1.5 Macrgeneration

Question 1

In the box provided in the figure above, clearly label component X. {1}

Answer 1

X; Turbine tower. {1}

Question 2

The figure below illustrates the main phases in the
large scale generation of electricity from fossil fuels. Outline the phases taking
place at A and B in the figure below. {2}

Answer 2

A; Combustion of fuel {1} to produce steam {1}.
B; Steam driving a turbine {1} which is connected to a generator to produce
electricity {1}.

Question 3

Figure 1 below shows the main phases in the
generation of electricity from fossil fuels. Identify the forms of energy which
have been labelled A and B in the diagram; {2}

Answer 3

A; Heat energy {1}
B; Kinetic energy {1}

Question 4

With reference to the diagram in figure 1 above outline
the phases which happen between turbine, condenser and boiler. {2}

Answer 4

The steam from the turbine passes to the condenser which may be a cooling
tower or lake {1} and this changes it back to water before returning it to the
boiler to be reheated {1}.

Question 5

Renewable energy sources can be used to generate
electricity either directly or indirectly. Give one example of their use to generate
electricity directly and one example of their use to generate electricity indirectly.
{2}

Answer 5

Direct use One from Wind, Hydroelectric, Wave or Tidal. {1}
Indirect use One from Solar Photovoltaic or Biomass. {1}

Question 6

Renewable energy sources can be categorized into two groups, direct and
indirect.
(i): Identify two direct renewable energy sources. {2}
(ii): Explain what is meant by the term indirect renewable energy source. {2]

Answer 6

(i): Any two of the following:
Wind, Hydroelectricity, Wave, Tidal. {2}

(ii). An indirect renewable source of energy will take energy from a renewable
source {1} such as the sun and using a physical
characteristic of the material being used, convert this energy into electrical
energy. {1}

Question 7

Identify the main energy transformations that take place in
the wind turbine. {2}

Answer 7

Kinetic energy transferred from the shaft (connected from the rotor, through
gearbox, to the generator), to relative rotational motion (kinetic energy) between
a metal coil and a magnetic field in the generator. {1}

This results in electromagnetic induction. On other words kinetic energy of
relative motion is transferred into inducted electrical energy. {1}

Question 8

Fig. 1 shows a schematic diagram of a hydroelectric power installation. Identify
the forms of energy which have been labelled A and B in the diagram. {2}

Answer 8

A: Potential Energy {1}
B: Electrical Energy {1}

Question 9

With reference to Fig. 1 describe how electricity is distrubuted through the
National Grid. {5}

Answer 9

Power stations generate electricity at 22kV {1}
This is stepped up to high voltage (275 kV or 400 kV) by transformers. {1}
Electricity is transmitted at high voltage to reduce energy losses in wires. {1}
Voltage is stepped down by transformers close to consumers. {1}
Electricity is distributed to homes at 240V. {1}

Question 10

Using the information in the figure below, explain
how a smart grid facilitates the incorporation of electricity generated from
renewable sources. {3}

Answer 10

The energy produced from renewable sources varies over time. {1}

A ‘SMART’ grid systems computer measures the amount of electricity that is
being produced at any point in time and then increases of decreases the
amount of non-renewable that needs to be generated to meet the requirements.{1}

In doing so the ‘SMART grid’ enables the amount of pollutant / carbon dioxide
produced to be minimised. {1}

Question 11

Explain the concept of a smart grid. {2}

Answer 11

A computer-controlled electricity network that switches input from one energy
source to another {1} as demand for energy varies on the grid {1}

Question 12

Outline one way in which a smart grid can facilitate
the efficient supply and distribution of electricity. {1}

Answer 12

Any one from;
By using a network of intelligent meters located throughout the grid to
accurately predict demand {1}

By incorporating electricity generated by a wide range of energy sources,
including renewables, in order to meet demand {1}

By incorporating energy generated from international energy sources {1}

Question 13

Identify another name by which Combined Heat and Power
(CHP) is also known. {1}

Answer 13

Cogeneration. {1}

Question 14

Discuss the role of Combined Heat and Power in improving
energy efficiencies in traditional power plants. {4}

Answer 14

Combined Heat and Power (CHP) integrates the production of usable heat and
power (electricity) {1}
In one single, highly efficient process {1}
CHP generates electricity whilst also capturing usable heat that is produced in
this process {1}
This contrasts with traditional ways of generating electricity where vast amounts
of heat are wasted. {1}

Question 15

State another name by which Combined Heat and Power (CHP) is also known.
{1}

Answer 15

Cogeneration {1}

Question 16

Discuss how CHP can improve energy efficiencies in the production of heat and
power and contrast this with the processes in traditional power plants. {4}

Answer 16

Combined Heat and Power (CHP) integrates the production of usable heat and
power (electricity) {1}
in one single, highly efficient process {1}.
CHP generates electricity whilst also capturing usable heat that is produced in this process {1}.
This contrasts with traditional ways of generating electricity where vast amounts
of heat are wasted {1}.