Dimplex Ec-eau, Ec-eau 125, Ec-eau 150, Ec-eau 210, Ec-eau 250 Installation And User Instructions Manual

Important - This manual must be left with the user after Installation!

Ec

-

eau

Cylinder

Range

Installation and User Instructions

Heat Pump Cylinders

without buffer tanks

Up to 300L

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Dimplex is a licensed member of the Benchmark Scheme which aims to
improve the standards of installation and commissioning of domestic heating
and hot water systems in the UK and to encourage regular servicing to optimise
safety, efficiency and performance.

Benchmark places responsibilities on both manufacturers and installers. The
purpose is to ensure that customers are provided with the correct equipment
for their needs, that it is installed, commissioned and serviced in accordance
with the manufacturer’s instructions by competent persons and that it meets
the requirements of the appropriate Building Regulations. The Benchmark
Checklist can be used to demonstrate compliance with Building Regulations and
should be provided to the customer for future reference.

Installers are required to carry out installation, commissioning and servicing
work in accordance with the Benchmark Code of Practice which is available
from the Heating and Hot Water Industry Council who manage and promote the
Scheme. Visit www.centralheating.co.uk for more information.

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Overall View

0 Overall View

Figure 1: Overall view of Heat Pump Cylinder installation process

02 03

08

01 06

04

07

05

09

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Contents

1 Contents

0 OVERALL VIEW .......................................................................................... 3

1 CONTENTS ................................................................................................ 4

2 INTRODUCTION ......................................................................................... 6

3 SCOPE OF DELIVERY .................................................................................. 6

4 PRE-INSTALLATION ADVICE ........................................................................ 7

4.1 R

ISK ASSESSMENT

...................................................................................... 7

4.2 S

ITING CONSIDERATIONS

.............................................................................. 7

4.3 C

OLD WATER SUPPLY

................................................................................... 8

4.4 B

UILDING REGULATION G3 DISCHARGE REQUIREMENTS

.......................................... 8

4.4.1 Discharge pipe D2 ......................................................................... 9

4.4.2 Worked example ..........................................................................10

4.4.3 Termination of discharge pipe ........................................................11

4.5 L

IMITATIONS

............................................................................................11

5 INSTALLATION..........................................................................................12

5.1 C

OLD WATER INLET WITH INLET CONTROL GROUP

...............................................12

5.1.1 Correctly site the cylinder..............................................................12

5.1.2 Install the inlet group....................................................................12

5.1.3 Expansion vessel ..........................................................................12

5.1.4 Balanced cold water supply............................................................12

5.1.5 Drain valve ..................................................................................12

5.2 H

OT WATER OUTLET

..................................................................................13

5.2.1 Thermostatic mixing valve.............................................................13

5.2.2 Pipe insulation..............................................................................13

5.3 D

ISCHARGE PIPES FROM SAFETY DEVICES

..........................................................13

5.3.1 Discharge pipe D1............................................................................13

5.3.2 Discharge pipe D2 ........................................................................13

5.3.3 Tundish .......................................................................................14

5.4 I

MMERSION HEATER

....................................................................................14

5.5 C

OIL FLOW CONNECTIONS

............................................................................15

5.6 C

OIL RETURN CONNECTIONS

.........................................................................15

5.7 T

HERMOSTAT CONNECTION AND INSTALLATION OF THE HEAT PUMP

DHW

TEMPERATURE

SENSOR

..................................................................................................16

5.7.1 Connection of the sensor ...............................................................17

5.8 C

ONNECTION OF SECONDARY RETURN

..............................................................20

6 COMMISSIONING......................................................................................21

7 MAINTENANCE..........................................................................................22

8 SPARE PARTS ...........................................................................................23

9 TECHNICAL DATA......................................................................................24

9.1 C

YLINDER HEAT EXCHANGER PRESSURE DROP

.....................................................26

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Contents

10 USER INSTRUCTIONS ................................................................................28

10.1 G

ENERAL

.............................................................................................28

10.2 O

PERATION

..........................................................................................29

10.2.1 Water temperature direct electric heating........................................29

10.2.2 Water temperature auxiliary heating ...............................................30

10.3 M

AINTENANCE

.......................................................................................30

10.4 T

ROUBLESHOOTING

.................................................................................31

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Scope of Delivery

2 Introduction

Thank you for choosing a Dimplex
product. The EC-Eau heat pump
cylinders are specified with large, high
surface area heat exchangers,
specifically sized to match the
requirements of Dimplex heat pumps.
They boast 60mm of low GWP
insulation foam, together with 100%
recyclable stainless steel inner
components and a sleek black, hard
wearing outer shell manufactured
from completely recycled materials.
For more detailed information on
product features, please see the
Technical Data section in this manual.

3 Scope of delivery

Please ensure you check the scope of
delivery below before signing any
delivery documentation. Claims for
missing or damaged parts after
signing for the delivery will not be
accepted.

* These items are supplied factory fitted

Table 1: Scope of Delivery

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4 Pre-Installation

Advice

Please read the following section
carefully before commencing
installation. If in any doubt, please
call the appropriate help desk.
Disregarding the instructions given in
this manual in its entirety and any
relevant regulations, standards and
codes of practice will void the
guarantee of this product.

Handling – depending on the size of
the unit and access to its installation
location, consideration must be given
to the handling of the unit. Please
note that handling, installation and
use of this product is subject to the
Health and Safety at Work Act.
If the unit is not installed
immediately, it should remain in its
protective packaging with all pipe
protectors/end caps applied to
prevent damage and dirt deposit
inside the cylinder and the coils.

Pipe work – the pipe runs should be
executed as short as possible, unused
pipe work should be removed and all
remaining pipe work should be lagged
in accordance with regulatory
requirements to prevent heat loss and
the formation of condensation.

Taps and fittings – all taps and
fittings incorporated in the unvented
system should have a rated operating
pressure of 0.6 MPa (6 bar) or above.

4.1 Risk assessment

The compilation of a risk assessment
is strongly recommended before
installing the product. The following
areas require particular consideration
in addition to the information required
by the Health and Safety at Work Act.

- scalding: where appropriate or
required by law a thermostatic
mixing valve is to be fitted to the
hot water outlet of the cylinder (see
also water borne organisms).

- explosion: the unit is fully equipped
with all relevant safety equipment
to comply with current regulations.
The correct design and function has
been verified by independent third
party testing. The correct
application thereof is the
responsibility of the competent
installer.

- water borne organisms (i.e.
Legionella): if applicable a risk
assessment should be carried out
following the recommendations
outlined in the Approved Code of
Practice L8.

- the user preference must be
considered when commissioning the
system, in particular when adjusting
the solar and auxiliary system
temperature and timer settings.

4.2 Siting considerations

When choosing a suitable location for
the cylinder the following aspects
should be considered:

- structural integrity

- access for installation, operation,
maintenance and replacement

- routing of discharge pipe work

- access to water mains supply, hot
and cold water distribution pipe
work

- access to suitable electricity supply

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- location in relation to remaining
system components such as
auxiliary and solar heating system

- frost protection

The heat pump cylinder range is
designed to be floor standing,
vertically mounted, indoors and in a
frost free environment. The cylinder
may be located on any flat and level
surface, provided it is sufficiently
robust to support the weight of the
cylinder when full of water (please see
technical data) and suitably accessible
for replacement/maintenance without
specialist tools or lifting equipment as
this will void the warranty conditions.

The position and orientation of the
cylinder should be such that easy
access is provided for servicing the
controls. A minimum distance of
400mm in front of the immersion is
recommended, to allow the
replacement of the immersion heater
should the need arise. When installing
the cylinder all labels should be clearly
visible and ensure that no pipework
hinders any work to be carried out on
the various cylinder components.

Particular care must be taken when
placing the cylinder in a garage or
outbuilding. All exposed pipe work
must be correctly insulated to avoid
frost damage.

4.3 Cold water supply

For satisfactory and safe performance
of the unvented cylinder the water
supply must meet the following
criteria:

Minimum dynamic
pressure

150 kPa

(1.5 bar)
Maximum inlet supply
pressure

1200 kPa

(12 bar)
Minimum flow rate 15 l/min
Max. chlorine content 250mg/L
Max. water hardness 200mg/L

The following instructions have to be
followed when installing the cold
water mains supply to the cylinder:

- The cold water supply to the

cylinder must come directly from
the cold water mains after the
mains stop valve to the property.

- The cold water inlet pipe work

should have at least an inside
diameter of 19mm and should meet
the requirements of the water
regulations for the supply of
wholesome water.

4.4 Building regulation G3

Discharge
requirements

As part of the requirements of
Building Regulation G3 any discharge
from an unvented system should be
conveyed to where it is visible, but
will not cause danger to persons in or
about the building. The tundish and
the discharge pipes should be fitted in
accordance with the requirements of
Building Regulation approved
document G3, (England and Wales),
Part P of Northern Ireland and
Standard 4.9 of Scotland.

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4.4.1 Discharge pipe D2

The discharge pipe (D2) from the
Tundish should:

- “have a vertical section of pipe at
least 300mm long below the
tundish before any elbows or
bends in the pipework and be
installed with a continuous fall of
at least 1 in 200 thereafter.”

The discharge pipe (D2) should be
made of:

- “metal; or other material that has
been demonstrated to be capable
of safely withstanding
temperatures of the water
discharged and is clearly and
permanently marked to identify
the product and performance
standard”

The discharge pipe D2 should be at
least one pipe size larger than the
nominal outlet size of the safety
device unless its total equivalent
hydraulic resistance exceeds that of a
straight pipe 9m long, i.e. for
discharge pipes between 9m and 18m
the equivalent resistance length
should be at least two sizes larger
than the nominal outlet size of the
safety device; between 18 and 27m at
least 3 sizes larger, and so on; bends
must be taken into account in
calculating the flow resistance. See
Figure 2, Table 2 and the worked
example.

Note: An alternative approach for
sizing discharge pipes would be to
follow Annex D, section D.2 of BS
6700:2006 + A1:2009).

Figure 2: Typical discharge pipe arrangement

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Table 2: Sizing of copper discharge pipe “D2” for common temperature relief valve outlet sizes

4.4.2 Worked example

This example is for a G½ temperature
relief valve with a discharge pipe (D2)
(as fitted on 125 to 300L cylinders)
having 4 No. 22mm elbows and length
of 7m from the tundish to the point of
discharge.

From Table 2, the maximum
resistance allowed for a straight
length of 22mm copper discharge pipe

(D2) from a G½ temperature relief
valve is 9.0m. Subtract the resistance
for 4 No. 22mm elbows at 0.8m each
= 3.2m.

Therefore the maximum permitted
length

equates to 5.8m, which is less than
the actual length of 7m, therefore
calculate the next largest size.

Maximum resistance allowed for a
straight length of 28mm copper
discharge pipe (D2) from a G½
temperature relief valve is: 18m

Subtract the resistance for 4 No.
28mm elbows at 1.0m each = 4m

Therefore the maximum permitted
length equates to 14m.

As the actual length is 7m, a 28mm
(D2) copper pipe will be satisfactory.

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- Where a single common discharge
pipe serves more than one system,
it should be at least one pipe size
larger than the largest individual
discharge pipe (D2) to be
connected.

- The discharge pipe should not be
connected to a soil discharge stack
unless the soil discharge stack is
capable of safely withstanding
temperatures of the water
discharged, in which case, it should:

- contain a mechanical seal, which

allows water into the branch pipe
without allowing foul air from the
drain to be ventilated through the
tundish.

- there should be a separate

branch pipe with no sanitary
appliances connected to it.

- if plastic pipes are used as branch

pipes carrying discharge from a
safety device, they should be
either polybutalene (PB) or cross­linked polyethylene (PE-X)
complying with national
standards.

- be continuously marked with a

warning that no sanitary
appliances should be connected
to the pipe.

4.4.3 Termination of discharge

pipe

- “The discharge pipe (D2) from the
tundish should terminate in a safe
place where there is no risk to
persons in the vicinity of the
discharge.”

- Examples of acceptable discharge
arrangements are:

- “to a trapped gully with the end of
the pipe below a fixed grating and
above the water seal;

- downward discharges at low level;
i.e. up to 100mm above external
surfaces such as car parks, hard
standings, grassed areas etc. are
acceptable providing that a wire
cage or similar guard is positioned
to prevent contact, whilst
maintaining visibility; and ,

- discharges at high level: e.g. into a
metal hopper and metal downpipe
with the end of the discharge pipe
clearly visible or onto a roof capable
of withstanding high temperature
discharges of water and 3m from
any plastic guttering system that
would collect such discharges.”

Note: As the discharge would
consist of high temperature water
and steam, asphalt, roofing felt
and non-metallic rainwater goods
may be damaged by such
discharges.

4.5 Limitations

- The heat pump must be specified
correctly, to ensure it is compatible
with the model of cylinder installed.
This is to prevent the heat pump
malfunctioning when preparing
domestic hot water.

- The heat exchangers in this range of
cylinders have been specifically
designed for heat pump
applications. Great care must be
taken if using these cylinders with
other heat sources, due to the heat
exchange capacity of the product.