DEVELOPMENT OF SINGLE-PHASED WATER-COOLING RADIATOR FOR COMPUTER CHIP 被引量：4

DEVELOPMENT OF SINGLE-PHASED WATER-COOLING RADIATOR FOR COMPUTER CHIP

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摘要 In order to cool computer chip efficiently with the least noise, a single phase water-cooling radiator for computer chip driven by piezoelectric pump with two parallel-connection chambers is developed. The structure and work principle of this radiator is described. Material, processing method and design principles of whole radiator are also explained. Finite element analysis （FEA） software, ANSYS, is used to simulate the heat distribution in the radiator. Testing equipments for water-cooling radiator are also listed. By experimental tests, influences of flowrate inside the cooling system and fan on chip cooling are explicated. This water-cooling radiator is proved more efficient than current air-cooling radiator with comparison experiments. During cooling the heater which simulates the working of computer chip with different power, the water-cooling radiator needs shorter time to reach lower steady temperatures than current air-cooling radiator. In order to cool computer chip efficiently with the least noise, a single phase water-cooling radiator for computer chip driven by piezoelectric pump with two parallel-connection chambers is developed. The structure and work principle of this radiator is described. Material, processing method and design principles of whole radiator are also explained. Finite element analysis （FEA） software, ANSYS, is used to simulate the heat distribution in the radiator. Testing equipments for water-cooling radiator are also listed. By experimental tests, influences of flowrate inside the cooling system and fan on chip cooling are explicated. This water-cooling radiator is proved more efficient than current air-cooling radiator with comparison experiments. During cooling the heater which simulates the working of computer chip with different power, the water-cooling radiator needs shorter time to reach lower steady temperatures than current air-cooling radiator.

作者 ZENG Ping CHENG Guangming LIU Jiulong YANG Zhigang SUN Xiaofeng PENG Taijiang

机构地区 College of Mechanical Engineering and Automatization Department of Mechettonics

出处《Chinese Journal of Mechanical Engineering》 SCIE EI CAS CSCD 2007年第2期77-81,共5页 中国机械工程学报（英文版）

基金 This project is supported by National Hi-tech Research and Development Program of China (863 Program, No. 2002AA404250) National Natural Science Foundation of China (No. 50575093).

关键词 Computer chip Water-cooling Piezoelectric pump Radiator ANSYS simulation Simulative heater Computer chip Water-cooling Piezoelectric pump Radiator ANSYS simulation Simulative heater

分类号 TN4 [电子电信—微电子学与固体电子学] TP303.1 [自动化与计算机技术—计算机系统结构]

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参考文献1

1阚君武,杨志刚,程光明.压电泵的现状与发展[J].光学精密工程,2002,10(6):619-625. 被引量：58

二级参考文献30

1Woias P. Micropumps-summarizing the first two decades [J].SPIE, 2001,4560: 39-52.
2Spencer W J, Corbett W T, Dominguez L R, et al. An electronically controlled piezoelectric insulin pump and valves [J]. IEEE Trans. Sonics Ultrasonbics, 1978, SU-25(3): 153-156.
3van Lintel H T G, van de Pol F C M,Bouwstra S. A piezoelectric micropump based on micromachining of silicon [J]. Sensors and Actuators, 1988,15:153-167.
4Linnemann R, Woias P, Senff C D, et al. A self-priming and bubble-tolerant piezoelectric silicon micropump for liquids and gases [A]. Proc. of the 11th IEEE MEMS 1998 Technical Digest[C]. Heidelberg, Germany, 25-29,1998: 532-537.
5Mailefer D, van Lintel H, Mermet G R, et al. A High-performentce silicon micropump for an implantable drug delivery system [A]. Proc. of the 12th IEEE MEMS 1999 Technical Digest[C]. Orlando, Florida,USA, 1/17-21/99:541-546.
6Shoji S, Nakagawa S, Esashi N. Micropump and sample-injector for integrated chemical analysis system [J]. Sensors and Actuators A, 1990,21-23:189-192.
7Ederer I, Raetsch P, Schullerus W, et al. Piezoelectrically driven micropump for on-demand fuel-drop generation in an automobile heater with continuously adjustable power output [J]. Sensors and Actuators A, 1997, 62: 752-755.
8Li H Q, Roberts D C, Steyn J L, et al. A high frequency high flow rate piezoelectrically driven MEMS micropump [A]. Proceeding IEEE Solid State Sensors and Actuators Workshop[C]. Hilton Head,2000.
9Michael K, Nick H, Evans AL G R, et al. A novel micromachined pump based on thick-film piezoelectric actuation [J]. Sensors and Actuators A, 1998, 70: 98-103.
10Nguyen N T, White R M. Design and optimization of an ultrasonic flexural plate wave micropump using simulation [J]. Sensors and Actuators, 1999, 77:229-236.

共引文献57

1华国荣,朱小明,杨丽红.新型泵的工作原理及其特点[J].中国水运（下半月）,2020(5):84-86.
2曾平,程光明,刘九龙,孙晓锋,赵艳龙.双腔薄膜阀压电泵的实验研究[J].光学精密工程,2005,13(3):311-317. 被引量：16
3杨树臣,程光明,刘国君,刘建芳.微型压电泵系统的设计研究[J].光学精密工程,2005,13(3):318-323. 被引量：16
4焦小卫,黄卫清,赵淳生.压电泵技术的发展及其应用[J].微电机,2005,38(5):66-69. 被引量：15
5曾平,程光明,刘九龙,杨志刚,郑丽兵.集成式计算机芯片水冷系统的研究[J].西安交通大学学报,2005,39(11):1207-1210. 被引量：23
6许晓慧,鲁健,朱龙洋,褚家如.基于激光多普勒技术的PZT薄膜压电性能测试研究[J].光学精密工程,2005,13(6):658-663. 被引量：3
7孙晓锋,李欣欣,杨志刚,刘九龙,程光明.带整体开启阀的双腔串联压电薄膜泵[J].吉林大学学报（工学版）,2006,36(4):529-533. 被引量：11
8曾平,程光明,刘九龙,孙晓峰.压电泵为动力源的计算机芯片水冷系统研究[J].压电与声光,2006,28(4):403-406. 被引量：15
9张建辉,路计庄,夏齐霄,王守印.压电振子及流体对泵近场噪声的影响[J].光学精密工程,2006,14(4):628-634. 被引量：7
10夏齐霄,张建辉,李洪.非对称坡面腔底无阀压电泵[J].光学精密工程,2006,14(4):641-647. 被引量：32

同被引文献32

1吴丽萍,程光明,曾平,杨志刚,吴银柱.单振子双腔体无阀压电泵结构设计与机理分析[J].光学精密工程,2007,15(7):1044-1048. 被引量：7
2ZhangJianhui,XiaQixiao,LaiDehua,OnukiAkiyoshi,HongZhen.DISCOVERY AND ANALYSIS ON CAVI TATION IN PIEZOELECTRIC PUMPS[J].Chinese Journal of Mechanical Engineering,2004,17(4):591-594. 被引量：6
3曾平,程光明,刘九龙,孙晓锋,赵艳龙.双腔薄膜阀压电泵的实验研究[J].光学精密工程,2005,13(3):311-317. 被引量：16
4李强,宣益民,陈小波.小型CPL用高性能烧结毛细芯的研制[J].粉末冶金技术,2005,23(5):330-333. 被引量：7
5李强,陈小波,钱吉裕,宣益民.小型CPL启动与运行特性的实验研究[J].自然科学进展,2006,16(9):1186-1190. 被引量：2
6袁柳林,刘胜,陈明祥,罗小兵.基于微通道致冷的大功率LED阵列封装热分析[J].半导体光电,2006,27(6):712-716. 被引量：23
7RIEHL R R, DUTRA T. Development of an experimental loop heat pipe for application in future space missions[J]. Applied Thermal Engineering, 2005, 25: 101-112.
8CAO Y, FAGHRI A. Analytical solutions of flow and heat transfer in a porous structure with partial heating and evaporation on the upper surface[J]. Int. J. Heat and Mass Transfer, 1994, 37(10): 1 525-1 553.
9FIGUS C, LE BRAY Y, PRAT M, et al. Heat and mass transfer with phase change in a porous structure partially heated: Continuum model and pore network simulation[J]. Int. J. Heat Mass Transfer, 1999, 42(11): 2 557-2 569.
10YAN Y H, OCHTERBECK J M. Numerical investigation of the steady-state operation of a cylindrical capillary pumped loop evaporator[J]. Journal of Electronic Packaging, 2003, 125(2): 251-260.

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1万忠民,刘伟,明廷臻,刘志春.新型微小型平板CPL蒸发器流动与传热分析[J].机械工程学报,2010,46(4):99-104. 被引量：1
2万忠民,陈敏,刘伟,刘靖.基于多孔微热沉的大功率LED冷却技术研究[J].机械工程学报,2010,46(8):109-113. 被引量：20
3JIN Jiamei,WANG Yin,YANG Ying,ZHANG Jianhui.Fluid Pump Using a Bar-shaped Piezoelectric Transducer[J].Chinese Journal of Mechanical Engineering,2011,24(6):1130-1135.
4Yukun Lv,Quanzhi Ge,Zhuang Wei,Shuang Yang.A Research on the Flow Characteristics of a Splitter-Based Water Cooling System for Computer Boards[J].Fluid Dynamics & Materials Processing,2021,17(4):833-844. 被引量：1

二级引证文献22

1宋思洪,廖强,沈卫东.采用低熔点液态金属工质散热的热沉传热数值模拟[J].机械工程学报,2011,47(14):146-150. 被引量：7
2包涵,黄学章.用于余热回收的毛细泵系统的制作与实验研究[J].能源与环境,2011(4):60-61. 被引量：1
3周帼彦,涂善东,轩福贞,王正东.开孔泡沫金属紧凑式换热器高温力学性能研究[J].机械工程学报,2011,47(16):112-119. 被引量：1
4黄磊,陈洪林.LED照明散热研究进展[J].广州化工,2012,40(8):26-30. 被引量：19
5陈燕虎,杨灿军,李德骏,金波.海底观测网接驳盒电源散热机理研究[J].机械工程学报,2013,49(2):121-127. 被引量：8
6宋思洪,廖强,沈卫东,曹春兰.潜热型低熔点液态金属功能热流体的制备及热物理特性研究[J].机械工程学报,2013,49(2):133-138. 被引量：3
7韩沈丹,赵康,汤玉斐,徐雷.多层低温流延法制备片状氧化铝多孔陶瓷[J].硅酸盐学报,2013,41(2):140-144. 被引量：4
8王婷,谷波,赵鹏程,张萍.燃料电池汽车动力控制模块水冷冷板的性能仿真及评估[J].机械工程学报,2013,49(18):150-158. 被引量：7
9王志斌,张健,刘丽君,张骞,刘永成.大功率LED螺旋扁管水冷散热技术[J].光子学报,2013,42(11):1350-1354. 被引量：6
10王志斌,刘永成,李志全.双进双出射流水冷大功率LED散热系统研究[J].光子学报,2014,43(7):15-20. 被引量：8

1沈建苗.芯片冷却新法:电暴[J].微电脑世界,2004(7):27-27.
2张骐.神华集团信息化系统建设实施的原则和业务准备[J].神华科技,2011,9(3):3-4. 被引量：1
3张孝飞.数据备份在高校数字图书馆数据安全中的应用[J].情报探索,2011(6):93-95. 被引量：7
4Cool down computer chips with liquid metal device driven by the heat of chips[J].Bulletin of the Chinese Academy of Sciences,2008,22(2):79-80.
5王青,陈宁,孙伟锋,陆生礼,时龙兴.A digital prediction algorithm for a single-phase boost PFC[J].Journal of Semiconductors,2012,33(12):86-92. 被引量：2
6龙乐.封装外壳散热技术及其应用[J].电子与封装,2008,8(3):6-10.
7赵君风,陈茜,荣春英,余丽萍,廉世勋.A tunable yellow emission from three-band emission of singly doped single-phased phosphor BaY_2S_4:Ho^(3+)[J].Journal of Rare Earths,2011,29(5):436-439.
8邱建宇.新时期如何做好广播电视节目监测工作[J].西部广播电视,2016,37(21):211-211.
9孙宪民.城区配电自动化的工作原则、系统组成与模式分析[J].科技与企业,2013(19):133-133. 被引量：1
10高新技术[J].中国科技投资,2008(9):10-10.

Chinese Journal of Mechanical Engineering

2007年第2期

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