Influence of spanwise pitch on local heat transfer distribution for in-line arrays of circular jets with spent air flow in two opposite directions
Effect of spanwise jet-to-jet spacing on local heat transfer distribution due to an in-line rectangular array of confined multiple circular air jets impinging on a surface parallel to the jet plate are studied experimentally. Length-to-diameter ratio of nozzles of the jet plate is 1.0. The flow, aft...
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| Veröffentlicht in: | Experimental thermal and fluid science 2008-10, Vol.33 (1), p.84-95 |
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| creator | Katti, Vadiraj Prabhu, S.V. |
| description | Effect of spanwise jet-to-jet spacing on local heat transfer distribution due to an in-line rectangular array of confined multiple circular air jets impinging on a surface parallel to the jet plate are studied experimentally. Length-to-diameter ratio of nozzles of the jet plate is 1.0. The flow, after impingement, is constrained to exit in two opposite directions from the confined passage formed between jet plate and target plate. Mean jet Reynolds numbers based on the nozzle exit diameter (
d) covered are 3000, 5000, 7500 and 10,000 and jet-to-plate spacings studied are
d, 2
d and 3
d. Spanwise pitches considered are 2
d, 4
d and 6
d in steps of 2
d keeping the streamwise pitch at 5
d. For all the configurations, the jet-plates have ten spanwise rows in streamwise direction and six jets in each spanwise row. Flat heat transfer surface is made of thin stainless steel metal foil. Local temperature distribution on a target plate is measured using thermal infrared camera. Wall static pressure on the target plate is measured in the streamwise direction to estimate crossflow velocities and individual jet velocities. Heat transfer characteristics are explained on the basis of the flow distribution. A simple correlation to predict streamwise distribution of heat transfer coefficients averaged over each spanwise strip resolved to one jet hole is developed. |
| doi_str_mv | 10.1016/j.expthermflusci.2008.07.004 |
| format | Article |
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d) covered are 3000, 5000, 7500 and 10,000 and jet-to-plate spacings studied are
d, 2
d and 3
d. Spanwise pitches considered are 2
d, 4
d and 6
d in steps of 2
d keeping the streamwise pitch at 5
d. For all the configurations, the jet-plates have ten spanwise rows in streamwise direction and six jets in each spanwise row. Flat heat transfer surface is made of thin stainless steel metal foil. Local temperature distribution on a target plate is measured using thermal infrared camera. Wall static pressure on the target plate is measured in the streamwise direction to estimate crossflow velocities and individual jet velocities. Heat transfer characteristics are explained on the basis of the flow distribution. A simple correlation to predict streamwise distribution of heat transfer coefficients averaged over each spanwise strip resolved to one jet hole is developed.</description><identifier>ISSN: 0894-1777</identifier><identifier>EISSN: 1879-2286</identifier><identifier>DOI: 10.1016/j.expthermflusci.2008.07.004</identifier><language>eng</language><publisher>Amsterdam: Elsevier Inc</publisher><subject>Applied sciences ; Energy ; Energy. Thermal use of fuels ; Exact sciences and technology ; Fluid dynamics ; Fundamental areas of phenomenology (including applications) ; Heat transfer ; Jet impingement cooling ; Jets ; Multiple jets ; Physics ; Theoretical studies. Data and constants. Metering ; Turbulent flows, convection, and heat transfer</subject><ispartof>Experimental thermal and fluid science, 2008-10, Vol.33 (1), p.84-95</ispartof><rights>2008 Elsevier Inc.</rights><rights>2009 INIST-CNRS</rights><lds50>peer_reviewed</lds50><woscitedreferencessubscribed>false</woscitedreferencessubscribed><citedby>FETCH-LOGICAL-c391t-675495831fb3c7a9a405a696dfc109c7cd4e063685374fae8bbe94e170b1e74b3</citedby><cites>FETCH-LOGICAL-c391t-675495831fb3c7a9a405a696dfc109c7cd4e063685374fae8bbe94e170b1e74b3</cites></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><linktohtml>$$Uhttps://www.sciencedirect.com/science/article/pii/S0894177708001003$$EHTML$$P50$$Gelsevier$$H</linktohtml><link.rule.ids>314,776,780,3537,27901,27902,65306</link.rule.ids><backlink>$$Uhttp://pascal-francis.inist.fr/vibad/index.php?action=getRecordDetail&idt=20853597$$DView record in Pascal Francis$$Hfree_for_read</backlink></links><search><creatorcontrib>Katti, Vadiraj</creatorcontrib><creatorcontrib>Prabhu, S.V.</creatorcontrib><title>Influence of spanwise pitch on local heat transfer distribution for in-line arrays of circular jets with spent air flow in two opposite directions</title><title>Experimental thermal and fluid science</title><description>Effect of spanwise jet-to-jet spacing on local heat transfer distribution due to an in-line rectangular array of confined multiple circular air jets impinging on a surface parallel to the jet plate are studied experimentally. Length-to-diameter ratio of nozzles of the jet plate is 1.0. The flow, after impingement, is constrained to exit in two opposite directions from the confined passage formed between jet plate and target plate. Mean jet Reynolds numbers based on the nozzle exit diameter (
d) covered are 3000, 5000, 7500 and 10,000 and jet-to-plate spacings studied are
d, 2
d and 3
d. Spanwise pitches considered are 2
d, 4
d and 6
d in steps of 2
d keeping the streamwise pitch at 5
d. For all the configurations, the jet-plates have ten spanwise rows in streamwise direction and six jets in each spanwise row. Flat heat transfer surface is made of thin stainless steel metal foil. Local temperature distribution on a target plate is measured using thermal infrared camera. Wall static pressure on the target plate is measured in the streamwise direction to estimate crossflow velocities and individual jet velocities. Heat transfer characteristics are explained on the basis of the flow distribution. A simple correlation to predict streamwise distribution of heat transfer coefficients averaged over each spanwise strip resolved to one jet hole is developed.</description><subject>Applied sciences</subject><subject>Energy</subject><subject>Energy. Thermal use of fuels</subject><subject>Exact sciences and technology</subject><subject>Fluid dynamics</subject><subject>Fundamental areas of phenomenology (including applications)</subject><subject>Heat transfer</subject><subject>Jet impingement cooling</subject><subject>Jets</subject><subject>Multiple jets</subject><subject>Physics</subject><subject>Theoretical studies. Data and constants. Metering</subject><subject>Turbulent flows, convection, and heat transfer</subject><issn>0894-1777</issn><issn>1879-2286</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2008</creationdate><recordtype>article</recordtype><recordid>eNqNkcFu1DAQhi0EEkvhHXwAbkntxIkdiQuqKFSqxAXOluMda73y2sHjsPQ1eOI62gqJW0--fPPN-P8Jec9Zyxkfr48t_FnKAfLJhRWtbzvGVMtky5h4QXZcyanpOjW-JDumJtFwKeVr8gbxyCrYcbYjf-9inYVogSZHcTHx7BHo4os90BRpSNYEegBTaMkmooNM9x5L9vNafAVcytTHJvgI1ORsHnATWZ_tGkymRyhIz74cqhtiocZn6kI61xlazommZUnoC1RpBrsZ8S155UxAePf0XpGft19-3Hxr7r9_vbv5fN_YfuKlGeUgpkH13M29lWYygg1mnMa9s5xNVtq9ADb2oxp6KZwBNc8wCeCSzRykmPsr8vHiXXL6tQIWffJoIQQTIa2o-0EIoRSr4KcLaHNCzOD0kv3J5AfNmd6K0Ef9fxF6K0IzqWsRdfzD0x6DNUxXY7Qe_zk6Vi8cJlm52wsH9dO_PWRdTVszl2j0PvnnLXwEvg-rig</recordid><startdate>20081001</startdate><enddate>20081001</enddate><creator>Katti, Vadiraj</creator><creator>Prabhu, S.V.</creator><general>Elsevier Inc</general><general>Elsevier</general><scope>IQODW</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7TB</scope><scope>7U5</scope><scope>8FD</scope><scope>FR3</scope><scope>H8D</scope><scope>KR7</scope><scope>L7M</scope></search><sort><creationdate>20081001</creationdate><title>Influence of spanwise pitch on local heat transfer distribution for in-line arrays of circular jets with spent air flow in two opposite directions</title><author>Katti, Vadiraj ; Prabhu, S.V.</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c391t-675495831fb3c7a9a405a696dfc109c7cd4e063685374fae8bbe94e170b1e74b3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2008</creationdate><topic>Applied sciences</topic><topic>Energy</topic><topic>Energy. Thermal use of fuels</topic><topic>Exact sciences and technology</topic><topic>Fluid dynamics</topic><topic>Fundamental areas of phenomenology (including applications)</topic><topic>Heat transfer</topic><topic>Jet impingement cooling</topic><topic>Jets</topic><topic>Multiple jets</topic><topic>Physics</topic><topic>Theoretical studies. Data and constants. Metering</topic><topic>Turbulent flows, convection, and heat transfer</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Katti, Vadiraj</creatorcontrib><creatorcontrib>Prabhu, S.V.</creatorcontrib><collection>Pascal-Francis</collection><collection>CrossRef</collection><collection>Mechanical & Transportation Engineering Abstracts</collection><collection>Solid State and Superconductivity Abstracts</collection><collection>Technology Research Database</collection><collection>Engineering Research Database</collection><collection>Aerospace Database</collection><collection>Civil Engineering Abstracts</collection><collection>Advanced Technologies Database with Aerospace</collection><jtitle>Experimental thermal and fluid science</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Katti, Vadiraj</au><au>Prabhu, S.V.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Influence of spanwise pitch on local heat transfer distribution for in-line arrays of circular jets with spent air flow in two opposite directions</atitle><jtitle>Experimental thermal and fluid science</jtitle><date>2008-10-01</date><risdate>2008</risdate><volume>33</volume><issue>1</issue><spage>84</spage><epage>95</epage><pages>84-95</pages><issn>0894-1777</issn><eissn>1879-2286</eissn><abstract>Effect of spanwise jet-to-jet spacing on local heat transfer distribution due to an in-line rectangular array of confined multiple circular air jets impinging on a surface parallel to the jet plate are studied experimentally. Length-to-diameter ratio of nozzles of the jet plate is 1.0. The flow, after impingement, is constrained to exit in two opposite directions from the confined passage formed between jet plate and target plate. Mean jet Reynolds numbers based on the nozzle exit diameter (
d) covered are 3000, 5000, 7500 and 10,000 and jet-to-plate spacings studied are
d, 2
d and 3
d. Spanwise pitches considered are 2
d, 4
d and 6
d in steps of 2
d keeping the streamwise pitch at 5
d. For all the configurations, the jet-plates have ten spanwise rows in streamwise direction and six jets in each spanwise row. Flat heat transfer surface is made of thin stainless steel metal foil. Local temperature distribution on a target plate is measured using thermal infrared camera. Wall static pressure on the target plate is measured in the streamwise direction to estimate crossflow velocities and individual jet velocities. Heat transfer characteristics are explained on the basis of the flow distribution. A simple correlation to predict streamwise distribution of heat transfer coefficients averaged over each spanwise strip resolved to one jet hole is developed.</abstract><cop>Amsterdam</cop><pub>Elsevier Inc</pub><doi>10.1016/j.expthermflusci.2008.07.004</doi><tpages>12</tpages></addata></record> |
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| ispartof | Experimental thermal and fluid science, 2008-10, Vol.33 (1), p.84-95 |
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| language | eng |
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| source | Elsevier ScienceDirect Journals Collection |
| subjects | Applied sciences Energy Energy. Thermal use of fuels Exact sciences and technology Fluid dynamics Fundamental areas of phenomenology (including applications) Heat transfer Jet impingement cooling Jets Multiple jets Physics Theoretical studies. Data and constants. Metering Turbulent flows, convection, and heat transfer |
| title | Influence of spanwise pitch on local heat transfer distribution for in-line arrays of circular jets with spent air flow in two opposite directions |
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