Power losses in steel pipe delivering very large currents

Author

McGee, Bruce C W ; Vermeulen, Fred E.

Author_Institution

McMillan-McGee Corp., Calgary, Alta., Canada

Volume

17

Issue

1

fYear

2002

fDate

1/1/2002 12:00:00 AM

Firstpage

25

Lastpage

32

Abstract

This paper presents a finite difference time domain solution for the electromagnetic fields in ferromagnetic conducting steel pipes of the type used to deliver large currents for in situ heating of heavy oil reservoirs and for in situ environmental decontamination. A method is described whereby a single measured hysteresis loop can be used to deduce the family of hysteresis loops that governs the variable magnetic behavior throughout the pipe wall. Hysteresis and eddy current losses are calculated, and it is shown that hysteresis effects greatly alter the eddy current distribution and can more than triple the total power losses in the steel pipe when compared to the power losses that would be present if hysteresis effects are ignored and magnetic permeability is assumed constant

Keywords

eddy current losses; electric heating; electromagnetic fields; finite difference time-domain analysis; magnetic hysteresis; magnetic permeability; oil technology; eddy current distribution; eddy current losses; electromagnetic fields; ferromagnetic conducting steel pipes; finite difference time domain solution; heavy oil reservoirs; hysteresis loop; hysteresis losses; hysteresis nonlinearities; in situ electrical heating; in situ environmental decontamination; magnetic permeability; power losses; steel pipe; time dependent magnetic fields; variable magnetic behavior; Decontamination; Eddy currents; Electromagnetic fields; Electromagnetic heating; Finite difference methods; Hydrocarbon reservoirs; Magnetic field measurement; Magnetic hysteresis; Petroleum; Steel;

fLanguage

English

Journal_Title

Power Delivery, IEEE Transactions on

Publisher

ieee

ISSN

0885-8977

Type

jour

DOI

10.1109/61.974184

Filename

974184