Derivation of three-dimensional heat transfer mathematical equations to predict conductivity of insulation systems for liquid nitrogen pipe flow

Cryogenics is dealing with very low temperatures of less than 120 K. Thermal insulation is a key to minimize heat leak in cryogenics during transportation in transfer line. The present study is conducted to derive three-dimensional heat transfer mathematical equations to predict conductivity of insu...

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Main Authors: Lye, Lim Chong, Kamarul Arifin, Ahmad, Ahmedov, Anvarjon A., Nor Mariah, Adam
Format: Article
Language:English
English
Published: Institut Pengurusan Penyelidikan, UiTM 2017
Subjects:
Online Access:http://umpir.ump.edu.my/id/eprint/20632/
http://umpir.ump.edu.my/id/eprint/20632/
http://umpir.ump.edu.my/id/eprint/20632/1/Derivation%20of%20Three-Dimensional%20Heat%20Transfer%20Mathematical%20Equations%20to%20Predict%20Conductivity%20of%20Insulation%20Systems%20for%20Liquid%20Nitrogen%20Pipe%20Flow.pdf
http://umpir.ump.edu.my/id/eprint/20632/7/Derivation%20of%20Three-Dimensional%20Heat%20Transfer%20Mathematical%20Equations%20to%20Predict%20Conductivity%20of%20Insulation%20Systems%20for%20Liquid%20Nitrogen%20Pipe%20Flow%201.pdf
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spelling ump-206322018-08-03T07:12:27Z http://umpir.ump.edu.my/id/eprint/20632/ Derivation of three-dimensional heat transfer mathematical equations to predict conductivity of insulation systems for liquid nitrogen pipe flow Lye, Lim Chong Kamarul Arifin, Ahmad Ahmedov, Anvarjon A. Nor Mariah, Adam Q Science (General) T Technology (General) Cryogenics is dealing with very low temperatures of less than 120 K. Thermal insulation is a key to minimize heat leak in cryogenics during transportation in transfer line. The present study is conducted to derive three-dimensional heat transfer mathematical equations to predict conductivity of insulation systems for liquid nitrogen pipe flow. Elliptic differential equations on special domains were derived based on Fourier method for three-dimensional heat equations. As a result from the study, three-dimensional heat conduction equation for a cylindrical problem was successfully derived. The derived equation provides a mathematical solution to determine the heat transfer rate for a system of cryogenic pipe insulated with multiple layers. Institut Pengurusan Penyelidikan, UiTM 2017 Article PeerReviewed pdf en http://umpir.ump.edu.my/id/eprint/20632/1/Derivation%20of%20Three-Dimensional%20Heat%20Transfer%20Mathematical%20Equations%20to%20Predict%20Conductivity%20of%20Insulation%20Systems%20for%20Liquid%20Nitrogen%20Pipe%20Flow.pdf pdf en http://umpir.ump.edu.my/id/eprint/20632/7/Derivation%20of%20Three-Dimensional%20Heat%20Transfer%20Mathematical%20Equations%20to%20Predict%20Conductivity%20of%20Insulation%20Systems%20for%20Liquid%20Nitrogen%20Pipe%20Flow%201.pdf Lye, Lim Chong and Kamarul Arifin, Ahmad and Ahmedov, Anvarjon A. and Nor Mariah, Adam (2017) Derivation of three-dimensional heat transfer mathematical equations to predict conductivity of insulation systems for liquid nitrogen pipe flow. Journal of Mechanical Engineering, S1 2 (1). pp. 39-56. ISSN 1823-5514 (print); 2550-164X (online) http://jmeche.com/wp-content/uploads/bsk-pdf-manager/4_Vol_SI_2_1_T1_16_258.pdf
repository_type Digital Repository
institution_category Local University
institution Universiti Malaysia Pahang
building UMP Institutional Repository
collection Online Access
language English
English
topic Q Science (General)
T Technology (General)
spellingShingle Q Science (General)
T Technology (General)
Lye, Lim Chong
Kamarul Arifin, Ahmad
Ahmedov, Anvarjon A.
Nor Mariah, Adam
Derivation of three-dimensional heat transfer mathematical equations to predict conductivity of insulation systems for liquid nitrogen pipe flow
description Cryogenics is dealing with very low temperatures of less than 120 K. Thermal insulation is a key to minimize heat leak in cryogenics during transportation in transfer line. The present study is conducted to derive three-dimensional heat transfer mathematical equations to predict conductivity of insulation systems for liquid nitrogen pipe flow. Elliptic differential equations on special domains were derived based on Fourier method for three-dimensional heat equations. As a result from the study, three-dimensional heat conduction equation for a cylindrical problem was successfully derived. The derived equation provides a mathematical solution to determine the heat transfer rate for a system of cryogenic pipe insulated with multiple layers.
format Article
author Lye, Lim Chong
Kamarul Arifin, Ahmad
Ahmedov, Anvarjon A.
Nor Mariah, Adam
author_facet Lye, Lim Chong
Kamarul Arifin, Ahmad
Ahmedov, Anvarjon A.
Nor Mariah, Adam
author_sort Lye, Lim Chong
title Derivation of three-dimensional heat transfer mathematical equations to predict conductivity of insulation systems for liquid nitrogen pipe flow
title_short Derivation of three-dimensional heat transfer mathematical equations to predict conductivity of insulation systems for liquid nitrogen pipe flow
title_full Derivation of three-dimensional heat transfer mathematical equations to predict conductivity of insulation systems for liquid nitrogen pipe flow
title_fullStr Derivation of three-dimensional heat transfer mathematical equations to predict conductivity of insulation systems for liquid nitrogen pipe flow
title_full_unstemmed Derivation of three-dimensional heat transfer mathematical equations to predict conductivity of insulation systems for liquid nitrogen pipe flow
title_sort derivation of three-dimensional heat transfer mathematical equations to predict conductivity of insulation systems for liquid nitrogen pipe flow
publisher Institut Pengurusan Penyelidikan, UiTM
publishDate 2017
url http://umpir.ump.edu.my/id/eprint/20632/
http://umpir.ump.edu.my/id/eprint/20632/
http://umpir.ump.edu.my/id/eprint/20632/1/Derivation%20of%20Three-Dimensional%20Heat%20Transfer%20Mathematical%20Equations%20to%20Predict%20Conductivity%20of%20Insulation%20Systems%20for%20Liquid%20Nitrogen%20Pipe%20Flow.pdf
http://umpir.ump.edu.my/id/eprint/20632/7/Derivation%20of%20Three-Dimensional%20Heat%20Transfer%20Mathematical%20Equations%20to%20Predict%20Conductivity%20of%20Insulation%20Systems%20for%20Liquid%20Nitrogen%20Pipe%20Flow%201.pdf
first_indexed 2023-09-18T22:29:52Z
last_indexed 2023-09-18T22:29:52Z
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