Trane TRG-TRC011-EN manual Conditions

Page 14

period one

Absorption Refrigeration Cycle

notes

The operating conditions used in this section of the clinic are approximate,

subject to variation with changing load and cooling-water temperature

 

conditions.

115°F

 

 

 

[46.1°C]

 

 

 

temperature

 

 

 

45°F

 

 

 

[7.2°C]

0.15 psia

 

1.5 psia

 

 

 

[1.034 kPa]

 

[10.34 kPa]

 

 

pressure

Figure 11

 

 

 

At a given pressure, the temperature at which a liquid will boil into a vapor is the same temperature at which the vapor will condense back into a liquid. This curve illustrates the pressures and corresponding temperatures at which water (the refrigerant) boils and condenses.

At atmospheric pressure (14.7 psia [101.3 kPa]), water boils and evaporates at 212 °F [100 °C]. When the pressure is decreased, water boils at a lower temperature. At the lower pressure, there is less force pushing against the water molecules, allowing them to separate easier.

Just like in the vapor-compression refrigeration cycle, this change in pressure allows the evaporator temperature to be low enough for the refrigerant to absorb heat from the water being cooled. Likewise, it allows the condenser temperature to be high enough for the refrigerant to reject heat to water at normally available temperatures. Inside of the evaporator, the pressure is very low, 0.15 psia [1.034 kPa] in this example, so that the refrigerant boils at 45ºF [7.2ºC]. In the condenser, however, the pressure is much higher (1.5 psia [10.34 kPa]) so that the refrigerant condenses at 115ºF [46.1ºC].

TRG-TRC011-EN

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Contents Air Conditioning Clinic Absorption Water Chillers Absorption Water Chillers Preface Contents TRG-TRC004-EN Introduction TRG-TRC011-EN Absorption Refrigeration Cycle Period onePeriod one Reject heat Heat energy Absorption System Fluids High affinity for water refrigerant Components of the Absorption Cycle Conditions Steam or Hot waterrefrigerant vapor Generator Condenser Refrigerant then flows into the evaporator pan Absorber spray pump Solution Heat Exchanger Dilute Generator pump Equilibrium Chart Heat Solution temperature Absorption Chiller Types Period twoSingle-Effect Chiller Absorber Evaporator spray pump Spray pump Generator pump Double-Effect Chiller Vapor Low Temperature condenser Cooling Generator Water Evaporator Absorber Low-temperature generator pump Generator pump Absorption Chiller Types Direct-Fired Chiller Evaporator High-temperature high-temperature Generatorgenerator pump Chiller/Heater Absorption Chiller Types Changeover Absorption Chiller Types Capacity Control Period threePeriod three Energy valve Generator Crystallization 10C 37.8C Capacity Control Capacity Control Capacity Control Heat exchanger bypass Evaporator pan Purge System Isolation valve Maintenance Considerations Period fourPeriod four Maintenance Considerations Test run with alternate fuel, if dual-fuel burner Maintenance Considerations Maintenance Considerations Corrosion inhibitor and performance additive recommendations Application Considerations Period fiveCooling-Water Temperature Limitations Combination Chiller Plants 58F Special Considerations for Direct-Fired Chillers Application Considerations Equipment Rating Standards Review Period sixPeriod six Review Review Review Quiz Questions for PeriodQuiz TRG-TRC011-EN Answers Glossary Glossary Glossary Trane Company