Numerical simulation and experimental comparison of the R12, R22 and R134a flow inside straight and coiled helical capillary tubes

Zareh, Masoud; Heidari, Mohammad Ghorbani; Javidmand, Puya

Publication

Numerical simulation and experimental comparison of the R12, R22 and R134a flow inside straight and coiled helical capillary tubes

Zareh, Masoud
;
Heidari, Mohammad Ghorbani
;
Javidmand, Puya

Authors

Zareh, Masoud
Heidari, Mohammad Ghorbani
Javidmand, Puya

Issue Date

2016-03

Type

Article

Keywords

Adiabatic,Drift flux model,Experimental,Helical capillary tube,Numerical,Straight

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Citation

Zareh, Masoud; Heidari, Mohammad Ghorbani; Javidmand, Puya. 2016. Numerical simulation and experimental comparison of the R12, R22 and R134a flow inside straight and coiled helical capillary tubes. Journal of Mechanical Science and Technology, vol. 30:no. 3:pp 1421-1430

Abstract

This paper presents a numerical simulation for adiabatic condition of the R12, R22 and R134a flow through straight and helically capillary tubes and also an experimental investigation of the R134a flow inside straight and helically tubes. Therefore, the two-phase flow is developed by using Drift flux model (DFM) with proper friction factor for both straight and helical capillary tubes. The conservation equations of the mass, energy and momentum are numerically solved using the 4(th) order Runge-Kutta method. Numerical model is validated by the previously published paper and also by present experimental results. The effect of refrigerant, inlet pressure, inlet temperature, degree of sub-cooling, capillary tube's geometry and dimension are studied. The results show that mass flux increases linearly as degree of sub-cooling increases as well as by increasing of coiled diameter and tube diameter. Moreover, void fraction and vapor quality's variation has same trend along coiled and straight capillary tubes.

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Series

Journal of Mechanical Science and Technology;v.30:no.3

URI

http://dx.doi.org/10.1007/s12206-016-0250-2
http://hdl.handle.net/10057/12012

ISSN

1738-494X

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Numerical simulation and experimental comparison of the R12, R22 and R134a flow inside straight and coiled helical capillary tubes

Zareh, Masoud
;
Heidari, Mohammad Ghorbani
;
Javidmand, Puya

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Numerical simulation and experimental comparison of the R12, R22 and R134a flow inside straight and coiled helical capillary tubes

Zareh, Masoud ; Heidari, Mohammad Ghorbani ; Javidmand, Puya

Citations

Authors

Other Names

Location

Time Period

Advisors

Original Date

Digitization Date

Issue Date

Type

Genre

Keywords

Subjects (LCSH)

Research Projects

Organizational Units

Journal Issue

Citation

Abstract

Table of Contents

Description

Publisher

Journal

Book Title

Series

Digital Collection

URI

Finding Aid URL

Use and Reproduction

Archival Collection

PubMed ID

DOI

ISSN

EISSN

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Embedded videos

Zareh, Masoud
;
Heidari, Mohammad Ghorbani
;
Javidmand, Puya