquid/vapour separator feeding the evaporator via a third line, the vapour outlet of the separator opening into an intermediate pressure absorber unit.
대표청구항▼
1. An absorption heat pump comprising: a generator or desorber which generates vapour from a first fluid, a first line for feeding the vapor to a first condenser in heat exchange contact with a transmission fluid,downstream of the condenser a second line being provided for feeding refrigerant liquid
1. An absorption heat pump comprising: a generator or desorber which generates vapour from a first fluid, a first line for feeding the vapor to a first condenser in heat exchange contact with a transmission fluid,downstream of the condenser a second line being provided for feeding refrigerant liquid into a liquid/vapor separator,upstream of the evaporator a first thermal expansion valve is provided,an outlet of the evaporator being connected by a third line to a vapor inlet of a first mixer that is part of a low pressure absorber unit,the absorber unit comprising an enriched solution outlet connected to a suction side of a pump,the delivery side of the pump is connected to the generator by a fourth line for feeding solution,the generator comprising a poor solution outlet connected by a sixth line provided with at least one thermal expansion valve to a poor solution inlet feeding the absorber,the second line is brought into heat exchange contact with the low pressure absorber and comprises a thermal expansion valve upstream of the low pressure absorber,a separator liquid outlet feeding the evaporator via an evaporator feed line, the vapour outlet of the separator opening into an intermediate pressure absorber unit via a fifth line; wherein an outlet of the intermediate pressure absorber is connected to a suction side of a second pump, the delivery side of the second pump is connected to an eighth line opening into the generator, the fourth line opening into a second mixer and then into a first heat exchanger, wherein the intermediate pressure absorber unit comprises the second mixer and the first heat exchanger. 2. An absorption heat pump comprising: a generator or desorber which generates vapour from a first fluid, a first line for feeding the vapor to a first condenser in heat exchange contact with a transmission fluid, downstream of the condenser a second line being provided for feeding refrigerant liquid into a liquid/vapor separator, upstream of the evaporator a first thermal expansion valve is provided, an outlet of the evaporator being connected by a third line to a vapor inlet of a first mixer that is part of a low pressure absorber unit, the absorber unit comprising an enriched solution outlet connected to a suction side of a pump, the delivery side of the pump is connected to the generator by a fourth line for feeding solution, the generator comprising a poor solution outlet connected by a sixth line provided with at least one thermal expansion valve to a poor solution inlet feeding the absorber, the second line is brought into heat exchange contact with the low pressure absorber and comprises a thermal expansion valve upstream of the low pressure absorber, a separator liquid outlet feeding the evaporator via an evaporator feed line, the vapor outlet of the separator opening into an intermediate pressure absorber unit via a fifth line, wherein a sixth line opens into the intermediate pressure absorber, the intermediate pressure absorber outlet being connected by a seventh line provided with a thermal expansion valve to the inlet of the low pressure absorber. 3. The heat pump as claimed in claim 1, wherein the fourth line and the sixth line are brought into heat exchange communication via a second heat exchanger acting as a low pressure regenerator. 4. The heat pump as claimed in claim 1, wherein the sixth line and the eighth line are brought into heat exchange communication via a second heat exchanger acting as a high pressure regenerator. 5. The heat pump as claimed in claim 2, wherein the fourth line and the sixth line are brought into heat exchange communication via a first heat exchanger acting as a high pressure regenerator. 6. The heat pump as claimed in claim 2, wherein the fourth line and the seventh line are brought into heat exchange communication via a heat exchanger for acting as a low pressure regenerator. 7. The heat pump as claimed in claim 1, wherein the second line and the third line are brought into heat exchange communication via a second heat exchanger. 8. The heat pump as claimed in claim 1, wherein a non-return valve is provided in the fifth line. 9. A method for increasing the stability and efficiency of a multi-stage heat pump, comprising: providing an absorption heat pump comprising: a generator or desorber which generates vapor from a first fluid, a first line for feeding the vapor to a first condenser in heat exchange contact with a transmission fluid,downstream of the condenser a second line being provided for feeding refrigerant liquid into a liquid/vapor separator,upstream of the evaporator a first thermal expansion valve is provided,an outlet of the evaporator being connected by a third line to a vapor inlet of a first mixer that is part of a low pressure absorber unit,the absorber unit comprising an enriched solution outlet connected to a suction side of a pump,the delivery side of the pump is connected to the generator by a fourth line for feeding solution,the generator comprising a poor solution outlet connected by a sixth line provided with at least one thermal expansion valve to a poor solution inlet feeding the absorber,the second line is brought into heat exchange contact with the low pressure absorber and comprises a thermal expansion valve upstream of the low pressure absorber,a separator liquid outlet feeding the evaporator via an evaporator feed line, the vapor outlet of the separator opening into an intermediate pressure absorber unit via a fifth line;wherein an outlet of the intermediate pressure absorber is connected to a suction side of a second pump,the delivery side of the second pump is connected to an eighth line opening into the generator, the fourth line opening into a second mixer and then into a first heat exchanger, wherein the intermediate pressure absorber unit comprises the mixer and the first heat exchanger;lowering the pressure of a refrigerant liquid leaving the condenser,cooling the low pressure absorber with this liquid,in the separator separating the fluid which has cooled the low pressure absorber into a separator liquid stream and a separator vapor stream, anddirecting the separator liquid stream towards the evaporator and the separator vapor stream towards the intermediate pressure absorber unit. 10. The method as claimed in claim 9, wherein the refrigerant is split into two streams by separating the liquid phase from the vapour phase at an intermediate pressure. 11. The heat pump as claimed in claim 2, wherein the second line and the third line are brought into heat exchange communication via a heat exchanger. 12. The heat pump as claimed in claim 2, wherein a non-return valve is provided in the fifth line. 13. A method for increasing the stability and efficiency of a multi-stage heat pump, comprising: providing an absorption heat pump comprising: a generator or desorber which generates vapor from a first fluid, fed through a first line for feeding the vapor to a first condenser in heat exchange contact with a transmission fluid,downstream of the condenser a second line being provided for feeding refrigerant liquid into a liquid/vapor separator,upstream of the evaporator a first lamination thermal expansion valve is provided,an outlet of the evaporator being connected by a third line to a vapor inlet of a first mixer that is part of a low pressure absorber unit,the absorber unit comprising an enriched solution outlet connected to a suction side of a pump,the delivery side of the pump is connected to the generator by a fourth line for feeding solution,the generator comprising a poor solution outlet connected by a sixth line provided with at least one lamination thermal expansion valve to a poor solution inlet feeding the absorber,the second line is brought into heat exchange contact with the low pressure absorber and comprises a lamination thermal expansion valve upstream of the low pressure absorber,a separator liquid outlet feeding the evaporator via an evaporator feed line, the vapor outlet of the separator opening into an intermediate pressure absorber unit via a fifth line, wherein a sixth line opens into the intermediate pressure absorber, the intermediate pressure absorber outlet being connected by a seventh line provided with a lamination thermal expansion valve to the inlet of the low pressure absorber,lowering the pressure of a refrigerant liquid leaving the condenser,cooling the low pressure absorber with this liquid,in the separator separating the fluid which has cooled the low pressure absorber into a separator liquid stream and a separator vapor stream, anddirecting the separator liquid stream towards the evaporator and the separator vapor stream towards the intermediate pressure absorber unit. 14. The method as claimed in claim 13, wherein the refrigerant is split into two streams by separating the liquid phase from the vapor phase at an intermediate pressure.
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이 특허에 인용된 특허 (7)
Ichikawa, Kazuma; Mutou, Gou, Absorption type cooling and heating apparatus.
Fuesting Dale A. (Newburgh IN) Stephan William E. (Evansville IN) Merrick Richard H. (Newburgh IN), Generator absorber heat exchanger for an ammonia/water absorption refrigeration system.
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