This technical paper is hosted by Mosaic Industries, Inc. as a service to those who may otherwise have difficulty finding this technical resource. • For embedded computers and single board computers consult Mosaic Industries, Inc. at http://www.mosaic-industries.com/ • For technical guidance related to embedded systems and instrument design, consult the Mosaic Documentation Web at http://www.mosaic-industries.com/embedded-systems/microcontroller • For design guidance about ribbon cable current capability, consult Ribbon Cable Current Rating at http://www.mosaic-industries.com/embedded-systems/electronic-instrument- design-new-product-development/cables/ribbon-cable-current-rating The Calculation of the Temperature Rise and Load Capability of Cable Systems by J. H. Neher and M. H. McGrath This Neher–McGrath paper describes a method of estimating the steady-state temperature of electrical power cables for commonly encountered configurations. By estimating the temperature of the cables, cables’ safe long-term current-carrying capacity (termed “ampacity”) is determined. The paper described two-dimensional highly symmetric simplified calculations which have formed the basis for many cable application guidelines and regulations. Complex geometries, or configurations that require three-dimensional analysis of heat flow, may require more complex tools such as finite element analysis. Their article is so useful that it is used as reference for the ampacity in standard tables. Primary citation: J. H. Neher and M. H. McGrath, The Calculation of the Temperature Rise and Load Capability of Cable Systems, AIEE Transactions, Part III, Volume 76, pp 752–772, October, 1957.
Welcome message from author
This document is posted to help you gain knowledge. Please leave a comment to let me know what you think about it! Share it to your friends and learn new things together.
Transcript
This technical paper is hosted by Mosaic Industries, Inc. as a service to those who may otherwise have difficulty finding this technical resource.
• For embedded computers and single board computers consult Mosaic Industries, Inc. at http://www.mosaic-industries.com/
• For technical guidance related to embedded systems and instrument design, consult the Mosaic Documentation Web at http://www.mosaic-industries.com/embedded-systems/microcontroller
• For design guidance about ribbon cable current capability, consult Ribbon Cable Current Rating at http://www.mosaic-industries.com/embedded-systems/electronic-instrument-design-new-product-development/cables/ribbon-cable-current-rating
The Calculation of the Temperature Rise and Load Capability of Cable Systems by J. H. Neher and M. H. McGrath
This Neher–McGrath paper describes a method of estimating the steady-state temperature of electrical power cables for commonly encountered configurations. By estimating the temperature of the cables, cables’ safe long-term current-carrying capacity (termed “ampacity”) is determined. The paper described two-dimensional highly symmetric simplified calculations which have formed the basis for many cable application guidelines and regulations. Complex geometries, or configurations that require three-dimensional analysis of heat flow, may require more complex tools such as finite element analysis. Their article is so useful that it is used as reference for the ampacity in standard tables. Primary citation: J. H. Neher and M. H. McGrath, The Calculation of the Temperature Rise and Load Capability of Cable Systems, AIEE Transactions, Part III, Volume 76, pp 752–772, October, 1957.
Related Documents
![584 IEEE TRANSACTIONS ON POWER DELIVERY, VOL. …users.auth.gr/~labridis/pdfs/Paper 32.pdf · the Neher and McGrath [11] analytical equations so that they would reflect the additional](https://static.cupdf.com/doc/110x72/5a70118e7f8b9a93538ba0d0/584-ieee-transactions-on-power-delivery-vol-usersauthgrlabridispdfspaper.jpg)
