EN 13203-5:2018

SLOVENSKI STANDARD
01-april-2019
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Gas-fired domestic appliances producing hot water - Part 5: Assessment of energy
consumption of gas fired appliances combined with electrical heat pump
Gasbeheizte Geräte für die sanitäre Warmwasserbereitung für den Hausgebrauch - Teil
5: Bewertung des Energieverbrauchs von Gasgeräten mit elektrischer Wärmepumpe
Appareils domestiques produisant de l'eau chaude sanitaire utilisant les combustibles
gazeux - Partie 5 : Evaluation de la consommation énergétique des appareils à gaz
combinés à une pompe à chaleur électrique
Ta slovenski standard je istoveten z: EN 13203-5:2018
ICS:
27.080 7RSORWQHþUSDONH Heat pumps
91.140.65 Oprema za ogrevanje vode Water heating equipment
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

EN 13203-5
EUROPEAN STANDARD
NORME EUROPÉENNE
December 2018
EUROPÄISCHE NORM
ICS 91.140.65
English Version
Gas-fired domestic appliances producing hot water - Part
5: Assessment of energy consumption of gas fired
appliances combined with electrical heat pump
Appareils domestiques produisant de l'eau chaude Gasbeheizte Geräte für die sanitäre
sanitaire utilisant les combustibles gazeux - Partie 5 : Warmwasserbereitung für den Hausgebrauch - Teil 5:
Évaluation de la consommation énergétique des Bewertung des Energieverbrauchs von Gasgeräten mit
appareils utilisant les combustibles gazeux combinés à elektrischer Wärmepumpe
une pompe à chaleur électrique
This European Standard was approved by CEN on 27 May 2018.

CEN members are bound to comply with the CEN/CENELEC Internal Regulations which stipulate the conditions for giving this
European Standard the status of a national standard without any alteration. Up-to-date lists and bibliographical references
concerning such national standards may be obtained on application to the CEN-CENELEC Management Centre or to any CEN
member.
This European Standard exists in three official versions (English, French, German). A version in any other language made by
translation under the responsibility of a CEN member into its own language and notified to the CEN-CENELEC Management
Centre has the same status as the official versions.

CEN members are the national standards bodies of Austria, Belgium, Bulgaria, Croatia, Cyprus, Czech Republic, Denmark, Estonia,
Finland, Former Yugoslav Republic of Macedonia, France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania,
Luxembourg, Malta, Netherlands, Norway, Poland, Portugal, Romania, Serbia, Slovakia, Slovenia, Spain, Sweden, Switzerland,
Turkey and United Kingdom.
EUROPEAN COMMITTEE FOR STANDARDIZATION
COMITÉ EUROPÉEN DE NORMALISATION

EUROPÄISCHES KOMITEE FÜR NORMUNG

CEN-CENELEC Management Centre: Rue de la Science 23, B-1040 Brussels
© 2018 CEN All rights of exploitation in any form and by any means reserved Ref. No. EN 13203-5:2018 E
worldwide for CEN national Members.

Contents Page
European foreword . 4
Introduction . 5
1 Scope . 6
2 Normative references . 6
3 Terms and definitions . 6
4 General test conditions . 9
4.1 Reference conditions . 9
4.2 Specific heat source temperature conditions . 9
4.3 Measurement uncertainties . 10
4.3.1 General . 10
4.3.2 Steady-state conditions . 11
4.4 Test conditions . 11
4.4.1 General . 11
4.4.2 Test room . 11
4.4.3 Water supply . 12
4.4.4 Initial adjustment of the appliance . 12
4.4.5 Conditions for the determination of the maximum load profile . 13
4.4.6 Electrical supply . 13
5 Determination of the energy consumption of the appliance . 13
5.1 General . 13
5.2 Load profiles . 13
5.3 Determination of the energy recovered by the useful water . 21
5.4 Calculation of gas energy . 22
5.4.1 Calculation of daily gas energy consumption in summer mode . 22
5.5 Calculation of electrical energy . 22
5.5.1 Calculation of daily electrical energy consumption . 22
5.6 Corrections to apply for fans and liquid pumps . 23
5.6.1 Power absorbed by the fans of connected heat pumps . 23
5.6.2 Power absorbed by liquid pumps . 24
5.7 Measurement of energy consumption in standby mode . 24
5.7.1 General . 24
5.7.2 Calculation of daily gas energy consumption in standby mode . 25
5.7.3 Calculation of daily auxiliary electrical energy consumption in standby mode . 25
5.8 Determination of daily auxiliary electrical energy consumption in off mode . 26
6 Determination of the ratio of wasted water to total water . 26
7 Eco design Related Products Data . 27
7.1 Water heating energy efficiency . 27
7.2 Annual fuel consumption (AFC) . 28
7.3 Annual electricity consumption (AEC) . 28
7.4 Mixed water at 40°C (V40) for storage water heaters . 29
Annex A (informative)  Test conditions . 30
Annex B (informative) Test rig and measurement devices . 34
B.1 General. 34
B.2 Pressure measurement. 34
B.3 Temperature measurement . 35
Annex C (informative) Declaration of the Maximum Load Profile . 38
Annex D (informative)  Packages covered by the present document . 39
Annex E (informative) Additional performance data . 44
E.1 Heating time. 44
E.2 Standby power input . 44
E.3 Coefficient of primary energy performance or primary energy yield (PER) . 45
E.4 Total consumption of primary energy . 45
Annex ZA (informative) Relationship between this European Standard and the ecodesign
requirements of Commission Regulation (EU) n° 814/2013 [OJEU L239 of 6 September
2013] aimed to be covered . 47
Annex ZB (informative) Relationship between this European Standard and the energy labelling
requirements of Commission Delegated Regulation (EU) No 812/2013 [OJEU L239 of 6
September 2013] aimed to be covered . 48
Annex ZC (informative) Relationship between this European Standard and the ecodesign
requirements of Commission Regulation (EU) n° 813/2013 [OJEU L239 of 6 September
2013] aimed to be covered . 49
Annex ZD (informative) Relationship between this European Standard and the energy labelling
requirements of Commission Delegated Regulation (EU) No 811/2013 [OJEU L239 of 6
September 2013] aimed to be covered . 50
Bibliography . 51

European foreword
This document (EN 13203-5:2018) has been prepared by Technical Committee CEN/TC 109 “Central heating
boilers using gaseous fuels”, the secretariat of which is held by NEN.
This European Standard shall be given the status of a national standard, either by publication of an identical
text or by endorsement, at the latest by June 2019, and conflicting national standards shall be withdrawn at
the latest by June 2019.
Attention is drawn to the possibility that some of the elements of this document may be the subject of patent
rights. CEN shall not be held responsible for identifying any or all such patent rights.
This document has been prepared under a mandate given to CEN by the European Commission and the
European Free Trade Association, and supports essential requirements of EU Directive(s).
For relationship with EU Directive(s), see informative Annex ZA, ZB, ZC or ZD, which are integral parts of this
document.
The main purpose of this revision is to provide a means of conforming to requirements of Commission
Delegated Regulation (EC) n° 813/2013, (EC) n° 811/2013, (EC) n° 812/2013 and (EC) n° 814/2013.
According to the CEN-CENELEC Internal Regulations, the national standards organisations of the following
countries are bound to implement this European Standard: Austria, Belgium, Bulgaria, Croatia, Cyprus, Czech
Republic, Denmark, Estonia, Finland, Former Yugoslav Republic of Macedonia, France, Germany, Greece,
Hungary, Iceland, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, Netherlands, Norway, Poland, Portugal,
Romania, Serbia, Slovakia, Slovenia, Spain, Sweden, Switzerland, Turkey and the United Kingdom.
Introduction
The safety operation of the boiler or water heater is not covered by this standard. Safety should be proved by
means of the essential safety requirements of the Gas Appliances Directive 2009/142/EC. This may be
achieved by compliance with the appropriate existing harmonized standards.
NOTE 1 Useful standards are EN 26, EN 89 and series EN 15502.
NOTE 2 The Gas Appliances Directive 2009/142/EC has been replaced by the Gas Appliances Regulation
426/2016/EU.
1 Scope
This European Standard is applicable to gas-fired appliances producing domestic hot water. It applies to both
instantaneous and storage gas-fired combined with electrical heat pump.
It applies to a package marketed as single unit or fully specified by the manufacturer that have:
— a heat input not exceeding 400 kW; and
— a hot water storage tank capacity (if any) not exceeding 2000 l.
EN 13203-1 sets out in qualitative and quantitative terms the performance in delivery of domestic hot water
for a selected variety of uses. It also gives a system for presenting the information to the user. The present
document sets out a method for assessing the energy performance of gas fired appliances combined with heat
pump with electrically driven compressor according to EN 16147. It defines a number of daily load profiles
for each domestic hot water use, kitchen, shower, bath and a combination of these, together with
corresponding test procedures, enabling the energy performances of different gas-fired appliances to be
compared and matched to the needs of the user. Where other technologies are combined with a gas-fired
boiler or a water heater to produce domestic hot water, specific parts of EN 13203 apply.
The present document does not apply for gas boilers with recovery systems using combustion products as
heat source for the electrical heat pump.
When the electrical heat pump does not work for domestic hot water production in the summer period, the
present standard is not applicable for energy performances assessing, EN 13203-2 should be used.
2 Normative references
The following documents are referred to in the text in such a way that some or all of their content constitutes
requirements of this document. For dated references, only the edition cited applies. For undated references,
the latest edition of the referenced document (including any amendments) applies.
EN 14511-3:2018, Air conditioners, liquid chilling packages and heat pumps with electrically driven
compressors for space heating and cooling - Part 3: Test methods
3 Terms and definitions
For the purposes of this document, the following terms and definitions apply.
ISO and IEC maintain terminological databases for use in standardization at the following addresses:
• IEC Electropedia: available at http://www.electropedia.org/
• ISO Online browsing platform: available at http://www.iso.org/obp
3.1
storage tank
reservoir for domestic hot water
3.2
nominal domestic hot water heat input of the boiler (Q )
nw
value of the heat input of the boiler for the production of domestic hot water stated in the instructions, the
symbol of which is Q and the unit of which is kilowatt (kW)
nw
3.3
summer mode
conditions during which the appliance supplies energy only for the production of domestic hot water
3.4
winter mode
conditions during which the combination boiler supplies energy for the production of domestic hot water and
space heating
3.5
domestic water test temperature
temperature of the delivered water at which the tests are conducted
3.6
control cycle
the time cycle for keeping components and/or the storage tank (if any) of the domestic hot water circuit at
predetermined temperature level, consists of an «ON» duration time during which the heating of the domestic
hot water (by gas energy and/or auxiliary energy) is operating, and an «OFF» duration time during which no
heating occurs
3.7
useful water
quantity of water delivered at the tap for which the temperature increase is in accordance with the
requirement fixed for each individual delivery of the load profiles
3.8
wasted water
quantity of water delivered at the tap for which the temperature increase is not in accordance with the
requirement fixed for each individual delivery of the load profiles
3.9
standby mode
operating state in which the appliance can provide domestic hot water at any time
Note 1 to entry: In the case of an appliance with a control cycle for keeping components and/or the storage tank (if
any) of the domestic hot water circuit at predetermined temperature level no draw-off is made.
3.10
off mode
state of an appliance, selected by the user, in which domestic hot water cannot be provided
3.11
useful water flow rate
D
useful
quantity of water delivered by unit time at the tap for which the temperature increase is in accordance with
the requirement fixed for each individual draw-off of the load profiles
3.12
useful water temperature
water temperature, expressed in degrees Celsius, delivered at the tap
3.13
appliance flow rate
quantity of water delivered by the appliance by unit time before the mixing device, if applicable
3.14
appliance water temperature
T
d
water temperature, expressed in degrees Celsius, delivered by the appliance before the mixing device
3.15
water temperature rise in K
∆T
m
difference between the useful water temperature and the cold water temperature, at which hot water is
contributing to the reference energy as specified in the load profiles
3.16
water temperature rise for basin draw-off types in K
∆T
p
difference between the useful water temperature and the cold water temperature, to be achieved during the
water draw-offs, with a minimum value as specified in the load profiles
Note 1 to entry: The minimum temperature difference for basin draw-offs as specified in the load profiles shall be
achieved at least during the water draw-offs.
3.17
rapid response temperature sensor
measuring instrument with a response time such that 90 % of the final temperature rise, from 15 °C to 100 °C,
is obtained within about 1 s, when the sensor is plunged into still water.
3.18
indoor air
heat source for a heat pump which absorbs heat by a heat exchanger in direct contact with the air inside a
building
3.19
brine
heat transfer medium which has a freezing point depressed relative to water
3.20
gas-fired appliance combined with electrical heat pump air/water
appliance which is either placed on the market or specified as a complete package to deliver domestic hot
water or domestic hot water and heating, comprising as relevant:
— electrical heat pump;
— gas-fired appliance;
— ducts if appropriate;
— thermal store.
3.21
exhaust air
air from the air conditioned space entering the outdoor heat exchanger
[EN 14511-1:2018, 3.22]
3.22
external static pressure difference
Δp
ext
positive pressure difference measured between the air (or water) outlet section and the air (or water) inlet
section of the unit, which is available for overcoming the pressure drop of any additional ducted air (or water)
circuit
3.23
internal static pressure difference
Δp
int
negative pressure difference measured between the air (or water) outlet section and the air (or water) inlet
section of the unit, which corresponds to the total pressure drop of all components on the air (or water) side
of the unit
4 General test conditions
4.1 Reference conditions
Unless otherwise stated, the general test conditions shall be as follows:
— cold water temperature: 10 °C;
— maximum average variation over the test period: ± 2 K;
— cold water pressure: (2 ± 0,1) bar;
— ambient air temperature: 20 °C;
— maximum average variation over the test period ± 2 K;
— maximum variation during the tests ± 2 K;
— electrical supply voltage: (230 ± 2) V (single phase) or (410 ± 4) V (three phase).
4.2 Specific heat source temperature conditions
The tests shall be carried out at the test conditions specified in Table 1 as appropriate.
Table 1 — Test conditions for particular types of systems
Type of heat source Heat source Range of ambient Ambient temperature
temperature (°C) temperature for heat of storage tank (°C)
pump
(°C)
Outside air (heat pump
7 ± 0,2 20 ± 3 20 ± 3
indoor) with air duct
(6 ± 0,3)
Outside air (heat pump
a)
7 ± 0,2 20 ± 3
7 ± 3
outdoor)
(6 ± 0,3)
a) a)
Exhaust air 20 ± 0,2
20 ± 3 20 ± 3
(12 ± 0,3)
Water (inlet) 10 ± 0,15 20 ± 3 20 ± 3
Brine (inlet) 0 ± 0,15 20 ± 3 20 ± 3
Direct evaporation 4 ± 0,5 20 ± 3 20 ± 3
a)
In this case, the ambient temperature of the heat pump is the same as the temperature of the heat source. The
difference with EN 16147 is justified because of the possible installation of the appliance into a living room.
NOTE 1 All heat source temperatures are inlet temperatures in °C.
NOTE 2 All air temperatures in (brackets) are wet bulb temperatures in °C.
NOTE 3 Permissible external pressure difference or associated internal pressure difference at the outdoor heat
exchanger as stated in the installation and/or operation manual in Pascal (Pa) for appliances with duct
connection.
4.3 Measurement uncertainties
4.3.1 General
Except where otherwise stated in the clauses describing the tests, the uncertainties of measurements carried
out shall not be greater than the maximum uncertainties indicated below.
The standard deviations shall be evaluated taking into account the various sources of uncertainty:
contribution from the instrument, repeatability, calibration, ambient conditions, etc.
— water flow rate: ± 1 %;
— gas flow rate: ± 1 %;
— time: ± 0,2 s;
— temperatures:
— ambient: ± 1 K;
— air as heat source dry bulb temperature: ± 0,2 °C;
— air as heat source wet bulb temperature: ± 0,3 °C;
— water/brine as heat source: ± 0,15 K;
— water: ± 0,5 K;
— gas: ± 0,5 K;
— gas pressure: ± 1 %;
— gas calorific value: ± 1 %;
— gas density: ± 0,5 %;
— electrical energy: ± 2 %.
The stated measurement uncertainties relate to individual measurements. For measurements that combine a
number of individual measurements, smaller uncertainties on the individual measurements may be necessary
to ensure a total uncertainty within ± 2 % under the steady-state conditions as defined by 4.3.2.
These uncertainties correspond to two standard deviations (2σ).
4.3.2 Steady-state conditions
Steady-state operating conditions are regarded as established when the appliance operates for sufficient time
to reach thermal stabilization.
To reach the steady-state the water temperature at the outlet of the appliance shall not vary by more
than ± 0,5 K.
NOTE This condition can be reached with a gas which is different from the reference gas, provided that the
appliance is supplied with the reference gas for at least 5 min before the requirements are verified.
4.4 Test conditions
4.4.1 General
Except where otherwise stated, the appliance is tested under the following conditions.
The tests shall be carried out only in summer mode as defined in 3.3, and the appliance shall be set in summer
mode.
If liquid heat transfer media other than water are used, the specific heat capacity and density of such heat
transfer media shall be determined and taken into consideration in the evaluation.
For all tests defined by this standard, the same adjustment of the appliance shall be maintained.
The load profile used for the measurement shall be the one declared according to the technical instruction of
the appliance (see also Annex C).
The test shall be performed in the setting in which the appliance is delivered, and which is documented as
such in the technical instructions.
If there are temporary user's settings (automatically self-resetting within 24 h), these shall not be active.
4.4.2 Test room
The package shall be installed in a well-ventilated, draught-free room (air speed less than 0,5 m/s).
The package shall be protected from direct solar radiation and radiation from heat generators.
If the package incorporates an air source outdoor heat exchanger a further test room is needed. The size of
this test room shall be designed to avoid any resistance to air flow at the air inlet and air outlet orifices of the
test object. The air flow through this room shall not cause any short circuit between the two orifices, and
therefore the velocity of air flow at these two locations shall not exceed 1,5 m/s when the test object is
switched off. The air velocity in the room shall also not be greater than the mean velocity through the unit
inlet.
Unless otherwise stated in the technical documentation, the air inlet and air outlet orifices shall not be less
than 1m from the surfaces of the test room; this also applies to any measuring ducts.
The setting of the external static pressure difference on the air side for heat pumps with duct connection is
described by 4.4.1.4 of EN 14511-3:2018.
For heat pumps separated from the tank, the liquid flow rate has to be set on the liquid outlet side of the heat
pump to the nominal flow rate specified in the technical documentation.
The package shall be installed and connected for the test as specified in the installation instructions.
Temperature and pressure measuring points shall be situated in order to obtain significant mean values.
Set points for internal control equipment of the unit such as thermostats, pressure switches or mixing valves
shall be set to the values stated in the technical documentation.
Air and entrained gases shall be removed from all water and other heat transfer liquid systems
In the case of package incorporating a single split heat pump, the following installation conditions shall be
complied with for the tests:
a) each refrigerant pipe shall be installed in accordance with the installation instructions;
b) the connecting pipes shall be installed so that the difference in elevation does not exceed 2,5 m. The
length of each connecting pipe shall be between 5 m and 7,5 m;
c) thermal insulation shall be applied to the pipes in accordance with the installation instructions;
d) unless constrained by the design at least half of the interconnecting pipes shall be exposed to the outdoor
conditions with the rest of the pipes exposed to the indoor conditions.
For indirect systems each water pipe shall be installed in accordance with the installation instructions to the
maximum stated length or 5 m whichever is shorter. Thermal insulation shall be applied to the pipes in
accordance with the installation instructions.
4.4.3 Water supply
For the tests:
— the domestic water pressure is the static inlet pressure under dynamic conditions measured as close as
possible to the appliance (see Figure B.2);
— the inlet and outlet temperatures of the domestic water shall be measured in the centre of the flow and as
close as possible to the appliance (see Figure B.3) or at the tap.
The inlet temperatures shall be measured immediately upstream of the water inlet connection. Except where
otherwise stated, the outlet temperatures shall be measured immediately downstream of the outlet
connection or, in the case of an appliance with spout delivery, by means of an immersed temperature
measuring device, e.g. a u-tube fitted at the outlet of a tube of the same length as the minimum length of the
spout normally supplied together with the appliance.
Water temperatures shall be measured with a rapid response temperature sensor.
4.4.4 Initial adjustment of the appliance
The appliance shall be installed in accordance with the installation instructions.
The heat input shall be adjusted to within ± 2 % of the nominal domestic hot water heat input.
The adjustment of the appliance water temperature (T ) shall be as follows (see Figure A.1 and Figure A.2):
d
a) Appliances with an adjustable temperature: the tests shall be carried out at a temperature not greater
than 65 °C, with a minimum temperature increase than 45 K above water inlet temperature. For the load
profile XS the minimum temperature setting shall be equal to or greater than 35°C (∆T 25 K above water
inlet temperature).
b) Appliances with a fixed temperature: the tests shall be carried out at the temperature specified in the
appliance documentation, with a minimum temperature increase equal to or greater than 45 K above the
water inlet temperature. For the load profile XS the minimum temperature setting shall be equal to or
greater than 35°C (∆T 25 K above water inlet temperature).
NOTE The test conditions of 4.4.1 are applicable.
The same conditions of initial adjustment stated in the appliance documentation shall be used for all the tests.
These conditions shall be included in the test report.
4.4.5 Conditions for the determination of the maximum load profile
The measurement of the domestic hot water efficiency shall be performed with the maximum load profile or
the one just below this load profile:
a) Instantaneous appliances shall be set to the nominal heat input as stated on the data plate. If the user
instructions specify that it is possible to adjust the outlet temperature, this temperature shall be set to the
maximum possible value not exceeding 65°C.
b) Storage appliances shall be set to the nominal heat input as stated on the data plate. If the user
instructions specify that different modes are possible to be selected, the one that is able to store more
energy that delivers more hot water during 24 h period shall be used.
NOTE 1 See Annex C (informative).
NOTE 2 In case of maximal load profile 3XL or 4XL the label testing should be XXL.
The load profile used for the domestic hot water performance test shall be stated in the user instructions.
4.4.6 Electrical supply
The appliance shall be supplied with the nominal voltage stated in the installation instructions.
5 Determination of the energy consumption of the appliance
5.1 General
This clause defines the test methods to be employed in determining the energy consumption of appliances.
5.2 Load profiles
All patterns define a 24 h measurement cycle and within that cycle the starting times and the total energy
content (in kWh equivalent of hot water tapped) of each draw-off are defined.
Furthermore, the draw-off can be characterized in two ways, either “basin” type draw-off versus “continuous
flow” draw-off.
The aim of the “basin” type is to arrive at an average temperature of the tub, so all supplied energy can be
considered useful from the very beginning of the draw-off (minimum useful temperature increase is 0 K). The
temperature rise (ΔTp) to be achieved during tapping, shall be 30 K for floor cleaning and bath and 45 K for
the dish washes.
The aim of the “continuous flow” type is to use only the water with a minimum temperature. For the shower,
household cleaning and large draw-offs a temperature rise of 30 K shall be reached before counting the useful
energy. For the small draw-offs a temperature rise of 15 K shall be reached.
NOTE The temperature rises (in K) based on 10 °C inlet water temperature stated above are equivalent to the
temperatures (in °C) given by the load profiles tables in Regulations n° 811/2013, n° 812/2013, n° 813/2013 and n°
814/2013. The tapping flow rates used to perform the different draw-offs of each of the eight load profiles are defined by
Tables 2 to 9.
When these water draw-off flow rates result in a tapping period of less than 15 s the water flow rate should
be decreased such that the tapping period is (16 ± 1) s.
In the load profiles, the requirements for water flow rate and temperatures are based on the delivery at the
tap in a mix of hot and cold water. Under the conditions of the initial adjustment, the appliance itself produces
hot water with a minimum temperature rise of 45 K. For the load profile XS the minimum temperature setting
shall be equal to or greater than 35°C (∆T 25 K above water inlet temperature).
To fulfil the requirements stated in Tables 2 to 9 mixing hot water from the appliance with cold water of 10 °C
at the tap is allowed either by using a mixing device (see Figures B.1 and B.5) or by recalculating the
appliance flow rate (D ) according to the following formula:
min
∆T
useful
D = D (1)
min useful
∆T
d
where
D is the minimum test rig setting for the appliance flow rate of each individual draw-
min
off at temperature rise corresponding to ΔT , in l/min;
d
D is the useful water flow rate according to Tables 2 to 9, in l/min;
useful (ΔT)
ΔT is the appliance water temperature rise, with a minimum of 30 K;
d
ΔT is the higher value between the temperature rise to be achieved and the minimum
useful
temperature rise for counting the useful energy according to Tables 2 to 9.
If the appliance cannot deliver these flow rates, for instance due to the flow restrictor, it shall be checked that
the requirements are fulfilled by checking that (D ) is delivered.
min
If by design the appliance is fitted with a flow restrictor, the tests shall be carried out with this flow restrictor.
The tests shall be performed by using the useful water flow rates defined by Tables 2 to 9.
Table 2 — Load profile XS
Draw-off Start Energy Type of draw-off Useful ΔTp to be Minimum
n° (kWh) water flow achieved ΔTm for
(h.min)
rate at the during counting
tap tapping useful energy
(l/min) (K) (K)
1 07.30 0,525 Medium 3  25
2 12.45 0,525 Medium 3  25
3 20.30 1,050 Large 3  25
Q 2,100
ref
Equivalent hot water litres at 60°C 36
Table 3 — Load profile S
Draw-off Start Energy Type of draw-off Useful ΔTp to be Minimum
n° (kWh) water flow achieved ΔTm for
(h.min)
rate at the during counting
tap tapping useful energy
(l/min) (K) (K)
1 07.00 0,105 Small 3  15
2 07.30 0,105 Small 3  15
3 08.30 0,105 Small 3  15
4 09.30 0,105 Small 3  15
5 11.30 0,105 Small 3  15
6 11.45 0,105 Small 3  15
7 12.45 0,315 Dish washing n°1 4 45 0
8 18.00 0,105 Small 3  15
9 18.15 0,105 Household cleaning 3  30
10 20.30 0,420 Dish washing n°2 4 45 0
11 21.30 0,525 Large 5  35
Q 2,100
ref
Equivalent hot water litres at 60°C 36
Table 4 — Load profile M
Draw- Start Energy Type of draw-off Useful ΔTp to be Minimum
off n° (h.min) (kWh) water achieved ΔTm for
flow rate during counting
at the tap tapping useful energy
(l/min) (K) (K)
1 07.00 0,105 Small 3  15
2 07.05 1,400 Shower n°1 6  30
3 07.30 0,105 Small 3  15
4 08.01 0,105 Small 3  15
5 08.15 0,105 Small 3  15
6 08.30 0,105 Small 3  15
7 08.45 0,105 Small 3  15
8 09.00 0,105 Small 3  15
9 09.30 0,105 Small 3  15
10 10.30 0,105 Floor cleaning 3 30 0
11 11.30 0,105 Small 3  15
12 11.45 0,105 Small 3  15
13 12.45 0,315 Dish washing n°1 4 45 0
14 14.30 0,105 Small 3  15
15 15.30 0,105 Small 3  15
16 16.30 0,105 Small 3  15
17 18.00 0,105 Small 3  15
18 18.15 0,105 Household cleaning 3  30
19 18.30 0,105 Household cleaning 3  30
20 19.00 0,105 Small 3  15
21 20.30 0,735 Dish washing n°3 4 45 0
22 21.15 0,105 Small 3  15
23 21.30 1,400 Shower n°1 6  30
Q 5,845
ref
Equivalent hot water litres at 60 °C 100,2
Table 5 — Load profile L
Draw- Start Energy Type of draw-off Useful ΔTp to be Minimum
off n° (h.min) (kWh) water achieved ΔTm for
flow rate during counting
tapping useful
at the tap
energy
(l/min) (K)
(K)
1 07.00 0,105 Small 3  15
2 07.05 1,400 Shower n°1 6  30
3 07.30 0,105 Small 3  15
4 07.45 0,105 Small 3  15
5 08.05 3,605 Bath n°1 10 30 0
6 08.25 0,105 Small 3  15
7 08.30 0,105 Small 3  15
8 08.45 0,105 Small 3  15
9 09.00 0,105 Small 3  15
10 09.30 0,105 Small 3  15
11 10.30 0,105 Floor cleaning 3 30 0
12 11.30 0,105 Small 3  15
13 11.45 0,105 Small 3  15
14 12.45 0,315 Dish washing n°1 4 45 0
15 14.30 0,105 Small 3  15
16 15.30 0,105 Small 3  15
17 16.30 0,105 Small 3  15
18 18.00 0,105 Small 3  15
19 18.15 0,105 Household cleaning 3  30
20 18.30 0,105 Household cleaning 3  30
21 19.00 0,105 Small 3  15
22 20.30 0,735 Dish washing n°3 4 45 0
23 21.00 3,605 Bath n°1 10 30 0
24 21.30 0,105 Small 3  15
Q 11,655
ref
Equivalent hot water litres at 60 °C 199,8
Table 6 — Load profile XL
Draw-off n° Start Energy Type of draw-off Useful ΔTp to be Minimum
(h.min) (kWh) water flow achieved ΔTm for
rate at the during counting
tap tapping useful energy
(l/min) (K) (K)
1 07.00 0,105 Small 3  15
2 07.15 1,820 Shower n°2 6  30
3 07.26 0,105 Small 3  15
4 07.45 4,420 Bath n°2 10 30 0
5 08.01 0,105 Small 3  15
6 08.15 0,105 Small 3  15
7 08.30 0,105 Small 3  15
8 08.45 0,105 Small 3  15
9 09.00 0,105 Small 3  15
10 09.30 0,105 Small 3  15
11 10.00 0,105 Small 3  15
12 10.30 0,105 Floor cleaning 3 30 0
13 11.00 0,105 Small 3  15
14 11.30 0,105 Small 3  15
15 11.45 0,105 Small 3  15
16 12.45 0,735 Dish washing n°3 4 45 0
17 14.30 0,105 Small 3  15
18 15.00 0,105 Small 3  15
19 15.30 0,105 Small 3  15
20 16.00 0,105 Small 3  15
21 16.30 0,105 Small 3  15
22 17.00 0,105 Small 3  15
23 18.00 0,105 Small 3  15
24 18.15 0,105 Household 3  30
cleaning
25 18.30 0,105 Household 3  30
cleaning
26 19.00 0,105 Small 3  15
27 20.30 0,735 Dish washing n°3 4 45 0
28 20.46 4,420 Bath n°2 10 30 0
29 21.15 0,105 Small 3  15
30 21.30 4,420 Bath n°2 10 30 0
Q 19,070
ref
Equivalent hot water litres at 60°C 325
Table 7 — Load profile XXL
Draw- Start Energy Type of draw-off Useful ΔTp to be Minimum
off n° (h.min) (kWh) water achieved ΔTm for
flow rate during counting
at the tap tapping useful energy

(K)
(l/min) (K)
1 07.00 0,105 Small 3  15
2 07.15 1,820 Shower n°2 6  30
3 07.26 0,105 Small 3  15
4 07.45 6,240 Shower + bath 16 30 0
5 08.01 0,105 Small 3  15
6 08.15 0,105 Small 3  15
7 08.30 0,105 Small 3  15
8 08.45 0,105 Small 3  15
9 09.00 0,105 Small 3  15
10 09.30 0,105 Small 3  15
11 10.00 0,105 Small 3  15
12 10.30 0,105 Floor cleaning 3 30 0
13 11.00 0,105 Small 3  15
14 11.30 0,105 Small 3  15
15 11.45 0,105 Small 3  15
16 12.45 0,735 Dish washing n°3 4 45 0
17 14.30 0,105 Small 3  15
18 15.00 0,105 Small 3  15
19 15.30 0,105 Small 3  15
20 16.00 0,105 Small 3  15
21 16.30 0,105 Small 3  15
22 17.00 0,105 Small 3  15
23 18.00 0,105 Small 3  15
24 18.15 0,105 Household cleaning 3  30
25 18.30 0,105 Household cleaning 3  30
26 19.00 0,105 Small 3  15
27 20.30 0,735 Dish washing n°3 4 45 0
28 20.46 6,240 Shower + bath 16 30 0
29 21.15 0,105 Small 3  15
30 21.30 6,240 Shower + bath 16 30 0
Q 24,530
ref
Equivalent hot water litres at 60 °C 420
Table 8 — Load profile 3XL
Draw- Start Energy Type of draw-off Useful ΔTp to be Minimum
off n° (h.min) (kWh) water achieved ΔTm for
flow rate during counting
at the tap tapping useful energy
(l/min) (K) (K)
1 07.00 11,2 General use n°3 48  30
2 08.01 5,04 General use n°8 24  15
3 09.00 1,68 General use n°9 24  15
4 10.30 0,84 General use n°10 24 30 0
5 11.45 1,68 General use n°9 24  15
6 12.45 2,52 General use n°11a 32 45 0
7 15.30 2,52 General use n°11 24  15
8 18.30 3,36 General use n°12 24  15
9 20.30 5,88 General use n°13 32 45 0
10 21.30 12,04 General use n°5 48  30
Q 46,76
ref
Equivalent hot water litres at 60 °C 800
Table 9 — Load profile 4XL
Draw- Start Energy Type of draw-off Useful ΔTp to be Minimum
off n° (h.min) (kWh) water achieved ΔTm for
flow rate during counting
at the tap tapping useful energy
(l/min) (K) (K)
1 07.00 22,4 General use n°6 96  30
2 08.01 10,08 General use n°2 48  15
3 09.00 3,36 General use n°12a 48  15
4 10.30 1,68 General use n°9a 48 30 0
5 11.45 3,36 General use n°12a 48  15
6 12.45 5,04 General use n°8b 64 45 0
7 15.30 5,04 General use n°8a 48  15
8 18.30 6,72 General use n°1 48  15
9 20.30 11,76 General use n°4 64 45 0
10 21.30 24,08 General use n°7 96  30
Q 93,52
ref
Equivalent hot water litres at 60 °C 1600
There are eight different load profiles, depending on the energy content.
For each energy content, the load profile(s) is (are) based respectively on Tables 2 to 9. Each individual draw-
offs of the load profiles shall be completed, that means the valve shall be closed, and a delay of at least one
minute is required, before starting the following delivery.
Beginning and ending of the load profiles:
— for appliances with no energy consumption between deliveries (neither gas nor electricity), the measured
programme starts at 07h00 with the appliance cold and finishes when the burner is extinguished after
the 21h30 tapping (see Figure A.3).
— for appliances with ene
...