Experimental study of flat-disk loop heat pipe with R1233zd(E) for cooling terrestrial electronics

•A flat evaporator made of aluminum alloy was designed for ground applications.•R1233zd(E), an eco-friendly refrigerant, was selected as the working fluid.•The LHP could dissipate the heat of 190 W with an effective length of 790 mm.•The thermal performance was stable even at heat sink temperature o...

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Published in:Applied thermal engineering 2021-10, Vol.197, p.117385, Article 117385
Main Authors: Zhao, Runze, Zhang, Zikang, Zhao, Shuaicheng, Cui, Haichuan, Liu, Zhichun, Liu, Wei
Format: Article
Language:English
Subjects:
Aluminum alloys
Aluminum base alloys
Cooling
Eco-friendly working fluid
Electronic devices
Electronics
Evaporation
Evaporators
Flat-disk evaporator
Heat pipes
Heat sinks
Load tests
Loop heat pipe
Loop heat pipes
Pipes
Sintering (powder metallurgy)
Temperature
Terrestrial application
Thermal performance
Thermal resistance
Toxicity
Working fluids
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cited_by cdi_FETCH-LOGICAL-c358t-3dc70e55eb44055d8d23ae6071dd73f4a733ba7c8917b7a2bdcaeae1c66b66533
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container_end_page
container_issue
container_start_page 117385
container_title Applied thermal engineering
container_volume 197
creator Zhao, Runze
Zhang, Zikang
Zhao, Shuaicheng
Cui, Haichuan
Liu, Zhichun
Liu, Wei
description •A flat evaporator made of aluminum alloy was designed for ground applications.•R1233zd(E), an eco-friendly refrigerant, was selected as the working fluid.•The LHP could dissipate the heat of 190 W with an effective length of 790 mm.•The thermal performance was stable even at heat sink temperature of 30 °C.•The minimum LHP thermal resistance was 0.197 °C/W at 0 °C heat sink temperature. Flat evaporator loop heat pipes with good thermal performance and compact volume have been widely used in electronic device applications. A flat-disk evaporator loop heat pipe made of aluminum alloy was designed for terrestrial application in this paper. R1233zd(E) was selected as the working fluid for its ultra-low toxicity and environmentally friendly. The pumping force of the system, driving the working fluid circulation, was generated by the sintered capillary wick made from nickel powder. Considering the requirements for electronics and the capillary limit of the wick together, the target temperature was below 75 °C and the effective heat transfer length was set as 790 mm. With a heat sink temperature of −10 °C, it could dissipate the heat of 190 W (11.43 W/cm2). The performance investigation under bad external conditions was also carried out. A relatively broad operating range between the heat load of 10 W (0.60 W/cm2) and 130 W (7.82 W/cm2) was observed with a 30 °C heat sink temperature. However, slight temperature overshoot occurred during the start-up test but the system was able to self-regulate and stabilize quickly. Moreover, the variable heat load test, imitating the heat-dissipating demand for actual electronic devices, demonstrated that this system responded fast and operation failure did not happen. The minimum thermal resistance of the evaporator and the total LHP was 0.134 °C/W and 0.197 °C/W, respectively.
doi_str_mv 10.1016/j.applthermaleng.2021.117385
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Flat evaporator loop heat pipes with good thermal performance and compact volume have been widely used in electronic device applications. A flat-disk evaporator loop heat pipe made of aluminum alloy was designed for terrestrial application in this paper. R1233zd(E) was selected as the working fluid for its ultra-low toxicity and environmentally friendly. The pumping force of the system, driving the working fluid circulation, was generated by the sintered capillary wick made from nickel powder. Considering the requirements for electronics and the capillary limit of the wick together, the target temperature was below 75 °C and the effective heat transfer length was set as 790 mm. With a heat sink temperature of −10 °C, it could dissipate the heat of 190 W (11.43 W/cm2). The performance investigation under bad external conditions was also carried out. A relatively broad operating range between the heat load of 10 W (0.60 W/cm2) and 130 W (7.82 W/cm2) was observed with a 30 °C heat sink temperature. However, slight temperature overshoot occurred during the start-up test but the system was able to self-regulate and stabilize quickly. Moreover, the variable heat load test, imitating the heat-dissipating demand for actual electronic devices, demonstrated that this system responded fast and operation failure did not happen. 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Flat evaporator loop heat pipes with good thermal performance and compact volume have been widely used in electronic device applications. A flat-disk evaporator loop heat pipe made of aluminum alloy was designed for terrestrial application in this paper. R1233zd(E) was selected as the working fluid for its ultra-low toxicity and environmentally friendly. The pumping force of the system, driving the working fluid circulation, was generated by the sintered capillary wick made from nickel powder. Considering the requirements for electronics and the capillary limit of the wick together, the target temperature was below 75 °C and the effective heat transfer length was set as 790 mm. With a heat sink temperature of −10 °C, it could dissipate the heat of 190 W (11.43 W/cm2). The performance investigation under bad external conditions was also carried out. A relatively broad operating range between the heat load of 10 W (0.60 W/cm2) and 130 W (7.82 W/cm2) was observed with a 30 °C heat sink temperature. However, slight temperature overshoot occurred during the start-up test but the system was able to self-regulate and stabilize quickly. Moreover, the variable heat load test, imitating the heat-dissipating demand for actual electronic devices, demonstrated that this system responded fast and operation failure did not happen. 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subjects Aluminum alloys
Aluminum base alloys
Cooling
Eco-friendly working fluid
Electronic devices
Electronics
Evaporation
Evaporators
Flat-disk evaporator
Heat pipes
Heat sinks
Load tests
Loop heat pipe
Loop heat pipes
Pipes
Sintering (powder metallurgy)
Temperature
Terrestrial application
Thermal performance
Thermal resistance
Toxicity
Working fluids
title Experimental study of flat-disk loop heat pipe with R1233zd(E) for cooling terrestrial electronics
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