Computational flow dynamics of the refrigerant distribution in a spray type evaporator

Liang Han Chien; Shih Ming Wang; Wun Rong Liao

doi:10.1166/asl.2011.1625

Computational flow dynamics of the refrigerant distribution in a spray type evaporator

Liang Han Chien^*
, Shih Ming Wang
, Wun Rong Liao

^*Corresponding author for this work

National Taipei University of Technology

Research output: Contribution to journal › Journal Article › peer-review

4 Scopus citations

Abstract

This manuscript presents a simplified model for the simulation of liquid-vapor flow in a spray type evaporator of a chiller unit. The tubular distributor consists of two tubes, the pore diameter (1.0 mm or 1.5 mm) of the inner tube and the gap (1.0, 2.0 or 3.0 mm) of the outer tube were varied for comparisons of the velocity and pressure distributions. Three flow rates: 1.6, 3.2 and 6.4 g/s, were set in the simulations of miniature distributor. From the present study, we found that the 3.0 mm gap width yields the most uniform flow distribution for 1.6~6.4 g/s for the miniature distributor. Based on the simulation of the miniature distributor, a falling film evaporation test apparatus is designed. The simulation result of fluid distribution is in reasonable agreement with the experiment. This computation model is a useful tool for the design of falling film evaporators.

Original language	English
Pages (from-to)	745-749
Number of pages	5
Journal	Advanced Science Letters
Volume	4
Issue number	3
DOIs	https://doi.org/10.1166/asl.2011.1625
State	Published - 03 2011
Externally published	Yes

Keywords

Computational fluid dynamics
Falling film evaporation
Refrigerant distributor

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10.1166/asl.2011.1625

Cite this

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title = "Computational flow dynamics of the refrigerant distribution in a spray type evaporator",

abstract = "This manuscript presents a simplified model for the simulation of liquid-vapor flow in a spray type evaporator of a chiller unit. The tubular distributor consists of two tubes, the pore diameter (1.0 mm or 1.5 mm) of the inner tube and the gap (1.0, 2.0 or 3.0 mm) of the outer tube were varied for comparisons of the velocity and pressure distributions. Three flow rates: 1.6, 3.2 and 6.4 g/s, were set in the simulations of miniature distributor. From the present study, we found that the 3.0 mm gap width yields the most uniform flow distribution for 1.6\textasciitilde{}6.4 g/s for the miniature distributor. Based on the simulation of the miniature distributor, a falling film evaporation test apparatus is designed. The simulation result of fluid distribution is in reasonable agreement with the experiment. This computation model is a useful tool for the design of falling film evaporators.",

keywords = "Computational fluid dynamics, Falling film evaporation, Refrigerant distributor",

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year = "2011",

month = mar,

doi = "10.1166/asl.2011.1625",

language = "英语",

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journal = "Advanced Science Letters",

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AU - Chien, Liang Han

AU - Wang, Shih Ming

AU - Liao, Wun Rong

PY - 2011/3

Y1 - 2011/3

N2 - This manuscript presents a simplified model for the simulation of liquid-vapor flow in a spray type evaporator of a chiller unit. The tubular distributor consists of two tubes, the pore diameter (1.0 mm or 1.5 mm) of the inner tube and the gap (1.0, 2.0 or 3.0 mm) of the outer tube were varied for comparisons of the velocity and pressure distributions. Three flow rates: 1.6, 3.2 and 6.4 g/s, were set in the simulations of miniature distributor. From the present study, we found that the 3.0 mm gap width yields the most uniform flow distribution for 1.6~6.4 g/s for the miniature distributor. Based on the simulation of the miniature distributor, a falling film evaporation test apparatus is designed. The simulation result of fluid distribution is in reasonable agreement with the experiment. This computation model is a useful tool for the design of falling film evaporators.

AB - This manuscript presents a simplified model for the simulation of liquid-vapor flow in a spray type evaporator of a chiller unit. The tubular distributor consists of two tubes, the pore diameter (1.0 mm or 1.5 mm) of the inner tube and the gap (1.0, 2.0 or 3.0 mm) of the outer tube were varied for comparisons of the velocity and pressure distributions. Three flow rates: 1.6, 3.2 and 6.4 g/s, were set in the simulations of miniature distributor. From the present study, we found that the 3.0 mm gap width yields the most uniform flow distribution for 1.6~6.4 g/s for the miniature distributor. Based on the simulation of the miniature distributor, a falling film evaporation test apparatus is designed. The simulation result of fluid distribution is in reasonable agreement with the experiment. This computation model is a useful tool for the design of falling film evaporators.

KW - Computational fluid dynamics

KW - Falling film evaporation

KW - Refrigerant distributor

UR - https://www.scopus.com/pages/publications/79959677874

U2 - 10.1166/asl.2011.1625

DO - 10.1166/asl.2011.1625

M3 - 文章

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SN - 1936-6612

VL - 4

SP - 745

EP - 749

JO - Advanced Science Letters

JF - Advanced Science Letters

IS - 3

ER -

Computational flow dynamics of the refrigerant distribution in a spray type evaporator

Abstract

Keywords

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