UK fact that it has a longer life span

UK
National Grid Distribution System

Task 8

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a.       Summarise
the reasons for a three-phase supply network

A three-phase network is a commonly
used method to alternate current electric power into generation, transmission
and distribution. Worldwide Power Grids use the system to transfer power. The
main reasons the three-phase network was put in place is due to the fact that it
has a longer life span than that of a one-phase network. A three-phase network
will produce 3x the power of that of a single-phase network. Also with the
three-phase you get 3 wires instead of the usual 2 wires. Another reason three-phase
networks are used is the fact they can withstand more pressure and force. For
example, if a turbine has a single one-phase generator the probability of it
being shaken to the point of disconnection due to the vibrations and torque
varieties is quite high. However, a single three-phase generator could handle
this without any stress or problems.

Constant power is one of the three-phase network’s key
features. The power is constantly delivered all while the amount of conductor material
is less than a one-phase network. If a test was conducted for both a one-phase
and three-phase network, both networks running the same amount of power and
voltage. The results would show the three-phase come out on top of the two. “In
the long run the three-phase network is the best option as it is more economical
than a 2 wire one-phase network.” (Circuit Globe, 2018)

 

b.       Use
diagrams to show the voltages at all significant parts of the system, from
generation through to end user, and briefly explain the reason for the voltages
used

 

 

 

 

 

 

Consumers get electricity through
power stations. Wires and cables within the National Grid are used to transfer
electricity from power stations. “Energy is lost as heat when electricity is transferred
through wires and cables.” (Bbc.co.uk, 2018) The National Grid try to/must keep a low
flowing current to avoid losing more heat. The more heat is lost, the higher
the current gets. A high voltage is
needed to be able to transfer such a low current through cables and wires and
to keep the amount of energy from escaping as heat to a minimum. For example, “Power
stations produce electricity at 25,000V. Electricity is sent through the
National Grid cables at 400,000V, 275,000V and 132,000V.” (Bbc.co.uk,
2018) Power stations use step-up
transformers as they can create the extremely high voltages that are needed to
transmit electricity through power lines. Another transformer is used to
dramatically reduce the voltage before it enters an average household. This is
done through a step-down transformer, which is the last process before a safe voltage
of 230V is distributed into each household.

ADVANTAGES OF 3 PHASE OVER SINGLE PHASE SYSTEM –
CIRCUIT GLOBE

In-text: (Circuit Globe, 2018)

Your Bibliography: Circuit Globe. (2018). Advantages
of 3 Phase Over Single Phase System – Circuit Globe. online Available at:

Advantages of 3 Phase Over Single Phase System


Accessed 19 Jan. 2018.

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BBC – GCSE BITESIZE: THE NATIONAL GRID

In-text: (Bbc.co.uk, 2018)

Your Bibliography: Bbc.co.uk. (2018). BBC – GCSE
Bitesize: The National Grid. online Available at:
http://www.bbc.co.uk/schools/gcsebitesize/science/aqa_pre_2011/energy/using_electricityrev1.shtml
Accessed 19 Jan. 2018.

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  Check for grammar