UKs REVIEW on transformers
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Litreview
Key Factors of Electrical Transformers
Info: 5402 words (22 pages) Example Literature Review
Published: 6th Dec 2019
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Tagged: Engineering
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A transformer is an electrical device which is used for changing (transform) the a.c. voltages. It is based
on the principal of mutual induction. A transformer is essentially an a.c. device. It cannot work on d.c. . A
transformer changes only a.c. voltages/currents.
Transformer cross-section showing primary and secondary windings is a few inches tall (approximately
10 cm).
There are two types of transformer:-
Step up transformer
Step down transformer
A transformer which increases the a.c. voltage is called step up transformer.
A transformer which decreases the a.c. voltage is called step down transformer.
There are many types of energy loses in transformer. Major sources of energy lose are:-copper loss, iron
loss, leakage of magnetic flux, hystresis loss and magnetostriction. We cannot obtain full input power as
output power because of energy loses. Output power in a transformer is 90% of the input power.
It is used:-
as voltage regulator
For transmission of a.c.
For welding purposes etc
REVIEW OF LITERATURE
1) Development of Economical Analysis and Technical Solutions for Efficient Distribution Transformers
M.L.B. Martinez, , H.R.P.M. de Oliveira
Transformers are equipments applied to electrical systems to adjust voltage levels for consumption,
distribution, transmission, and generation needs. Actual technology indicates that they are responsible
for approximately one third of total network losses. These losses can be accounted as power utility costs,
costs to society and to the environment itself. The aim of this paper is to study the relationship between
the transformer costs and its losses. A method for collecting cost data and for building cost surfaces –
the so called “Production and Total Cost Surfaces” is presented. The economic analysis of transformer
designs considers a variation of the reference data of the main constructive parameters of a standard
transformer. Therefore, changes are introduced, amongst others, in the core dimensions, such as the
column circumscribed area, its diameter and the yoke area. This approach helps the power utilities to
purchase equipment according to the forecast demand, decreasing the total network losses.
2) Reducing Heat in a Transformer and increasing its Loading Capacity, by decreasing the Percentage of
Harmonics and Reactive Power
Submitted by A.F. Picanço
By M Duta et al
The paper deals with a situation that has taken place while working with average voltage transformers in
a cement factory. Due to the adjustable drives in the production flow, both with thyristors and with
variable frequency, current harmonics are introduced in the electrical network of the consumer. These
harmonics distort the wave forms of the supply voltage and of the current flowing through the
distribution equipment of the system. There are presented the results of the measurements obtained at
a cement factory belonging to the HEIDELBERG concern in Romania. By using a modern installation for
an automated filtering and compensation of the reactive energy, the current gets cleaned of harmonics
and the power factor increases, which makes it possible for the transformer to be efficiently loaded at a
charge as close as possible to the nominal load.
3) Selecting least-cost, energy efficient distribution transformers
Submitted by C de Salles
The SEEDT project, cooperation between energy agencies, institutes, electrical utilities, transformer
manufacturers and academic institutes, presents its new selection guide for energy efficient distribution
transformers (EEDT).
The guide describes losses in transformers, technical solutions for improving them and their energy
saving potential for the European Union. It continues to describe the cost of losses, and presents
methods for economic evaluation of investment decisions in high efficiency. The guide concludes by
proposing policy support mechanisms for EEDT.
This guide is for you if you are:
working in an electricity distribution company,
an industry, commercial or public organisation wanting to purchase a distribution transformer,
a facility manager,
a planner or equipment installer in charge of technical planning or preparing the purchase of a
distribution transformer in a client’s organisation.
This guide supports you in:
purchasing a distribution transformer for the least lifecycle cost,
achieving further energy and budget savings in your organisation,
Contributing to increasing energy security and reducing greenhouse gas emissions.
The European project SEEDT (Strategies for development and diffusion of energy-efficient distribution
transformers), carried out with financial support from the European Commission under the Intelligent
Energy – Europe programme and national co-financiers, aims to promote the use of energy-efficient
distribution transformers, which can be profitable for investors, and by contributing to European
Community energy savings, may help to fulfil EU energy policy targets.
4) Reducing electricity network lossesSubmitted by Roman Targosz
Based on a Discussion Webinar.
Losses in transmission and distribution networks represent the single biggest use in any electricity
system. In Europe, they consume
between 4 and 10% of electricity generated. What can be done to optimise the electricity system and
reduce these losses? Which countries are setting a good example? And what is the role of regulation
and policies on this point? Current tariff systems in most European countries are not really favouring
network efficiency, and what about the influence of increasingly distributed generation on future
network losses?