Heating
All seasons
Climate comfort
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Refrigeration
Heating - Domestic hot water - Cooling
Catalogue
Durable & efficient energy solutions
for residential use
Heating - Domestic hot water - Cooling
2
So, you and your customer realise it is time to switch to a
Energy efficient
heating system that is energy efficient and produces low
Economical
CO2 emissions.
Low CO2 emissions
Daikin Altherma is a total domestic heating and hot water
Low cost installation
Family friendly
system based on air source heat pump technology. It
represents a flexible and cost-effective alternative to a fossil
fuel boiler and has a cooling option*. The inherent energy
efficiency characteristics of Daikin Altherma make it an ideal
solution for reduced energy consumption and low CO2
emissions and it achieves
optimal comfort through
its high and low temperature heating systems.
The easy-to-install Daikin Altherma system uses highly
energy-efficient, advanced compressor technology in its
heat pumps to transform unutilised and inexhaustible heat
from the surrounding air into usable heat for the system,
either as part of the over all climate control system or as a
stand alone source of domestic hot water.
* low temperature heating systems
4
Offer your clients the benefits of Daikin
technology See pages 10-11
for all systems & applications
See pages 42-55
for all specifications
6
Top energy-efficient solutions
for every application
10
Heating, domestic hot water and cooling
for new houses
12
›› Split system: Outdoor + indoor unit
14
›› Monobloc system: Outdoor unit only
18
›› Domestic hot water tank
19
›› Easy control
21
›› Heat pump convector
22
›› Solar connection
23
Heating & domestic hot water
for renovations
24
›› Outdoor & indoor unit
26
›› Domestic hot water tank
28
›› Solar connection
29
›› Easy control
30
Heating, domestic hot water and cooling
for apartment buildings and collective housing 32
›› Two Daikin technologies combined
34
›› Domestic hot water tank
36
›› Easy control
37
›› Heat pump convector
38
selection software
40
›› Selection and simulation software
for new houses and renovations
40
›› Selection and design software
for apartment buildings and collective housing
Technical specifications
41
42
5
Offer your clients
the benefits of Daikin technology
Energy efficient operation
The air to water heat pump from Daikin Altherma uses a sustainable energy source. In fact, it extracts heat from
the outside air. The system consists of a closed circuit containing a refrigerant. A thermodynamic cycle is created through
evaporation, condensation, compression and expansion.
A heat pump “pumps” heat from a low to a higher temperature level. The heat raised is transferred to the water distribution
system (under floor heating, low temperature radiators and/or fan coil units for low temperature heating systems and high
temperature radiators for high temperature heating systems) in the home via a heat exchanger.
Depending on the model and the conditions, a Daikin Altherma air to water heat pump delivers about 3kWh of usable heat
for every kWh of electricity it uses. So this means that approximately 2/3 of the required heat is free!
TWO BASIC CONCEPTS OF HEAT PUMP TECHNOLOGY
COP (Coefficient of Performance) or gain factor
The COP indicates the amount of usable heat the heat
pump delivers for every kWh electricity the heat pump
uses. This number is dependent on the interior and exterior
2/3 kW
ambient temperature
+
temperature and is therefore only a snapshot indicator.
3/3 kW
energy
SPF (Seasonal Performance Factor) or performance
factor of the heat pump system
1/3 kW
The SPF takes into consideration both the energy
electricity
consumption of the heat pump system as well as the
consumption by peripheral equipment, such as pumps,
over the entire heating season.
LESS ENERGY, PLEASANT WARMTH IN THE HOME
Daikin Altherma heats up to 5 times more efficiently than a traditional heating system based on fossil fuels or electricity.
By making use of the heat in the outside air, the system uses much less energy while your customer can still enjoy a stable
and pleasant level of comfort.
Also, maintenance requirements are minimal making the running cost low. Thanks to the inverter technology, the energy
savings are even greater.
6
ECO-LABEL
Daikin is the first manufacturer to receive the Eco-label for
heat pumps!
Daikin Altherma low temperature with under floor heating
received the EU ECO-LABEL* because it has a higher energy
efficiency and a lower global warming impact than other
heat pump products in its class.
Please refer to
http:// www.daikinaltherma.eu/eco-label.jsp
for the certified products
AIR AS RENEWABLE ENERGY SOURCE
The European RES directive* recognises air as a renewable
energy source. One of the goals of this directive is that
by 2020, 20% of the total energy production needs to be
produced by a renewable energy source. As a result, several
heat pump incentives are already available to homeowners.
* EU objective COM (2008) /30
DID YOU KNOW…?
Daikin has set up a number of monitoring
RENEWABLE, INEXHAUSTIBLE ENERGY with solar
collectors
In combination with solar collectors, Daikin Altherma uses
thermal energy from the sun which will keep up its good
work for another five billion years.
sites (in Scandinavia, Portugal, France,
Belgium, ...), where Daikin Altherma
has been tested under totally different
climate conditions. High satisfaction has
been achieved with increased comfort,
DAIKIN HEAT PUMP EXPERIENCE
stable indoor temperature, low energy
Daikin has more than 50 years of experience with heat
pumps, and supplies more than one million of them to
homes, shops and offices each year. This success is not just
a quirk of fate: Daikin has always been at the cutting edge
of technology and its goal is to provide you with turn-key
comfort. Only a market leader can guarantee you this level
of service and quality control!
consumption and hot water always
available … whatever the weather
conditions at the monitoring site.
7
Daikin Altherma: the economical alternative
Reduced operation costs
A Daikin Altherma heat pump works more efficiently than a traditional fossil-fuel boiler,
generating 3kW of usable heat for every 1kW of electricity used.
Talk about a good investment!
Fuel oil boiler
100%
Gas boiler
82%
Daikin Altherma heat pump
68%
Conditions: Required annual heating energy: 20,000 kWh. Source: Energy prices based on EUROSTAT statistics [first semester 2007].
Low CO2 emissions
Daikin Altherma produces no direct CO2 emissions, so
you personally contribute to a better environment. The
pump does use electricity, but even without renewable
electricity the CO2 emissions are still much lower than
boilers that use fossil fuels.
Average annual CO2 emissions
Daikin Altherma*
2660
Gas boiler
4344
Fuel oil boiler
6045
0
1000
2000
3000
4000
5000
6000
kg/year
Calculation based on data from Eurelectric (organisation of European electricity producers),
“Eurelec Progam - 2001” for EU27
* Valid for Daikin Altherma low temperature split (small capacities)
8
Low installation cost
Daikin Altherma takes heat from the air. No digging or excavation works are required. Both the outdoor and indoor units are
compact. The external unit can be located easily outside any building, including flats. Without flames or fumes, there is no
need for a chimney or constant ventilation in the room where the Daikin Altherma unit is installed.
Family friendly
Daikin Altherma works without oil, gas or other hazardous substances, thus reducing the risk associated with these.
Moreover, you don’t need a gas connection or a fuel tank. No risk of intoxication, smell or pollution from leaking tanks.
9
Top energy-efficient solutions
for every application:
Heating, domestic hot water & cooling
for new houses
p12
Daikin Altherma low temperature heating system
Split system: indoor + outdoor unit
Monobloc system: outdoor unit only
Heating emitters
•
•
•
•
Under floor heating
Low temperature radiators
Heat pump convectors
Fan coil units
optional
•
Solar connection for hot water production
Heating & domestic hot water
for renovations
Daikin Altherma high temperature heating system
for replacement of traditional boilers
Heating emitters
•
High temperature radiators
optional
•
10
Solar connection for hot water production
p24
Use the available Daikin Altherma selection and software tools. See page 40.
Heating, domestic hot water & cooling
for apartment buildings
and collective housing p32
A modular system combining VRV® technology
with the energy-efficient Daikin Altherma heat pump technology
Heating emitters
•
•
•
•
Under floor heating
Low temperature radiators
Heat pump convectors
Fan coil units
11
Heating, domestic hot water & cooling
for new houses
1
Split system
p14
A split system consists of an outdoor unit and an indoor unit
The
outdoor unit is compact and requires no drilling
or excavation work, making it easy to install in houses and
apartments. This unit extracts heat from the outside air and
raises its temperature to a level high enough to provide heating.
This heat is then transferred - via refrigerant pipes, which, of
course, can never freeze - to the
indoor unit, which is
b
c
a
c - Domestic hot water tank
a - Indoor unit
available as either a floor standing or wall-mounted unit. Here
the heat (up to 55°C) is transferred to the under floor heating,
heat pump convectors, low temperature radiators or regular
fan coil units and the domestic hot water system. If a heating
and cooling combination is desired, then the indoor unit can
lower the temperature to distribute a refreshing coolness.
Available capacities for split systems: 6, 7, 8 kW and 11, 14, 16 kW
3
b -Outdoor unit
New
floor standing
model
Domestic hot water tank p19
As for the domestic hot water, Daikin Altherma is just as clever. The water inside the storage tank is initially warmed up by
thermal energy from the outside air, thanks to the connection with the indoor unit.
The standard
domestic hot water tank with a stainless steel finish is available in different sizes and capacities.
easy control p21
Heat pump convector p22
With the wired or wireless room thermostat*, the ideal
temperature can be easily, quickly and conveniently
regulated. It allows for more precise measurement , thus
allowing your customer to regulate the comfort levels
optimally and more energy efficiently.
Although the Daikin Altherma system is compatible with
all types of heat emitters such as under floor heating,
radiators and fan coil units, the optimal solution is the heat
pump convector which is much more than a fan coil unit
or any other heat emitter. It can provide both heating and
cooling if required and obtains optimal energy efficiency by
approximately 25% when connected to a Daikin Altherma low
temperature system in combination with under floor heating.
*EKRTW for wired wall mounted and EKRTR for the wireless type.
12
Daikin Altherma LOW TEMPERATURE
for new houses
Daikin Altherma offers two low temperature systems
including a domestic hot water system all of which connect
to the same range of accessories.
2
Monobloc system
p18
Everything combined in
one outdoor unit
In addition to Daikin Altherma split systems, Daikin has
introduced a monobloc version in which all hydraulic parts
are located within the outdoor unit. In this system, the water
pipes, rather than the refrigerant pipes, run indoors from the
outdoor unit, making
installation much quicker
and easier for the domestic installer.
Available capacities for monobloc: 6, 8 kW and 11, 14, 16 kW
Outdoor unit only
New
extra small
casing
Accessories for low temperature applications
Solar connection p23
Under floor heating
As Rotex is part of the Daikin group, all
heating supplies can be offered. For more
information, contact your local supplier.
To save even more energy on your domestic hot water
production, the Daikin Altherma system can be connected
to a solar system.The high-efficiency collectors transfer all
the short-wave solar radiation into heat as a result of their
highly selective coating. The collectors can be mounted on
the roof tiles.
13
1 Split system: Outdoor + indoor unit
outdoor unit:
Standard to
>>
>>
>>
-20C° outside temperature
compact, weather-resistant and easy to install
contains an inverter controlled compressor for energy efficiency and precise temperature regulation
heat pump operational range: heating and domestic hot water down to -20C° outside temperature
HEAT EXCHANGER
ANTI-CORROSION TREATMENT
As a standard, the heat exchanger in the outdoor group is
provided with an anti-corrosion treatment. This treatment
guarantees a noticeable increase in resistance against acid
rain and salt corrosion.
Typical heat exchanger
Hydrophilic layer
Aluminium
Corrosion-resistant acrylate resin
SUPER PERFORMANCE THANKS
TO THE INVERTER PRINCIPLe
The coefficient of performance (COP) of the Daikin Altherma
heat pump is also largely attributable to the Daikin inverter
principle. An integrated frequency-convertor adjusts the
rotational speed of the compressor to suit the heating
demand. Therefore, the system seldom operates at full
capacity and your customer only pays for the energy which
he actually needs.
Heating operation:
Temperature / Power input
Slow
start
Set
temp.
Temperature remains stable
heat pump
without Inverter
heat pump
with Inverter
Time
HIGH EFFICIENCY COMPRESSORS
Daikin Altherma small capacity models
(6 to 8 kW ) are equipped with a swingcompressor. Swing-compressors have
been setting trends in the area of energy
efficient performance for the past 10 years
in thousands of outdoor units (leaks and
friction are basically non-existent).
14
The Daikin developed scroll-compressors
provided in the Daikin Altherma large capacity
models (11 to 16 kW) are designed as compact,
robust, low-noise devices to guarantee optimal
operational reliability (no valves and built-in
swing-link coupling) and efficiency (through
a low initial flow and a constant compression
ratio). A technology already used in many
Daikin heat pumps.
Daikin Altherma LOW TEMPERATURE
for new houses
for cold climates to
-25C° outside temperature
To operate down to -25°C, several features have been added to the standard features to improve the performance
in cold weather.
Hot gas pass:
hot gas runs through the bottom plate to keep its
temperature positive and all drain holes open to ensure
proper drainage.
Sub cool pass:
before the refrigerant pipe is split up by the distributor to
the hairpins, it passes through the bottom of the coil. This
results in a higher temperature of the refrigerant.
Side plate:
the side of the outdoor unit does not have metal grids thus
preventing ice built up on the grid.
15
1
Split system: Outdoor + indoor unit
Indoor unit:
>>
>>
available in two versions: floor standing (EKHV*) and wall
mounted (EKHB*). Both are available in a heating only or
a heating and cooling model.
built-in electric back-up heater as additional heating
during extremely cold outdoor temperatures or as backup in case of problems with the outdoor unit
>>
2 shut-off valves to assemble the water outlet and inlet
>>
compact and easy to install: all components are preassembled, and all parts are easy to reach for maintenance.
Wall-mounting is comparable to a traditional gas heater.
Compact floor standing unit
1.
7.
3.
4.
5.
600 m
m
695 mm
2.
6.
1.
2.
3.
4.
5.
6.
7.
16
Expansion tank
Switch box
Gas pipe
Liquid pipe
Heat exchanger
Circulator
Back-up heater
Daikin Altherma LOW TEMPERATURE
for new houses
EXTRA POSSIBILITIES THANKS TO THE Indoor unit…
Heating and Cooling
If you select a Daikin Altherma with a reversible indoor unit (EKHVX or EKHBX) it can both heat and cool the house. The heat
pump is then equipped with a reversible 4-way valve whereby the cooling cycle is reversed and heat is removed from the
rooms. The indoor unit can cool rooms via under floor cooling or via fan coil units.
Set temperature limits
To prevent incorrect manual adjustments, temperature limits can be implemented for both cooling and heating. With under
floor heating, for example, it is important that the temperature of the water is adapted to the type of floor element. To prevent
condensation problems, the temperature for floor cooling can never be lower than 18°C. For heat pump convectors or fan coil
units, the water temperature can be allowed to decrease to 5°C.
Wall mounted unit
12.
5.
14.
4.
1.
3.
2.
15.
13.
10.
11.
7.
8.
9.
1.
2.
3.
4.
5.
6.
7.
8.
Heat exchanger
Expansion tank (10 litres)
Circulator
Tank with back-up heating
Air purge valve
Refrigerant fluid connection
Refrigerant gas connection
Water inlet connection
6.
9.
10.
11.
12.
13.
14.
15.
Water outlet connection
Pressure gauge (water circuit)
Water filter
Pressure relief valve
User interface
Switch box
Flow switch
17
2
Monobloc system: Outdoor unit only
>>
All hydraulic parts are located within the outdoor unit
>>
H2O piping between outdoor unit
and indoor heating appliances
>>
Freeze protection of hydraulic parts
In order to protect the water pipes from freezing
up during winter, insulation is provided for all
hydraulic components and special software has been
applied to activate the pump and back-up heater
if necessary. This prevents the water temperature
from dropping below freezing point and obviates
the need for the addition of glycol to the water pipes.
>>
Daikin Altherma monobloc is available in the following versions
-
heating only or heating and cooling
-
with or without bottom plate heater
-
single phase or three phase
-
6kW, 8kW, 11kW, 14kW or 16kW
>>
Built-in electric back-up heater as additional
heating during extremely cold outdoor temperature.
The Daikin Altherma monobloc can be equipped
with a 6 kW back-up heater, which can be
adjusted to 3 kW (single phase units) or 2 kW
(three phase units) by changing the wiring.
New extra
small casing
1.190 mm
360 mm
805 mm
6kW and 8kW casing
Control box:
If necessary, an optional“in line”back-up heater of 6 kW can
be mounted indoors (also adjustable to 2 kW or 3 kW)
H2O piping,
No refrigerant
>>
Daikin Altherma small capacity models (6 to 8 kW)
are equipped with a swing-compressor.
Swing-compressors have been setting
trends in the area of energy efficient
performance for the past 10 years (leaks
and friction are basically non-existent) in
thousands of outdoor units.
The scroll-compressors provided in the Daikin
Altherma monobloc models (11 to 16 kW) are
designed as compact, robust, low-noise
device to guarantee optimal operational
reliability (no valves and built-in swinglink coupling) and efficiency (through a low
initial flow and a constant compression ratio).
A technology already used in many Daikin heat pumps.
11kW, 14kW and 16kW casing
18
Daikin Altherma LOW TEMPERATURE
for new houses
3 Domestic hot water tank
Whether your customer wants domestic hot water only or the advantage of solar energy, Daikin offers you the domestic hot
water tank that meets his or her requirements.
EKHTS – Domestic hot water tank
1. Hot water connection
2. T-piece (field supply)
The indoor unit and domestic hot water tank can be stacked
to save space, or installed next to each other, if only limited
height is available.
>>
3. Pressure relief valve
connection
4. Pressure relief valve
(field supply)
Available in 200 and 260 litres
12
>>
>>
>>
Efficient temperature heat-up: from 10°C to 50°C in only
60 minutes*
Heat loss is reduced to a minimum thanks to the high
quality insulation
6
6. Thermistor socket
7. Flow inlet connection
12
8
611
8. Heat exchanger coil
9. Return outlet connection
13
2
At necessary intervals, the indoor unit can heat up the
water to 60°C to prevent the risk of bacteria growth.
8
11
3
4
7
9
7
10. Cold water connection
11. Thermistor
13
2
12. Anode
3
4
14
* Test done with a 16kW outdoor unit at ambient temperature of 7°C, 200L tank
5. Recirculation hole
14
7
9
7
5
1
510
1
10
13. Knockout holes
14. Knockout holes
1
1
55
9
EKHWS – EKHWE domestic hot water tank
>>
hygienic design in stainless steel (EKHWS) or enamelled
steel (EKHWE).
9
10
10
1. Field supply
2. Hot water connection
3. Pressure relief valve
connection
in combination with wall mounted and monobloc
heating system
4. Pressure relief valve (field
>>
available in 3 capacities: 150, 200 and 300 litres.
5. Electrical box
>>
40 mm cfc-free insulation material (polyurethane) for
stainless steel tanks and 50 mm enamelled steel tanks.
>>
>>
>>
contains 2 heating elements: a heat exchanger at
the bottom where the hot water from the indoor unit
circulates and an extra 3 kW electric heater at the top.
a thermistor in the hot water tank controls a 3-way valve
and/or booster heater via the indoor unit.
supply)
6. Electrical box lid
7. Recirculation hole
8. Thermistor socket
9. Flow inlet connection
10. Heat exchanger coil
11. Return outlet connection
12. Cold water inlet
13. Threaded thermistor hole
for use with solar kit option.
Refer to the Installation
manual EKSOLHWAV1.
19
20
Daikin Altherma LOW TEMPERATURE
for new houses
Easy control
system controller
Weather dependant floating set point
When the floating set point functionality is enabled, the set
point for the leaving water temperature will be dependant
on the outside ambient temperature. At low outside ambient
temperatures, the leaving water temperature will increase to
satisfy the increasing heating requirement of the building.
At warmer temperatures the leaving water temperature will
decrease to save energy.
Optional room thermostat
An external sensor (EKRTETS) can be placed between the
under floor heating and the floor, as an option to the wireless
room thermostat. The thermostat measures the room
temperature and communicates directly to the user interface.
The LCD screen of the room thermostat indicates all the
necessary information regarding the setting of the Daikin
Altherma system in the blink of an eye. The user can easily
navigate between the different menus, the most common
of which include:
>>
Setting the temperature of the room based on
measurements from the built-in or external sensor
>>
Cooling and heating mode
>>
Off function (with integrated frost-protection function)
>>
Holiday function mode
>>
Comfort and reduced function modes
>>
Time (day and month)
>>
Programmable week-timer with 2 user defined and 5
pre-set programmes, with up to 12 actions per day
>>
Keylock function
>>
Setting limits. The installer can change the upper
and lower limits
>>
Floor temperature protection and protection against
condensation for underfloor cooling *
* only in combination with EKRTETS
21
Heat pump convector
The heat pump convector unit can provide both heating
Heats and cools
and cooling if required, since the heat pump convector is
more than just a fan coil unit.
Saves on running costs
Compact size
Very low noise level
When combining under floor heating and fan coil units, the
low leaving water temperatures, important for efficiency, are
adequate for under floor heating, but the fan coil units then
need to be oversized in order to emit the proper levels of
heat at these low water temperatures.
The heat pump convector solves this problem.
The heat pump convector is able to emit the required levels
of heat at low leaving water temperatures, while retaining a
modest size.
Instead of the leaving water circuit being switched on and
off via a thermostat in a single master room, each heat pump
convector can be directly wired to the Daikin Altherma
indoor unit, the system’s intelligence centre. This allows all
rooms to have heat when required, regardless of the state of
the other rooms.
The heat pump convector improves efficiency by
approximately 25% compared to a heating system that
combines under floor heating and regular fan coil units.
The heat pump convector can easily replace existing heat
emitters, thanks to its plug and play installation.
22
Daikin Altherma LOW TEMPERATURE
for new houses
Solar connection
SOLAR KIT
The solar kit provides the transfer of solar heat to the Daikin
Altherma hot water tank via an external heat exchanger. In
contrast to tanks with two heat exchangers, this system
allows the entire content of the tank to be efficiently
heated with solar heat and, if necessary, with heat
pump energy.
1
2
SOLAR COLLECTOR
The high-efficiency collectors transfer all the
short-wave solar radiation into heat as a result
of their highly selective coating. The collectors
can be mounted on the roof tiles.
3
pressurised system
The system is filled with heat transfer fluid with the
correct amount of of antifreeze to avoid freezing in winter.
The whole system is then pressurised and sealed.
1- Solar collector
what do you need?
2- Solar pump station
>>
3- Solar kit available in combination
with integrated (EKHTS) and stand alone
(EKHWS - EKHWE) domestic hot water tank
>>
>>
>>
>>
Solar collector
Plumbing network and solar pump station
Supply tank: standard Daikin Altherma domestic hot
water tank
Solar kit
Re-heater (Daikin Altherma heat pump unit which also
provides the home with heating)
23
Heating & domestic hot water
for renovations
1
Split system
p26
A split system consists of an outdoor unit and an indoor unit
The
outdoor unit extracts heat from the ambient
outdoor air. This heat is transferred to the indoor unit via
refrigerant piping.
The indoor
unit receives the heat from the outdoor
unit and further increases the temperature, allowing
water temperatures
up to 80°C for heating through
radiators and for domestic hot water use. Daikin’s unique
cascade compressor approach to the heat pumps (one in
the outdoor unit/one in the indoor unit) means optimum
comfort at even the coldest outdoor temperatures,
c
without the need for an electric back-up heater.
b
Accessories
for high temperature
applications
a
easy control p 30
With Daikin Altherma’s user interface, the ideal temperature
can be easily, quickly and conveniently regulated. It allows for
more precise measurement and can regulate your comfort
even more optimally and energy efficiently.
24
Daikin Altherma high TEMPERATURE
for renovations
2
Domestic hot water tank p28
for low energy consumption
Daikin Altherma’s high water temperature is ideal for
heating domestic hot water without the need for an
additional electric heater. Rapid heating of domestic
hot water also means smaller heaters are needed. For
a family of approximately 4 people, the standard tank is
the best solution. Should you require more hot water,
a larger tank is also available.
a - Indoor unit
b - Outdoor unit
c - Domestic hot water tank
Heat emitters solar connection p 29
The Daikin Atherma high temperature system is designed
The Daikin Altherma high temperature heating system can
to work only with high-temperature radiators, which come
optionally use solar energy for hot water production.
in various sizes and formats to suit the interior design as well
If the solar energy is not required immediately, the
as the heating requirement. Our radiators can be individually
purpose-built hot water tank (EKHWP) can store large
controlled or they can be regulated by the central heating
quantities of heated water for up to a day for later use as
control programme.
domestic hot water or for heating.
25
1
Daikin Altherma high temperature application
OUtdoor unit
Daikin Altherma high temperature uses 100% thermodynamic energy to obtain water temperatures up
without using an additional heater.
to 80°C
Inverter control means even more savings!
The inverter constantly adapts your system to actual heating
demand. No need to fiddle with settings: the programmed
temperature is optimally maintained regardless of outdoor
and indoor factors such as the amount of sunlight, the
number of people in the room, etc. This results in unmatched
comfort, prolonged system life since it’s only in operation
when needed, and 30% additional savings in energy costs
compared to non-inverter heat pumps.
Heating operation:
Temperature / Power input
Temperature remains stable
Slow
start
heat pump
without Inverter
heat pump
with Inverter
Set
temp.
Time
Daikin Altherma cascade technology
High performance in 3 steps:
outdoor unit extracts heat from the ambient
1 The
outdoor air. This heat is transferred to the indoor unit
via R-410A refrigerant.
26
Step
1
Outdoor
Daikin Altherma high TEMPERATURE
for renovations
INDOOR UNIT
››
Available in heating only applications
››
No back-up heater required thanks to cascade technology
5
2
6
1
3
7
4
1.
Heat exchanger R-134a
H2O
2.
Heat exchanger R-410A
R-134a
3.
Pump ( DC-inverter to maintain fixed ∆T)
4.
Compressor R-134a
5.
Air purge
6.
Manometer
7.
Expansion vessel (12l)
Indoor
Step
2
Step
3
2
3
The indoor unit receives the heat and
further increases the temperature with R-134a
refrigerant.
The heat is transferred from the R-134a
refrigerant circuit to the water circuit. Thanks
to the unique cascade compressor approach,
water temperatures of 80° C can be reached
without using an additional back-up heater.
27
2
Domestic hot water tank
Whether your customer wants domestic hot water only or
the advantage of solar energy, Daikin offers you the domestic
hot water tank that meets his or her requirements.
The indoor unit and domestic hot water tank can be stacked
or
to save space, or installed next to each other, if only limited
height is available.
Stacked
Non-stacked
12
6
8
11
13
2
3
4
EKHTS: Domestic hot water tank
>>
Available in 200 and 260 litres
>>
Efficient temperature heat-up: from 10°C to 50°C in only
14
7
9
5
1
10
7
1
60 minutes*
>>
Heat loss is reduced to a minimum thanks to the high
5
9
10
quality insulation
At necessary intervals, the indoor unit can heat up the
12
water to 60°C to prevent the risk of bacteria growth.
6
* Test done with a 16kW outdoor unit at ambient temperature of 7°C, 200L tank
8
>>
11
13
2
3
4
14
5
1
10
7
9
7
9. Return outlet connection
2. T-piece (field supply)
10. Cold water connection
3. Pressure relief valve connection
11. Thermistor
4. Pressure relief valve
(field supply)
5. Recirculation hole
6. Thermistor socket
7. Flow inlet connection
8. Heat exchanger coil
28
1
1. Hot water connection
9
12. Anode
13. Knockout holes
14. Knockout holes
5
10
Daikin Altherma high TEMPERATURE
for renovations
Solar connection
SOLAR COLLECTORS
EKHWP: domestic hot water tank
Averaged over an entire year, the sun delivers half of the
The domestic hot water tank has two sections:
energy we need to bring our domestic hot water up to
The upper, always hot, section – the active water zone –
the desired temperature. High-efficiency collectors with
and the lower, colder section – the solar zone.
highly selective coating transfer all the short-wave solar
radiation into heat. The collectors can be mounted on
1.
The active water is heated in the upper section of
the storage tank. The high temperature of this zone
roof tiles.
ensures that sufficient hot water is always available.
2.
OPERATION
Solar collectors work more efficiently when colder
water flows through the solar collectors. Therefore,
The solar collectors are only filled with water when
the water that is fed directly to the solar collectors in
sufficient heat is provided by the sun.
solar operation is stored in the solar zone.
In this case, both pumps in the control and pump unit
switch on briefly and fill the collectors with storage
tank water. After filling, which takes less than a minute,
15
2
1
7
6
17
5
4 3
one of the pumps switches off and water circulation is
maintained by the remaining pump.
UNPRESSURISED SYSTEM
21
21
20
8
If there is insufficient sunshine or if the solar storage tank
does not need more heat, the feed pump switches off
and the entire Solar System drains into the storage tank.
The addition of antifreeze is not necessary since, if the
22
installation is not in use, the collector surfaces are not
10
filled with water – another environmental advantage!
9
Solar collector
19
11 16
14
13
18
1. Inlet from solar collector
13. Heat exchanger for solar heating
2. Cold water inlet (1”M)
14. Heat insulation shell for solar
(1”F junction joint)
3. Hot water outlet (1”M)
4. Inlet from heat pump (1”M)
support
heating support.
15. Insertion hole for electric heater
option (not used)
5. Return to heat pump (1”M)
16. Solar collector inlet stratification pipe
6. Heating support outlet (1”M)
17. Filling level indicator
7. Heating support inlet (1”M)
18. Pressure-free storage tank water
8. Domestic hot water tank
19. Solar zone
9. Fill and drain valve
20. Service water zone
10. Connection for equalisation pipe
21. Safety overflow fitting
(not used)
Indoor unit and
Domestic hot water tank
12
11. Heat exchanger domestic hot water
22. Handle
12. Heating heat exchanger
29
Easy control
system controller
The user interface controls the high temperature heating
system in two ways:
1/ Weather dependant floating set point
When the floating set point functionality is enabled, the set
point for the leaving water temperature will be dependant
on the outside ambient temperature. At low outside ambient
temperatures, the leaving water temperature will increase to
satisfy the increasing heating requirement of the building.
At warmer temperatures the leaving water temperature will
decrease to save energy.
2/ Thermostat control
With Daikin Altherma’s user interface with integrated
temperature sensor, the ideal temperature can be easily,
quickly and conveniently regulated.
The easy-to-control user interface for high temperature
applications guarantees your comfort:
››
Space heating
››
Off function
››
Quiet mode
››
Time scheduler
››
Setback function
››
Domestic water
››
Disinfection function
heating mode
Optional room thermostat
>>
Setting the temperature of the room based on
measurements from the built-in or external sensor
An external sensor (EKRTETS) can be placed between the
>>
Cooling and heating mode
under floor heating and the floor, as an option to the wireless
>>
Off function (with integrated frost-protection function)
room thermostat. The thermostat measures the room
>>
Holiday function mode
temperature and communicates directly to the user interface.
>>
Comfort and reduced function modes
>>
Time (day and month)
>>
Programmable week-timer with 2 user defined and 5
The LCD screen of the room thermostat indicates all the
necessary information regarding the setting of the Daikin
Altherma system in the blink of an eye. The user can easily
navigate between the different menus, the most common
of which include:
pre-set programmes, with up to 12 actions per day
>>
Keylock function
>>
Setting limits. The installer can change the upper
and lower limits
>>
Floor temperature protection and protection against
condensation for underfloor cooling *
* only in combination with EKRTETS
30
Daikin Altherma high TEMPERATURE
for renovations
31
Heating, domestic hot water & cooling
For apartment buildings and
collective housing
A modular system integrating
b
Daikin’s state of the art VRV®
technology into the energy-efficient
Daikin Altherma concept
c
a
Energy efficient heat pump technolgy
The Daikin Altherma Flex Type is today’s answer to current and
future issues associated with conventional heating systems
such as increasing energy costs and unacceptable high
environmental impact. With the Daikin Altherma Flex Type,
2/3 of the heat generated comes from the air, recognised
as a renewable energy source, that is free of charge! Daikin
Altherma Flex Type achieves a typical seasonal COP of 3 in the
moderate Western and central European climate. Compared
to an oil boiler, this results in:
• Up to 36% less running costs*
• Up to 71% reduction of CO2 emissions*
• Up to 35% % reduction in primary energy use*
* Data calculated taking into account Belgian conditions: SCOP of 3, average energy
prices 2007-2010, CO2 emission factor for electricity production
Fuel
Condensing gas
Daikin Altherma for apartment buildings and collective housing
120%
120%
100%
80%
100%
100%
82%
80%
60%
68%
40%
100%
100%
120%
80%
92%
89%
20%
29%
0%
0%
Running cost
73%
40%
20%
0%
60%
60%
40%
20%
32
120%
140%
Primary energy Efficiency
CO2 emissions
Daikin Altherma Flex Type
For apartment buildings and collective housing
a - Indoor unit
b - Outdoor unit
c - Domestic hot water tank
Heat emitters
•
•
•
•
Under floor heating
Radiators
Heat pump convectors
Fan coil units
Modular system
One or more inverter-controlled outdoor heat pump units
can provide heating, cooling and domestic hot water to an
apartment building, with 1 outdoor unit combined
with up to 10 indoor units. Outdoor units between
23 and 45 kW extract the heat from the outdoor air, raise
it to an intermediate temperature and transfer this heat
energy to the individual indoor units.
A small footprint indoor unit is installed in each individual
dwelling. It receives the heat energy from the central
outdoor unit, raises the temperature further by means of a
second (cascading) heat pump cycle and feeds heated or
cooled water to emitters (under floor elements, heat pump
convectors and/or radiators as needed).
Two classes of indoor units are available (6 and 9 kW),
ensuring optimum efficiency for any size apartment. Multiple
outdoor units can be installed for larger applications.
3-in-1 system
Daikin Altherma Flex Type heats, cools, and produces
domestic hot water:
›› Heating: leaving water temperatures up
››
››
to 80° C
Cooling: leaving water temperatures down to 5° C
Domestic hot water: tank temperatures up to 75° C
Thanks to its heat recovery function, the system can heat up
the domestic hot water tank up to 60°C with rejected heat
from cooling operation.
Modular system
One or more outdoor units
and several indoor units
=
Indoor unit
1 apartment
Total building
5.6kW
9kW
22.4kW
5.0kW
8kW
20kW
+
Hydro box
Domestic hot
water tank
1P, 230V
3P, 400V
44.8kW
40kW
Install separate
outdoor units to reach
higher capacities
(Separate systems: the
outdoor units are not
connected to each other)
Note:
Heating capacities 7°C
ambient temperature,
Cooling capacities 35°C
ambient temperature
33
Two Daikin technologies combined
Outdoor unit:
Daikin VRV® technology
Modular flexibility
Inverter compressors
The Daikin Altherma makes use of Daikin’s renowned
Daikin Altherma Flex Type owes its remarkable low energy
VRV® technology. Multiple indoor units can be connected
consumption to a unique combination of highly efficient
to a single outdoor unit. A combination of Proportional
inverter-controlled Daikin compressors with a variable
Integral Derivative controlled compressors and electronic
operating point. This allows capacity to be exactly matched
expansion valves in the outdoor unit continuously adjust
to the actual heating demand of the building. The ability
the circulating refrigerant volume in response to load
to optimally control the heat capacity of the outdoor unit
variations in the indoor units connected to it.
also means maximum comfort and minimum energy
This allows the indoor units to operate independently of
consumption.
each other, assuring total flexibility. Each apartment retains control of its own
heating, hot water and cooling.
Heat recovery
Heat absorbed while cooling one apartment can be
recovered instead of being simply released into the air.
This recovered heat can be used
›› for domestic hot water production in the same
apartment
›› for space heating and domestic hot water production in
other apartments
Maximum use is made of available energy, thus reducing
electricity costs.
Cooling:
up to 43°C
Domestic hot
water heating:
up to 75°C
Heating:
up to 80°C
discharge
liquid
R-410A
suction R-410A
34
R-134A
Cooling:
down to 5°C
H2O
Daikin Altherma Flex Type
For apartment buildings and collective housing
Indoor unit:
Daikin Altherma cascade technology
The Daikin Cascade technology uses an outdoor unit that
extracts heat from the surrounding air and transfers this to
the indoor unit via a R-410A refrigerant circuit. The indoor
unit then increases this heat via the R-134a refrigerant
circuit and it is then used to heat the water circuit.
Using the unique cascade compressor approach, water
temperatures of 80º C can be achieved without additional
back-up heaters.
Domestic hot water heating
The cascade technology also delivers water temperatures
of 75°C that can be used to heat up the domestic hot water
tank, which makes it highly efficient for the production of
domestic hot water.
›› Domestic hot water can be produced up to 75° C,
without the assistance of an electric heater
Space heating
›› No electric heater required for Legionella disinfection
Daikin Altherma Flex Type makes use of the cascade
›› COP of 3.0 for heating from 15° C to 60° C
technology to improve the efficiency of the spacing
heating supplied because it has a number of significant
advantages over single refrigerant heat pumps:
›› it provides for a wide range of water temperatures
(25º - 80ºC) which enables all types of heat emitters to
be connected including under floor heating, convectors
and radiators and it is compatible with existing radiator
systems
›› there is no drop in capacity with increasing water
temperatures
›› it delivers high capacities at low ambient temperatures
right down to -20ºC
›› Heat-up time from 15° to 60° C in 70 minutes (200L tank)
›› Equivalent hot water volume of 320L at 40° C (without
reheat) for a 200L tank at a tank temperature of 60°C.
Higher volumes of equivalent hot water are available
with the 260l tank, or using a higher tank temperature.
Cooling
The second refrigerant cycle R-134a can be bypassed
to offer efficient cooling. The R-410A refrigerant cycle is
reversed, and the cool water circuit can be used to cool
the rooms.
›› High cooling capacities with water temperatures
›› No back-up electrical heater is required
down to 5°C, in combination with Daikin heat pump
convector or Daikin fan coil units
›› Under
Symbolic graph
floor
cooling
is
possible,
with
water
temperatures down to 18° C
›› Heat from cooling operation can be recovered to heat
the domestic hot water tank
compressor
compressor
35
Domestic hot water tank
The indoor unit and domestic hot water tank can be stacked
to save space, or installed next to each other, if only limited
height is available.
EKHTS: Domestic hot water tank
>>
Available in 200 and 260 litres
>>
Efficient temperature heat-up: from 10°C to 50°C in only
60 minutes*
>>
Heat loss is reduced to a minimum thanks to the high
quality insulation
>>
At necessary intervals, the indoor unit can heat up the
water to 60°C to prevent the risk of bacteria growth.
* Test done with a 16kW outdoor unit at ambient temperature of 7°C, 200L tank
or
10
5
1
5
1
10
12
9
7
7
9
14
13
2
3
4
11
8
6
Non-stacked
12
Stacked
6
8
11
13
2
3
4
14
7
9
5
1
10
7
1
1. Hot water connection
9. Return outlet connection
2. T-piece (field supply)
10. Cold water connection
3. Pressure relief valve connection
4. Pressure relief valve
(field supply)
5. Recirculation hole
6. Thermistor socket
7. Flow inlet connection
8. Heat exchanger coil
36
5
11. Thermistor
9
12. Anode
13. Knockout holes
14. Knockout holes
10
Daikin Altherma Flex Type
For apartment buildings and collective housing
Easy control
system controller
The user interface controls the high temperature heating
system in two ways:
1/ Weather dependant floating set point
When the floating set point functionality is enabled, the set
point for the leaving water temperature will be dependant
on the outside ambient temperature. At low outside ambient
temperatures, the leaving water temperature will increase to
satisfy the increasing heating requirement of the building.
At warmer temperatures the leaving water temperature will
decrease to save energy.
2/ Thermostat control
With Daikin Altherma’s user interface with integrated
temperature sensor, the ideal temperature can be easily,
quickly and conveniently regulated.
The easy-to-control user interface for high temperature
applications guarantees your comfort:
››
Space heating
››
Off function
››
Quiet mode
››
Time scheduler
››
Setback function
››
Domestic water
››
Disinfection function
heating mode
Optional room thermostat
>>
Setting the temperature of the room based on
measurements from the built-in or external sensor
An external sensor (EKRTETS) can be placed between the
>>
Cooling and heating mode
under floor heating and the floor, as an option to the wireless
>>
Off function (with integrated frost-protection function)
room thermostat. The thermostat measures the room
>>
Holiday function mode
temperature and communicates directly to the user interface.
>>
Comfort and reduced function modes
>>
Time (day and month)
>>
Programmable week-timer with 2 user defined and 5
The LCD screen of the room thermostat indicates all the
necessary information regarding the setting of the Daikin
Altherma system in the blink of an eye. The user can easily
navigate between the different menus, the most common
of which include:
pre-set programmes, with up to 12 actions per day
>>
Keylock function
>>
Setting limits. The installer can change the upper
and lower limits
>>
Floor temperature protection and protection against
condensation for underfloor cooling *
* only in combination with EKRTETS
37
Heat pump convector
The Daikin heat pump convector operates at typical water temperatures of 45°C, which can be efficiently produced
thanks to the Daikin Altherma cascade technology.
The heat pump convector is therefore the ideal heat emitter for apartment applications, providing high comfort levels:
>>
Small dimensions compared to low temperature radiators: width is reduced with 2/3rd
Radiateur
standard
température
Radiateur
standard basse
basse température
2000mm
2000mm
2000mm
Standard low
temperature radiator
600mm
Daikin heat pump convector
600mm
600mm
600mm
Console
Daikin
700mm
700mm
Console
Daikin
700mm
38
>>
Low sound level down to 19 dB(A), optimal for bedroom applications
>>
High-capacity cooling with water temperatures down to 6° C
600mm
600mm
Daikin Altherma Flex Type
For apartment buildings and collective housing
Control
Each Daikin heat pump convector has its own control and
Infrared remote
control (Standard)
ARC452A15
every room can be independently heated (or cooled) as
required. The remote control has a built-in weekly timer
for optimum flexibility and comfort. Operation of the unit
can be adapted to individual requirements.
Heating / Cooling operation
Heating (45°C) / Cooling (6°C)
living room
bedroom 1
bedroom 2
45°C / 7°C
All types of heat emitters can be connected to Daikin Altherma for apartment buildings and collective housing, thanks
to its wide water temperature range and its ability to work with multiple set points, allowing a combination of different
heat emitters operating at different water temperatures. The set point of the indoor unit is a function of the actual
demand of the various heat emitters, ensuring optimum efficiency at all times and under all conditions.
ZONE 1 : TLw = 65°C
balancing vessel
pump radiators
600mm
600mm
living room
65°C
bathroom
Valves closed in cooling mode
ZONE 2 : TLw = 45°C
bedroom
external
control
heat demand ON/OFF
living room
OFF
ON
OFF
OFF
45°C
bathroom
OFF
OFF/ON
ON
OFF
bedroom
OFF
OFF/ON
OFF/ON
ON
pump heat pump
convectors
Indoor unit
OFF
65°C
65°C
45°C
mixing valve
39
Selection software
Selection and simulation software
for new houses and renovations
Daikin Altherma software allows quick and easy indication of the benefits of an Daikin Altherma system.
By specifying a number of parameters such as the location, the surface area to be heated, the required heating capacity,
the entry and exit water temperatures of the distribution network and the local energy prices, the programme displays the
following simulation details:
1. Material list with technical specification
2. Simulation graphics:
a) Required and available heating capacity with indication
of the SPF (or Seasonal COP)
b) Duration of the heating period as a function of the
outside temperature
c) The annual energy cost compared with a heating
system using gas or fuel oil
d) The annual amount CO2 emitted in tonnes compared
with a heating system using gas or fuel oil
e) The monthly energy consumption in kWh
f ) The monthly energy cost in €
g) The total amount of thermal energy in kWh as a
function of the outside temperature
h) The radiated heat per m2 (in kWh/m2) per month
All data is collected in a separate report. If you are interested in this software, contact
your local distributor.
Energy consumption (kWh)
1500
1200
900
600
300
Heat pump day
Heat pump night
Month
0
Jan
40
Feb
Mar
Apr
May
Jun
Jul
Aug
Sep
Oct
Nov
Dec
Electrical element day
Electrical element night
daikin altherma
Selection and design software
for apartment buildings and collective housing
The Daikin Altherma selection and simulation software for
new houses or renovations allows quick and easy identification
of the optimal mix of components. It automatically selects
indoor and outdoor units based on the required heat loads
per housing unit and calculates the required refrigerant
piping dimensions.
The software also features:
>>
automatic or manual selection of indoor units
>>
automatic selection of outdoor units
>>
calculation of refrigerant piping diameters
>>
automatic selection of refnet headers and joints
>>
creation of piping and wiring diagrams with
the possibility to export them as DXF file
>>
creation of extensive selection report
41
Technical specifications
Daikin Altherma low temperature
SPLIT SYSTEMWall mounted indoor unit - single phase
INDOOR UNITS
HEATING ONLY
HEATING & COOLING
EKHBH008B
colour
material
Dimensions
unit
Weight
unit
heating
Operation range
cooling
Sound power level medium speed
Sound pressure
level
medium speed
high speed
OUTDOOR UNITS
Heating capacity
Cooling capacity
min.
kW
nom.
kW
max.
kW
min.
kW
nom.
kW
max.
Power input
kW
heating
nom.
kW
cooling
nom.
kW
COP
EER
height/width/depth
unit
unit
heating
min.~max.
Operation range
cooling
min.~max.
domestic hot water min.~max.
type
Refrigerant
charge
heating
nom.
Sound power level
cooling
nom.
heating
nom.
Sound pressure
level
cooling
nom.
Power supply
name;phase;frequency;voltage
Current
recommended fuses
Dimensions
Weight
46
15~50 (9)
15~55 (9)
42
15~55 (9)
5~22
46
28
30 (3) / 29 (4) / 29 (5)
32 (3) / 32 (4) / 31 (5)
ERHQ006BAV3
4.36(1)
3.87(2)
5.75(1)
5.03(2)
7.45(1)
6.68(2)
4.82(1)
3.62(2)
7.20(1)
5.12(2)
7.20(1)
5.12(2)
1.26 (1)
1.58 (2)
2.27 (1)
2.16 (2)
4.56 (1)
3.18 (2)
3.17 (1)
2.37 (2)
ERHQ007BAV3
4.36(1)
3.87(2)
6.84(1)
6.10(2)
8.79(1)
7.98(2)
4.82(1)
3.67(2)
8.16(1)
5.86(2)
8.50(1)
6.13(2)
1.58 (1)
1.95 (2)
2.78 (1)
2.59 (2)
4.34 (1)
3.13 (2)
2.94 (1)
2.26 (2)
735/825/300
56
-20~25
10~43
31 (6) / 29 (7) / 28 (8)
33 (6) / 33 (7) / 32 (8)
ERHQ008BAV3
4.36(1)
3.87(2)
8.43(1)
7.64(2)
9.58(1)
8.76(2)
4.82(1)
3.67(2)
8.37(1)
6.08(2)
8.91(1)
7.10(2)
2.08 (1)
2.54 (2)
2.97 (1)
2.75 (2)
4.05 (1)
3.00 (2)
2.82 (1)
2.21 (2)
ERHQ011BAV3
ERHQ014BAV3
ERHQ016BAV3
11.2 (1)
10.3 (2)
14.0 (1)
13.1 (2)
16.0 (1)
15.2 (2)
13.90 (1)
10.00 (2)
17.30 (1)
12.50 (2)
17.80 (1)
13.10 (2)
2.46 (1)
3.06 (2)
3.79 (1)
3.60 (2)
4.55 (1)
3.37 (2)
3.67 (1)
2.78 (2)
3.17 (1)
3.88 (2)
5.78 (1)
5.29 (2)
4.42 (1)
3.38 (2)
2.99 (1)
2.36 (2)
1,170/900/320
103
-20~35
-~-
3.83 (1)
4.66 (2)
6.77 (1)
5.95 (2)
4.18 (1)
3.26 (2)
2.63 (1)
2.20 (2)
-20~43
R-410A
1.7
61
62
63
48
48
(1) cooling Ta 35°C - LWE 18°C (DT = 5°C); heating Ta DB/WB 7°C/6°C - LWC 35°C (DT = 5°C)
(2) cooling Ta 35°C - LWE 7°C (DT = 5°C); heating Ta DB/WB 7°C/6°C - LWC 45°C (DT = 5°C)
42
EKHBX016B
48
15~50 (9)
5~22
mm
kg
°CWB
°CDB
°CDB
kg
dBA
dBA
dBA
dBA
Hz/V
A
HEATING & COOLING
EKHBH016B
RAL9010
Epoxy polyester painted galvanised steel
922/502/361
Casing
height/width/depth mm
kg
water side min.~max. °C
water side min.~max. °C
0 esp
dBA
0 esp
dBA
nominal flow
dBA
nominal flow
dBA
HEATING ONLY
EKHBX008B
49
50
3.7
51
-
V3;1~;50;230
20
32
53
Daikin Altherma LOW TEMPERATURE
OUTDOOR UNITS WITH BOTTOM PLATE HEATER
Heating capacity
Cooling capacity
min.
kW
nom.
kW
Refrigerant
Sound power level
Sound pressure level
Power supply
Current
ERLQ011CV3
ERLQ014CV3
ERLQ016CV3
4.36(1)
3.87(2)
8.43(1)
7.64(2)
11.2 (1)
10.98(2)
14.0 (1)
13.1 (2)
16.0 (1)
15.2 (2)
15.05 (1)
11.72 (2)
16.06 (1)
12.55 (2
16.76 (1)
13.12 (2)
kW
7.45(1)
6.68(2)
8.79(1)
7.98(2)
9.58(1)
8.76(2)
kW
4.82(1)
3.67(2)
4.82(1)
3.67(2)
4.82(1)
3.67(2)
nom.
kW
7.20(1)
5.12(2)
8.16(1)
5.86(2)
8.37(1)
6.08(2)
kW
7.20(1)
5.12(2)
8.50(1)
6.13(2)
8.91(1)
7.10(2)
heating
nom.
kW
1.26 (1)
1.58 (2)
1.58 (1)
1.95 (2)
2.08 (1)
2.54 (2)
2.41 (1)
2.96 (2)
3.14 (1)
3.98 (2)
3.72 (1)
4.62 (2)
cooling
nom.
kW
2.27 (1)
2.16 (2)
2.78 (1)
2.59 (2)
2.97 (1)
2.75 (2)
4.44 (1)
4.22 (2)
5.33 (1)
5.00 (2)
6.06 (1)
5.65 (2)
4.56 (1)
3.18 (2)
4.34 (1)
3.13 (2)
4.05 (1)
3.00 (2)
4.66 (1)
3.48 (2)
4.46 (1)
3.29 (2)
4.30 (1)
3.29 (2)
3.17 (1)
2.37 (2)
2.94 (1)
2.26 (2)
735/825/300
57
-20~25
10~43
-20~43
2.82 (1)
2.21 (2)
3.39 (1)
2.78 (2)
3.01 (1)
2.51 (2)
1.345/900/320
114
-25~35
10.0~46.0
-20~35
2.76 (1)
2.32 (2)
EER
Operation range
ERLQ008BV3
4.36(1)
3.87(2)
6.84(1)
6.10(2)
max
COP
Dimensions
Weight
ERLQ007BV3
4.36(1)
3.87(2)
5.75(1)
5.03(2)
min.
max.
Power input
ERLQ006BV3
unit
height/width/depth
unit
heating
min.~max.
cooling
min.~max.
domestic hot water min.~max.
type
charge
heating
nom.
cooling
nom.
heating
nom.
cooling
nom.
name;phase;frequency;voltage
recommended fuses
mm
kg
°CWB
°CDB
°CDB
R-410A
kg
dBA
dBA
dBA
dBA
Hz;V
A
1.7
61
3.4
62
64
63
48
48
64
49
51
50
V3;1~;50;230
20
66
52
66
69
52
54
40
(1) cooling Ta 35°C - LWE 18°C (DT = 5°C); heating Ta DB/WB 7°C/6°C - LWC 35°C (DT = 5°C)
(2) cooling Ta 35°C - LWE 7°C (DT = 5°C); heating Ta DB/WB 7°C/6°C - LWC 45°C (DT = 5°C)
43
SPLIT SYSTEMWall mounted indoor unit - three phase
INDOOR UNITS
EKHBH016B
colour
material
Dimensions
unit
Weight
unit
heating
Operation range
cooling
Sound power level medium speed
EKHBX016B
RAL9010
Epoxy polyester painted galvanised steel
922/502/361
48
15~55 (6)
Casing
Sound pressure
level
medium speed
high speed
height/width/depth
mm
kg
water side min.~max. °C
water side min.~max. °C
0 esp
dBA
0 esp
dBA
nominal flow
dBA
nominal flow
dBA
OUTDOOR UNITS
Heating capacity
nom.
kw
kw
5~22
46
28
31 (3) / 29 (4) / 28 (5)
33 (3) / 33 (4) / 32 (5)
ERHQ011BW1
ERHQ014BW1
ERHQ016BW1
11.32 (1)
10.98 (2)
15.05 (1)
11.72 (2)
14.50 (1)
13.57 (2)
16.06 (1)
12.55 (2)
16.05 (1)
15.11 (2)
16.76 (1)
13.12 (2)
Cooling capacity
nom.
Power input
heating
nom.
kw
2.54 (1)
3.15 (2)
3.33 (1)
4.12 (2)
3.73 (1)
4.60 (2)
cooling
nom.
kw
4.44 (1)
4.22 (2)
5.33 (1)
5.00 (2)
6.06 (1)
5.65 (2)
4.46 (1)
3.48 (2)
4.35 (1)
3.29 (2)
4.30 (1)
3.29 (2)
3.39 (1)
2.78 (2)
3.01 (1)
2.51 (2)
1.345/900/320
108
-20~35
10~46
-20~43
R-410A
2.95
2.76 (1)
2.32 (2)
COP
EER
height/width/depth
unit
unit
heating
min.~max.
Operation range
cooling
min.~max.
domestic hot water min.~max.
type
Refrigerant
charge
heating
nom.
Sound power level
cooling
nom.
heating
nom.
Sound pressure
level
cooling
nom.
Power supply
name;phase;frequency;voltage
Current
recommended fuses
Dimensions
Weight
mm
kg
°cwb
°cdb
°cdb
kg
dba
dba
dba
dba
hz;v
a
64
64
66
51
50
52
W1;3N~;50;400
20
66
69
52
54
(1) cooling Ta 35°C - LWE 18°C (DT = 5°C); heating Ta DB/WB 7°C/6°C - LWC 35°C (DT = 5°C)
(2) cooling Ta 35°C - LWE 7°C (DT = 5°C); heating Ta DB/WB 7°C/6°C - LWC 45°C (DT = 5°C)
OUTDOOR UNITS WITH BOTTOM PLATE HEATER
Heating capacity nom.
kW
Cooling capacity nom.
kW
Power input
heating
nom.
kW
cooling
nom.
kW
Dimensions
unit
height/width/
depth
mm
Weight
Operation range
unit
heating
min.~max.
cooling
min.~max.
domestic hot
min.~max.
water
type
charge
heating
nom.
cooling
nom.
heating
nom.
cooling
nom.
name;phase;frequency;voltage
recommended fuses
COP
EER
Refrigerant
Sound power
level
Sound pressure
level
Power supply
Current
ERLQ011CW1
11.20 (1)
10.98 (2)
15.05 (1)
11.72 (2)
2.41 (1)
3.15 (2)
4.44 (1)
4.22 (2)
4.66 (1)
3.48 (2)
3.39 (1)
2.78 (2)
kg
dBA
dBA
dBA
dBA
Hz;V
A
ERLQ016CW1
16.00 (1)
15.20 (2)
16.76 (1)
13.12 (2)
3.72 (1)
4.60 (2)
6.06 (1)
5.65 (2)
4.30 (1)
3.29 (2)
2.76 (1)
2.32 (2)
1,345/900/320
kg
°CWB
°CDB
°CDB
114
-25~35
10~46
-20~35
R-410A
3.4
64
64
66
51
50
(1) cooling Ta 35°C - LWE 18°C (DT = 5°C); heating Ta DB/WB 7°C/6°C - LWC 35°C (DT = 5°C)
(2) cooling Ta 35°C - LWE 7°C (DT = 5°C); heating Ta DB/WB 7°C/6°C - LWC 45°C (DT = 5°C)
44
ERLQ014CW1
14.00 (1)
13.57 (2)
16.06 (1)
12.55 (2)
3.14 (1)
4.12 (2)
5.33 (1)
5.00 (2)
4.46(1)
3.29 (2)
3.01(1)
2.51 (2)
52
W1;3N~;50;400
20
66
69
52
54
Daikin Altherma LOW TEMPERATURE
SPLIT SYSTEM
floor standing indoor unit - single phase
INDOOR UNITS
EKHVH008B
colour
material
Dimensions
unit
Weight
unit
heating
Operation range
cooling
Sound power level medium speed
EKHVX008B
Sound pressure
level
medium speed
high speed
OUTDOOR UNITS
Heating capacity
Cooling capacity
Power input
min.
kW
nom.
kW
max.
kW
min.
kW
nom.
kW
max.
kW
heating
nom.
kW
cooling
nom.
kW
COP
EER
Dimensions
Weight
unit
height/width/depth
unit
heating
min.~max.
Operation range
cooling
min.~max.
domestic hot water min.~max.
type
Refrigerant
charge
heating
nom.
Sound power level
cooling
nom.
heating
nom.
Sound pressure
level
cooling
nom.
Power supply
name;phase;frequency;voltage
Current
recommended fuses
EKHVH016B
EKHVX016B
Metallic grey
Precoated sheet metal
705/600/695
Casing
height/width/depth
mm
kg
water side min.~max. °c
water side min.~max. °c
0 esp
dba
0 esp
dba
nominal flow
dba
nominal flow
dba
65
67
15~50 (9)
15~50 (9)
5~22
15~55 (9)
42
15~55 (9)
5~22
46
28
30 (3) / 29 (4) / 29 (5)
32 (3) / 32 (4) / 31 (5)
ERHQ006BAV3
4.36(1)
3.87(2)
5.75(1)
5.03(2)
7.45(1)
6.68(2)
4.82(1)
3.62(2)
7.20(1)
5.12(2)
7.20(1)
5.12(2)
1.26 (1)
1.58 (2)
2.27 (1)
2.16 (2)
4.56 (1)
3.18 (2)
3.17 (1)
2.37 (2)
ERHQ007BAV3
4.36(1)
3.87(2)
6.84(1)
6.10(2)
8.79(1)
7.98(2)
4.82(1)
3.67(2)
8.16(1)
5.86(2)
8.50(1)
6.13(2)
1.58 (1)
1.95 (2)
2.78 (1)
2.59 (2)
4.34 (1)
3.13 (2)
2.94 (1)
2.26 (2)
735/825/300
56
-20~25
10~43
mm
kg
°CWB
°CDB
°CDB
31 (6) / 29 (7) / 28 (8)
33 (6) / 33 (7) / 32 (8)
ERHQ008BAV3
4.36(1)
3.87(2)
8.43(1)
7.64(2)
9.58(1)
8.76(2)
4.82(1)
3.67(2)
8.37(1)
6.08(2)
8.91(1)
7.10(2)
2.08 (1)
2.54 (2)
2.97 (1)
2.75 (2)
4.05 (1)
3.00 (2)
2.82 (1)
2.21 (2)
ERHQ011BAV3
ERHQ014BAV3
ERHQ016BAV3
11.2 (1)
10.3 (2)
14.0 (1)
13.1 (2)
16.0 (1)
15.2 (2)
13.90 (1)
10.00 (2)
17.30 (1)
12.50 (2)
17.80 (1)
13.10 (2)
2.46 (1)
3.06 (2)
3.79 (1)
3.60 (2)
4.55 (1)
3.37 (2)
3.67 (1)
2.78 (2)
3.17 (1)
3.88 (2)
5.78 (1)
5.29 (2)
4.42 (1)
3.38 (2)
2.99 (1)
2.36 (2)
1,170/900/320
103
-20~35
-~-
3.83 (1)
4.66 (2)
6.77 (1)
5.95 (2)
4.18 (1)
3.26 (2)
2.63 (1)
2.20 (2)
-20~43
R-410A
kg
dBA
dBA
dBA
dBA
Hz/V
A
1.7
61
3.7
51
-
62
63
48
48
49
50
53
V3;1~;50;230
20
32
(1) cooling Ta 35°C - LWE 18°C (DT = 5°C); heating Ta DB/WB 7°C/6°C - LWC 35°C (DT = 5°C)
(2) cooling Ta 35°C - LWE 7°C (DT = 5°C); heating Ta DB/WB 7°C/6°C - LWC 45°C (DT = 5°C)
OUTDOOR UNITS WITH BOTTOM PLATE HEATER
Heating capacity
min.
nom.
Cooling capacity
Power input
kw
kw
max
kw
min.
kw
nom.
kw
max.
kw
heating
nom.
kw
cooling
nom.
kw
COP
EER
Dimensions
Weight
Operation range
Refrigerant
Sound power level
Sound pressure
level
Power supply
Current
unit
height/width/depth
unit
heating
min.~max.
cooling
min.~max.
domestic hot
min.~max.
water
type
charge
heating
nom.
cooling
nom.
heating
nom.
cooling
nom.
name;phase;frequency;voltage
recommended fuses
mm
kg
°cwb
°cdb
°cdb
ERLQ006BV3
4.36(1)
3.87(2)
5.75(1)
5.03(2)
7.45(1)
6.68(2)
4.82(1)
3.67(2)
7.20(1)
5.12(2)
7.20(1)
5.12(2)
1.26 (1)
1.58 (2)
2.27 (1)
2.16 (2)
4.56 (1)
3.18 (2)
3.17 (1)
2.37 (2)
kg
dba
dba
dba
dba
hz;v
a
ERLQ007BV3
4.36(1)
3.87(2)
6.84(1)
6.10(2)
8.79(1)
7.98(2)
4.82(1)
3.67(2)
8.16(1)
5.86(2)
8.50(1)
6.13(2)
1.58 (1)
1.95 (2)
2.78 (1)
2.59 (2)
4.34 (1)
3.13 (2)
2.94 (1)
2.26 (2)
735/825/300
57
-20~25
10~43
ERLQ008BV3
4.36(1)
3.87(2)
8.43(1)
7.64(2)
9.58(1)
8.76(2)
4.82(1)
3.67(2)
8.37(1)
6.08(2)
8.91(1)
7.10(2)
2.08 (1)
2.54 (2)
2.97 (1)
2.75 (2)
4.05 (1)
3.00 (2)
2.82 (1)
2.21 (2)
ERLQ011CV3
ERLQ014CV3
ERLQ016CV3
11.2 (1)
10.98(2)
14.0 (1)
13.1 (2)
16.0 (1)
15.2 (2)
15.05 (1)
11.72 (2)
16.06 (1)
12.55 (2
16.76 (1)
13.12 (2)
2.41 (1)
2.96 (2)
4.44 (1)
4.22 (2)
4.66 (1)
3.48 (2)
3.39 (1)
2.78 (2)
3.14 (1)
3.98 (2)
5.33 (1)
5.00 (2)
4.46 (1)
3.29 (2)
3.01 (1)
2.51 (2)
1.345/900/320
114
-25~35
10.0~46.0
3.72 (1)
4.62 (2)
6.06 (1)
5.65 (2)
4.30 (1)
3.29 (2)
2.76 (1)
2.32 (2)
-20~43
-20~35
R-410A
61
1.7
62
64
63
48
48
64
49
66
51
50
V3;1~;50;230
20
3.4
52
66
69
52
54
40
(1) cooling Ta 35°C - LWE 18°C (DT = 5°C); heating Ta DB/WB 7°C/6°C - LWC 35°C (DT = 5°C)
(2) cooling Ta 35°C - LWE 7°C (DT = 5°C); heating Ta DB/WB 7°C/6°C - LWC 45°C (DT = 5°C)
45
SPLIT SYSTEM
INDOOR UNITS
Casing
floor standing indoor unit - three phase
EKHVH016B
Dimensions
colour
material
unit
Weight
Operation range
unit
heating
cooling
Sound power level medium speed
Sound pressure
medium speed
level
high speed
height/width/
depth
mm
water
side
min.~max.
water
side
0 esp
0 esp
nominal flow
nominal flow
Cooling capacity
nom.
kW
Power input
heating
nom.
kW
cooling
nom.
kW
unit
height/width/
depth
mm
COP
EER
Weight
Operation range
unit
heating
min.~max.
cooling
min.~max.
domestic hot
min.~max.
water
Refrigerant
type
charge
Sound power level heating
nom.
cooling
nom.
Sound pressure
heating
nom.
level
cooling
nom.
Power supply
name;phase;frequency;voltage
Current
recommended fuses
46
28
31 (3) / 29 (4) / 28 (5)
33 (3) / 33 (4) / 32 (5)
ERHQ011BW1
11.32 (1)
10.98 (2)
15.05 (1)
11.72 (2)
2.54 (1)
3.15 (2)
4.44 (1)
4.22 (2)
4.46 (1)
3.48 (2)
3.39 (1)
2.78 (2)
kW
Cooling capacity
nom.
kW
Power input
heating
nom.
kW
cooling
nom.
kW
unit
height/width/
depth
mm
EER
ERHQ016BW1
16.05 (1)
15.11 (2)
16.76 (1)
13.12 (2)
3.73 (1)
4.60 (2)
6.06 (1)
5.65 (2)
4.30 (1)
3.29 (2)
2.76 (1)
2.32 (2)
1.345/900/320
108
-20~35
10~46
-20~43
R-410A
2.95
kg
dBA
dBA
dBA
dBA
Hz;V
A
COP
64
64
66
51
50
52
W1;3N~;50;400
20
ERLQ011CW1
11.20 (1)
10.98 (2)
15.05 (1)
11.72 (2)
2.41 (1)
3.15 (2)
4.44 (1)
4.22 (2)
4.66 (1)
3.48 (2)
3.39 (1)
2.78 (2)
ERLQ014CW1
14.00 (1)
13.57 (2)
16.06 (1)
12.55 (2)
3.14 (1)
4.12 (2)
5.33 (1)
5.00 (2)
4.46(1)
3.29 (2)
3.01(1)
2.51 (2)
kg
dBA
dBA
dBA
dBA
Hz;V
A
66
69
52
54
ERLQ016CW1
16.00 (1)
15.20 (2)
16.76 (1)
13.12 (2)
3.72 (1)
4.60 (2)
6.06 (1)
5.65 (2)
4.30 (1)
3.29 (2)
2.76 (1)
2.32 (2)
1,345/900/320
kg
°CWB
°CDB
°CDB
(1) cooling Ta 35°C - LWE 18°C (DT = 5°C); heating Ta DB/WB 7°C/6°C - LWC 35°C (DT = 5°C)
(2) cooling Ta 35°C - LWE 7°C (DT = 5°C); heating Ta DB/WB 7°C/6°C - LWC 45°C (DT = 5°C)
46
ERHQ014BW1
14.50 (1)
13.57 (2)
16.06 (1)
12.55 (2)
3.33 (1)
4.12 (2)
5.33 (1)
5.00 (2)
4.35 (1)
3.29 (2)
3.01 (1)
2.51 (2)
kg
°CWB
°CDB
°CDB
Outdoor units with bottom plate heater
Heating capacity
nom.
unit
heating
min.~max.
cooling
min.~max.
domestic hot
min.~max.
water
Refrigerant
type
charge
Sound power level heating
nom.
cooling
nom.
Sound pressure
heating
nom.
level
cooling
nom.
Power supply
name;phase;frequency;voltage
Current
recommended fuses
5~22
dBA
dBA
dBA
dBA
kW
Weight
Operation range
67
15~55 (6)
°C
nom.
Dimensions
705/600/695
kg
min.~max. °C
OUTDOOR UNITS
Heating capacity
Dimensions
EKHVX016B
Metallic grey
Precoated sheet metal
114
-25~35
10~46
-20~35
R-410A
3.4
64
64
66
51
50
52
W1;3N~;50;400
20
66
69
52
54
Daikin Altherma LOW TEMPERATURE
monobloc SYSTEMreversible small capacity
Outdoor units
Heating capacity
Nom.
kW
Cooling capacity
Nom.
kW
Power input
Cooling
Nom.
kW
Heating
Nom.
kW
Unit
Unit
Back-up heater
current
Heating
Height/Width/Depth
mm
kg
COP
EER
Dimensions
Weight
Hydraulic
component
Operation range
Cooling
Domestic hot
water
Refrigerant
Type
Charge
Sound power level Heating
Cooling
Sound pressure
Heating
Cooling
level
Compressor
Main power
component
supply
Type
Power supply
Ambient
Water side
Ambient
Water side
Ambient
Water side
Phase
Min.~Max.
Min.~Max.
Min.~Max.
Min.~Max.
Min.~Max.
Min.~Max.
Nom.
Nom.
Nom.
Nom.
Name
Phase
Frequency
Voltage
EBHQ006BV3
EBHQ008B V3
6.00 (1)
5.58 (2)
7.00 (1)
5.12 (2)
2.20 (1)
2.16 (2)
1.41 (1)
1.79 (2)
4.26 (1)
3.11 (2)
3.18 (1)
2.37 (2)
8.85 (1)
8.15 (2)
8.37 (1)
6.08 (2)
2.97 (1)
2.75 (2)
2.21 (1)
2.72 (2)
4.00 (1)
3.00 (2)
2.82 (1)
2.21 (2)
°CWB
°C
°CDB
°C
°CDB
°C
kg
dBA
dBA
dBA
dBA
61
48
48
Hz
V
(1) cooling Ta 35°C - LWE 18°C (DT = 5°C); heating Ta DB/WB 7°C/6°C - LWC 35°C (DT = 5°C)
805/1,190/360
95
-15~25
15~50
10~43
5~22
-15~35
25~80
R-410A
1.7
62
63
49
50
V3
1
50
230
(2) cooling Ta 35°C - LWE 7°C ( DT = 5°C); heating Ta DB/WB 7°C/6°C - LWC 45°C ( DT = 5°C )
monobloc SYSTEMcontrol box
Indoor unit
Dimensions
Unit
Weight
Operation range
Unit
Cooling
Height
Width
Depth
Depth with remocon
mounted on front plate
mm
mm
mm
mm
kg
Ambient Min.~Max. °CDB
EKCBH008BAV3
390
412
100
120
6
4 (0.000)~35 (0.000)
47
monobloc SYSTEMheating only large capacity - single phase
With bottom plate heater
Without bottom plate heater
Heating capacity Nom.
Power input
kW
Heating
Nom.
kW
Dimensions
Weight
Unit
Unit
Height/Width/Depth mm
kg
Hydraulic
component
Back-up heater
current
Type
Power
supply
Operation range
Heating
COP
Domestic hot
water
Type
Charge
Sound power level Heating
Sound pressure level Heating
Compressor
Main power
component
supply
Refrigerant
Phase/
Frequency/
Voltage
Ambient Min.~Max.
Water side Min.~Max.
Ambient Min.~Max.
Water side Min.~Max.
Nom.
Nom.
Name
Phase
Frequency
Voltage
EDLQ011BB6V3
EDHQ011BB6V3
EDLQ014BB6V3
EDHQ014BB6V3
EDLQ016BB6V3
EDHQ016BB6V3
11.20 (1)
10.87 (2)
2.47 (1)
3.22 (2)
4.54 (1)
3.37 (2)
14.00 (1)
13.10 (2)
3.20 (1)
3.91 (2)
4.37 (1)
3.35 (2)
16.00 (1)
15.06 (2)
3.79 (1)
4.62 (2)
4.22 (1)
3.26 (2)
1,418/1,435/382
180
6V3
Hz/V
1~/50/230
°CWB
°C
°CDB
°C
kg
dBA
dBA
64
Hz
V
51
-15~35
15~55
-15~43
25~80
R-410A
2.95
65
V3
1
50
230
66
52
monobloc SYSTEMheating only large capacity - three phase
With bottom plate heater
Without bottom plate heater
Heating capacity
Nom.
Power input
kW
Heating
Nom.
COP
Dimensions
Unit
Weight
Hydraulic
component
Unit
Back-up heater
current
Height/Width/
Depth
Operation range
Heating
Domestic hot
water
Refrigerant
Sound power level
Sound pressure
level
Compressor
component
Type
Charge
Heating
Heating
Main power
supply
kW
mm
EDLQ011BB6W1
EDHQ011BB6W1
11.20 (1)
10.87 (2)
2.51 (1)
3.12 (2)
4.46 (1)
3.48 (2)
kg
Power
supply
Phase/
Hz/V
Frequency/
Voltage
Ambient Min.~Max. °CWB
Min.~Max. °C
Water
side
Ambient Min.~Max. °CDB
Min.~Max. °C
Water
side
Name
Phase
Frequency
Voltage
kg
dBA
dBA
Hz
V
(1) cooling Ta 35°C - LWE 18°C (DT = 5°C); heating Ta DB/WB 7°C/6°C - LWC 35°C (DT = 5°C)
48
EDLQ016BB6W1
EDHQ016BB6W1
16.00 (1)
15.06 (2)
3.72 (1)
4.58 (2)
4.30 (1)
3.29 (2)
180
6W1
Type
Nom.
Nom.
EDLQ014BB6W1
EDHQ014BB6W1
14.00 (1)
13.10 (2)
3.22 (1)
3.98 (2)
4.35 (1)
3.29 (2)
1,418/1,435/382
3~/50/400
-15~35
15~55
-15~43
25~80
64
R-410A
2.95
65
66
49
51
53
W1
3N
50
400
(2) cooling Ta 35°C - LWE 7°C ( DT = 5°C); heating Ta DB/WB 7°C/6°C - LWC 45°C ( DT = 5°C )
Daikin Altherma LOW TEMPERATURE
monobloc SYSTEM
reversible large capacity - single phase
With bottom plate heater
Without bottom plate heater
Heating capacity Nom.
kW
Cooling capacity
Nom.
kW
Power input
Cooling
Nom.
kW
Heating
Nom.
kW
Dimensions
Unit
Height/Width/
Depth
mm
Weight
Hydraulic
component
Unit
Back-up heater
current
COP
EER
Operation range
Heating
Domestic hot
water
Type
Charge
Sound power level Heating
Cooling
Sound pressure
Heating
level
Cooling
Compressor
Main power
component
supply
EBLQ011BB6V3
EBHQ011BB6V3
11.20 (1)
10.87 (2)
12.85 (1)
10.00
3.78 (1)
3.60 (2)
2.47 (1)
3.22 (2)
4.54 (1)
3.37 (2)
3.39 (1)
2.78 (2)
EBLQ014BB6V3
EBHQ014BB6V3
14.00 (1)
13.10 (2)
15.99 (1)
12.50 (2)
5.65 (1)
5.30 (2)
3.20 (1)
3.91 (2)
4.37 (1)
3.35 (2)
2.83 (1)
2.36 (2)
1,418/1,435/382
180
6V3
kg
Type
Power
supply
Phase/
Hz/V
Frequency/
Voltage
Ambient Min.~Max. °CWB
Min.~Max. °C
Water
side
Ambient Min.~Max. °CDB
Min.~Max. °C
Water
side
1~/50/230
-15~35
15~55
-15~43
25~80
Refrigerant
Nom.
Nom.
Nom.
Nom.
Name
Phase
Frequency
Voltage
EBLQ016BB6V3
EBHQ016BB6V3
16.00 (1)
15.06 (2)
16.73 (1)
13.10 (2)
6.28 (1)
5.85 (2)
3.79 (1)
4.62 (2)
4.22 (1)
3.26 (2)
2.66 (1)
2.24 (2)
kg
dBA
dBA
dBA
dBA
R-410A
2.95
65
66
64
65
51
50
Hz
V
52
V3
1
50
230
66
69
52
54
(1) cooling Ta 35°C - LWE 18°C (DT = 5°C); heating Ta DB/WB 7°C/6°C - LWC 35°C (DT = 5°C)
(2) cooling Ta 35°C - LWE 7°C ( DT = 5°C); heating Ta DB/WB 7°C/6°C - LWC 45°C ( DT = 5°C )
monobloc SYSTEM
reversible large capacity - three phase
With bottom plate heater
Without bottom plate heater
Heating capacity Nom.
kW
Cooling capacity
Nom.
kW
Power input
Cooling
Nom.
kW
Heating
Nom.
kW
Dimensions
Unit
Height/Width/
Depth
mm
Weight
Hydraulic
component
Unit
Back-up heater
current
COP
EER
Operation range
Heating
Domestic hot
water
Type
Charge
Sound power level Heating
Cooling
Sound pressure
Heating
level
Cooling
Compressor
Main power
component
supply
EBLQ011BB6W1
EBHQ011BB6W1
11.20 (1)
10.87 (2)
12.85 (1)
10.00 (2)
3.78 (1)
3.60 (2)
2.51 (1)
3.12 (2)
4.46 (1)
3.48 (2)
3.39 (1)
2.78 (2)
180
6W1
Type
Power
supply
Phase/
Hz/V
Frequency/
Voltage
Ambient Min.~Max. °CWB
Min.~Max. °C
Water
side
Ambient Min.~Max. °CDB
Min.~Max. °C
Water
side
3~/50/400
-15~35
15~55
-15~43
25~80
Refrigerant
kg
dBA
dBA
dBA
dBA
Hz
V
EBLQ016BB6W1
EBHQ016BB6W1
16.00 (1)
15.06 (2)
16.73 (1)
13.10 (2)
6.06 (1)
5.65 (2)
3.72 (1)
4.58 (2)
4.30 (1)
3.29 (2)
2.76 (1)
2.32 (2)
1,418/1,435/382
kg
Nom.
Nom.
Nom.
Nom.
Name
Phase
Frequency
Voltage
EBLQ014BB6W1
EBHQ014B6W1
14.00 (1)
13.10 (2)
15.99 (1)
12.50 (2)
5.32 (1)
4.98 (2)
3.22 (1)
3.98 (2)
4.35 (1)
3.29 (2)
3.01 (1)
2.51 (2)
64
65
49
50
R-410A
2.95
65
66
51
52
W1
3N
50
400
66
69
53
54
(1) cooling Ta 35°C - LWE 18°C (DT = 5°C); heating Ta DB/WB 7°C/6°C - LWC 35°C (DT = 5°C)
(2) cooling Ta 35°C - LWE 7°C ( DT = 5°C); heating Ta DB/WB 7°C/6°C - LWC 45°C ( DT = 5°C )
49
Domestic hot water tank
Stainless steel domestic hot water tank
Casing
Colour
Material
Weight
Unit
Empty
Tank
Water volume
Material
Maximum water temperature
Heat exchanger
Quantity
Tube material
Booster heater
Capacity
Power supply
Phase/Frequency/Voltage
Enameled steel domestic hot water tank
Casing
Colour
Material
Weight
Unit
Empty
Tank
Water volume
Material
Maximum water temperature
Booster heater
Capacity
Power supply
Phase/Frequency/Voltage
kg
l
EKHWS150B3V3
EKHWS200B3V3
37
150
45
200
°C
kW
Hz/V
kg
l
°C
kW
Hz/V
EKHWS300B3V3
Neutral white
Epoxy-coated mild steel
59
300
Stainless steel (DIN 1.4521)
85
1
Duplex steel LDX 2101
3
EKHWS200B3Z2
EKHWS300B3Z2
45
200
59
300
1~/50/230
2~/50/400
EKHWE150A3V3
EKHWE200A3V3
80
150
104
200
1~/50/230
EKHWE300A3V3
EKHWE200A3Z2
EKHWE300A3Z2
RAL9010
Epoxy coated steel
140
104
140
300
200
300
Enamel coated steel acc.DIN4753TL2
75
3.0
2~/50/400
Room thermostat
Wired room thermostat
Dimensions
Unit
Weight
Ambient
temperature
Temperature
setting range
Unit
Storage
Operation
Heating
Cooling
EKRTWA
Height/Width/
Depth
Min./Max.
Min./Max.
Min./Max.
Min./Max.
Clock
Regulation function
Power supply
Voltage
Connection
Type
Wireless room thermostat
Dimensions
Thermostat
Receiver
Weight
Ambient
temperature
Temperature
setting range
Thermostat
Receiver
Storage
Operation
Heating
Cooling
Clock
Regulation function
Power supply
Thermostat
Receiver
Frequency
Phase
Connection
Thermostat
Receiver
Maximum distance Indoor
to receiver
Outdoor
50
mm
g
°C
°C
°C
°C
V
87/125/34
215
-20/60
0/50
4/37
4/37
Yes
Proportional band
Battery powered 3* AA-LR6 (alkaline)
Wired
EKRTR1
Height/Width/
Depth
Height/Width/
Depth
Min./Max.
Min./Max.
Min./Max.
Min./Max.
Voltage
Voltage
mm
mm
g
g
°C
°C
°C
°C
V
V
Hz
m
m
87/125/34
170/50/28
210
125
-20/60
0/50
4/37
4/37
Yes
Proportional band
Battery powered 3x AA-LRG (alkaline)
230
50
1~
Wireless
Wired
approx.30m
approx.100m
Daikin Altherma LOW TEMPERATURE
Solar connection
Solar connection
Dimensions
Weight
Operation range
Unit
Unit
Ambient
temperature
Nom.
HeightxWidthxDepth
Min.~Max.
Sound pressure
level
Thermal
Zero loss collector efficiency η0
performance
Power supply
Phase/Frequency/Voltage
Power supply intake
Accessory
Mounting
Dimensions
Thermal
performance
Control
Sensor
Power supply
HeightxWidthxDepth
Unit
Zero loss collector efficiency η0
Type
Power consumption
Solar panel temperature sensor
Storage tank sensor
Return flow sensor
Feed temperature and flow sensor
Frequency;Voltage
EKSOLHWAV1
770x305x270
8
mm
kg
°C
1~35
dBA
27
%
-
Hz/V
1~/50/220-240
Indoor unit
EKSR3PA
On wall
332x230x145
mm
%
Digital temperature difference controller with plain text display
2
Pt1000
PTC
PTC
Voltage signal (3.5V DC)
50;230
W
Hz;V
Solar collector
Solar collector
Dimensions
Weight
Volume
Surface
Outer
Aperture
Absorber
mm
kg
l
m²
m²
m²
Min.~Max.
Max.
°
bar
Max.
°C
Zero loss collector efficiency η0
Heat loss coefficient a1
Temperature dependence of the
heat loss coefficient a2
Thermal capacity
Incident angle AM at 50°
modifier
%
W/m².K
W/m².K²
Unit
Unit
Coating
Absorber
Glazing
Allowed roof angle
Operating
pressure
Stand still
temperature
Thermal
performance
HeightxWidthxDepth
EKSV26P
2,000x1,300x85
EKSH26P
1,300x2,000x85
43
1.7
2.1
2.601
2.364
2.354
Micro-therm (absorption max.96%, Emission ca. 5% +/-2%)
Harp-shaped copper pipe register with laser-welded highly selective coated aluminium plate
Single pane safety glass, transmission +/- 92%
15~80
6
200
78.7
4,270
0.0070
6.5
kJ/K
0.94
Installed position
Vertical
Horizontal
Heat pump convector
Indoor units
Heating capacity
Cooling capacity
Power input
Dimensions
Weight
Piping
connections
Sound pressure
level
Power supply
Total capacity
Total capacity
Sensible
capacity
Heating
Cooling
Unit
Nom.
Nom.
Nom.
kW
kW
kW
Nom.
Nom.
Height/Width/
Depth
kW
kW
mm
Unit
Drain/OD/Inlet/Outlet
kg
mm/inch
Heating
Nom.
Cooling
Nom.
Phase/Frequency/Voltage
dBA
dBA
Hz/V
FWXV20AVEB
2.0
1.7
FWXV15AVEB
1.5
1.2
1.4
0.98
0.015
0.015
0.013
0.013
600/700/210
15
18/G 1/2/G 1/2
29
29
19
19
1~/50/60/220-240/220
(1)Cooling: indoor temp. 27°CDB, 19°CWB; entering water temp. 7°C, water temperature rise 5K.(2)Heating: room temperature 20°CDB and entering water temperature 45°C, water temperature drop 5K.
(1) Cooling: indoor temp. 27°CDB, 19°CWB; entering water temp. 7°C, water temperature rise 5K. | (2) Heating: room temperature 20°CDB and entering
water temperature 45°C, water temperature drop 5K.
51
Technical specifications
Daikin Altherma high temperature
Indoor units
Indoor units
Heating capacity
Nom.
Power input
Heating
kW
Nom.
kW
Height/Width/
Depth
mm
COP
Casing
Dimensions
Colour
Material
Unit
Weight
Operation range
Unit
Heating
Domestic hot
water
Refrigerant
Sound pressure
level
Power supply
Current
EKHBRD011ABV1
11 (1)
11 (2)
11 (3)
3.57 (1)
4.40 (2)
2.61 (3)
3.08 (1)
2.50 (2)
4.22 (3)
kg
dBA
Night quiet
Level 1
mode
Name
Phase
Frequency
Voltage
Recommended fuses
dBA
EKHBRD016ABV1
EKHBRD011ABY1
16 (1)
11 (1)
16 (2)
11 (2)
16 (3)
11 (3)
5.57 (1)
3.57 (1)
6.65 (2)
4.40 (2)
4.31 (3)
2.61 (3)
2.88 (1)
3.08 (1)
2.41 (2)
2.50 (2)
3.72 (3)
4.22 (3)
Metallic grey
Precoated sheet metal
EKHBRD014ABY1
14 (1)
14 (2)
14 (3)
4.66 (1)
5.65 (2)
3.55 (3)
3.00 (1)
2.48 (2)
3.94 (3)
EKHBRD016ABY1
16 (1)
16 (2)
16 (3)
5.57 (1)
6.65 (2)
4.31 (3)
2.88 (1)
2.41 (2)
3.72 (3)
705/600/695
144.25
kg
Ambient Min.~Max. °C
Min.~Max. °C
Water
side
Ambient Min.~Max. °CDB
Min.~Max. °C
Water
side
Type
Charge
Nom.
EKHBRD014ABV1
14 (1)
14 (2)
14 (3)
4.66 (1)
5.65 (2)
3.55 (3)
3.00 (1)
2.48 (2)
3.94 (3)
147.25
-20~20
25~80
-20~35
25~80
R-134a
3.2
43 (1)
46 (2)
45 (1)
46 (2)
46 (1)
46 (2)
43 (1)
46 (2)
45 (1)
46 (2)
46 (1)
46 (2)
40 (1)
43 (1)
45 (1)
40 (1)
43 (1)
45 (1)
V1
1~
Hz
V
A
Y1
3~
50
220-240
25
380-415
16
(1)EW
55°C;
LW 65°C;
10°C;Dt
ambient
70°C; LW 80°C; Dt|10°C;
ambient
conditions:
7°CDB/6°CWB(3)EW
30°C; LW
35°C; Dt 5°C; ambient
conditions: |7°CDB/6°CWB
(1) EW
55°C;
LW Dt
65°C;
10°C;conditions:
ambient7°CDB/6°CWB(2)EW
conditions: 7°CDB/6°CWB
(2) EW
70°C;
LW 80°C;
Dt 10°C; ambient
conditions:
7°CDB/6°CWB
(3) EW 30°C; LW
35°C; Dt 5°C; ambient conditions: 7°CDB/6°CWB
OUTdoor units
Outdoor units
Dimensions
Unit
ERRQ011AV1
Height/Width/
Depth
Weight
Operation range
Unit
Heating
Min.~Max.
Domestic hot
Min.~Max.
water
Refrigerant
Type
Charge
Sound power level Heating
Nom.
Sound pressure
Heating
Nom.
level
Power supply
Name;Phase;Frequency;Voltage
Current
Recommended fuses
Outdoor units with bottom plate heater
Dimensions
Unit
Height/Width/
Depth
Weight
Unit
Operation range Heating
Min.~Max.
Domestic hot
Min.~Max.
water
Refrigerant
Type
Charge
Sound power level Heating
Nom.
Sound pressure
Heating
Nom.
level
Power supply
Name/Phase/Frequency/Voltage
Current
Recommended fuses
52
ERRQ014AV1
ERRQ016AV1
mm
-20~35
68
69
71
68
69
71
52
53
55
52
53
55
V1;1~;50;220-440
25
ERSQ011AAV1
ERSQ014AAV1
Y1/3~/50/380-415
16
ERSQ016AAV1
mm
ERSQ011AY1
ERSQ014AY1
ERSQ016AY1
1.345/900/320
120
-20~20
kg
°CWB
°CDB
Hz/V
A
ERRQ016AAY1
R-410A
4.5
Hz;V
A
kg
dBA
dBA
ERRQ014AAY1
120
-20~20
kg
°CWB
°CDB
kg
dBA
dBA
ERRQ011AAY1
1,345/900/320
-20~35
R-410A
4.5
68
69
71
68
69
71
52
53
55
52
53
55
V1/1~/50/220-440
25
Y1;3~;50;380-415
16
Daikin Altherma high TEMPERATURE
Domestic hot water tank
Domestic hot water tank
Casing
Colour
Material
Dimensions
Unit
Weight
Heat exchanger
Power supply
Tank
Charging
Auxiliary solar
heating
EKHTS260AC
Metallic grey
Galvanised steel (precoated sheet metal)
Height/Integrated mm
on indoor unit/
Width/Depth
Empty
kg
Unit
Quantity
Tube material
Face area
Internal coil volume
Phase
Water volume
Material
Maximum water temperature
Domestic hot water tank
Casing
Colour
Material
Weight
Unit
Heat exchanger
Domestic hot
water
Power supply
Tank
EKHTS200AC
1,335/2,010/600/695
1,335/2,285/600/695
70
78
1
Duplex steel (EN 1.4162)
1.56
7.5
-
m²
l
200
l
260
Stainless steel (EN 1.4521)
75
°C
EKHWP300A
EKHWP500A
Dust grey (RAL7037)
Impact resistant polypropylene
Empty
Tube material
Face area
Internal coil
volume
Operating
pressure
Average specifc
thermal output
Tube material
Face area
Internal coil
volume
Average specifc
thermal output
Tube material
Face area
Internal coil
volume
Average specifc
thermal output
Phase
Water volume
Maximum water temperature
59
kg
92
Stainless steel (DIN 1.4404)
m²
l
5.7
5.9
27.8
28.4
bar
6
W/K
2,795
2,860
Stainless steel (DIN 1.4404)
m²
l
W/K
2.5
3.7
12.3
17.4
1,235
1,809
Stainless steel (DIN 1.4404)
m²
l
W/K
-
1.0
-
5
-
313
-
300
l
°C
500
85
Solar collector
SOLAR COLLECTOR
HeightxWidthxDepth
Dimensions
Unit
Weight
Unit
Volume
Surface
Outer
Aperture
Absorber
Coating
Absorber
Glazing
Allowed roof angle Min.~Max.
Operating
Max.
pressure
Stand still
Max.
temperature
Thermal
Zero loss collector efficiency η0
performance
Heat loss coefficient a1
Temperature dependence of the
heat loss coefficient a2
Thermal capacity
Incident angle AM at 50°
modifier
Installed position
mm
kg
l
m²
m²
m²
°
bar
EKSV26P
2,000x1,300x85
EKSH26P
1,300x2,000x85
43
1.7
2.1
2.601
2.364
2.354
Micro-therm (absorption max.96%, Emission ca. 5% +/-2%)
Harp-shaped copper pipe register with laser-welded highly selective coated aluminium plate
Single pane safety glass, transmission +/- 92%
15~80
6
°C
200
78.7
4,270
%
W/m².K
W/m².K²
0.0070
6.5
kJ/K
0.94
Vertical
Horizontal
Solar connection
Solar connection
HeightxWidthxDepth
Dimensions
Unit
Control
Type
Power consumption
Mounting
Sensor
Solar panel temperature sensor
Storage tank sensor
Return flow sensor
Feed temperature and flow sensor
mm
W
EKSRPS3
Digital temperature difference controller with plain text display
On side of tank
Pt1000
PTC
PTC
Voltage signal (3.5V DC)
53
Technical specifications
Daikin Altherma Flex Type
Indoor units
Indoor unit
Function
Dimensions
Leaving water
temperature range
Material
Colour
Sound pressure level
Weight
Refrigerant
EKHVMRD50AV1
HxWxD
mm
heating
°C
nominal
Type
Charge
EKHVMRD80AV1
EKHVMYD50AV1
Heating only
705x600x695
25~80
25~80
Precoated sheet metal
Metallic grey
Precoated sheet metal
Metallic grey
401/ 432
dB(A)
kg
EKHVMYD80AV1
Heating and cooling
705x600x695
421/ 432
401/ 432
421/ 432
92
R-134a
kg
120
R-134a
2
2
Power supply
2
1~/ 50Hz /220-240V
1 Sound levels are mesured at:EW 55°C; LW 65°C
2
1~/ 50Hz /220-240V
2 Sound levels are mesured at:EW 70°C; LW 80°C
OUTdoor units
OUTDOOR UNIT
Nominal capacity
Capacity range
Dimensions
Weight
Sound power level
Sound pressure level
Operation range
Refrigerant
Power supply
Piping connections
heating
cooling
HxWxD
heating
heating
heating
domestic water
type
liquid
suction
high&low pressure gas
max total length
level differnce OU-IU
Recommended fuses
EMRQ8AY1
EMRQ10AY1
EMRQ12AY1
EMRQ14AY1
EMRQ16AY1
22.4
20
8
28
25
10
33.6
30
12
1680x1300x765
39.2
35
14
44.8
40
16
80
60
-20°C~20*
-20°C~35*
R-410A
3~/50Hz/380-415V
83
62
kW
kW
HP
mm
kg
dB(A)
°C
°C
°C
kg
331
mm
mm
9.52
19.1
15.9
m
m
A
Heating conditions: Ta = 7°CDB / 6°CWB, 100% connection ratio
339
78
58
84
63
12.7
28.6
22.2
19.1
22.2
300
40
20
25
40
Cooling conditions: Ta = 35°CDB, 100% connection ratio
*Capacity not guaranteed between -20°C and -15°C
Domestic hot water tank
DOMESTIC HOT WATER TANK
Water volume
Max. water temperature
Dimensions
HxWxD
Dimensions - integrated on indoor unit HxWxD
Material outside casing
Colour
Empty weight
l
°C
mm
mm
EKHTS200AC
200
EKHTS260AC
260
75°C
1,335x600x695
2,010x600x695
1,610x600x695
2,285x600x695
Galvanised metal
Metallic grey
kg
70
78
Heat pump convector
HEAT PUMP CONVECTOR
Capacity
Dimensions
Weight
Air flow rate
Sound pressure
Refrigerant
Power Supply
Piping connections
54
Heating
Cooling
HxWxD
H/M/L/SL
M
45°C 1
7°C 2
kW
kW
mm
kg
m3/h
dB(A)
FWXV15A
FWXV20A
1.5
1.2
2.0
1.7
600x700x210
15
318/228/150/126
19
474/354/240/198
29
Water
1~/220-240V/50/60Hz
12.7 / 20
Liquid (OD)/Drain
Water inlet temperature = 45°C / Water outlet temperature: 40°C
indoor temperature = 20°CDB
Medium fan speed
Water inlet temperature = 7°C / Water outlet temperature: 12°C
indoor temperature = 27°CDB / 19°CWB
Medium fan speed
1
2
55
Daikin: your reliable partner
Daikin is the specialist in climate conditioning systems – for
private homes as well as for large commercial and industrial
spaces. We make every effort to ensure that your customers are
100% satisfied.
High-quality, innovative products
Innovation and quality are constantly at the forefront of Daikin’s
philosophy. The entire Daikin team is continually trained to
provide you with optimal information and advice.
A clean environment
Daikin’s unique position as a manufacturer of air
conditioning equipment, compressors and refrigerants
has led to its close involvement in environmental issues.
For several years Daikin has had the intention to become
a leader in the provision of products that have limited
impact on the environment. This challenge demands the
eco design and development of a wide range of products
and an energy management system, resulting in energy
conservation and a reduction of waste.
The present leaflet is drawn up by way of information only and does not constitute an offer binding upon
Daikin Europe N.V.. Daikin Europe N.V. has compiled the content of this leaflet to the best of its knowledge.
No express or implied warranty is given for the completeness, accuracy, reliability or fitness for particular
purpose of its content and the products and services presented therein. Specifications are subject to change
without prior notice. Daikin Europe N.V. explicitly rejects any liability for any direct or indirect damage, in
the broadest sense, arising from or related to the use and/or interpretation of this leaflet. All content is
copyrighted by Daikin Europe N.V.
Daikin products are distributed by:
Daikin Europe N.V. participates in the Eurovent
Certification Programme for Air Conditioners (AC),
Liquid Chilling Packages (LCP) and Fan Coil Units (FC);
the certified data of certified models are listed in the
Eurovent Directory. Multi units are Eurovent certified for
combinations up to 2 indoor units.
Only applicable for Daikin Altherma low temperature
units.
Daikin Altherma high temperature units are not in scope
of the Eurovent certification programme.
FSC
ECPEN11-721A
Airflow Services Ltd
Unit 2, Cherrywood Business Park
Courtstown, Little Island, Co. Cork
Tel:
021 4355400
Email:
info@airflow.ie
Web:
www.airflow.ie
Naamloze Vennootschap - Zandvoordestraat 300, B-8400 Oostende - Belgium - www.daikin.eu - BE 0412 120 336 - RPR Oostende
ECPEN11-721A • XXX • 02/11 • Copyright Daikin
The present publication supersedes ECPEN11-721.
Printed on non-chlorinated paper. Prepared by La Movida, Belgium
Resp. Ed.: Daikin Europe N.V., Zandvoordestraat 300, B-8400 Oostende
In producing your customer’s climate control system, we strive
for sustainable energy consumption, product ­recycling and
waste reduction. Daikin rigorously ­applies the principles of ecodesign, thus restricting the use of materials that are harmful to
our environment.
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