Turn to Turn Fault Detection for Air Core Reactors

The goal of this project is to create a small scale model of a 3 phase dry type shunt air core reactor in order to simulate and test inter-turn faults. The project will also entail an RTDS model of the system to further test more in depth fault scenarios, as well as correlating data.

Background
Avista deployed a system of air core reactors at their Noxon Rapids Dam in Montana in order to drop the bus voltage at the dam to help keep voltage levels even across the grid. Although the reactors have common protection schemes deployed already, there is currently no way for a protective relay to detect an inter-turn fault within a single phase of an air core reactor; a situation which could lead to complete failure and destruction of a reactor.

Deliverables


The goal of this project is to develop a protective relaying algorithm which will enable an IED, specifically an SEL 487E, to detect inter-turn faults within a single phase of an air core reactor.

Client Interview

 * Wrote a list of technical, budget, and miscellaneous questions for client to make sure we approached this project fitting our client's needs
 * From the answers we obtained, we were able to build a better foundation for starting this project
 * [[File:VARsity_Client_Question_Whiteboard.pdf]]

Lead Instructor and Technical Advisor Meetings

 * Every week we meet with our lead instructor and our technical advisor to go over the progress of the project
 * Topics such as due dates, technical progress, budgets, and brainstorming are all discussed during these meetings

Tour of Noxon Rapids Dam and Reactor Substation

 * The VARsity senior design team along with the graduate student mentor were given a tour of Avista's Noxon Rapids Dam and reactor substation in order to ask questions and learn more insight into exactly how the work performed in the senior design project would benefit our customer's SEL and Avista.

Calculations

 * [[File:Calculations_VARsity.PNG]]

Research

 * [[File:Practical_Consideration_and_Experiences_Protecting_230kV_Shunt_Air-Core_Reactor_Banks.pdf]]

Scaled Test Circuit
In order to create an environment for testing, it will be necessary to build a scaled test circuit that can operate at 120V per phase which we can use to manipulate in order to test for inter-turn faults.

For the small scale model air core reactors, we will be using Jantzen Audio 10mH 15AWG air core inductors as seen to the right. The plan is to have about 7 of these per phase hooked in series to create the modeled inductor bank. On one of the phases, a single coil will be removed and replaced with a self wound coil that has been manipulated in order to introduce a shorted winding fault into the circuit.

The phase current is to be limited to run below 5 Amps RMS in order to deviate from having to use potential and current transformers for relay metering purposes.

RTDS Model
In order to correlate data, it is necessary to have an RTDS model simulation program to see if certain test points give the same data during a fault condition. The model can also be easily scaled up to the rated values of the Noxon Reactor substation in order to see how well the small scale model correlates data during normal operating and fault conditions as opposed to the live system.

The RTDS model makes it easier to show the magnitude of the fault current that would flow through a shorted winding, as well as give the design team a good starting point as for the magnitude of fault to introduce on the small system.

Further down the road, the model may be used to hook up to an SEL relay's low level voltage test interface to be able to simulate the RTDS circuit to the relay to test protection schemes and validate relaying algorithms.

Minutes

 * [[File:9.14.16_Meeting_Minutes.pdf]]
 * [[File:9.20.16_Meeting_Minutes.pdf]]
 * [[File:9.28.16_Meeting_Minutes.pdf]]
 * [[File:10.4.16_Meeting_Minutes.pdf]]
 * [[File:10.21.16_Meeting_Minutes.pdf]]
 * [[File:10.25.16_Meeting_Minutes.pdf]]
 * [[File:11.1.16_Meeting_Minutes.pdf]]
 * [[File:11.8.16_Meeting_Minutes.pdf]]
 * [[File:11.15.16_Meeting_Minutes.pdf]]
 * [[File:11.29.16_Meeting_Minutes.pdf]]

Client Interview

 * [[File:VARsity_Client_Question_Whiteboard.pdf]]

Design Review

 * [[File:VARsity_Design_Review_1.pdf]]