International Journal of Innovative Research in Engineering & Multidisciplinary Physical Sciences
E-ISSN: 2349-7300Impact Factor - 9.907

A Widely Indexed Open Access Peer Reviewed Online Scholarly International Journal

Call for Paper Volume 12 Issue 6 November-December 2024 Submit your research for publication
Submit Research Paper Join as a Reviewer

Plagiarism is checked by the leading plagiarism checker TurnItIn

Call for Paper

Volume 12 Issue 6
November-December 2024

Submit Your Research

Indexing
Indexed in Academia Indexed in Index Copernicus Indexed by Google Scholar DOI through Zenodo
E-ISSN 2349-7300
CrossRef

Authors can order CrossRef DOI for their research paper published in our journal IJIRMPS.

DOI prefix of IJIRMPS is
10.37082/IJIRMPS

Downloads
Research Paper Format Agreement of Publication Cover Page Vol 12 Isu 5Cover Page Vol 12 Isu 4Cover Page Vol 12 Isu 3

Flow Patterns of Tetraflouroethane Refrigerant in Different Small Diameter Tubes Used for Vaccine Delivery Boxes

Authors: Elmer Dollera, Rochelle Mae Torres, Godofredo Dollera

DOI: https://doi.org/10.37082/IJIRMPS.v12.i4.231064

Short DOI: https://doi.org/gt7vsm

Country: Philippines

Full-text Research PDF File:   View   |   Download

Abstract: This study aims to determine the flow patterns of tetrafluorethane refrigerant in different small diameter tubes. It attempts to establish a relationship among the temperature, pressure drop, volumetric flow of tetraflouroethane refrigerant in a 900 mm long small diameter tube. Tests are conducted to determine the effect of varying hydraulic tube diameter to the temperature and pressure drop of tetraflouroethane refrigerant in different flow rate. A copper tube with hydraulic diameter of 0.20 mm, 0.25 mm, 0.30 mm, 0.35 mm, 0.40 mm and 0.45 mm were used in this study. For every known hydraulic diameter, there are six (6) test points located in every 150 mm interval. The experimental rig is composed of six (6) pieces of 900 mm long copper tubes for the given hydraulic diameters. Each tube is marked with 150 mm, 300 mm, 450 mm, 600 mm, 750 mm and 900 mm. The markings represent the length of capillary tubes in millimeters where test points are located. A pressure transducer is attached to every test point and is used to measure the pressure drop at every length of the small diameter capillary tube. The result shows that pressure drop increases as the tube hydraulic diameter decreases and attained an evaporator temperature as low as -5 oC. The smaller the diameter of the tube, the more it is effective to give pressure drop for the design of a handy vaccine delivery box refrigeration system.

Keywords: Capillary tube, Pressure drop, Small diameter tube, Tetraflouroethane

Paper Id: 231064

Published On: 2024-08-26

Published In: Volume 12, Issue 4, July-August 2024

Cite This: Flow Patterns of Tetraflouroethane Refrigerant in Different Small Diameter Tubes Used for Vaccine Delivery Boxes - Elmer Dollera, Rochelle Mae Torres, Godofredo Dollera - IJIRMPS Volume 12, Issue 4, July-August 2024. DOI 10.37082/IJIRMPS.v12.i4.231064

Share this


Open Access CC-BY-SA All research papers published in this journal/on this website are openly accessible and licensed under Creative Commons Attribution-ShareAlike 4.0 International License; accordingly, any user can read, download, copy, distribute, print, search, or link to the full texts of the authors/researchers submitted and published articles, crawl them for indexing, pass them as data to any software, or use them for any other lawful purpose. The journal is fulfilling the DOAJ's definition of open access.
About IJIRMPS
Indexing & Archiving
Publication Ethics
Peer Review & Plagiarism 		Website/Journal Policies
Usage Policy
Content Policies
Privacy Policy 		Contact Us

+91-9687-828-838
editor@ijirmps.org