Approach to the analysis of Amtrak's systemwide grounding of the Northend Electrification Project

Approach to the analysis of Amtrak's systemwide grounding of the Northend Electrification Project

A model and method for the analysis of Amtrak's Northend Electrification project (USA) is presented. The voltage is stepped down at the traction substation by a center-tapped autotransformer. The power supply system consists of the feeder, trolley, rails and static conductors. The traction load...

Full description

Saved in:
Bibliographic Details
Published in:1999 IEEE Power Engineering Society Summer Meeting. Conference Proceedings (Cat. No.99CH36364) Vol. 1; pp. 451 - 456 vol.1
Main Authors: Natarajan, R., Imece, A.F., Popoff, J., Agarwal, K., Meliopoulos, S.
Format: Conference Proceeding
Language:English
Published: IEEE 1999
Subjects:
Bridge circuits
Grounding
Power supplies
Power system modeling
Rails
Safety
Substations
USA Councils
Voltage
Wires
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:A model and method for the analysis of Amtrak's Northend Electrification project (USA) is presented. The voltage is stepped down at the traction substation by a center-tapped autotransformer. The power supply system consists of the feeder, trolley, rails and static conductors. The traction load is applied between the trolley and rails as a single-phase load. In order to maintain near constant voltage along the traction-route, paralleling stations are equipped with autotransformers along the track. Furthermore, there are structures such as bridges and platforms along the traction route. The substation and the paralleling stations are provided with grounding grids, which are in turn connected to the static wires. The bridge and the platform grounds are connected to the rails or static wires. The rails and the static wires are connected at certain locations to provide continuity of the return system. The ground system along the entire system must be design so that safety of personnel and passengers is assured. The performance of the grounding system is assessed by analysis of the integrated power and grounding system. The maximum touch voltages at different locations are computed and compared with the IEEE Standard 80 values to ensure safety.
ISBN:9780780355699
0780355695
DOI:10.1109/PESS.1999.784390