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Pompy kapilarne, jako wydajne elementy chłodzenia w układach elektronicznych

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EN
Capillary Pumps as Efficient Cooling Elements for Electronic Devices
Języki publikacji
PL
Abstrakty
PL
W artykule opisano wykorzystanie pomp kapilarnych do odprowadzania ciepła z elementów elektronicznych. Pompy kapilarne charakteryzują się wysoką efektywnością przenoszenia ciepła i dzięki tej własności mogą być stosowane do chłodzenia elementów elektronicznych dużej mocy. Opisana została zasada działania pompy kapilarnej oraz podstawowe rodzaje pomp. Zaprezentowano przegląd obecnego stanu wiedzy w tej tematyce.
EN
In this article an application of Capillary Pumps taking the heat away from the electronic components has been described. Capillary Pumps are characterised by a high efficiency of heat transfer. Owing to this property they may be used for high power elements cooling. Operating principle of the Capillary Pumps and their basic types have been presented. Knowledge on the Capillary Pumps has been collated.
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Bibliografia
  • [1] Aspar B, Joly J.P., Jaussaud C., Di Cioccio L., Bruel M., Moriceau H., Letertre F., Hugonnard-Bruyere E.; "New semiconductor hetero-substrates for high temperature applications using the Smart-Cut-R) technology", High Temperature Electronics, 1999. HITEN 99. 3rd European Conference on 4-7 July 1999, pp. 67-73.
  • [2] Azar K., Moffat R.; "Evaluation of Different Heat Transfer Coefficient Definitions", Electronic Cooling, 1, 1, 1995, pp. 21-23.
  • [3] Balageas D., Boscher D., Déom A., Fournier J., Gardette G.; "Measurement of Convective Heat Transfer Coefficients in Wind Tunnels using Passive and Stimulated Infrared thermography", Rech. Aerosp., 4, 1991, 51-72.
  • [4] Bar-Cohen A., Kraus A.D.; "Advances in Thermal Modeling of Electronic Components and Systems", vol.1. Hemisphere Publ. Corp. New York, 1988.
  • [5] Baumann J., Kroliczek E.; "Developmnet of the cryogenic capillary pumped loop", 33rd Intersociety Engineering Conference on Energy Conversion Colorado Springs, CO, August 2-6, 1998.
  • [6] Bazzo E., Riehl R.R.; "Operation characteristics of a small-scale capillary pumped loop", Applied Thermal Engineering 23 -2003) 687-705.
  • [7] Bugby D.; "Heat Pipe Architecture Offers Flexible Thermal Control", COTS Journal, July 2005.
  • [8] Butler D., Hoang T.; "The Enhanced Capillary Pumped Loop Flight Experiment: A Prototype of the EOS Platform Thermal Control System", AIAA Paper No. 91-1377, 1991.
  • [9] Butler D., Ottenstein L., Ku J.; "Desing Evolution of the Capillary Pumped Loop -CAPL 2) Flight Experiment", SAE Paper No. 9614131, 1996.
  • [10] Cardone G., Astarita T., Carlomagno G.; "Infrared Thermography to Measure Local Heat Transfer Coefficients on a Disk Rotating in Still Air", Proceedings of the Workshop Advanced Infrared Technology and Applications, Baccini & Baldi, Firenze, 1996, 143-153.
  • [11] Carlomagno G.; "Thermo-fluid-dynamic applications of quantitative infrared thermography", Int. J. of Flow Visualisation and Image Processing, 4, 1998, 261-280.
  • [12] Chen P.C., Lin W.K.; "The application of capillary pumped loop for cooling of electronic components", Applied Thermal Engineering 21, pp.1739-1754, 2001.
  • [13] Cullimor B.; "Start Up Transients in Capillary Pumped Loops", AIAA Paper No. 91-1374, 1991.
  • [14] Dean D.J.; "Thermal Design of Electronic Circuit Boards and Packages", Electrochemical Pub. Ltd. Essex, 1985.
  • [15] Ellinger F., Morf T., von Büren G., Kromer Ch., Sialm G., Rodoni L., Schmatz M., Jäckel H.; "60 GHz VCO with Wideband Tuning Range Fabricated on VLSI SOI CMOS Technology", Microwave Symposium Digest, 2004 IEEE MTT-S Int.; pp, 1329-1332 Vol.3; 6-11 June 2004;
  • [16] Faghri A.; "Heat Pipe Science and Technology", Taylor & Francis, Washington, DC, 1995.
  • [17] Figus C., Ounougha L., Bonzom P., Supper W., Puillet C.; "Capillary fluid loop developments in Astrium", Applied Thermal Engineering 23, pp.1085-1098, 2003.
  • [18] Furukawa M.; "Methods and analysis for capillary pumped loop pressure/temperature control", 31st AIAA Thermophysics Conference, New Orleans, LA, Paper AIAA 96-1831, 1996.
  • [19] Garner S.D.; "Heat pipes for electronics cooling applications", Thermacore Inc, 1999.
  • [20] Gaugler R.S.; "Heat Transfer Means", U.S. Patent 2350348, 1944.
  • [21] Gopalakrishna S., Jaluria Y.; "Computational Study of Heat and Mass Transfer in a single Screw Extruder for Non-Newtonian Materials, Advanced Computational Methods in Heat Transfer- Natural and Forced Convection", Elsevier, London, 2, 1990, 363-376.
  • [22] Gottschlich J.M., Richter R.; "Thermal power loops", 1991 SAE Aerospace Atlantic, Dayton, OH, SAE Technical Paper 911188, 1991.
  • [23] Hallinan K.P., Allen J.S.; "Comments on the Operation of Capillary Pumped Loop Devices in Low Gravity", Proceedings of the Fourth Microgravity Fluid Physics and Transport Phenomena Conference, 1999.
  • [24] Hamdan M., Gerner F.M., Henderson H.T.; "Steady State Model of a Loop Heat Pipe -LHP) with Coherent Porous Silicon -CPS) Wick in the Evaporator", 19th Annual IEEE Semiconductor Thermal Measurement and Management Symposium -SEMI-THERM), March 11-13, 2003, San Jose, California.
  • [25] Holman J.P.; "Heat Transfer", McGrawHill International Book Company, Auckland, 1985.
  • [26] Hoang T.T.; "Development of an Advanced Capillary Pumped Loop", ICES July 1997.
  • [27] Hoang T.T.; "Design and Test of a Proof-of-Concept Advanced Capillary Pumped Loop", ICES July 1997.
  • [28] Hoang T., Ku J.; "Hydrodynamic Aspects of Capillary Pumped Loops", SAE 26th International Conference on Environment Systems Monterey, California, July 8-11, 1996
  • [29] Hoang T., Ku J.; "Theory of hydrodynamic stability for capillary pumped loops", 1995 National Heat Transfer Conference Portland, Oregon, August 6-9, 1995; ASME HTD-Vol. 307, pp. 33-40.
  • [30] Janke W.; "Zjawiska termiczne w elementach i układach półprzewodnikowych", WNT, Warszawa 1992.
  • [31] Joung W., Yu T., Lee J.; "Experimental study on the loop heat pipe with a planar bifacial wick structure", International Journal of Heat and Mass Transfer -2007).
  • [32] Kaya T., Pe´rez R., Gregori C., Torres A.; "Numerical simulation of transient operation of loop heat pipes", Applied Thermal Engineering -2007).
  • [33] Kim J., Abbay S., Hoang T., Ku J.; "Advanced Capillary Pumped Loop", Proceedings of 11th International Heat Pipe Conference, Japan, Sept. 1999.
  • [34] Kim S., Lee S.; "Air Cooling Technology for Electronic Equipment", CRC Press, Boca Raton, 1996.
  • [35] Kirshberg J., Yerkes K., Trebotich D., Liepmann D.; "Cooling Effect of a MEMS-Based Micro Capillary Pumped Loop for Chip-level Temperature Control", Int. Mech. Eng. Congress and Exposition, Orlando, FL -2000).
  • [36] Kolos K.R., Herold K.E.; "Low Frequency Temperature and Fluid Oscillations in Capillary Pumped Loops", 1997 National Heat Transfer Conference, Baltimore, MD, Paper AIAA 97-3872, 1997.
  • [37] Ku J.; "Operating Characteristics of Loop Heat Pipes", 29th International Conference on Environmental System, July 12-15, 1999, Denver, Colorado.
  • [38] Ku J.; "Start-Up Issues of Capillary Pumped Loops", IX International Heat Pipe Conference, Albuquerque, New Mexico, May 1-5, 1995.
  • [39] Ku J., Hoang T.; "An Experimental Study of Pressure Oscillation and Hydrodynamic Stability in a Capillary Pumped Loop", Proceedings of 1995 National Heat Transfer Conference, ASME HTD-Vol. 307, 1995.
  • [40] Ku J., Hoang T.; "Theory of Hydrodynamic Stability for Capillary Pumped Loops", Nat. Heat Transfer Conf., Portland, OR, ASME HTD 307, 25, 1995.
  • [41] Ku J., Hoang T., Nguyen T., Yun S.; "Performance of CAPL-2 Starter Pump Cold Plates", 31st AIAA Thermophysics Conference, New Orleans, LA, Paper AIAA 96-1837, 1996.
  • [42] Ku J., Kroliczek E., McCabe Jr M.E., Benner S.M.; "A high power spacecraft thermal management system", AIAA Thermophysics, Plsamadynamics and Laser Conference, San Antonio, TX, Paper AIAA 88-2702, 1988.
  • [43] Ku J., Kroliczek E., McIntosh R.; "Analytical modeling of the capillary pumped loop", Proceedings of the 6th International Heat Pipe Conference, Grenoble, France, 1987.
  • [44] Ku J., Ottenstein L., Cheung K., Hoang T., Yun S.; "Ground Test of Capillary Pumped Loop -CAPL 3) Flight Experiment", 28th International Conference on Environmental System, Danvers, Massachusetts, July 13-16, 199
  • [45] Legierski J.; "Rury cieplne w systemach chłodzenia układów elektronicznych - modelowanie i eksperymenty", Rozprawa doktorska, Politechnika Łódzka, Łódź 2006.
  • [46] Legierski J., Więcek B.; "Moduły z rurami cieplnymi do chłodzenia układów i urządzeń elektronicznych", Kwartalnik Elektroniki i Telekomunikacji, T. 45 z, 3-4 pp. 419-432 sum, 1999.
  • [47] Legierski J., Więcek B; "Heat pipes cooling fins for VLSI integrated circuits", XXII KKTOiUE Warszawa, 1999.
  • [48] Legierski J., Więcek B., de Mey G.; "Measurements and simulations of transient characteristics of heat pipes", Microelectronics and Reliability, Volume 46, Issue 1, January 2006, Pages 109-115.
  • [49] Lin H.W., Lin W.K.; "An axial heat transfer analytical model for capillary-pumped loop vapor line temperature distributions", Applied Thermal Engineering 27 -2007) 2086-2094.
  • [50] Lisik Z.; "Modelowanie cieplnych, elektrycznych i elektrotermicznych własności przyrządów półprzewodnikowych mocy", Zeszyty Naukowe, Nr 645, Politechnika Łódzka, 1992.
  • [51] Luciński J., "Układy tyrystorowe", WNT, Warszawa, 1979.
  • [52] Maidanik Yu., Fershtater Y., Pastukhov V. G., Chernysheva M.; "Experimental and Theoretical Investigation of Startup Regimes of Two-Phase Capillary Pumped Loops", 23rd International Conference on Environmental Systems. Colorado Spirngs, CO. SAE Technical Paper Series 932305, 1993.
  • [53] Maydanik Yu. F.; "Loop Heat Pipes"; Applied Thermal Engineering, Volume 25, Issues 5-6, April 2005, pp. 635-657.
  • [54] Maydanik Yu. F.; "Review - Loop heat pipes", Applied Thermal Engineering 25 -2005) 635-657.
  • [55] Michalski L., Eckersdorf K.; "Pomiary temperatury", WNT, Warszawa 1985.
  • [56] Moon S.H., Hwang G.; "Development of the Micro Capillary Pumped Loop for Electronic Cooling", 13th International Worshop on THERMal INvestigations of ICs and Systems, Budapest, Hungary 17-19 September 2007, p. 72-76.
  • [57] Muraoka I., Ramos F.M., Vlassov V.V.; "Experimental and theoretical investigation of a Capillary Pumped Loop with a porous element in the condenser", Int. Comm. H. M. Transf. Vol. 25, No. 8, pp 1085-1094, 1998.
  • [58] Napieralski A., Napieralska M.; "Polowe półprzewodnikowe przyrządy dużej mocy", ISBN 83-204-1817-8, WNT Warszawa 1995.
  • [59] O'Connell T., Hoang T.; "Effects of Wick Properties on Pressure Oscillations in a Capillary Pumped Loop", SAE 26th International Conference on Environment Systems Monterey, California, July 8-11, 1996.
  • [60] O'Connell T., Hoang T., Ku J.; "Effects of Transport Line Diameter on Pressure Oscillation in a Capillary Pumped Loop", AIAA June 1996.
  • [61] O'Connell T., Hoang T., Ku J., "Investigation of power turn down transients in CAPL-1 flight experiment", 30th AIAA Thermophysics Conference, San Diego, CA, Paper AIAA 95-2067, 1995.
  • [62] Oosthuizen, P., Elepano, A., "Free Convective Heat Transfer from a Heated Cylinder in an Enclosere with a Cooled Upper Surface and Inclined Side Wall, Advanced Computational Methods in Heat Transfer - Natural/Forced Convection and Combustion Simulation", Elsevier, London, 2, 1992, 3-17.
  • [63] Oosthuizen P., Nquyen T., "Heat Transfer from a Heated Cylinder Buried in a Frozen Porous Medium in an Enclosure with a Cooled Top Surface, Advanced Computational Methods in Heat Transfer - Natural/Forced Convection and Combustion Simulation", Elsevier, London, 2, 1992, 457-475.
  • [64] Ottenstein L., Butler D., Ku J., Cheung K., Baldauff R., Hoang T.; "Flight Testing of the Capillary Pumped Loop 3 Experiment", STAIF Feb 2003.
  • [65] Ottenstein L., Ku J., Butler D.; "Testing of Components for the Capillary Pumped Loop flight Experiment", SAE Paper No. 932235, 1993
  • [66] Ottenstein L., Ku J., Butler D.; "Thermal Vacuum Testing of the Capillary Pumped Loop Flight Experiment", SAE Paper No. 94159, 1994.
  • [67] Pettigrew K., Kirshberg J., Yerkes K., Trebotich D., Liepmann D.; "Performance of a MEMS based Micro Capillary Pumped Loop for Chip-Level Temperature Control", 14th IEEE Int. Conference on Micro Electro Mechanical Systems, Interlaken, Switzerland, 21-25 Jan. 2001, 427-30.
  • [68] Pouzet E., Joly J.L., Platel V., Grandpeix J.Y., Butto C.; "Dynamic response of a capillary pumped loop subjected to various heat load transients", International Journal of Heat and Mass Transfer 47 -2004) 2293-2316.
  • [69] Riehl R.R., Camargo H.V.R., Heinen L., Bazzo E.; "Experimental Investigation Of A Capillary Pumped Loop Towards Its Integration On A Scientific Microsatellite", Proceedings of IMECE'02 2002 ASME International Mechanical Engineering Congress & Exposition New Orleans, Louisiana, November 17-22, 2002.
  • [70] Riehl R.R., Ochterbeck J.M.; "Experimental Investigation Of The Convetcive Condensation Heat Transfer In Microchannel Flows", IX Congresso Brasileiro De Engengaria E Ciencias Térmicas 9th Brazilian Congress Of Thermal Engineering And Sciences, Paper CIT02-0495.
  • [71] Riehl R.R., Reimbrecht E., Camargo H.V.R., Bazzo E.; "Ground testing and thermodynamic behavior of a capillary pumping two-phase loop", Proceedings of the 12th International Heat Pipe Conference, Moscow - Russia, May 19-24, pp. 96-101, 2002.
  • [72] Riehl R.R., Santos N.D.; "Loop heat pipe performance enhancement using primary wick with circumferential grooves", Applied Thermal Engineering -2007), doi: 10.1016/j.applthermaleng.2007.11.005.
  • [73] Stenger F.J.; "Experimental feasibility study of water-filled capillary-pumped heat-transfer loops", NASA TM X-1310, 1966.
  • [74] Tomlinson, B.J. Jr.; "Steady state analysis of the USAF Phillips Laboratory CapillaryPumped Loop Testbed", Energy Conversion Engineering Conference, 1997. IECEC-97., Proceedings of the 32nd Intersociety, pp. 1397-1402 Vol. 2, 27 July-1 August 1997.
  • [75] Trebotich D., Kirshberg J., Teng J., Liepmann D.; "Optimization of a MEMS based Micro Capillary Pumped Loop for Chip-level Temperature Control", Modeling and Simulation of Microsystems, ISBN 0-9708275-0-4, 2001.
  • [76] Tsujimori A., Kato M., Uchida M.; "Heat transport characteristics of the Capillary Pumped Loop for cooling the tower-type computer - 2nd Report: Considering the inclination of the evaporator", 10th IEEE I-THERM, 2006.
  • [77] Vershinin S. V., Maydanik Yu. F.; "Investigation of pulsations of the operating temperature in a miniature loop heat pipe", International Journal of Heat and Mass Transfer -2007).
  • [78] Wajman T., Felczak M., Berliński M., Więcek B.; "Chłodzenie kapilarne układów elektronicznych"; V KK TTP, Ustroń 14-16 listopada, 2002;
  • [79] Wajman T., Felczak M., Berliński M., Więcek B.; "Heat and mass transfer in capillaries for cooling electronics devices", QIRT, Dubrovnik, Sept. 2002;
  • [80] Wajman T., Więcek B., Felczak M., Berliński M.; "Thermal managements in high power electronics cooled down using capillary pomp"; Thermosense XXV Conference, 21-25 April 2003, Orlando, Florida, USA;
  • [81] Wan Z.M., Liu W., Liu Y.L., Nakayama A.; "Conjugate Numerical Investigation of a Miniature Flat Plate Evaporator of Capillary Pumped Loop", Proceedings of the 2007 IEEE International Conference on Mechatronics and Automation August 5-8, 2007, Harbin, China.
  • [82] Wang G., Mishkinis D., Nikanpour D.; "Capillary heat loop technology: Space applications and recent Canadian activities", Applied Thermal Engineering 28 -2008) 284-303.
  • [83] Więcek B.; "Heat Pipe Cooling Fins for Integrated Circuits", Workshop: The Seminar Thermic`98, Microtherm'98, Zakopane, 1998, 90-92.
  • [84] Więcek B.; "Odprowadzanie ciepła w układach elektronicznych ze szczególnym uwzględnieniem konwekcji naturalnej i promieniowania", Zeszyty Naukowe Politechniki Łódzkiej, Nr 820, 1999.
  • [85] Yang H., Khandekar S., Groll M.; "Operational limit of closed loop pulsating heat pipes", Applied Thermal Engineering 28 -2008) 49-59.
  • [86] Yu J., Chen H., Zhao H., Li Y.; "An experimental investigation on capillary pumped loop with the meshes wick", International Journal of Heat and Mass Transfer 50, pp. 4503-4507, 2007
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