Interconnecting substations via superconductor cables to accommodate PHEV related load growth

Author

Howells, Kyle ; McCall, Jack ; Ross, Mike

Author_Institution

American Supercond. Corp., New Berlin, WI, USA

fYear

2010

fDate

27-29 Sept. 2010

Firstpage

55

Lastpage

62

Abstract

Paralleling two or more substations by interconnection of their low side buses is a simple and cost effective means to optimize the use of existing substation assets and to increase load-serving capability in light of significant, future load growth as is the case with PHEV adoption. This is particularly true in population dense areas where substation space constraints are common. Utilizing standard conductors to implement low-side bus ties involves issues of power transfer limitations, right-of-way limitations, electromagnetic fields (EMF), losses, and fault current, making such interconnections difficult or impossible. Implementing these connections with High Temperature Superconductor (HTS) cables addresses many of these issues due to their ability to carry very high power and manage fault current levels while requiring minimal right-of-way.

Keywords

electromagnetic fields; fault currents; high-temperature superconductors; hybrid electric vehicles; losses; power cables; power system interconnection; substations; wires (electric); PHEV; conductors; electromagnetic fields; fault current; high temperature superconductor; interconnecting substation; losses; power transfer limitations; right-of-way limitations; superconductor cables; Batteries; Cities and towns; High temperature superconductors; Loading; Power system reliability; Substations; Vehicles;

fLanguage

English

Publisher

ieee

Conference_Titel

Innovative Technologies for an Efficient and Reliable Electricity Supply (CITRES), 2010 IEEE Conference on

Conference_Location

Waltham, MA

Print_ISBN

978-1-4244-6076-2

Type

conf

DOI

10.1109/CITRES.2010.5619853

Filename

5619853