Trane TRG-TRC011-EN manual Absorber Low-temperature generator pump

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period two

Absorption Chiller Types

notes

to the absorber reduces the flow rate of cooling water required through the absorber.

The chiller shown in Figure 27 is steam-fired and includes an additional heat exchanger. This condensate heat exchanger transfers heat from the hot condensed steam, leaving the high-temperature generator, to the cooler intermediate solution returning to the high-temperature generator. Notice that this heat exchanger is in parallel with the high-temperature heat exchanger and only a portion of the intermediate solution passes through each one. Again, a double-effect absorption chiller operating with hot water would not include the condensate heat exchanger.

The precooled, concentrated solution leaving the high-temperature heat exchanger then mixes with the rest of the intermediate solution that is returning from the low-temperature generator, before traveling to the low-temperature heat exchanger.

high-temperature

low-temperature

generator

generator

 

high-temperature generator pump

absorber

low-temperature generator pump

Figure 28

 

All double-effect absorption chillers are constructed from the same basic components: high-temperature generator, low-temperature generator, condenser, evaporator, absorber, two solution heat exchangers, and several pumps. There are, however, three common methods in which the solution can be circulated through the chiller: series, parallel, and reverse-series. The double-effect chiller used in the previous example employs the reverse-series flow cycle.

In a reverse-series flow cycle, the dilute solution leaving the absorber is pumped to the low-temperature generator, where it is partially concentrated. Part of this intermediate solution is then pumped to the high-temperature generator, where it is further concentrated. The remaining intermediate solution, leaving the low-temperature generator, is mixed with the concentrated solution, leaving the high-temperature generator, before returning to the absorber.

The reverse-series flow cycle requires two generator pumps. This, however, makes it easier to control in part-load conditions.

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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 Period one Absorption Refrigeration CyclePeriod 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 Period two Absorption Chiller TypesSingle-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 Period three Capacity ControlPeriod three Energy valve Generator Crystallization 10C 37.8C Capacity Control Capacity Control Capacity Control Heat exchanger bypass Evaporator pan Purge System Isolation valve Period four Maintenance ConsiderationsPeriod four Maintenance Considerations Test run with alternate fuel, if dual-fuel burner Maintenance Considerations Maintenance Considerations Corrosion inhibitor and performance additive recommendations Period five Application ConsiderationsCooling-Water Temperature Limitations Combination Chiller Plants 58F Special Considerations for Direct-Fired Chillers Application Considerations Equipment Rating Standards Period six ReviewPeriod six Review Review Review Questions for Period QuizQuiz TRG-TRC011-EN Answers Glossary Glossary Glossary Trane Company
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