Author : Todd A. Jankowski
Publisher :
Page : 132 pages
File Size : 10,39 MB
Release : 2007
Category : Heat pipes
ISBN : 9780549084587
In this work, a curved rotating heat pipe is studied numerically and experimentally. In certain types of rotating machines, heat generating components, which must be cooled during normal operation, are located at some radial distance from the axis of rotation. The bent heat pipe studied here is shown to have advantages when compared to the conventional straight heat pipes in these off-axis cooling scenarios.
Author :
Publisher :
Page : 152 pages
File Size : 25,22 MB
Release : 2007
Category :
ISBN :
Rotating and revolving heat pipes have been used in a variety of applications including heat pipe heat exchangers, cooling of rotating electrical machines, and heat removal in high speed cutting operations. The use of heat pipes in rotating environments has prompted many analytical, numerical, and experimental investigations of the heat transfer characteristics of these devices. Past investigations, however, have been restricted to the study of straight heat pipes. In this work, a curved rotating heat pipe is studied numerically and experimentally. In certain types of rotating machines, heat generating components, which must be cooled during normal operation, are located at some radial distance from the axis of rotation. The bent heat pipe studied here is shown to have advantages when compared to the conventional straight heat pipes in these off-axis cooling scenarios. The heat pipe studied here is built so that both the condenser and evaporator sections are parallel to the axis of rotation. The condenser section is concentric with the axis of rotation while the evaporator section can be placed in contact with off-axis heat sources in the rotating machine. The geometry is achieved by incorporating an S-shaped curve between the on-axis rotating condenser section and the off-axis revolving evaporator section. Furthermore, the heat pipe uses an annular gap wick structure. Incorporating an annular gap wick structure into the heat pipe allows for operation in a non-rotating environment. A numerical model of this rotating heat pipe is developed. The analysis is based on a two-dimensional finite-difference model of the liquid flow coupled to a one-dimensional model of the vapor flow. Although the numerical model incorporates many significant aspects of the fluid flow, the flow in the actual heat pipe is expected to be threedimensional. The rotating heat pipe with the S-shaped curve is also studied experimentally to determine how well the numerical model captures the key aspects of the fluid flow and heat transfer.
Author : P. J. Marto
Publisher :
Page : 68 pages
File Size : 18,69 MB
Release : 1972
Category : Heat
ISBN :
An approximate theoretical model is derived for laminar film condensation on the inside of a rotating, truncated cone, and is used to predict the heat transfer performance of rotating, non-capillary heat pipes for a wide variety of parametric conditions. Experimental results are presented for water, ethyl alcohol, and freon-113 in a stainless steel heat pipe rotating to speeds of 2800 rpm. Results show that these devices can be used effectively to transfer large quantities of heat in rotating systems. Predicted results agree to within + or - 20 percent of the experimental data. Dropwise condensation, instead of film condensation, improves heat pipe performance while the presence of non-condensible gases impairs performance.
Author : P. J. Marto
Publisher :
Page : 68 pages
File Size : 20,17 MB
Release : 1973
Category : Heat
ISBN :
Author : Thaveesak Boonpongmanee
Publisher :
Page : 191 pages
File Size : 23,80 MB
Release : 2005
Category :
ISBN :
Author : Paul J. Marto
Publisher :
Page : 44 pages
File Size : 33,63 MB
Release : 1970
Category : Heat
ISBN :
An analytical review of the operation of rotating, non-capillary heat pipes is presented, including a discussion of film condensation on the inside of a rotating, truncated cone. Predicted results so far obtained indicate that the heat transfer capability of rotating, non-capillary heat pipes depends upon condenser performance and is substantially higher than the capability of conventional, wick-limited heat pipes. The design and manufacture of an experimental rotating heat pipe apparatus is also described. (Author).
Author : P. J. Marto
Publisher :
Page : 0 pages
File Size : 31,25 MB
Release : 1970
Category : Heat
ISBN :
An analytical review of the operation of rotating, non-capillary heat pipes is presented, including a discussion of film condensation on the inside of a rotating, truncated cone. Predicted results so far obtained indicate that the heat transfer capability of rotating, non-capillary heat pipes depends upon condenser performance and is substantially higher than the capability of conventional, wick-limited heat pipes. The design and manufacture of an experimental rotating heat pipe apparatus is also described. (Author).
Author : P. G. Tucker
Publisher :
Page : 290 pages
File Size : 42,94 MB
Release : 1993
Category :
ISBN :
Author : F K. Al-Jumaily
Publisher :
Page : pages
File Size : 24,51 MB
Release : 1970
Category : Heat pipes
ISBN :
Author : Amir Faghri
Publisher : Global Digital Press
Page : 32 pages
File Size : 50,6 MB
Release : 1995-03
Category : Science
ISBN : 1560323833
Presents basic and advanced techniques in the analytical and numerical modeling of various heat pipe systems under a variety of operating conditions and limitations. It describes the variety of complex and coupled processes of heat and mass transfer in heat pipes. The book consists of fourteen chapters, two appendices, and over 400 illustrations, along with numerous references and a wide variety of technical data on heat pipes.
