The Role of the Plumage in Heat Transfer Processes of Birds

Analysis of Heat Transfer in the Structures with Regularly Arranged Gas CavitiesIn the work, the effective thermal conductivity (ETC) of anisotropic composite material (well-conducting media with regular cavities of the air) is studied by numerical modelling. The authors examine the influence of orientation and size of the cavities on the ETC of material structure and the role of thermal conduction, convection and radiation in the heat transfer processes. For modelling,Keratermtype material was chosen. It has been proved numerically that the ETC of similar structures is lower in the case when the cavities are oriented perpendicularly to the heat flux direction as compared with parallel orientation. According to the analysis performed, the radiation heat exchange in such cavities dominates over the convective heat transfer in the observed temperature range. In the calculations of ETC in structures of the kind, convection inside the cavities can be omitted. The proposed approach allows optimisation of the arrangement and size of the cavities in similar building materials.

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The Role of the Plumage in Heat Transfer Processes of Birds1

American Zoologist ◽

10.1668/0003-1569(2000)040[0575:trotpi]2.0.co;2 ◽

2000 ◽

Vol 40 (4) ◽

pp. 575-584 ◽

Cited By ~ 17

Author(s):

Blair O. Wolf ◽

Glenn E. Walsberg

Keyword(s):

Heat Transfer ◽

Transfer Processes

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The Role of Entropy Generation in Momentum and Heat Transfer

Journal of Heat Transfer ◽

10.1115/1.4005128 ◽

2012 ◽

Vol 134 (3) ◽

Cited By ~ 25

Author(s):

Heinz Herwig

Keyword(s):

Heat Transfer ◽

Temperature Field ◽

Entropy Generation ◽

Second Law ◽

Transfer Processes ◽

Second Law Analysis ◽

Momentum And Heat Transfer ◽

Transfer Problems

Entropy generation in a velocity and temperature field is shown to be very significant in momentum and heat transfer problems. After the determination of this postprocessing quantity, many details about the physics of a problem are available. This second law analysis (SLA) is a tool for conceptual considerations, for the determination of losses, both in the velocity and the temperature field, and it helps to assess complex convective heat transfer processes. These three aspects in conjunction with entropy generation are discussed in detail and illustrated by several examples.

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Role of radiation in heat transfer from nanoparticles to gas media in photothermal measurements

International Journal of Modern Physics C ◽

10.1142/s0129183119500244 ◽

2019 ◽

Vol 30 (04) ◽

pp. 1950024 ◽

Cited By ~ 4

Author(s):

Qing Xi ◽

Yunyun Li ◽

Jun Zhou ◽

Baowen Li ◽

Jun Liu

Keyword(s):

Heat Transfer ◽

Mean Free Path ◽

Photothermal Effect ◽

Thermal Boundary Conductance ◽

Solid Interface ◽

Transfer Processes ◽

Gas System ◽

The Mean ◽

Gas Molecules

The heat transfer from nanoparticles (NPs) to gas of photothermal effect is investigated by taking into account both conduction and radiation. The steady-state and unsteady-state heat transfer processes are studied analytically and numerically, respectively. In contrast to the photothermal effect in liquid with metal NPs, in which the radiation is negligible, we found that the thermal radiation must be taken into account in the nanoparticle–gas system. The reason is that the thermal boundary conductance (TBC) of gas–solid interface is several orders of magnitude smaller than the TBC of liquid–solid interface, especially when the diameter of nanoparticle is comparable to or smaller than the mean free path of gas molecules. We propose a method to measure the ultra-low TBC of interface between nanoparticle and gas based on our investigations.

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The Role of Entropy Generation in Momentum and Heat Transfer

2010 14th International Heat Transfer Conference, Volume 8 ◽

10.1115/ihtc14-23348 ◽

2010 ◽

Cited By ~ 3

Author(s):

Heinz Herwig

Keyword(s):

Heat Transfer ◽

Temperature Field ◽

Entropy Generation ◽

Second Law ◽

Transfer Processes ◽

Second Law Analysis ◽

Momentum And Heat Transfer ◽

Transfer Problems

Entropy generation in a velocity and temperature field is shown to be very significant in momentum and heat transfer problems. After the determination of this post-processing quantity many details about the physics of a problem are available. This second law analysis (SLA) is a tool for conceptual considerations, for the determination of losses, both in the velocity and the temperature field, and it helps to assess complex convective heat transfer processes. These three aspects in conjunction with entropy generation are discussed in detail and illustrated by several examples.

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