HEAT ENERGY AND TRANSFER 215changes are reversible processes. When heat energy
flows to or from a substance and causes a change
of temperature, such as betweenAandB, between
CandDand betweenEandFin Figure 19.1, it is
calledsensible heat(since it can be ‘sensed’ by a
thermometer).
Heat energy which flows to or from a sub-
stance while the temperature remains constant, such
as betweenB and C and betweenD andE in
Figure 19.1, is calledlatent heat(latent means con-
cealed or hidden).
Problem 9. Steam initially at a temperature
of 130°C is cooled to a temperature of 20°C
below the freezing point of water, the loss of
heat energy being at a constant rate. Make a
sketch, and briefly explain, the expected
temperature/ time graph representing this
change.140
130
120100SteamABCDWaterIce80Temperature /°C604020− 200TimeFigure 19.2
A temperature/time graph representing the change
is shown in Figure 19.2. Initially steam cools until
it reaches the boiling point of water at 100°C. Tem-
perature then remains constant, i.e. betweenAand
B, even though it is still giving off heat (i.e. latent
heat). When all the steam at 100°C has changed to
water at 100°C it starts to cool again until it reaches
the freezing point of water at 0°C. FromCtoD
the temperature again remains constant until all the
water is converted to ice. The temperature of the ice
then decreases as shown.
Now try the following exerciseExercise 98 A further problem on change
of state- Some ice, initially at− 40 °C, has heat
supplied to it at a constant rate until
it becomes superheated steam at 150°C.
Sketch a typical temperature/time graph
expected and use it to explain the differ-
ence between sensible and latent heat.
[Similar to Figure 19.1, page 214]
19.5 Latent heats of fusion and
vaporisation
The specific latent heat of fusion is the heat
required to change 1 kg of a substance from the solid
state to the liquid state (or vice versa) at constant
temperature.
Thespecific latent heat of vaporisationis the
heat required to change 1 kg of a substance from a
liquid to a gaseous state (or vice versa) at constant
temperature.
The units of the specific latent heats of fusion and
vaporisation are J/kg, or more often kJ/kg, and some
typical values are shown in Table 19.1
The quantity of heatQsupplied or given out
during a change of state is given by:Q=mLwheremis the mass in kilograms andL is the
specific latent heat.
Thus, for example, the heat required to convert
10 kg of ice at 0°C to water at 0°Cisgivenby
10 kg×335 kJ/kg=3350 kJ or 3.35 MJ
Besides changing temperature, the effects of sup-
plying heat to a material can involve changes in
dimensions, as well as in colour, state and electri-
cal resistance. Most substances expand when heated
and contract when cooled, and there are many prac-
tical applications and design implications of thermal
movement (see Chapter 20).Problem 10. How much heat is needed to
melt completely 12 kg of ice at 0°C?
Assume the latent heat of fusion of ice is
335 kJ/kg.