Energy Saving Analysis on the Recovery Fresh Air Heat Pump Units of a Public Building
p.2955
p.2955
Influence of Workstation Screen for Indoor Mechanical Ventilation
p.2959
p.2959
A New Air-Conditioning System with Chilled Water Storage
p.2964
p.2964
The Study of Soil Temputerature Change of GSHP System in Winter Conditions
p.2969
p.2969
Exergy Analysis of a Compressor Assisted Triple-Effect Absorption Refrigerating Cycle
p.2975
p.2975
Numerical Simulation Analysis of Composite Air Purifying Device
p.2980
p.2980
Research on City Gas Load Forecasting Method
p.2986
p.2986
The Study of the Ventilation Influence to Gas-Based Direct Reduction Shaft Furnace Flow Field
p.2990
p.2990
Basic Research of Solar Seasonal Thermal Storage Capacity Increase to Existing Heating System
p.2994
p.2994
Exergy Analysis of a Compressor Assisted Triple-Effect Absorption Refrigerating Cycle
Abstract:
Adding a compressor to basic in-counter-series triple-effect lithium bromide absorption refrigerating cycle is an effective solution to reduce the temperature of high pressure generator and slow down the corrosion situation. Exergy analysis based on thermodynamic analysis shows that the compressor placed between the low pressure generator and the condenser is the best, which help the system get the highest energy efficiency.
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Periodical:
Applied Mechanics and Materials (Volumes 405-408)
Pages:
2975-2979
Citation:
Online since:
September 2013
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© 2013 Trans Tech Publications Ltd. All Rights Reserved
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