Investigating the heating of water through a double tube nonphase change heat pipe
The heat pipe has been used extensively in modern day heat management due to its high thermal conductance and it is considered as the device of the 21st century. The heat pipe is capable of functioning at temperature as high as 1800�C to temperature as low as -230�C depending on its working medium....
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my.uniten.dspace-296112023-12-28T15:05:48Z Investigating the heating of water through a double tube nonphase change heat pipe Begum S. Rahman M.M. Rui T.W. 7101852571 55328831100 54933270600 Double tube NPC-HP Equivalent resistivity Heat transfer Non phase change Surface temperature The heat pipe has been used extensively in modern day heat management due to its high thermal conductance and it is considered as the device of the 21st century. The heat pipe is capable of functioning at temperature as high as 1800�C to temperature as low as -230�C depending on its working medium. It is not dependent on the evaporation-condensation cycle (phase change) of the working medium but on the pressure response. The pressure response is dependent on the temperature difference when a fully filling state of the working medium in the heat pipe is attained. The NPC-HP's ability to conduct heat in the radial direction using a special configuration of the NPC-HP, i. e, the double tube NPC-HP was investigated in this research. Here, the heat pipe is constructed with an outer and inner shell, where the working medium is charged in the annulus between the larger and smaller tube. The surface temperature of the inner tube without any flow of water was found to be homogenous and the average temperature was 66.63 �C. A wavy pattern of temperature distribution was observed throughout the length of pipe geometry and it indicated that the working fluid would remain in phase change suppressed mode. The change of equivalent resistivity with heat transfer rate demonstrated that three distinct heat transfer mode, namely natural convection mode, phase change and pulsation mode and phase change suppressed mode occurred. At different heating and cooling condition, the double tube NPC-HP exhibits a different heat transfer characteristics and at high heat transfer rate, the resistivity of the double tube NPC-HP approaches a near constant value of 0.02K/W in radial direction which is not possible in a conventional simple wicked heat pipe. As NPC-HP can be operated in phase change suppressed mode at high heat transfer rate, hence it can be used to store energy temporarily and to act as a buffer. Moreover, it can be used to preheat heavy oil. Final 2023-12-28T07:05:48Z 2023-12-28T07:05:48Z 2011 Article 2-s2.0-84856386566 https://www.scopus.com/inward/record.uri?eid=2-s2.0-84856386566&partnerID=40&md5=d80d35b75b5731dbd1b399c0e22c0039 https://irepository.uniten.edu.my/handle/123456789/29611 6 2 171 177 Scopus |
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Double tube NPC-HP Equivalent resistivity Heat transfer Non phase change Surface temperature |
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Double tube NPC-HP Equivalent resistivity Heat transfer Non phase change Surface temperature Begum S. Rahman M.M. Rui T.W. Investigating the heating of water through a double tube nonphase change heat pipe |
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The heat pipe has been used extensively in modern day heat management due to its high thermal conductance and it is considered as the device of the 21st century. The heat pipe is capable of functioning at temperature as high as 1800�C to temperature as low as -230�C depending on its working medium. It is not dependent on the evaporation-condensation cycle (phase change) of the working medium but on the pressure response. The pressure response is dependent on the temperature difference when a fully filling state of the working medium in the heat pipe is attained. The NPC-HP's ability to conduct heat in the radial direction using a special configuration of the NPC-HP, i. e, the double tube NPC-HP was investigated in this research. Here, the heat pipe is constructed with an outer and inner shell, where the working medium is charged in the annulus between the larger and smaller tube. The surface temperature of the inner tube without any flow of water was found to be homogenous and the average temperature was 66.63 �C. A wavy pattern of temperature distribution was observed throughout the length of pipe geometry and it indicated that the working fluid would remain in phase change suppressed mode. The change of equivalent resistivity with heat transfer rate demonstrated that three distinct heat transfer mode, namely natural convection mode, phase change and pulsation mode and phase change suppressed mode occurred. At different heating and cooling condition, the double tube NPC-HP exhibits a different heat transfer characteristics and at high heat transfer rate, the resistivity of the double tube NPC-HP approaches a near constant value of 0.02K/W in radial direction which is not possible in a conventional simple wicked heat pipe. As NPC-HP can be operated in phase change suppressed mode at high heat transfer rate, hence it can be used to store energy temporarily and to act as a buffer. Moreover, it can be used to preheat heavy oil. |
| author2 |
7101852571 |
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7101852571 Begum S. Rahman M.M. Rui T.W. |
| format |
Article |
| author |
Begum S. Rahman M.M. Rui T.W. |
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Begum S. |
| title |
Investigating the heating of water through a double tube nonphase change heat pipe |
| title_short |
Investigating the heating of water through a double tube nonphase change heat pipe |
| title_full |
Investigating the heating of water through a double tube nonphase change heat pipe |
| title_fullStr |
Investigating the heating of water through a double tube nonphase change heat pipe |
| title_full_unstemmed |
Investigating the heating of water through a double tube nonphase change heat pipe |
| title_sort |
investigating the heating of water through a double tube nonphase change heat pipe |
| publishDate |
2023 |
| _version_ |
1806427867458830336 |
| score |
13.188404 |