A novel approach for modelling LiBr-H2O falling film absorption on cooled horizontal bundle of tubes
Abstract
Abstract is not available.- Absorption cycle
- Aqueous solution
- Bank
- Horizontal tube
- Refrigeration
- Water-lithium bromide
- Absorption process
- Coupled heat and mass transfer
- Falling film absorption
- Heat of absorptions
- Horizontal tubes
- Inlet conditions
- Mass flow rate
- Maximum Efficiency
- Solution temperature
- Transport phenomena
- Tube banks
- Two dimensional numerical models
- Water vapour
- Mass transfer
- Partial differential equations
- Solutions
- Tubes (components)
- Two dimensional
- Water absorption
- Absorption refrigeration
- Absorption cycle
- Aqueous solution
- Bank
- Horizontal tube
- Refrigeration
- Water-lithium bromide
- Absorption process
- Bank
- Coupled heat and mass transfer
- Falling film absorption
- Heat of absorptions
- Horizontal tubes
- Inlet conditions
- Mass flow rate
- Maximum Efficiency
- Solution temperature
- Transport phenomena
- Tube banks
- Two dimensional numerical models
- Water vapour
- Water-lithium bromide
- Mass transfer
- Partial differential equations
- Refrigeration
- Solutions
- Tubes (components)
- Two dimensional
- Water absorption
- Absorption refrigeration
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Last time updated on 03/06/2016
This paper was published in DSpace@NTUA (National Technical Univ. of Athens).
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