Title :
Power modulation of Sidney HVDC scheme. I. RAS control concept, realization and field tests
Author :
Johnson, R.K. ; Klemm, N.S. ; De Laneuville, H. ; Koetschau, S.G. ; Wild, G.
Author_Institution :
Western Area Power Adm., Golden, CO, USA
fDate :
10/1/1989 12:00:00 AM
Abstract :
The 200 MW back-to-back Sidney (Nebraska) Converter Station (SCS) provides an asynchronous tie between the east and west AC power networks. In order to maintain electromechanical stability of the east network under worst-case line outage conditions, a remedial action scheme (RAS) was integrated in the HVDC (high-voltage direct-current) control. Basic components of the SCS RAS are frequency-dependent power modulation combined with an effective voltage control in the western network. The authors present the conceptual development of the RAS, as well as details on the RAS control hardware and software. Studies and live system tests have demonstrated the ability of the relatively fast HVDC controls to change the power infeed from the DC station quickly. These rapid changes in power transfer properly coordinated with speed deviation of a nearby generation unit, help maintain, and in some cases improve, the electromechanical stability of the AC system
Keywords :
DC power transmission; power convertors; power system computer control; power system interconnection; voltage control; AC power networks; Nebraska; Sidney HVDC scheme; asynchronous tie; back-to-back converter; control hardware; electromechanical stability; frequency-dependent power modulation; power infeed; power transfer; remedial action scheme control; software; voltage control; worst-case line outage conditions; Capacitors; Computer simulation; Frequency synchronization; HVDC transmission; Hardware; Power system stability; Power systems; System testing; USA Councils; Voltage control;
Journal_Title :
Power Delivery, IEEE Transactions on
