Danfoss Heating Surfaces Installation guide

Brand: Danfoss

Model: Heating Surfaces

Type: Installation guide

DANFOSS HEATING

Danfoss Air

Installation guide for Danfoss Heating Surfaces

MAKING MODERN LIVING POSSIBLE

Index

1.0 Mounting electrical heating surfaces

1.1 About electrical pre-heating surfaces . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3

1.2 About electrical after heating surfaces . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3

1.3 Positioning of an electrical heating surface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4

1.4 Positioning of sensors. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4

1.5 Electrical connection and connecting communications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4

1.6 System overview – one heating surface connected . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5

1.7 System overview – two heating surfaces connected . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6

1.8 Troubleshooting table . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7

2.0 Mounting waterborne after heating surfaces

2.1 About waterborne after heating surfaces . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8

2.2 Positioning of a water heating surface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8

2.3 Positioning of sensors. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8

2.4 Hydraulic connection of water heating surfaces . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9

2.5 Electrical connection of water heating surfaces . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .10

2.6 Call for heating to the central heating system. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11

2.7 Troubleshooting table . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11

3.0 Mounting geothermal surfaces

3.1 Before you start. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .13

3.2 Dimensioning ground collectors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .13

3.3 Laying ground collectors. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .14

3.4 Filling with brine. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .15

3.5 Electrical connection. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .16

3.6 Installation in duct system . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .17

3.7 Positioning of sensors. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .17

3.8 Troubleshooting table . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .18

4.0 Technical data

4.1 Technical data – water heating surface W-AH 250 & geothermal surface Geo 250 . . . . . . . .19

4.2 Technical data – electrical heating surfaces EL-PH & EL-AH . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .20

Installation The Danfoss Air system – Heating surfaces

VIFKB102

1.1

About electrical

pre-heating surfaces

The electrical pre-heating surface is built into the

duct system on the outdoor air side.

The aim of the pre-heating surface is to ensure

that the temperature in the system remains above

freezing, which allows it to always guarantee the

required balance between the air intake and

extraction volumes.

Note: A system without a pre-heating surface

will gradually reduce the air intake volumes

during long term operation at outside tempera-

tures below -3°C in order to prevent freezing. In

an average house this is an excellent solution,

but in extremely airtight buildings (low energy

constructions), the imbalance could cause a

non-desirable negative pressure inside the house.

Installing a pre-heating surface is therefore

recommended here.

Note! The electrical heating surface must be

installed by a certiﬁed electrician.

The electrical After heating surface is built into

the duct system, on the air intake side. The

purpose of the After heating surface is to slightly

raise the supply air temperature, to prevent

discomfort in room where supply air is distributed.

Note: The electrical heating surface must be

installed by a certiﬁed electrician.

Installation 1.0 Mounting electrical heating surfaces

1.2

About electrical

after heating surfaces

Overview table, electrical pre-heating surface

50 cm 50 cm

230V, 50 Hz

A Extract air G Supply cable to the surface

B Supply air H Supply cable to automatic function

C Outdoor air I Communication cable HRV unit -> external controller.

D Exhaust air J Post-heating (to be insulated with mm glass/mineral

wool).

E Sensor placed before surface K External controller (must not be insulated)

F Sensor placed after surface

Overview table, electrical after heating surfaces

Isoleres med 50mm

sten- eller glasuld

50 cm

230V, 50 Hz

A Extract air G Supply cable to the surface

B Supply air H Supply cable to automatic function

C Outdoor air I Communication cable HRV unit -> external controller.

D Exhaust air J Post-heating (to be insulated with mm glass/mineral

wool).

E Sensor placed before surface K External controller (must not be insulated)

F Sensor placed after surface

VIFKB102

• The heating surface must be placed at a

minimum distance of twice the diameter of the

heating surface, to the nearest obstacle (be it

bends, external ﬁlters or the unit itself).

• The connection box on the actual heating

surface should face upwards or horizontally. It

must NOT face downwards.

• The heating surface MUST be insulated with

non-ﬂammable insulating material.

• Note: The cover of the electrical surface’s

external controller must NOT be insulated, but

must remain visible so that the manual

over-heating protection can be deactivated if

this is triggered unexpectedly.

• The heating surface must be placed a minimum of

30 mm from any wooden building components.

• Make sure that the surface faces in the correct

direction in relation to the direction of airﬂow

in the system. The arrow on the heating surface

must match the direction of airﬂow in the

system.

min 2 x Ø min 2 x Ø

• The two factory mounted PT-1000 sensors must

be placed in the duct system 50 cm in front of

and 50 cm behind the surface.

• Important! Make sure that the sensors show

where they must be placed, either in front of

or behind the surface. If the sensors face the

wrong way, the required operations cannot be

achieved.

• Drill Ø8 mm holes in the duct and install the

rubber sleeves supplied, then lead the sensors

into the duct. Fix the sensors to the pipe using

duct tape and insulate together with the rest of

the duct system and heating surface.

Seen in direction of airﬂow

45 mm







Rubber sleeve.



Insulation.

1.5

Electrical connection

and connecting

communications

The electrical connection can be divided into

three steps:

1. The mains lead from the supplied external

controller (marked “supply voltage 230 V, 50 Hz”)

is connected to the mains power, using a

suitable junction box. We recommend that the

heating surfaces be supplied from a separate

group.

2. The power cable from the external controller

(marked “to heating surface”) is connected to

the electrical heating surface, cf. electrical

diagram.

3. The supply cable for the heating surface, is fed

through the pre-punched holes in the heating

surface junction box. A cable gland must be

used to provide strain relief.

4. The communication cable is mounted

between the external controller and the

ventilation system’s serial input (also see the

following pages).

Note! The control box must not be insulated

Installation 1.0 Mounting electrical heating surfaces

Electrical

heating

surfaces

Solid state relæ

3 4 5 6

Gråt modbus stik, set

fra tilslutningsside

20 21

N L PE

24 26

Klemme 1: Orange

Klemme 2: Blå (+modstand)

Klemme 3: Hvid/blå (+modstand)

Klemme 4: Tom

OBS:

120 Ohms modstand

mellem klemme 2 & 3

 













1. PT 1000 sensor, behind surface (control

sensor).

2. PT 1000 sensor in front of the surface.

3. Communication cable between the

HRV unit and mounting case (10 m,

twisted pair, 2 pairs + display)

4. The power cable, 230 V, 50 Hz, should be

connected to a separate 10 A group (3 m,

3G1.5).

5. Heating surface connection (3 m 3G1.5).

6. Over-heating thermostat with

automatic re-closure (70°C).

7. The over-heating thermostat with

manual closure (120°C).

8. Element.

1.3

Positioning of an

electrical heating surface

1.4

Positioning of sensors

VIFKB102

Installation 1.0 Mounting electrical heating surfaces

Unit CCM Z-wave Air Dial







Mounting sequence – carried out on the serial socket in the ventilation unit

Serial cables  and  twisted

together in pairs (same colour).

Crimp-on ferrules can be used

after twisting the two pairs

(recommended)

The twisted pairs are inserted

into the unit connector, see

point 4 for close up of collector







Colour code:

a. White/orange

b Orange

c. Black

d. White/blue

e. Blue

f. Remove jumper ﬁtted over

terminals 5 and 6

Insert the connector into the

unit. After a maximum of four

minutes, the system’s Air Dial will

recognise the connected heating

surface and automatically



Serial cable from CCM to the unit.



Serial cable from the heating

surface control to the unit.



External controller.

1.6

System overview

– one heating surface

connected

VIFKB102

Installation 1.0 Mounting electrical heating surfaces

Unit CCM Z-wave Air Dial







 

Mounting sequence

Heating surface external

controller 1 is mounted as shown

on page 5.

Note: the termination resistance

on heating surface 1 must be

removed!

Colour code:

Cl. 1: Orange/Orange

Cl. 2: Blue/Blue

Cl. 3: White blue/white blue

Cl. 4: Empty

Colour code:

a. White/orange

b Orange

c. Black

d. White/blue

e. Blue

f. Remove jumper ﬁtted over

terminals 5 and 6.







Insert the connector into the

unit. After a maximum of four

minutes, the system’s Air Dial will

recognise the connected heating

surface and automatically



Serial cable from CCM to the unit.



Serial cable from heating surface

external controller 1 to the unit.



Serial cable from heating surface

external controller 2 to control 1.



Heating controller 1,

without termination resistance.



Heating surface external controller 2,

with termination resistance.

1.7

System overview

– two heating surfaces

connected

VIFKB102

Installation 1.0 Mounting electrical heating surfaces

Symptom Possible faults Solution

The surface does not register

automatically after connection

of power to the control.

It can take up to four minutes

after a surface is connected

before it is included in the

network.

Wait four minutes and check

whether any new units have been

added to the system on the Air

Dial remote control.

A communication cable has

not been connected correctly.

Check that the communication

cables are mounted correctly and

that the colour codes between

the individual cables are as

shown in this guide.

The termination resistance is

not correctly positioned for

the last unit in the chain.

Make sure that a termination

resistance is ONLY mounted on

the last unit in the system.

The surface cuts out because

of the over-heating protection.

Flow across the surface is too

low.

Check for air passages in the

system. This type of fault is often

due to insulation material residue

in the duct system. Once the fault

has been found and corrected, the

heating surface’s over-heating

protection is re-set manually. This

is done using the red button on

the top of the heating surface.

Power to the actual ventilation

system is then switched oﬀ brieﬂy,

after which operations can be

re-started.

Duct sensors mounted

incorrectly/wrong way round.

Check the label on the

temperature sensors; sensor

labels show where the sensor

should be placed in the system in

relation to the heating surface.

A component in the duct

system is mounted too close

to the heating surface (bend,

ﬁlter, reduction, etc.).

The component that is disrupting

the airﬂow across the surface

must be moved so that the

heating surface is covered evenly.

Fuses blown in main power

supply

The phase is overloaded. Supply the heating surface from a

separate 10A fused group.

Unpleasant draughts/smells Dust coating on the heating

surface

It can be expected, that an

electrical heating surface will give

oﬀ a “slightly burnt smell” when

ﬁrst used (or after a long period

where it has not been in use). This

is a short-term issue and will

disappear in a short time. The

smell is due to small particles of

dust on the surface of the heating

surface getting hot.

The surface does not give oﬀ

any heat

The surface’s over-heating

protection has been triggered.

Check for any foreign objects in

the duct system. Once you have

found and corrected the fault, the

heating surface’s over-heating

protection must be re-set

manually, which is done using the

red button on the top of the

heating surface. Power to the

actual ventilation system will then

be disconnected brieﬂy, after

which operation can be re-started.

The fuses in the surface’s

supply group have blown.

Change the fuses.

1.8

Troubleshooting table

VIFKB102

2.1

About waterborne

after heating surfaces

The waterborne after heating surfaces are

installed in the duct system on the air intake side.

The purpose of the after heating surface is to

give intake air a lower rise in temperature to

ensure against disruption in comfort or draughts

in the rooms where air is taken in.

The water heating surface is connected to the

building’s central heating system, with both ﬂow

and return. The heating surface has inbuilt

protection against frost burst.

Note: Flow and return to the surface must be

insulated.

Installation 2.0 Mounting waterborne after heating surfaces

• The heating surface must be placed at a

minimum distance of 500 mm from any

components in the duct system (bends, any

external ﬁlters and the actual unit).

• The heating surface is ﬁtted on the supply air

side, after the ventilation unit.

• The heating surface is insulated on delivery

and does not require any further insulation.

• Take care that the surface is facing the correct

direction in relation to the direction of airﬂow

in the system. The arrow on the heating

surface must match the direction of air ﬂow

in the system.

• The heating surface is designed to be

mounted horizontally, but can also be

mounted vertically if the heating surface is

adequately supported, and if the direction of

air ﬂow is “upwards”.

Overview table, waterborne after heating surface

A Extract air D Exhaust air

B Supply air E Sensor T1

C Outdoor air F Sensor T2

2.2

Positioning of a water

heating surface

• The two factory mounted PT-1000 sensors

must be placed in the duct system 50 cm in

front of and 50 cm behind the surface.

• Important! Make sure that the sensors show

where they must be placed, either in front of

or behind the surface. If the sensors face the

wrong way, the required operations cannot be

achieved.

• Drill Ø8 mm holes in the duct and install the

rubber sleeves supplied, then lead the sensors

into the duct. Fix the sensors to the pipe using

ventilation tape and insulate together with the

rest of the duct system and heating surface.

Set with direction of airﬂow

45 mm







Rubber sleeve.



Insulation.

2.3

Positioning of sensors

VIFKB102

Installation 2.0 Mounting waterborne after heating surfaces

2.4

Hydraulic connection

of water after heating

surfaces

• The water heating surface is connected as shown

in the below connection diagram (3/8” nipple).

• On delivery, the water heating surface’s control

valve is fully open and therefore ready for

ﬁlling, even when switched oﬀ.

• We recommend that you install a dirt trap in

the system, and that the shut-oﬀ valves be

mounted close to the surface to make any

subsequent servicing requirements easier.

• An air-bleed screw must be mounted at the

highest point in the system.

• Fill the system with water and bleed out the

air; the surface is then ready for use.

• Flow and return to the surface should be

insulated safely with regard to the frost

bursting risk.

Connection diagram, waterborne after heating surfaces

HVAC delivery supplied by others Danfoss delivery

230 V

50 Hz

A Shut-oﬀ valves (recommended) F Any calls for heating are set up with a

potential-free relay

B PT 1000 sensors are mounted in the duct as

in the drawing

G Heating surface.

C Air-bleeding screw (recommended) H Control value with motor actuator

D Circulation pump (central heating system) I Dirt trap

E Expansion tank (normally already installed

in the central heating system)

J Central heating system

– maximum ﬂow temperature 85°C

– minimum diﬀerential pressure 0.2 bar

– maximum diﬀerential pressure 4.0 bar

– maximum pressure level PN 6

VIFKB102

Installation 2.0 Mounting waterborne after heating surfaces

2.5

Electrical connection of

water heating surfaces

Once the water heating surface has been ﬁlled

with water and bled of air, it must be connected

electrically.

This is done by connecting the supplied power

plug to the heating surface and connecting the

supplied communication cable between the

water heating surface and the ventilation system.

System overview, water heating surface

Unit CCM Z-wave Air Dial





230 V, 50 Hz



Mounting sequence – carried out on the serial socket in the ventilation unit

Serial cables  and twisted

together in pairs (same colour).

Crimp-on ferrules can be used

after twisting the two pairs

(recommended)

The twisted pairs are inserted

into the unit connector, see

point 4 for close up of collector









Colour code:

a. White/orange

b Orange

c. Black

d. White/blue

e. Blue

f. Remove jumper ﬁtted over

terminals 5 and 6

Insert the connector into the

unit. After a maximum of four

minutes, the system’s Air Dial will

recognise the connected heating

surface and automatically

Select which surface must be

used, either “Comfort” (constant

intaketemperature, usually

recommended) or

“Total heating” (rarely).



Serial cable from CCM to the unit.



Serial cable from heatingsurface

to ventilation system (supplied

with heating surface).



Water heating surface.

VIFKB102

If the central heating system is ﬁtted with

weather compensation, it may be advisable to

set up a potential-free “call for heating”.

The call for heating is set up from the heating

surface’s control to the central heating system

through a supplementary relay (the control’s

relay output is not potential-free, and must

therefore be taken over an external relay).

The heating surface control is located behind the

steel plate on the front of the heating surface.

27 28

230 V

A Modbus.

B “Call for heating” clamp 27/28 230 V,

4 A (not potential-free).

C Solid state relay.

D External supplementary relay (e.g. Hager

110 ES) – not included in the Danfoss

delivery.

E Clamps for external calls for heating in the

central system.

2.7

Troubleshooting table

Installation 2.0 Mounting waterborne after heating surfaces

2.6

Call for heating to the

central heating system

Symptom Possible faults Solution

The surface does not

after power is con-

nected to the control.

It can take up to four minutes

after a surface is connected

before it is included in the

network.

Wait four minutes and check that a new

unit has been added to the system on

the Air Dial remote control.

A communication cable has

not been connected correctly.

Check that the communication cables

are correctly mounted and that the

colour codes between the individual

cables are as shown.

Termination resistance is not

correctly positioned for the

last unit in the chain (if there is

more than one unit con-

nected).

Make sure that a termination resistance

is ONLY mounted on the ﬁnal unit in the

system.

The surface does not

give oﬀ any heat

Air in the system. Bleed the system.

There is no hot water from the

central heating system.

Check the central heating system, and

possibly set up a “call for heating” (see

2.6).

The dirt trap has stopped. Empty and clean the dirt trap; if

necessary ﬂush the system.

Actuator fault. Disconnect the actuator and replace

with a new one, Danfoss AMV 130, no

082H8037.

The ﬁrst time this is connected

it could take up to 20 minutes

before the valve and the

actuator are ready for

operation.

Wait for 20-30 minutes, until both the

valve and the actuator are ready for

operation.

The control is not calling for

heat.

The heating surface is not active if the

system is in away mode or if the bypass

is activated.

Pump fault. Replace the circulation pump.

VIFKB102

Installation 2.0 Mounting waterborne after heating surfaces

Air Dial issues a “frost

protection alarm”

Supply air has a temperature

lower than +5°C coming out of

the unit, before reaching the

heating surface.

Check that both valves are operational

and that air is actually ﬂowing over

both circuits. Low temperatures are

usually due to an unintentional

blockage in the system’s duct system.

Does the building’s central heating

work? If the room temperature falls too

low, there is no energy for the system to

recover and this could also trigger a

frost protection. Heat the system again,

turn oﬀ the alarm on the remote control

and switch oﬀ power to the ventilation

system brieﬂy; the system will then be

ready for operation again.

Supply air is not warm

enough.

Flow temperature is too low. Heatpump installations normally

operate at low supply temperatures.

You should always consider whether

this is acceptable before trying to raise

the supply temperature (as this often

results in worse/more expensive

operation of the central heating

system)

The ABQM valve’s ﬂow

regulation is set too low.

The valve is supplied with a factory

setting of 50% (max. ﬂow = 75 l/h) If this

is not enough, e.g. due to large volumes

of air combined with a low supply

temperature, the actuator can be

removed (the union nut is ONLY ever

tightened by hand). You now have free

access to the control valve, which can

be set to a higher value by pulling up

the grey plastic collar and then turning

it. The current value can be read from

the red indicator line on the valve

(100% = 150 l/h max. ﬂow).

The ﬂow is too low on the

water side.

Pressure loss to the surface is too great,

or the circulation pump is running too

low -> turn up the circulation pump and

check that all possible shut-oﬀ valves or

other throttle organs are fully open.

The control is not calling for

heat.

The heating surface is not active if the

system is in away mode, or if the bypass

is activated.

VIFKB102

Installation 3.0 Mounting geothermal surfaces

3.1

Before you start

• Before starting the digging work you will need to obtain any necessary permits from the local

building authorities! We recommend you contact a groundworks contractor and get a full

quote for the laying of ground heating pipes and leading the pipes into the building.

• The installation must be pressure tested by an authorised installer before commissioning.

• Find all relevant maps and information on the digging area and check the planned location

carefully so that no damage is done to other underground installations (water, electricity, gas,

sewage, etc.).

You can use the table below to help you decide

how many metres of pipe you need to lay for the

installation in question. You need to know the

volume of air and the soil type in order to

estimate the pipe length required.

The sandier and drier the soil is, the less heat can

be drawn from the ground, which is why more

pipes need to be laid in this type of soil than in

more normal (damper) soil.

If you are in any doubt about the type of soil you

have, you should allow for sandy soil as the extra

cost of laying a couple of additional metres will

not make any signiﬁcant diﬀerence to the total

installation costs.

The volume of air for which you should allow for

is either the nominal air volume required, or a

slightly higher volume of air to allow for a better

cooling performance in the summer.

Required pipe lengths

[m3/h]

[m]

200

175

150

125

100

0 50

100 150 200 250 300 350 400

A: Dry sandy soil (15 W/m

)

B: Normal soil (20-30 W/m

)

3.2

Dimensioning

ground collectors

VIFKB102

• Ground collectors to be used are Ø40 mm PEL.

• Pipes are laid at a minimum depth of 1.5

metres.

• Pipes are laid out with a centre-to-centre

distance of 1 metre.

• The highest point of the ground collectors

circuit must be next to the building to that the

system can be bled eﬃciently.

• Recommended brine: mixed with ethylene

glycol or alternatively IPA (spirit) for frost

protection to a minimum of -20°C.

The illustration on the right shows the laying of

pipes in trenches:

Centre-to-centre distance ......min. 1000 mm

Depth .............................................min. 1500 mm

The pipes can also be laid in individual tracks

(not shown).

You can see below how the ground collectors

can be led into the building.

It is important that the last 1.5 metres of ground

pipe up to the building is insulated with a porous

insulation material.

Note: Flow and return to the surface must be

insulated!

Installation 3.0 Mounting geothermal surfaces

100-300mm

1500mm

A: Porous insulation

3.3

Laying ground collectors

VIFKB102

Installation 3.0 Mounting geothermal surfaces

+/-

A: Extract air

B: Supply air

C: Exhaust air

D: Communication cable

E: Control

F: Power supply to the circulation pump.

G: Outdoor air

: Sensor T1

: Sensor T2

I: Pre-ﬁlter (accessory, recommended).

J: Condensate drain 3/8” RG A siphon must be mounted, e.g. Danfoss Air water trap (accessory).

K: Shut-oﬀ valve, not supplied by Danfoss.

L: Expansion tank, not supplied by Danfoss.

M: Bleeding screw, not supplied by Danfoss.

N: Safety valve 2.5-3 bar, not supplied by Danfoss.

O: Brine ﬁlling kit DN 20, contains 2 x shut-oﬀ valves, ﬁlling and return connectors and dirt trap.

Delivered complete and ready insulated (accessory).

P: Circulation pump 400-800 l/h, not supplied by Danfoss.

Q: Ground pipe 80-200 m

The system should be rinsed and pressure tested with water before it can be ﬁlled with brine. The

system is then drained of water and the selected brine is poured in.

We recommend that you assemble a ﬁlling kit for easy ﬁlling and possible draining of the system.

Complete, pre-assembled kits can be ordered from Danfoss under part no 086U6006 (DN 20).

The pump should be set to a ﬂow between 400-600 l/h, depending on the length of pipe laid (the

longer the pipe, the higher the ﬂow).

Note: the pump will be powered from the cable from the actual heating surface (pre-mounted).

3.4

Filling with brine

VIFKB102

Installation 3.0 Mounting geothermal surfaces

3.5

Electrical connection

System overview, geothermal surface

Unit CCM Z-wave Air Dial





230 V, 50 Hz



Mounting sequence – carried out on the serial socket in the ventilation unit

Serial cables  and are twisted

together in pairs (same colour).

Crimp-on ferrules can be used

after twisting the two pairs

(recommended)

The twisted pairs are inserted

into the unit connector, see

point 4 for close up of collector







Colour code:

a. White/orange

b Orange

c. Black

d. White/blue

e. Blue

f. Remove jumper ﬁtted over

terminals 5 and 6

Insert the connector into the

unit. After a maximum of four

minutes, the system’s Air Dial will

recognise the connected heating

surface and automatically



Serial cable from CCM to the unit.



The serial cable from the

geothermal surface to the

ventilation system (included with

heating surface).



Geothermal surface.

VIFKB102

3.6

Installation in duct

system

Installation 3.0 Mounting geothermal surfaces

• The surface is placed at a minimum distance of

500 mm from any of the components in the

duct system (bends, ﬁlters and the unit itself).

• The surface is placed on the outdoor air side,

before the ventilation unit.

• The surface supplied is already insulated and

does not require any further insulation.

• Make sure that the surface faces in the correct

direction in relation to the direction of airﬂow

in the system. The arrow on the surface must

match the direction of airﬂow in the system.

• The geothermal surface is designed to be

mounted horizontally and may ONLY be

mounted horizontally in relation to the

condensate drain. The geothermal surface

must be completely horizontal – check with a

spirit level.

• A siphon trap must be mounted to the

condensate drain, see illustration.

3.7

Positioning of sensors

• The two factory mounted PT-1000 sensors

must be placed in the duct system 50 cm in

front of and 50 cm behind the surface.

• Important! The two sensors are labelled as to

indicate their proper positioning in relation to

the geothermal surface, either before or after

the geothemal surface. If not placed correctly

the system will malfunction.

• Drill Ø8 mm holes in the duct and install the

rubber sleeves supplied, then lead the sensors

into the duct. Fix the sensors to the pipe using

duct tape and insulate together with the rest

of the duct system and heating surface.

Set with direction of airﬂow

45 mm







Rubber sleeve.



Insulation.

VIFKB102

Installation 3.0 Mounting geothermal surfaces

Symptom Possible faults Solution

The surface does not register

automatically after power is

connected to the control.

It can take up to four minutes

after a surface is connected

before it is included in the

network.

Wait four minutes and check that

a new unit has been added to the

system on the Air Dial remote

control.

A communication cable has

not been connected correctly.

Check that the communication

cables are mounted correctly and

that the colour codes between

the individual cables are as

shown in this guide.

Termination resistance is not

correctly positioned for the last

unit in the chain (if there is

more than one unit connected).

Make sure that a termination

resistance is ONLY mounted on

the ﬁnal unit in the system.

The surface does not give oﬀ

any heat (winter operation) or

does not cool (summer

operation)

Air in the system. Bleed the system.

Not enough brine is ﬂowing

through the system.

Examine and clean any dirt traps

in the system. Check that the

pump is running; if necessary turn

up the pump.

The control is not calling for

heat/cooling.

The geothermal surface is

normally active at outside

temperatures below freezing

(pre-heating) and at high outside

temperatures during the

summer, when cooling is

required. In the intervening

periods the geothermal surface

is often not needed so the pump

will not be active at these times.

Supply air is not cold enough

(summer operations).

Note! The expected intake air

temperature on a summer’s

day is around 14-17°C,

depending on the length of

piping and the soil conditions

at the groundworks.

Air in the system. Bleed the system.

The ﬂow the pump is supply-

ing is too low.

Check that any valves in the brine

circuit are fully open, or turn up

the pump.

Poor/missing insulation of

brine pipes in the building and

fresh-air intake for the unit.

Insulate brine pipes and fresh-air

intake to avoid losing cooling

performance from the system.

3.8

Troubleshooting table

VIFKB102

Installation 4.0 Technical data

4.1

Technical data

• Water heating surface

W-AH 250

• Geothermal surface Geo

250

Dimensions, L x W x H 600 x 250 x 335 mm

Weight 6.6 kg

Connection, air Ø250

Connection, water 3/8” RG, nipple

Box Highly insulated, ﬁre-resistant EPS shell (U-factor 0.8)

Max. heating surface (400 m

/h, temp. 70/40/20°) 2,350 W

Installation Horizontal

Max. water ﬂow 150 l/h

Pressure loss curve for the air side, water heating surface W-AH 250 & geothermal surface Geo 250

25 50 75 100 125 150 175 200 250 275 300 325 350 3750 400 425 450 475 500

Flow

/h]

[Pa]

Pressure loss curve for the water/brine

side, water heating surface W-AH 250 &

geothermal surface Geo 250

Flow [l/h]

100 200

300 400 500 600 700 800

[KPa]

Power output curve for the air side

– water heating surface

[W]

0 50 100 150 200 250 300 350 400 450

Flow [m

/h]

3400

3000

2600

2200

1800

1400

1000

600

200

70/40/20

50/40/20

VIFKB102

Installation 4.0 Technical data

Type Ø125 Ø160 Ø250

Dimensions, Ø x L Ø125 x 375 mm Ø160 x 375 mm Ø250 x 375 mm

Weight 2.4 kg 3.2 kg 4.6 kg

Connection, air Ø125 Ø160 Ø250

Max. output 900 W 1500 W 2100 W

Box Galvanised steel plate

Safety thermostat Double, built-in

– automatic re-closure at 70°C

– manual re-closure at 120°C

Pressure loss curves for electrical heating surfaces (both pre-heating and after heating surfaces)

Flow

/h]

Ø250

Ø125

Ø160

[Pa]

0 50 100 150 200 250 300 350 400 450 500

4.2

Technical data

• Electrical heating

surface EL-PH & EL-AH

VIFKB102

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Danfoss Heating Surfaces Installation guide

Danfoss Heating Surfaces Installation guide

Danfoss Heating Surfaces Installation guide

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