Heat transport and pressure drop characteristics of ethylene Glycol-based Nano fluid containing silver nanoparticles
Publication Date: |
2018-09-21
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Publisher: |
Institute of Physics (IOP)
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Print ISSN: |
1757-8981
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Electronic ISSN: |
1757-899X
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Topics: |
Mechanical Engineering, Materials Science, Production Engineering, Mining and Metallurgy, Traffic Engineering, Precision Mechanics
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Published by: |
_version_ | 1836399055192719360 |
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autor | C Selvam, D Mohan Lal and Sivasankaran Harish |
beschreibung | In the current work, the heat transport characteristics of ethylene glycol with different volume fractions of silver nanoparticles dispersed to form a nanofluid that flows through an inner tube of the annular heat exchanger were investigated experimentally. The mass flow rate of nanofluid varied from 5 g/s to 25 g/s at 50°C inlet temperature of nanofluid on the heat transfer co-efficient were carried out under laminar flow conditions. The nanofluid was prepared with 0.05% and 0.1% volume percent of silver nanoparticles. The thermo-physical characteristics of pure ethylene glycol and silver/ethylene glycol nanofluid were measured experimentally. The heat transfer co-efficient was significantly increased with respect to Reynolds number and volume percent of silver nanoparticles. The experimental results show that the of convective heat transfer coefficient of the nanofluids increases up to 38% at a volume percent of 0.1% with those compared with basefluid at same Reynolds number. ... |
citation_standardnr | 6335459 |
datenlieferant | ipn_articles |
feed_id | 123476 |
feed_publisher | Institute of Physics (IOP) |
feed_publisher_url | http://www.iop.org/ |
insertion_date | 2018-09-21 |
journaleissn | 1757-899X |
journalissn | 1757-8981 |
publikationsjahr_anzeige | 2018 |
publikationsjahr_facette | 2018 |
publikationsjahr_intervall | 7984:2015-2019 |
publikationsjahr_sort | 2018 |
publisher | Institute of Physics (IOP) |
quelle | IOP Conference Series: Materials Science and Engineering |
relation | http://iopscience.iop.org/1757-899X/402/1/012005 |
search_space | articles |
shingle_author_1 | C Selvam, D Mohan Lal and Sivasankaran Harish |
shingle_author_2 | C Selvam, D Mohan Lal and Sivasankaran Harish |
shingle_author_3 | C Selvam, D Mohan Lal and Sivasankaran Harish |
shingle_author_4 | C Selvam, D Mohan Lal and Sivasankaran Harish |
shingle_catch_all_1 | Heat transport and pressure drop characteristics of ethylene Glycol-based Nano fluid containing silver nanoparticles In the current work, the heat transport characteristics of ethylene glycol with different volume fractions of silver nanoparticles dispersed to form a nanofluid that flows through an inner tube of the annular heat exchanger were investigated experimentally. The mass flow rate of nanofluid varied from 5 g/s to 25 g/s at 50°C inlet temperature of nanofluid on the heat transfer co-efficient were carried out under laminar flow conditions. The nanofluid was prepared with 0.05% and 0.1% volume percent of silver nanoparticles. The thermo-physical characteristics of pure ethylene glycol and silver/ethylene glycol nanofluid were measured experimentally. The heat transfer co-efficient was significantly increased with respect to Reynolds number and volume percent of silver nanoparticles. The experimental results show that the of convective heat transfer coefficient of the nanofluids increases up to 38% at a volume percent of 0.1% with those compared with basefluid at same Reynolds number. ... C Selvam, D Mohan Lal and Sivasankaran Harish Institute of Physics (IOP) 1757-8981 17578981 1757-899X 1757899X |
shingle_catch_all_2 | Heat transport and pressure drop characteristics of ethylene Glycol-based Nano fluid containing silver nanoparticles In the current work, the heat transport characteristics of ethylene glycol with different volume fractions of silver nanoparticles dispersed to form a nanofluid that flows through an inner tube of the annular heat exchanger were investigated experimentally. The mass flow rate of nanofluid varied from 5 g/s to 25 g/s at 50°C inlet temperature of nanofluid on the heat transfer co-efficient were carried out under laminar flow conditions. The nanofluid was prepared with 0.05% and 0.1% volume percent of silver nanoparticles. The thermo-physical characteristics of pure ethylene glycol and silver/ethylene glycol nanofluid were measured experimentally. The heat transfer co-efficient was significantly increased with respect to Reynolds number and volume percent of silver nanoparticles. The experimental results show that the of convective heat transfer coefficient of the nanofluids increases up to 38% at a volume percent of 0.1% with those compared with basefluid at same Reynolds number. ... C Selvam, D Mohan Lal and Sivasankaran Harish Institute of Physics (IOP) 1757-8981 17578981 1757-899X 1757899X |
shingle_catch_all_3 | Heat transport and pressure drop characteristics of ethylene Glycol-based Nano fluid containing silver nanoparticles In the current work, the heat transport characteristics of ethylene glycol with different volume fractions of silver nanoparticles dispersed to form a nanofluid that flows through an inner tube of the annular heat exchanger were investigated experimentally. The mass flow rate of nanofluid varied from 5 g/s to 25 g/s at 50°C inlet temperature of nanofluid on the heat transfer co-efficient were carried out under laminar flow conditions. The nanofluid was prepared with 0.05% and 0.1% volume percent of silver nanoparticles. The thermo-physical characteristics of pure ethylene glycol and silver/ethylene glycol nanofluid were measured experimentally. The heat transfer co-efficient was significantly increased with respect to Reynolds number and volume percent of silver nanoparticles. The experimental results show that the of convective heat transfer coefficient of the nanofluids increases up to 38% at a volume percent of 0.1% with those compared with basefluid at same Reynolds number. ... C Selvam, D Mohan Lal and Sivasankaran Harish Institute of Physics (IOP) 1757-8981 17578981 1757-899X 1757899X |
shingle_catch_all_4 | Heat transport and pressure drop characteristics of ethylene Glycol-based Nano fluid containing silver nanoparticles In the current work, the heat transport characteristics of ethylene glycol with different volume fractions of silver nanoparticles dispersed to form a nanofluid that flows through an inner tube of the annular heat exchanger were investigated experimentally. The mass flow rate of nanofluid varied from 5 g/s to 25 g/s at 50°C inlet temperature of nanofluid on the heat transfer co-efficient were carried out under laminar flow conditions. The nanofluid was prepared with 0.05% and 0.1% volume percent of silver nanoparticles. The thermo-physical characteristics of pure ethylene glycol and silver/ethylene glycol nanofluid were measured experimentally. The heat transfer co-efficient was significantly increased with respect to Reynolds number and volume percent of silver nanoparticles. The experimental results show that the of convective heat transfer coefficient of the nanofluids increases up to 38% at a volume percent of 0.1% with those compared with basefluid at same Reynolds number. ... C Selvam, D Mohan Lal and Sivasankaran Harish Institute of Physics (IOP) 1757-8981 17578981 1757-899X 1757899X |
shingle_title_1 | Heat transport and pressure drop characteristics of ethylene Glycol-based Nano fluid containing silver nanoparticles |
shingle_title_2 | Heat transport and pressure drop characteristics of ethylene Glycol-based Nano fluid containing silver nanoparticles |
shingle_title_3 | Heat transport and pressure drop characteristics of ethylene Glycol-based Nano fluid containing silver nanoparticles |
shingle_title_4 | Heat transport and pressure drop characteristics of ethylene Glycol-based Nano fluid containing silver nanoparticles |
timestamp | 2025-06-30T23:36:52.728Z |
titel | Heat transport and pressure drop characteristics of ethylene Glycol-based Nano fluid containing silver nanoparticles |
titel_suche | Heat transport and pressure drop characteristics of ethylene Glycol-based Nano fluid containing silver nanoparticles |
topic | ZL |
uid | ipn_articles_6335459 |