StudentShare
Contact Us
Sign In / Sign Up for FREE
Search
Go to advanced search...
Nobody downloaded yet

Reciprocity among Transformers on Relay Vindication - Research Paper Example

Cite this document
Summary
The paper "Reciprocity among Transformers on Relay Vindication" presents that power transformers find a lot of applications today, especially in transmission lines and other high voltage applications. In a bid to enhance the efficiency of operation of these devices…
Download full paper File format: .doc, available for editing
GRAB THE BEST PAPER94% of users find it useful

Extract of sample "Reciprocity among Transformers on Relay Vindication"

Download file to see previous pages

The purpose of this project is to come up with a protection scheme for power transformers using digital relays. These should be able to offer advantages over what traditional protection schemes are not able to do. The project will make use of the MATLAB/SIMULINK environment to prove the functionality of a power transformer protected using the digital relay system. A number of algorithms will be implemented to determine the behavior of the transformer, especially when it comes to the avoidance of false tripping incidences.

Various approaches have been made in the past regarding the protection of power transformers. These have helped a great deal but have, however, failed in a number of areas. There have been cases of false tripping for some of these transformers, occasioned by the likes of magnetizing inrush currents, overexcitation currents, and harmonic restraints among others. With the advent of digital relays, however, it is possible to implement algorithms that may be useful in guarding against false tripping, as long as the conditions leading to these situations are known.

This becomes the basis of this project as far as the implementation of digital relays in the protection of power transformers is concerned. Differential protection is a protection mode that makes use of the fact that the difference between input and output currents can only be high in instances when internal faults exist in a particular zone of a device. These differences of current, also known as the differential current, play an important role in the protection of such a device using differential means.

There are also cases when substantial differential currents occur, though an internal fault may not be evident in such cases. As is with the case of current transformers, such situations arise from certain characteristics of such devices, and these include the saturation levels and nonlinearities that may occur within the current transformer. These characteristics directly affect the output currents of the specific power transformer that needs protection.

...Download file to see next pages Read More
Download file to see previous pages

Apart from overexcitation current, and a few instances of inrush currents, most solutions to problems of a transformer are solvable using a percent differential relay (Tripathy, Maheshwari & Verma, 2010). This works on the principle of adding two differential coils to the normal differential relay. These are fed to the relay by means of the zone-through current, and usually requires a carefully considered selection of resultant percent differential characteristics. There is always the need to connect current transformers on each side properly, as well.

Transformer Differential Protection For quite some time now, percentage restraint differential relays have been in use for protection purposes of transformers. The figure below shows a typical connection of one such relay. The working principle is such that the differential elements in the protection circuit analyze and do comparison of current by means of a restraining current. The operation current, Id, which also doubles up as the differential current, is gotten by adding together the phasors of currents that get into the protected element: The differential current is usually proportional to the fault currents in the event that internal faults arise, hence it is expected that this current will always tend towards zero when the conditions under which the transformer operates are ideal (Eissa, 2005).

Various options are available for the process of obtaining the restraining current from in the case above, which may be any of the following: This is such that k is the compensation factor, which may be either 1 or 0.5. In the event that the differential current goes above a specified percentage of the restraining current, the differential relay releases a trip signal. Provided the primary currents produced by the current transformers are correct, differential relays will always work well for the case of external faults.

Once any to the current transformers saturates at different levels, there may be a case of false triggering, which results from the indication of false operating current. There are a number of differential relays that make use of harmonics resulting from current transformers in the case of added restraint to avoid such false triggering of the trip signal. At the same time, percentage differential relays have a slope characteristic that offers considerable security for instances of external faults with current transformer saturation.

This may be further advanced using a dual-slope characteristic or a variable-percentage for instances of heavy current transformer saturation. FALSE DIFFERENTIAL CURRENT There are several instances when the false differential current may be produces. This is based on a number of occurrences, such that differential current may flow, when no fault exists in the system, such that the magnitude of these currents is sufficient to cause the differential relay to send a trip signal. During these occasions, ideally, the system should not be disconnected by the differential relay since such are not resulting from the internal fault of the transformer.

In most cases, such happenings emanate from the nonlinearities occurring in the core of the transformer, and include inrush currents, over excitation conditions, current- transformer saturation and harmonic restraint currents. Magnetizing inrush currents These currents arise from sudden changes in the magnetizing voltage within the transformer. Much as they are associated with the energization of the transformer, these currents may also be caused by other factors such as the change of a fault character (Sortomme, Venkata & Mitra 2010).

This may be occasioned by situations such as the development of a phase-to-phase-to-ground fault from a phase to ground fault. In addition, another leading cause of inrush currents is as a result of an external fault. After occurrence of these external faults, there is also a possibility of inrush currents arising from voltage recovery in such incidences. When a generator is connected, and its synchronization is out of phase, it may be another cause of inrush currents.

...Download file to see next pages Read More
Cite this document
  • APA
  • MLA
  • CHICAGO
(Reciprocity among Transformers on Relay Vindication Research Paper Example | Topics and Well Written Essays - 6000 words, n.d.)
Reciprocity among Transformers on Relay Vindication Research Paper Example | Topics and Well Written Essays - 6000 words. https://studentshare.org/engineering-and-construction/2063589-transformer-protection-report
(Reciprocity Among Transformers on Relay Vindication Research Paper Example | Topics and Well Written Essays - 6000 Words)
Reciprocity Among Transformers on Relay Vindication Research Paper Example | Topics and Well Written Essays - 6000 Words. https://studentshare.org/engineering-and-construction/2063589-transformer-protection-report.
“Reciprocity Among Transformers on Relay Vindication Research Paper Example | Topics and Well Written Essays - 6000 Words”. https://studentshare.org/engineering-and-construction/2063589-transformer-protection-report.
  • Cited: 0 times
sponsored ads
We use cookies to create the best experience for you. Keep on browsing if you are OK with that, or find out how to manage cookies.
Contact Us