Pool boiling heat transfer on deformable structures made of shape-memory-alloys

Pool boiling heat transfer on deformable structures made of shape-memory-alloys

•Deformable structure is made to achieve optimal effect at different condition.•The influences of deformable structure on heat transfer performance are studied.•Choosing the appropriate time for different liquids to open tunnels is important.•A new correlation is deduced by using fitting curves with...

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Veröffentlicht in:International journal of heat and mass transfer 2017-09, Vol.112, p.236-247
Hauptverfasser: Hao, Wei, Wang, Tao, Jiang, Yu-yan, Guo, Cong, Guo, Chao-hong
Format: Artikel
Sprache:eng
Schlagworte:
Adaptive control
Alloys
Bubbles
Correlation analysis
Curve fitting
Curves
Deformation
Deformation effects
Deformation mechanisms
Ethanol
Fins
Formability
Geometry
Heat flux
Heat transfer
Heat transfer coefficients
Heat transfer enhancement
Nucleation
Pool boiling
Shape memory alloys
Thermodynamic properties
Tunnels
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container_end_page 247
container_issue
container_start_page 236
container_title International journal of heat and mass transfer
container_volume 112
creator Hao, Wei
Wang, Tao
Jiang, Yu-yan
Guo, Cong
Guo, Chao-hong
description •Deformable structure is made to achieve optimal effect at different condition.•The influences of deformable structure on heat transfer performance are studied.•Choosing the appropriate time for different liquids to open tunnels is important.•A new correlation is deduced by using fitting curves with experimental results. More and more fixed geometry structures are being manufactured to enhance the boiling heat transfer (BHT). However, they usually perform well at a special heat load and don't always have good BHT properties. Applying shape memory alloy (SMA) material to change the geometry is a new solution to achieve optimal effect at different boiling condition. Pool boiling heat transfer on deformable structures made of SMA in three fluids (ethanol, FC-72, water) with different thermal properties was explored. Comparing heat flux versus wall superheat and heat transfer coefficient (HTC) at different fluxes with fixed geometry, it was found that deformable structure combines the merits of closed-tunnel and open-tunnel. At low heat fluxes, it can increase the number of nucleation sites inside the closed tunnels with bent fins and after reverting to the original shape, the nucleation sites are activated and the bubble growth and departure is accelerated to enhance the HTC significantly. So by choosing the appropriate time and opportunity for different fluids to open the tunnels, the deformable structures can be used to achieve adaptive-control of boiling heat transfer. In terms of theoretical analysis, the existing correlations for fixed structures have not been fit for deformable structures, because large-scale deformation make the heat transfer mechanism different from the fixed geometry structure. Thus experimental results are compared with fitting curves and a new correlation was deduced.
doi_str_mv 10.1016/j.ijheatmasstransfer.2017.04.113
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More and more fixed geometry structures are being manufactured to enhance the boiling heat transfer (BHT). However, they usually perform well at a special heat load and don't always have good BHT properties. Applying shape memory alloy (SMA) material to change the geometry is a new solution to achieve optimal effect at different boiling condition. Pool boiling heat transfer on deformable structures made of SMA in three fluids (ethanol, FC-72, water) with different thermal properties was explored. Comparing heat flux versus wall superheat and heat transfer coefficient (HTC) at different fluxes with fixed geometry, it was found that deformable structure combines the merits of closed-tunnel and open-tunnel. At low heat fluxes, it can increase the number of nucleation sites inside the closed tunnels with bent fins and after reverting to the original shape, the nucleation sites are activated and the bubble growth and departure is accelerated to enhance the HTC significantly. So by choosing the appropriate time and opportunity for different fluids to open the tunnels, the deformable structures can be used to achieve adaptive-control of boiling heat transfer. In terms of theoretical analysis, the existing correlations for fixed structures have not been fit for deformable structures, because large-scale deformation make the heat transfer mechanism different from the fixed geometry structure. 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More and more fixed geometry structures are being manufactured to enhance the boiling heat transfer (BHT). However, they usually perform well at a special heat load and don't always have good BHT properties. Applying shape memory alloy (SMA) material to change the geometry is a new solution to achieve optimal effect at different boiling condition. Pool boiling heat transfer on deformable structures made of SMA in three fluids (ethanol, FC-72, water) with different thermal properties was explored. Comparing heat flux versus wall superheat and heat transfer coefficient (HTC) at different fluxes with fixed geometry, it was found that deformable structure combines the merits of closed-tunnel and open-tunnel. At low heat fluxes, it can increase the number of nucleation sites inside the closed tunnels with bent fins and after reverting to the original shape, the nucleation sites are activated and the bubble growth and departure is accelerated to enhance the HTC significantly. So by choosing the appropriate time and opportunity for different fluids to open the tunnels, the deformable structures can be used to achieve adaptive-control of boiling heat transfer. In terms of theoretical analysis, the existing correlations for fixed structures have not been fit for deformable structures, because large-scale deformation make the heat transfer mechanism different from the fixed geometry structure. 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More and more fixed geometry structures are being manufactured to enhance the boiling heat transfer (BHT). However, they usually perform well at a special heat load and don't always have good BHT properties. Applying shape memory alloy (SMA) material to change the geometry is a new solution to achieve optimal effect at different boiling condition. Pool boiling heat transfer on deformable structures made of SMA in three fluids (ethanol, FC-72, water) with different thermal properties was explored. Comparing heat flux versus wall superheat and heat transfer coefficient (HTC) at different fluxes with fixed geometry, it was found that deformable structure combines the merits of closed-tunnel and open-tunnel. At low heat fluxes, it can increase the number of nucleation sites inside the closed tunnels with bent fins and after reverting to the original shape, the nucleation sites are activated and the bubble growth and departure is accelerated to enhance the HTC significantly. So by choosing the appropriate time and opportunity for different fluids to open the tunnels, the deformable structures can be used to achieve adaptive-control of boiling heat transfer. In terms of theoretical analysis, the existing correlations for fixed structures have not been fit for deformable structures, because large-scale deformation make the heat transfer mechanism different from the fixed geometry structure. Thus experimental results are compared with fitting curves and a new correlation was deduced.</abstract><cop>Oxford</cop><pub>Elsevier Ltd</pub><doi>10.1016/j.ijheatmasstransfer.2017.04.113</doi><tpages>12</tpages></addata></record>
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subjects Adaptive control
Alloys
Bubbles
Correlation analysis
Curve fitting
Curves
Deformation
Deformation effects
Deformation mechanisms
Ethanol
Fins
Formability
Geometry
Heat flux
Heat transfer
Heat transfer coefficients
Heat transfer enhancement
Nucleation
Pool boiling
Shape memory alloys
Thermodynamic properties
Tunnels
title Pool boiling heat transfer on deformable structures made of shape-memory-alloys
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