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Section 2: Selection and sizing of the heat pump

Process to select a heat pump

1. Confirm the building is suitable for a heat pump

installation as out lined in Section 6: Installation
considerations.

2. Accurately determine the buildings heat loss to EN

15316.

3. Decide on the maximum flow temperature.
4. Select the model of heat pump using the output

curves to EN14511

Mono energy operation

As the weather gets colder, the heat demand of the
building increases and the output of the heat pump
decreases. There becomes a tipping point where it is so
cold outside the output of the heat pump is not able to
heat the building alone. The LA MI range of heat pumps
are monoenergy heating devices. i.e. in the event of very
low external temperatures an electrically operated inline
flow boiler will automatically be activated to provide
additional heat and keep the building warm.

The  heat  pump  should  fully  meet  the  heat  consumption
down to a certain external temperature as specified by the
NHBC  and  summarised  in  Table  3.  The  MIS  3005  also
standard  states  outside  design  temperatures  for  different
locations in the UK. To comply with both pieces of advice
the system should be designed to operate to the lower of
the  two  design  temperatures.    If  this  is  not  the  case,  the
electrical inline flow boiler will operate more frequently and
increase the running costs.

External

temperature

England and Wales

-3



Scotland

-5



Table 3: External design temperatures (bivalent point) stated

by NHBC

Bivalent operation is when an additional heat source other
that electricity is used to supplement the heat load.
Integration of another boiler such as gas, oil or LPG is not

possible with the LA MI but is possible with Dimplex‟s

WPM range.

Accurately determining the building’s h

eat loss

It  is  essential  to  accurately  calculate  the  buildings  heat
loss  to  ensure the heat  pump  is correctly sized.  The  heat
loss  of  a  building  is  calculated  using  details  of  the
buildings  construction,  individual  room  sizes,  room
temperatures and air change rates.

Dimplex recommend calculating the buildings heat loss to
the standards defined in EN15316, this is also stipulated in

MIS 3005 which is required if the installation is going to be
MCS approved.

The total heat loss is made of two components; the fabric
losses  and the  ventilation  heat  losses.  Fabric  heat  losses
are  due  to  the transmission  of  heat  by conduction  though
the  buildings  structure  such  as  windows,  walls,  roof  and
floor. Ventilation heat losses are due to warm air escaping
the building and being replaced by cold air.

Total heat loss = Fabric Ventilation losses

Fabric heat loss (W) = U x A x T

Where: U = U value (w/m



A = Area of the wall, window, ceiling or floor (m

)

T = Temperature difference on either side of the

insulation (



Typical U values

New build

Walls

0.35

Windows

2.00

Roof

0.18

Floor

0.25

Table 4: Example U values for Fabric heat loss calculation.

Further details can be found in Dom 8 - Design of total

heating systems.

Ventilation heat loss (W) = V x R x T x F

Where: V = Room volume (m

)

R = Air change rate per hour

T = Temperature difference of air in and out (



Ventilation

Factor



It is beyond the scope of this document to give
all  the  necessary  values  to  calculate  the
buildings  total  heat  loss.  This  section  intends
to  outline  the  process  to  remind  the  system
designer to find the necessary information.