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Analyzing and modeling on optimized L-ratio of evaporator section to condenser section for micro heat pipe heat sinks
This paper is focused on modeling and analysis on the determination of the optimized L-ratio, or L/sub e//L/sub c/, for the length of evaporator section to the length of condenser section of cylindrical heat pipes, for a heat sink in the horizontal position. The independent variables (for an equippe...
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creator | Xiao Ping Wu Mochizuki, M. Saito, Y. Nguyen, T. Wuttijumnong, V. Wu, D. |
description | This paper is focused on modeling and analysis on the determination of the optimized L-ratio, or L/sub e//L/sub c/, for the length of evaporator section to the length of condenser section of cylindrical heat pipes, for a heat sink in the horizontal position. The independent variables (for an equipped heat pipe on which all fixtures are firmed) in the function of the total thermal resistance are L/sub e/ and L/sub c/. Given the fact that this function has a local minimum between two fixed end points, the minimum extremal of the thermal resistance function can be obtained by taking the derivative of this functions and setting it to zero. Since the total length of a heat pipe, L, is constant, therefore L/sub c/ may be replaced by L-L/sub e/, then the differential equation can be solved. In this paper, a formula to analyze the optimal L/sub e//L/sub c/ ratio is established. Table 2 to table 4 show analyzed results for diameters from 4 mm to 6 mm micro heat pipes in assemblies which are currently quite popular in applications. |
doi_str_mv | 10.1109/STHERM.2003.1194360 |
format | conference_proceeding |
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The independent variables (for an equipped heat pipe on which all fixtures are firmed) in the function of the total thermal resistance are L/sub e/ and L/sub c/. Given the fact that this function has a local minimum between two fixed end points, the minimum extremal of the thermal resistance function can be obtained by taking the derivative of this functions and setting it to zero. Since the total length of a heat pipe, L, is constant, therefore L/sub c/ may be replaced by L-L/sub e/, then the differential equation can be solved. In this paper, a formula to analyze the optimal L/sub e//L/sub c/ ratio is established. 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The independent variables (for an equipped heat pipe on which all fixtures are firmed) in the function of the total thermal resistance are L/sub e/ and L/sub c/. Given the fact that this function has a local minimum between two fixed end points, the minimum extremal of the thermal resistance function can be obtained by taking the derivative of this functions and setting it to zero. Since the total length of a heat pipe, L, is constant, therefore L/sub c/ may be replaced by L-L/sub e/, then the differential equation can be solved. In this paper, a formula to analyze the optimal L/sub e//L/sub c/ ratio is established. Table 2 to table 4 show analyzed results for diameters from 4 mm to 6 mm micro heat pipes in assemblies which are currently quite popular in applications.</description><subject>Australia</subject><subject>Bonding</subject><subject>Conducting materials</subject><subject>Fixtures</subject><subject>Heat sinks</subject><subject>Heat transfer</subject><subject>Resistance heating</subject><subject>Thermal conductivity</subject><subject>Thermal force</subject><subject>Thermal resistance</subject><issn>1065-2221</issn><issn>2577-1000</issn><isbn>0780377931</isbn><isbn>9780780377936</isbn><fulltext>true</fulltext><rsrctype>conference_proceeding</rsrctype><creationdate>2003</creationdate><recordtype>conference_proceeding</recordtype><sourceid>6IE</sourceid><recordid>eNpFkMtOwzAURC0eEm3hC7rxD6Rcv-J4WVWFIhUhQVlXTnINhsaO4oDUfj2pWonVzByNZjGETBnMGANz_7ZZLV-fZxxADMBIkcMFGXGldcYA4JKMQRcgtDaCXZERg1xlnHN2Q8YpfQ0NzXM1Ij_zYHf7gw8f1IaaNrHG3THEQGPb-8YfsKbrrLO9jzQ6ir-2jUOKHU1YDTDQPtIqhhpDwn_ohkLjqy7ST7Q9bX2LJ5d8-E635NrZXcK7s07I-8Nys1hl65fHp8V8nXmmRZ8xWRvlKpDcGW2lLrDkwlrJsUTDnWVO5tZoripV5eBEWWqnJCuKI1BFLiZketr1iLhtO9_Ybr893yX-AHyTXyk</recordid><startdate>2003</startdate><enddate>2003</enddate><creator>Xiao Ping Wu</creator><creator>Mochizuki, M.</creator><creator>Saito, Y.</creator><creator>Nguyen, T.</creator><creator>Wuttijumnong, V.</creator><creator>Wu, D.</creator><general>IEEE</general><scope>6IE</scope><scope>6IH</scope><scope>CBEJK</scope><scope>RIE</scope><scope>RIO</scope></search><sort><creationdate>2003</creationdate><title>Analyzing and modeling on optimized L-ratio of evaporator section to condenser section for micro heat pipe heat sinks</title><author>Xiao Ping Wu ; Mochizuki, M. ; Saito, Y. ; Nguyen, T. ; Wuttijumnong, V. ; Wu, D.</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-i173t-14d95fc042f97a478eb23aa42ebe92fa1f46a9725c5c60f3bb7f541885c5c5863</frbrgroupid><rsrctype>conference_proceedings</rsrctype><prefilter>conference_proceedings</prefilter><language>eng</language><creationdate>2003</creationdate><topic>Australia</topic><topic>Bonding</topic><topic>Conducting materials</topic><topic>Fixtures</topic><topic>Heat sinks</topic><topic>Heat transfer</topic><topic>Resistance heating</topic><topic>Thermal conductivity</topic><topic>Thermal force</topic><topic>Thermal resistance</topic><toplevel>online_resources</toplevel><creatorcontrib>Xiao Ping Wu</creatorcontrib><creatorcontrib>Mochizuki, M.</creatorcontrib><creatorcontrib>Saito, Y.</creatorcontrib><creatorcontrib>Nguyen, T.</creatorcontrib><creatorcontrib>Wuttijumnong, V.</creatorcontrib><creatorcontrib>Wu, D.</creatorcontrib><collection>IEEE Electronic Library (IEL) Conference Proceedings</collection><collection>IEEE Proceedings Order Plan (POP) 1998-present by volume</collection><collection>IEEE Xplore All Conference Proceedings</collection><collection>IEEE Electronic Library Online</collection><collection>IEEE Proceedings Order Plans (POP) 1998-present</collection></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext_linktorsrc</fulltext></delivery><addata><au>Xiao Ping Wu</au><au>Mochizuki, M.</au><au>Saito, Y.</au><au>Nguyen, T.</au><au>Wuttijumnong, V.</au><au>Wu, D.</au><format>book</format><genre>proceeding</genre><ristype>CONF</ristype><atitle>Analyzing and modeling on optimized L-ratio of evaporator section to condenser section for micro heat pipe heat sinks</atitle><btitle>Ninteenth Annual IEEE Semiconductor Thermal Measurement and Management Symposium, 2003</btitle><stitle>STHERM</stitle><date>2003</date><risdate>2003</risdate><spage>185</spage><epage>190</epage><pages>185-190</pages><issn>1065-2221</issn><eissn>2577-1000</eissn><isbn>0780377931</isbn><isbn>9780780377936</isbn><abstract>This paper is focused on modeling and analysis on the determination of the optimized L-ratio, or L/sub e//L/sub c/, for the length of evaporator section to the length of condenser section of cylindrical heat pipes, for a heat sink in the horizontal position. The independent variables (for an equipped heat pipe on which all fixtures are firmed) in the function of the total thermal resistance are L/sub e/ and L/sub c/. Given the fact that this function has a local minimum between two fixed end points, the minimum extremal of the thermal resistance function can be obtained by taking the derivative of this functions and setting it to zero. Since the total length of a heat pipe, L, is constant, therefore L/sub c/ may be replaced by L-L/sub e/, then the differential equation can be solved. In this paper, a formula to analyze the optimal L/sub e//L/sub c/ ratio is established. Table 2 to table 4 show analyzed results for diameters from 4 mm to 6 mm micro heat pipes in assemblies which are currently quite popular in applications.</abstract><pub>IEEE</pub><doi>10.1109/STHERM.2003.1194360</doi><tpages>6</tpages></addata></record> |
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subjects | Australia Bonding Conducting materials Fixtures Heat sinks Heat transfer Resistance heating Thermal conductivity Thermal force Thermal resistance |
title | Analyzing and modeling on optimized L-ratio of evaporator section to condenser section for micro heat pipe heat sinks |
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