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Commission Regulation (EU) No 813/2013Show full title

Commission Regulation (EU) No 813/2013 of 2 August 2013 implementing Directive 2009/125/EC of the European Parliament and of the Council with regard to ecodesign requirements for space heaters and combination heaters (Text with EEA relevance)

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Commission Regulation (EU) No 813/2013

of 2 August 2013

implementing Directive 2009/125/EC of the European Parliament and of the Council with regard to ecodesign requirements for space heaters and combination heaters

(Text with EEA relevance)

THE EUROPEAN COMMISSION,

Having regard to the Treaty on the Functioning of the European Union,

Having regard to Directive 2009/125/EC of the European Parliament and of the Council of 21 October 2009 establishing a framework for the setting of ecodesign requirements for energy-related products(1) and in particular Article 15(1) thereof,

After consulting the Ecodesign Consultation Forum,

Whereas:

(1) Under Directive 2009/125/EC ecodesign requirements should be set by the Commission for energy-related products representing significant volumes of sales and trade, having a significant environmental impact and presenting significant potential for improvement through design in terms of their environmental impact without entailing excessive costs.

(2) Provisions on the efficiency of boilers were established by Council Directive 92/42/EEC of 21 May 1992 on efficiency requirements for new hot-water boilers fired with liquid or gaseous fuels(2).

(3) Article 16(2)(a) of Directive 2009/125/EC provides, that in accordance with the procedure referred to in Article 19(3) and the criteria set out in Article 15(2), and after consulting the Ecodesign Consultation Forum, the Commission should, as appropriate, introduce implementing measures for products offering a high potential for cost-effective reduction of greenhouse gas emissions, such as for heating and water heating equipment.

(4) The Commission has carried out a preparatory study on the technical, environmental and economic aspects of space heaters and combination (space and water) heaters typically used in the Union. The study was devised together with stakeholders and interested parties from the Union and third countries, and the results have been made publicly available.

(5) The environmental aspects of space heaters and combination heaters that have been identified as significant for the purposes of this Regulation are energy consumption in the use phase and (for heat pump heaters) sound power levels. In addition, for heaters using fossil fuels, emissions of nitrogen oxides, carbon monoxide, particulate matter and hydrocarbons are identified as significant environmental aspects.

(6) It is not appropriate to set ecodesign requirements for emissions of carbon monoxide, particulate matter and hydrocarbons as no suitable European measurement methods are as yet available. With a view to developing such measurement methods, the Commission mandated the European standardisation organisations to consider ecodesign requirements for those emissions during the review of this Regulation. National provisions for ecodesign requirements on emissions of carbon monoxides, particulate matter and hydrocarbons of space heaters and combination heaters may be maintained or introduced until the corresponding Union ecodesign requirements enter into force. The provisions of Directive 2009/142/EC of the European Parliament and of the Council of 30 November 2009 relating to appliances burning gaseous fuels(3), which limit the combustion products of appliances burning gaseous fuels in relation to health and safety, are not affected.

(7) The preparatory study shows that requirements regarding the other ecodesign parameters referred to in Annex I, Part 1 to Directive 2009/125/EC are not necessary in the case of space heaters and combination heaters. In particular, greenhouse gas emissions related to refrigerants used in heat pump heaters for heating today’s European building stock are not identified as significant. The appropriateness of setting ecodesign requirements for these greenhouse gas emissions will be reassessed when reviewing this Regulation.

(8) The scope of this Regulation should include boiler space heaters, cogeneration space heaters and heat pump space heaters providing heat to water-based central heating systems for space heating purposes, and boiler combination heaters and heat pump combination heaters providing heat to water-based central heating systems for space heating purposes and heat to deliver hot drinking and sanitary water. These heaters are designed to use gaseous or liquid fuels, including from biomass (unless predominantly), electricity and ambient or waste heat.

(9) Heaters that are designed for using gaseous or liquid fuels predominantly (more than 50 %) produced from biomass have specific technical characteristics which require further technical, economic and environmental analyses. Depending on the outcome of the analyses, ecodesign requirements for those heaters should be set at a later stage, if appropriate.

(10) Annual energy consumption related to space heaters and combination heaters was estimated to have been 12 089 PJ (about 289 Mtoe) in the Union in 2005, corresponding to 698 Mt CO2 emissions. Unless specific measures are taken, annual energy consumption is expected to be 10 688 PJ in 2020. Annual emissions of nitrogen oxides related to space heaters and combination heaters were estimated to have been 821 kt SOx equivalent in the Union in 2005. Unless specific measures are taken, annual emissions are expected to be 783 kt SOx equivalent in 2020. The preparatory study shows that the use-phase energy consumption and emissions of nitrogen oxides of space heaters and combination heaters can be significantly reduced.

(11) The energy consumption of space heaters and combination heaters can be reduced by applying existing cost-effective non-proprietary technologies which lead to a reduction in the combined costs of purchasing and operating these products.

(12) In the Union there are almost five million dwellings with shared open-flue systems. For technical reasons it is not possible to replace existing boiler space heaters and boiler combination heaters by efficient condensing boilers in dwellings with a shared open-flue system. The requirements contained in this Regulation allow non-condensing boilers specifically designed for such a configuration to remain on the market; this is to prevent undue costs for consumers, to give manufacturers time to develop boilers dedicated to more efficient heating technologies, and to give Member States time to reflect on national building codes.

(13) The combined effect of the ecodesign requirements set out in this Regulation and the Commission Delegated Regulation (EU) No 811/2013 of 18 February 2013 supplementing Directive 2010/30/EU of the European Parliament and of the Council with regard to energy labelling of space heaters, combination heaters, packages of space heater, temperature control and solar device and packages of combination heater, temperature control and solar device(4) is expected to result by 2020 in estimated annual energy savings of about 1 900 PJ (about 45 Mtoe), corresponding to around 110 Mt CO2 emissions, and a reduction in annual nitrogen oxides emissions of some 270 kt SOx equivalent, compared to what would happen if no measures were taken.

(14) Ecodesign requirements should harmonise energy consumption, sound power level and nitrogen oxides emission requirements for space heaters and combination heaters throughout the Union, thus helping to make the internal market operate better and to improve the environmental performance of these products.

(15) The ecodesign requirements should not affect the functionality or affordability of space heaters or combination heaters from the end-user’s perspective and should not negatively affect health, safety or the environment.

(16) The ecodesign requirements should be introduced gradually to give manufacturers a sufficient timeframe to redesign their products subject to this Regulation. The timing should be such that cost impact for manufacturers, in particular for small and medium-sized enterprises, is taken into account, while ensuring timely achievement of the objectives of this Regulation.

(17) Product parameters should be measured and calculated using reliable, accurate and reproducible methods which take into account recognised state-of-the-art measurement and calculation methods, including, where available, harmonised standards adopted by the European standardisation organisations under a request from the Commission, in accordance with the procedures laid down in the Regulation (EU) No 1025/2012 of the European Parliament and of the Council of 25 October 2012 on European standardisation(5).

(18) In accordance with Article 8(2) of Directive 2009/125/EC, this Regulation specifies which conformity assessment procedures apply.

(19) To facilitate compliance checks, manufacturers should provide information in the technical documentation referred to in Annexes IV and V to Directive 2009/125/EC insofar as that information relates to the requirements laid down in this Regulation.

(20) To further limit the environmental impact of space heaters and combination heaters, manufacturers should provide information on disassembly, recycling and/or disposal.

(21) In addition to the legally binding requirements laid down in this Regulation, indicative benchmarks for best available technologies should be identified to ensure that information on the life-cycle environmental performance of space heaters and combination heaters is widely available and easily accessible.

(22) Directive 92/42/EEC should be repealed, except for Articles 7(2) and 8 thereof and Annexes III to V thereto, and new provisions should be laid down by this Regulation to ensure that the scope is extended to heaters other than boilers, to further improve the energy efficiency of space heaters and combination heaters, and to improve other significant environmental aspects of space heaters and combination heaters.

(23) The measures provided for in this Regulation are in accordance with the opinion of the Committee established by Article 19(1) of Directive 2009/125/EC,

HAS ADOPTED THIS REGULATION:

Article 1Subject matter and scope

1.This Regulation establishes ecodesign requirements for the placing on the market and/or putting into service of space heaters and combination heaters with a rated heat output ≤ 400 kW, including those integrated in packages of space heater, temperature control and solar device or packages of combination heater, temperature control and solar device as defined in Article 2 of Commission Delegated Regulation (EU) No 811/2013.

2.This Regulation shall not apply to:

(a)heaters specifically designed for using gaseous or liquid fuels predominantly produced from biomass;

(b)heaters using solid fuels;

(c)heaters within the scope of Directive 2010/75/EU of the European Parliament and of the Council(6);

(d)heaters generating heat only for the purpose of providing hot drinking or sanitary water;

(e)heaters for heating and distributing gaseous heat transfer media such as vapour or air;

(f)cogeneration space heaters with a maximum electrical capacity of 50 kW or above;

(g)heat generators designed for heaters and heater housings to be equipped with such heat generators placed on the market before 1 January 2018 to replace identical heat generators and identical heater housings. The replacement product or its packaging shall clearly indicate the heater for which it is intended.

Article 2Definitions

In addition to the definitions set out in Article 2 of Directive 2009/125/EC, the following definitions shall apply for the purposes of this Regulation:

(1)

‘heater’ means a space heater or combination heater;

(2)

‘space heater’ means a device that

(a)

provides heat to a water-based central heating system in order to reach and maintain at a desired level the indoor temperature of an enclosed space such as a building, a dwelling or a room; and

(b)

is equipped with one or more heat generators;

(3)

‘combination heater’ means a space heater that is designed to also provide heat to deliver hot drinking or sanitary water at given temperature levels, quantities and flow rates during given intervals, and is connected to an external supply of drinking or sanitary water;

(4)

‘water-based central heating system’ means a system using water as a heat transfer medium to distribute centrally generated heat to heat emitters for the space heating of buildings, or parts thereof;

(5)

‘heat generator’ means the part of a heater that generates the heat using one or more of the following processes:

(a)

combustion of fossil fuels and/or biomass fuels;

(b)

use of the Joule effect in electric resistance heating elements;

(c)

capture of ambient heat from an air source, water source or ground source, and/or waste heat;

whereby a heat generator designed for a heater and a heater housing to be equipped with such a heat generator shall be also considered a heater;

(6)

‘heater housing’ means the part of a heater designed to have a heat generator fitted;

(7)

‘rated heat output’ (Prated) means the declared heat output of a heater when providing space heating and, if applicable, water heating at standard rating conditions, expressed in kW; for heat pump space heaters and heat pump combination heaters the standard rating conditions for establishing the rated heat output are the reference design conditions, as set out in Annex III, Table 4;

(8)

‘standard rating conditions’ means the operating conditions of heaters under average climate conditions for establishing the rated heat output, seasonal space heating energy efficiency, water heating energy efficiency, sound power level and nitrogen oxide emissions;

(9)

‘biomass’ means the biodegradable fraction of products, waste and residues from biological origin from agriculture (including vegetal and animal substances), forestry and related industries including fisheries and aquaculture, as well as the biodegradable fraction of industrial and municipal waste;

(10)

‘biomass fuel’ means a gaseous or liquid fuel produced from biomass;

(11)

‘fossil fuel’ means a gaseous or liquid fuel of fossil origin;

(12)

‘boiler space heater’ means a space heater that generates heat using the combustion of fossil fuels and/or biomass fuels, and/or using the Joule effect in electric resistance heating elements;

(13)

‘boiler combination heater’ means a boiler space heater that is designed to also provide heat to deliver hot drinking or sanitary water at given temperature levels, quantities and flow rates during given intervals, and is connected to an external supply of drinking or sanitary water;

(14)

‘electric boiler space heater’ means a boiler space heater that generates heat using the Joule effect in electric resistance heating elements only;

(15)

‘electric boiler combination heater’ means a boiler combination heater that generates heat using the Joule effect in electric resistance heating elements only;

(16)

‘cogeneration space heater’ means a space heater simultaneously generating heat and electricity in a single process;

(17)

‘heat pump space heater’ means a space heater using ambient heat from an air source, water source or ground source, and/or waste heat for heat generation; a heat pump space heater may be equipped with one or more supplementary heaters using the Joule effect in electric resistance heating elements or the combustion of fossil and/or biomass fuels;

(18)

‘heat pump combination heater’ means a heat pump space heater that is designed to also provide heat to deliver hot drinking or sanitary water at given temperature levels, quantities and flow rates during given intervals, and is connected to an external supply of drinking or sanitary water;

(19)

‘supplementary heater’ means a non-preferential heater that generates heat in cases where the heat demand is greater than the rated heat output of the preferential heater;

(20)

‘seasonal space heating energy efficiency’ (ηs ) means the ratio between the space heating demand for a designated heating season, supplied by a heater and the annual energy consumption required to meet this demand, expressed in %;

(21)

‘water heating energy efficiency’ (ηwh ) means the ratio between the useful energy in the drinking or sanitary water provided by a combination heater and the energy required for its generation, expressed in %;

(22)

‘sound power level’ (LWA ) means the A-weighted sound power level, indoors and/or outdoors, expressed in dB;

(23)

‘conversion coefficient’ (CC) means a coefficient reflecting the estimated 40 % average EU generation efficiency referred to in Directive 2012/27/EU of the European Parliament and of the Council(7); the value of the conversion coefficient is CC = 2,5.

For the purposes of Annexes II to V, additional definitions are set out in Annex I.

Article 3Ecodesign requirements and timetable

1.The ecodesign requirements for heaters are set out in Annex II.

2.Each ecodesign requirements shall apply in accordance with the following timetable:

(a)from 26 September 2015:

(i)

heaters shall meet the requirements set out in Annex II, points 1(a), 3 and 5;

(ii)

combination heaters shall meet the requirements set out in Annex II, point 2(a);

(b)from 26 September 2017:

(i)

electric space heaters, electric combination heaters, cogeneration space heaters, heat pump space heaters and heat pump combination heaters shall meet the requirements set out in Annex II, point 1(b);

(ii)

combination heaters shall meet the requirements set out in Annex II, point 2(b);

(c)from 26 September 2018 heaters shall meet the requirements set out in Annex II, point 4(a).

3.Compliance with ecodesign requirements shall be measured and calculated in accordance with the requirements set out in Annex III.

Article 4Conformity assessment

1.The conformity assessment procedure referred to in Article 8(2) of Directive 2009/125/EC shall be the internal design control set out in Annex IV to that Directive or the management system set out in Annex V to that Directive without prejudice to Articles 7(2) and 8 of and Annexes III to V to Council Directive 92/42/EEC.

2.For the purposes of conformity assessment, the technical documentation shall contain the product information set out in point 5(b) of Annex II to this Regulation.

Article 5Verification procedure for market surveillance purposes

When performing the market surveillance checks referred to in Article 3(2) of Directive 2009/125/EC to ensure compliance with the requirements set out in Annex II to this Regulation, the Member States’ authorities shall apply the verification procedure set out in Annex IV to this Regulation.

Article 6Indicative benchmarks

The indicative benchmarks for best-performing heaters available on the market at the time of entry into force of this Regulation are set out in Annex V.

Article 7Review

The Commission shall review this Regulation in the light of technological progress with heaters and present the result of that review to the Ecodesign Consultation Forum no later than five years from the date of entry into force of this Regulation. In particular, the review shall include an assessment of the following aspects:

(a)

the appropriateness of setting ecodesign requirements for greenhouse gas emissions related to refrigerants;

(b)

on the basis of the measurement methods under development, the level of the ecodesign requirements for emissions of carbon monoxide, hydrocarbons and particulate matter that may be introduced;

(c)

the appropriateness of setting stricter ecodesign requirements for the energy efficiency of boiler space heaters and boiler combination heaters, for the sound power level and for emissions of nitrogen oxides;

(d)

the appropriateness of setting ecodesign requirements for heaters specifically designed for using gaseous or liquid fuels predominantly produced from biomass;

(e)

the validity of the conversion coefficient value;

(f)

the appropriateness of third party certification.

Article 8Transitional provisions

1.Until 26 September 2015 Member States may allow the placing on the market and/or putting into service of heaters which are in conformity with the national provisions in force when this Regulation is adopted regarding seasonal space heating energy efficiency, water heating energy efficiency and sound power level.

2.Until 26 September 2018 Member States may allow the placing on the market and/or putting into service of heaters, which are in conformity with the national provisions in force when this Regulation is adopted regarding emissions of nitrogen oxides.

Article 9Repeal

Council Directive 92/42/EEC is repealed, except for Articles 7(2) and 8 thereof and Annexes III to V thereto, without prejudice to the obligations of the Member States relating to the transposition into national law and application of that Directive until the ecodesign requirements set out in Annex II of this Regulation start to apply.

Article 10Entry into force

This Regulation shall enter into force on the twentieth day following that of its publication in the Official Journal of the European Union.

This Regulation shall be binding in its entirety and directly applicable in all Member States.

Done at Brussels, 2 August 2013.

For the Commission

The President

José Manuel Barroso

ANNEX I Definitions applicable for Annexes II to V

For the purposes of Annexes II to V the following definitions shall apply:

Definitions related to heaters

(1)‘standby mode’ means a condition where the heater is connected to the mains power source, depends on energy input from the mains power source to work as intended and provides only the following functions, which may persist for an indefinite time: reactivation function, or reactivation function and only an indication of enabled reactivation function, and/or information or status display;

(2)‘standby mode power consumption’ (PSB ) means the power consumption of a heater in standby mode, expressed in kW;

(3)‘average climate conditions’ mean the temperature conditions characteristic for the city of Strasbourg;

(4)‘temperature control’ means the equipment that interfaces with the end-user regarding the values and timing of the desired indoor temperature, and communicates relevant data to an interface of the heater such as a central processing unit, thus helping to regulate the indoor temperature(s);

(5)‘gross calorific value’ (GCV) means the total amount of heat released by a unit quantity of fuel when it is burned completely with oxygen and when the products of combustion are returned to ambient temperature; this quantity includes the condensation heat of any water vapour contained in the fuel and of the water vapour formed by the combustion of any hydrogen contained in the fuel;

(6)‘equivalent model’ means a model placed on the market with the same technical parameters set out in Table 1 or Table 2 (as applicable) of Annex II, point 5, as another model placed on the market by the same manufacturer;

Definitions related to boiler space heaters, boiler combination heaters and cogeneration space heaters

(7)‘fuel boiler space heater’ means a boiler space heater that generates heat by burning fossil fuels and/or biomass fuels, and which may be equipped with one or more additional heat generators using the Joule effect in electric resistance heating elements;

(8)‘fuel boiler combination heater’ means a boiler combination heater that generates heat by burning fossil fuels and/or biomass fuels, and which may be equipped with one or more additional heat generators using the Joule effect in electric resistance heating elements;

(9)‘type B1 boiler’ means a fuel boiler space heater incorporating a draught diverter, intended to be connected to a natural draught flue that evacuates the residues of combustion to the outside of the room containing the fuel boiler space heater, and drawing the combustion air directly from the room; a type B1 boiler is marketed as type B1 boiler only;

(10)‘type B1 combination boiler’ means a fuel boiler combination heater incorporating a draught diverter, intended to be connected to a natural draught flue that evacuates the residues of combustion to the outside of the room containing the fuel boiler combination heater, and drawing the combustion air directly from the room; a type B1 combination boiler is marketed as type B1 combination boiler only;

(11)‘seasonal space heating energy efficiency in active mode’ (ηson ) means

  • for fuel boiler space heaters and fuel boiler combination heaters, a weighted average of the useful efficiency at rated heat output and the useful efficiency at 30 % of the rated heat output, expressed in %;

  • for electric boiler space heaters and electric boiler combination heaters, the useful efficiency at rated heat output, expressed in %;

  • for cogeneration space heaters not equipped with supplementary heaters, the useful efficiency at rated heat output, expressed in %;

  • for cogeneration space heaters equipped with supplementary heaters, a weighted average of the useful efficiency at rated heat output with supplementary heater disabled, and the useful efficiency at rated heat output with supplementary heater enabled, expressed in %;

(12)‘useful efficiency’ (η) means the ratio of the useful heat output and the total energy input of a boiler space heater, boiler combination heater or cogeneration space heater, expressed in %, whereby the total energy input is expressed in terms of GCV and/or in terms of final energy multiplied by CC;

(13)‘useful heat output’ (P) means the heat output of a boiler space heater, boiler combination heater or cogeneration space heater transmitted to the heat carrier, expressed in kW;

(14)‘electrical efficiency’ (ηel ) means the ratio of the electricity output and the total energy input of a cogeneration space heater, expressed in %, whereby the total energy input is expressed in terms of GCV and/or in terms of final energy multiplied by CC;

(15)‘ignition burner power consumption’ (Pign ) means the power consumption of a burner intended to ignite the main burner, expressed in W in terms of GCV;

(16)‘condensing boiler’ means a boiler space heater or boiler combination heater in which, under normal operating conditions and at given operating water temperatures, the water vapour in the combustion products is partially condensed, in order to make use of the latent heat of this water vapour for heating purposes;

(17)‘auxiliary electricity consumption’ means the annual electricity required for the designated operation of a boiler space heater, boiler combination heater or cogeneration space heater, calculated from the electric power consumption at full load (elmax), at part load (elmin), in standby mode and default operating hours at each mode, expressed in kWh in terms of final energy;

(18)‘standby heat loss’ (Pstby ) means the heat loss of a boiler space heater, boiler combination heater or cogeneration space heater in operating modes without heat demand, expressed in kW;

Definitions related to heat pump space heaters and heat pump combination heaters

(19)‘outdoor temperature’ (Tj ) means the dry bulb outdoor air temperature, expressed in degrees Celsius; the relative humidity may be indicated by a corresponding wet bulb temperature;

(20)‘rated coefficient of performance’ (COPrated ) or ‘rated primary energy ratio’ (PERrated ) means the declared capacity for heating, expressed in kW, divided by the energy input, expressed in kW in terms of GCV and/or in kW in terms of final energy multiplied by CC, for heating provided at standard rating conditions;

(21)‘reference design conditions’ means the combination of the reference design temperature, the maximum bivalent temperature and the maximum operation limit temperature, as set out in Annex III, Table 4;

(22)‘reference design temperature’ (Tdesignh) means the outdoor temperature, expressed in degrees Celsius, as set out in Annex III, Table 4, at which the part load ratio is equal to 1;

(23)‘part load ratio’ (pl(Tj )) means the outdoor temperature minus 16 °C divided by the reference design temperature minus 16 °C;

(24)‘heating season’ means a set of operating conditions describing per bin the combination of outdoor temperatures and the number of hours these temperatures occur per season;

(25)‘bin’ (binj ) means a combination of an outdoor temperature and bin hours, as set out in Annex III, Table 5;

(26)‘bin hours’ (Hj ) means the hours per heating season, expressed in hours per year, at which an outdoor temperature occurs for each bin, as set out in Annex III, Table 5;

(27)‘part load for heating’ (Ph(Tj )) means the heating load at a specific outdoor temperature, calculated as the design load multiplied by the part load ratio and expressed in kW;

(28)‘seasonal coefficient of performance’ (SCOP) or ‘seasonal primary energy ratio’ (SPER) is the overall coefficient of performance of a heat pump space heater or heat pump combination heater using electricity or the overall primary energy ratio of a heat pump space heater or heat pump combination heater using fuels, representative of the designated heating season, calculated as the reference annual heating demand divided by the annual energy consumption;

(29)‘reference annual heating demand’ (QH ) means the reference heating demand for a designated heating season, to be used as the basis for calculating SCOP or SPER and calculated as the product of the design load for heating and the annual equivalent active mode hours, expressed in kWh;

(30)‘annual energy consumption’ (QHE ) means the energy consumption required to meet the reference annual heating demand for a designated heating season, expressed in kWh in terms of GCV and/or in kWh in terms of the final energy multiplied by CC;

(31)‘annual equivalent active mode hours’ (HHE ) means the assumed annual number of hours a heat pump space heater or heat pump combination heater has to provide the design load for heating to satisfy the reference annual heating demand, expressed in h;

(32)‘active mode coefficient of performance’ (SCOPon ) or ‘active mode primary energy ratio’ (SPERon ) means the average coefficient of performance of the heat pump space heater or heat pump combination heater using electricity in active mode, or the average primary energy ratio of the heat pump space heater or heat pump combination heater using fuels in active mode for the designated heating season;

(33)‘supplementary capacity for heating’ (sup(Tj )) means the rated heat output Psup of a supplementary heater that supplements the declared capacity for heating to meet the part load for heating, if the declared capacity for heating is less than the part load for heating, expressed in kW;

(34)‘bin-specific coefficient of performance’ (COPbin(Tj )) or ‘bin-specific primary energy ratio’ (PERbin(Tj )) means the coefficient of performance of the heat pump space heater or heat pump combination heater using electricity, or primary energy ratio of the heat pump space heater or heat pump combination heater using fuel specific for every bin in a season, derived from the part load for heating, declared capacity for heating and declared coefficient of performance for specified bins and calculated for other bins by interpolation or extrapolation, corrected where necessary by the degradation coefficient;

(35)‘declared capacity for heating’ (Pdh(Tj )) means the heating capacity a heat pump space heater or heat pump combination heater is able to deliver, for an outdoor temperature, expressed in kW;

(36)‘capacity control’ means the ability of a heat pump space heater or heat pump combination heater to change its capacity by changing the volumetric flow rate of at least one of the fluids needed to operate the refrigeration cycle, to be indicated as ‘fixed’ if the volumetric flow rate cannot be changed or ‘variable’ if the volumetric flow rate is changed or varied in series of two or more steps;

(37)‘design load for heating’ (Pdesignh) means the rated heat output (Prated) of a heat pump space heater or heat pump combination heater at the reference design temperature, whereby the design load for heating is equal to the part load for heating with outdoor temperature equal to reference design temperature, expressed in kW;

(38)‘declared coefficient of performance’ (COPd(Tj )) or ‘declared primary energy ratio’ (PERd(Tj )) means the coefficient of performance or primary energy ratio at a limited number of specified bins;

(39)‘bivalent temperature’ (Tbiv ) means the outdoor temperature declared by the manufacturer for heating at which the declared capacity for heating equals the part load for heating and below which the declared capacity for heating requires supplementary capacity for heating to meet the part load for heating, expressed in degrees Celsius;

(40)‘operation limit temperature’ (TOL) means the outdoor temperature declared by the manufacturer for heating, below which the air-to-water heat pump space heater or air-to-water heat pump combination heater will not be able to deliver any heating capacity and the declared capacity for heating is equal to zero, expressed in degrees Celsius;

(41)‘heating water operation limit temperature’ (WTOL) means the outlet water temperature declared by the manufacturer for heating, above which the heat pump space heater or heat pump combination heater will not be able to deliver any heating capacity and the declared capacity for heating is equal to zero, expressed in degrees Celsius;

(42)‘cycling interval capacity for heating’ (Pcych) means the integrated heating capacity over the cycling test interval for heating, expressed in kW;

(43)‘cycling interval efficiency’ (COPcyc or PERcyc) means the average coefficient of performance or average primary energy ratio over the cycling test interval, calculated as the integrated heating capacity over the interval, expressed in kWh, divided by the integrated energy input over that same interval, expressed in kWh in terms of GCV and/or in kWh in terms of final energy multiplied by CC;

(44)‘degradation coefficient’ (Cdh) means the measure of efficiency loss due to cycling of heat pump space heaters or heat pump combination heaters; if Cdh is not determined by measurement then the default degradation coefficient is Cdh = 0,9;

(45)‘active mode’ means the condition corresponding to the hours with a heating load for the enclosed space and activated heating function; this condition may involve cycling of the heat pump space heater or heat pump combination heater to reach or maintain a required indoor air temperature;

(46)‘off mode’ means a condition in which the heat pump space heater or heat pump combination heater is connected to the mains power source and is not providing any function, including conditions providing only an indication of off mode condition and conditions providing only functionalities intended to ensure electromagnetic compatibility pursuant to Directive 2004/108/EC of the European Parliament and of the Council(8);

(47)‘thermostat-off mode’ means the condition corresponding to the hours with no heating load and activated heating function, whereby the heating function is switched on but the heat pump space heater or heat pump combination heater is not operational; cycling in active mode is not considered as thermostat-off mode;

(48)‘crankcase heater mode’ means the condition in which a heating device is activated to avoid the refrigerant migrating to the compressor so as to limit the refrigerant concentration in oil when the compressor is started;

(49)‘off mode power consumption’ (POFF ) means the power consumption of a heat pump space heater or heat pump combination heater in off mode, expressed in kW;

(50)‘thermostat-off mode power consumption’ (PTO ) means the power consumption of the heat pump space heater or heat pump combination heater while in thermostat-off mode, expressed in kW;

(51)‘crankcase heater mode power consumption’ (PCK ) means the power consumption of the heat pump space heater or heat pump combination heater while in crankcase heater mode, expressed in kW;

(52)‘low-temperature heat pump’ means a heat pump space heater that is specifically designed for low-temperature application, and that cannot deliver heating water with an outlet temperature of 52 °C at an inlet dry (wet) bulb temperature of – 7 °C (– 8 °C) in the reference design conditions for average climate;

(53)‘low-temperature application’ means an application where the heat pump space heater delivers its declared capacity for heating at an indoor heat exchanger outlet temperature of 35 °C;

(54)‘medium-temperature application’ means an application where the heat pump space heater or heat pump combination heater delivers its declared capacity for heating at an indoor heat exchanger outlet temperature of 55 °C;

Definitions related to water heating in combination heaters

(55)‘load profile’ means a given sequence of water draw-offs, as specified in Annex III, Table 7; each combination heater meets at least one load profile;

(56)‘water draw-off’ means a given combination of useful water flow rate, useful water temperature, useful energy content and peak temperature, as specified in Annex III, Table 7;

(57)‘useful water flow rate’ (f) means the minimum flow rate, expressed in litres per minute, for which hot water is contributing to the reference energy, as specified in Annex III, Table 7;

(58)‘useful water temperature’ (Tm ) means the water temperature, expressed in degrees Celsius, at which hot water starts contributing to the reference energy, as specified in Annex III, Table 7;

(59)‘useful energy content’ (Qtap ) means the energy content of hot water, expressed in kWh, provided at a temperature equal to, or above, the useful water temperature, and at water flow rates equal to, or above, the useful water flow rate, as specified in Annex III, Table 7;

(60)‘energy content of hot water’ means the product of the specific heat capacity of water, the average temperature difference between the hot water output and cold water input, and the total mass of the hot water delivered;

(61)‘peak temperature’ (Tp ) means the minimum water temperature, expressed in degrees Celsius, to be achieved during water draw-off, as specified in Annex III, Table 7;

(62)‘reference energy’ (Qref ) means the sum of the useful energy content of water draw-offs, expressed in kWh, in a particular load profile, as specified in Annex III, Table 7;

(63)‘maximum load profile’ means the load profile with the greatest reference energy that a combination heater is able to provide while fulfilling the temperature and flow rate conditions of that load profile;

(64)‘declared load profile’ means the load profile applied for conformity assessment;

(65)‘daily electricity consumption’ (Qelec ) means the consumption of electricity for water heating over 24 consecutive hours under the declared load profile, expressed in kWh in terms of final energy;

(66)‘daily fuel consumption’ (Qfuel ) means the consumption of fuels for water heating over 24 consecutive hours under the declared load profile, expressed in kWh in terms of GCV.

ANNEX II Ecodesign requirements

1.REQUIREMENTS FOR SEASONAL SPACE HEATING ENERGY EFFICIENCY

(a)

From 26 September 2015 the seasonal space heating energy efficiency and useful efficiencies of heaters shall not fall below the following values:

  • Fuel boiler space heaters with rated heat output ≤ 70 kW and fuel boiler combination heaters with rated heat output ≤ 70 kW, with the exception of type B1 boilers with rated heat output ≤ 10 kW and type B1 combination boilers with rated heat output ≤ 30 kW:

    The seasonal space heating energy efficiency shall not fall below 86 %.

  • Type B1 boilers with rated heat output ≤ 10 kW and type B1 combination boilers with rated heat output ≤ 30 kW:

    The seasonal space heating energy efficiency shall not fall below 75 %.

  • Fuel boiler space heaters with rated heat output > 70 kW and ≤ 400 kW and fuel boiler combination heaters with rated heat output > 70 kW and ≤ 400 kW:

    The useful efficiency at 100 % of the rated heat output shall not fall below 86 %, and the useful efficiency at 30 % of the rated heat output shall not fall below 94 %.

  • Electric boiler space heaters and electric boiler combination heaters:

    The seasonal space heating energy efficiency shall not fall below 30 %.

  • Cogeneration space heaters:

    The seasonal space heating energy efficiency shall not fall below 86 %.

  • Heat pump space heaters and heat pump combination heaters, with the exception of low-temperature heat pumps:

    The seasonal space heating energy efficiency shall not fall below 100 %.

  • Low-temperature heat pumps:

    The seasonal space heating energy efficiency shall not fall below 115 %.

(b)

From 26 September 2017 the seasonal space heating energy efficiency of electric boiler space heaters, electric boiler combination heaters, cogeneration space heaters, heat pump space heaters and heat pump combination heaters shall not fall below the following values:

  • Electric boiler space heaters and electric boiler combination heaters:

    The seasonal space heating energy efficiency shall not fall below 36 %.

  • Cogeneration space heaters:

    The seasonal space heating energy efficiency shall not fall below 100 %.

  • Heat pump space heaters and heat pump combination heaters, with the exception of low-temperature heat pumps:

    The seasonal space heating energy efficiency shall not fall below 110 %.

  • Low-temperature heat pumps:

    The seasonal space heating energy efficiency shall not fall below 125 %.

2.REQUIREMENTS FOR WATER HEATING ENERGY EFFICIENCY

(a)From 26 September 2015 the water heating energy efficiency of combination heaters shall not fall below the following values:

Declared load profile 3XS XXS XS S M L XL XXL 3XL 4XL
Water heating energy efficiency22 %23 %26 %26 %30 %30 %30 %32 %32 %32 %

(b)From 26 September 2017 the water heating energy efficiency of combination heaters shall not fall below the following values:

Declared load profile 3XS XXS XS S M L XL XXL 3XL 4XL
Water heating energy efficiency32 %32 %32 %32 %36 %37 %38 %60 %64 %64 %

3.REQUIREMENTS FOR SOUND POWER LEVEL

From 26 September 2015 the sound power level of heat pump space heaters and heat pump combination heaters shall not exceed the following values:

Rated heat output ≤ 6 kWRated heat output > 6 kW and ≤ 12 kWRated heat output > 12 kW and ≤ 30 kWRated heat output > 30 kW and ≤ 70 kW
Sound power level (LWA ), indoorsSound power level (LWA ), outdoorsSound power level (LWA ), indoorsSound power level (LWA ), outdoorsSound power level (LWA ), indoorsSound power level (LWA ), outdoorsSound power level (LWA ), indoorsSound power level (LWA ), outdoors
60 dB65 dB65 dB70 dB70 dB78 dB80 dB88 dB

4.REQUIREMENTS FOR EMISSIONS OF NITROGEN OXIDES

(a)From 26 September 2018 emissions of nitrogen oxides, expressed in nitrogen dioxide, of heaters shall not exceed the following values:

  • fuel boiler space heaters and fuel boiler combination heaters using gaseous fuels: 56 mg/kWh fuel input in terms of GCV;

  • fuel boiler space heaters and fuel boiler combination heaters using liquid fuels: 120 mg/kWh fuel input in terms of GCV;

  • cogeneration space heaters equipped with external combustion using gaseous fuels: 70 mg/kWh fuel input in terms of GCV;

  • cogeneration space heaters equipped with external combustion using liquid fuels: 120 mg/kWh fuel input in terms of GCV;

  • cogeneration space heaters equipped with an internal combustion engine using gaseous fuels: 240 mg/kWh fuel input in terms of GCV;

  • cogeneration space heaters equipped with an internal combustion engine using liquid fuels: 420 mg/kWh fuel input in terms of GCV;

  • heat pump space heaters and heat pump combination heaters equipped with external combustion using gaseous fuels: 70 mg/kWh fuel input in terms of GCV;

  • heat pump space heaters and heat pump combination heaters equipped with external combustion using liquid fuels: 120 mg/kWh fuel input in terms of GCV;

  • heat pump space heaters and heat pump combination heaters equipped with an internal combustion engine using gaseous fuels: 240 mg/kWh fuel input in terms of GCV;

  • heat pump space heaters and heat pump combination heaters equipped with an internal combustion engine using liquid fuels: 420 mg/kWh fuel input in terms of GCV.

5.REQUIREMENTS FOR PRODUCT INFORMATION

From 26 September 2015 the following product information on heaters shall be provided:

(a)

the instruction manuals for installers and end-users, and free access websites of manufacturers, their authorised representatives and importers shall contain the following elements:

  • for boiler space heaters, boiler combination heaters and cogeneration space heaters, the technical parameters set out in Table 1, measured and calculated in accordance with Annex III;

  • for heat pump space heaters and heat pump combination heaters, the technical parameters set out in Table 2, measured and calculated in accordance with Annex III;

  • any specific precautions that shall be taken when the heater is assembled, installed or maintained;

  • for type B1 boilers and type B1 combination boilers, their characteristics and the following standard text: ‘This natural draught boiler is intended to be connected only to a flue shared between multiple dwellings in existing buildings that evacuates the residues of combustion to the outside of the room containing the boiler. It draws the combustion air directly from the room and incorporates a draught diverter. Due to lower efficiency, any other use of this boiler shall be avoided and would result in higher energy consumption and higher operating costs.’;

  • for heat generators designed for heaters, and heater housings to be equipped with such heat generators, their characteristics, the requirements for assembly, to ensure compliance with the ecodesign requirements for heaters and, where appropriate, the list of combinations recommended by the manufacturer;

  • information relevant for disassembly, recycling and/or disposal at end-of-life;

(b)

the technical documentation for the purposes of conformity assessment pursuant to Article 4 shall contain the following elements:

  • the elements specified in point (a);

  • for heat pump space heaters and heat pump combination heaters where the information relating to a specific model comprising a combination of indoor and outdoor units has been obtained by calculation on the basis of design and/or extrapolation from other combinations, the details of such calculations and/or extrapolations, and of any tests undertaken to verify the accuracy of the calculations, including details of the mathematical model for calculating the performance of such combinations and details of the measurements taken to verify this model;

(c)

the following information shall be durably marked on the heater:

  • if applicable, ‘type B1 boiler’ or ‘type B1 combination boiler’;

  • for cogeneration space heaters, the electrical capacity.

Table 1

Information requirements for boiler space heaters, boiler combination heaters and cogeneration space heaters

a

High-temperature regime means 60 °C return temperature at heater inlet and 80 °C feed temperature at heater outlet.

b

Low temperature means for condensing boilers 30 °C, for low-temperature boilers 37 °C and for other heaters 50 °C return temperature (at heater inlet).

Model(s): [information identifying the model(s) to which the information relates]
Condensing boiler: [yes/no]
Low-temperatureb boiler: [yes/no]
B1 boiler: [yes/no]
Cogeneration space heater: [yes/no]If yes, equipped with a supplementary heater: [yes/no]
Combination heater: [yes/no]
Item Symbol Value Unit Item Symbol Value Unit
Rated heat output PratedxkW Seasonal space heating energy efficiency ηs x%
For boiler space heaters and boiler combination heaters: Useful heat outputFor boiler space heaters and boiler combination heaters: Useful efficiency
At rated heat output and high-temperature regimea P4 x,xkWAt rated heat output and high-temperature regimea η4 x,x%
At 30 % of rated heat output and low-temperature regimeb P1 x,xkWAt 30 % of rated heat output and low-temperature regimeb η1 x,x%
For cogeneration space heaters: Useful heat outputFor cogeneration space heaters: Useful efficiency
At rated heat output of cogeneration space heater with supplementary heater disabled PCHP100 + Sup0 x,xkWAt rated heat output of cogeneration space heater with supplementary heater disabled ηCHP100 + Sup0 x,x%
At rated heat output of cogeneration space heater with supplementary heater enabled PCHP100 + Sup100 x,xkWAt rated heat output of cogeneration space heater with supplementary heater enabled ηCHP100 + Sup100 x,x%
For cogeneration space heaters: Electrical efficiencySupplementary heater
At rated heat output of cogeneration space heater with supplementary heater disabled ηel,CHP100 + Sup0 x,x%Rated heat output Psupx,xkW
At rated heat output of cogeneration space heater with supplementary heater enabled ηel,CHP100 + Sup100 x,x%Type of energy input
Auxiliary electricity consumptionOther items
At full load elmaxx,xxxkWStandby heat loss Pstby x,xxxkW
At part load elminx,xxxkWIgnition burner power consumption Pign x,xxxkW
In standby mode PSB x,xxxkWEmissions of nitrogen oxides NOx xmg/kWh
For combination heaters:
Declared load profile Water heating energy efficiency ηwh x%
Daily electricity consumption Qelec x,xxxkWhDaily fuel consumption Qfuel x,xxxkWh
Contact detailsName and address of the manufacturer or its authorised representative.

Table 2

Information requirements for heat pump space heaters and heat pump combination heaters

a

For heat pump space heaters and heat pump combination heaters, the rated heat output Prated is equal to the design load for heating Pdesignh, and the rated heat output of a supplementary heater Psup is equal to the supplementary capacity for heating sup(Tj).

b

If Cdh is not determined by measurement then the default degradation coefficient is Cdh = 0,9.

Model(s): [information identifying the model(s) to which the information relates]
Air-to-water heat pump: [yes/no]
Water-to-water heat pump: [yes/no]
Brine-to-water heat pump: [yes/no]
Low-temperature heat pump: [yes/no]
Equipped with a supplementary heater: [yes/no]
Heat pump combination heater: [yes/no]
Parameters shall be declared for medium-temperature application, except for low-temperature heat pumps. For low-temperature heat pumps, parameters shall be declared for low-temperature application.
Parameters shall be declared for average climate conditions.
Item Symbol Value Unit Item Symbol Value Unit
Rated heat output a PratedxkW Seasonal space heating energy efficiency ηs x%
Declared capacity for heating for part load at indoor temperature 20 °C and outdoor temperature Tj Declared coefficient of performance or primary energy ratio for part load at indoor temperature 20 °C and outdoor temperature Tj
Tj = – 7 °C Pdhx,xkW Tj = – 7 °C COPd or PERdx,xx or x,x– or %
Tj = + 2 °C Pdhx,xkW Tj = + 2 °C COPd or PERdx,xx or x,x– or %
Tj = + 7 °C Pdhx,xkW Tj = + 7 °C COPd or PERdx,xx or x,x– or %
Tj = + 12 °C Pdhx,xkW Tj = + 12 °C COPd or PERdx,xx or x,x– or %
Tj = bivalent temperature Pdhx,xkW Tj = bivalent temperature COPd or PERdx,xx or x,x– or %
Tj = operation limit temperature Pdhx,xkW Tj = operation limit temperature COPd or PERdx,xx or x,x– or %
For air-to-water heat pumps: Tj = – 15 °C (if TOL < – 20 °C) Pdhx,xkWFor air-to-water heat pumps: Tj = – 15 °C (if TOL < – 20 °C) COPd or PERdx,xx or x,x– or %
Bivalent temperature Tbiv x°CFor air-to-water heat pumps: Operation limit temperature TOLx°C
Cycling interval capacity for heating Pcychx,xkWCycling interval efficiency COPcyc or PERcycx,xx or x,x– or %
Degradation co-efficientb Cdhx,xHeating water operating limit temperature WTOLx°C
Power consumption in modes other than active modeSupplementary heater
Off mode POFF x,xxxkWRated heat outputa Psupx,xkW
Thermostat-off mode PTO x,xxxkW
Standby mode PSB x,xxxkWType of energy input
Crankcase heater mode PCK x,xxxkW
Other items
Capacity controlfixed/variableFor air-to-water heat pumps: Rated air flow rate, outdoorsxm3/h
Sound power level, indoors/outdoors LWA x/xdBFor water-/brine-to-water heat pumps: Rated brine or water flow rate, outdoor heat exchangerxm3/h
Emissions of nitrogen oxides NOx xmg/kWh
For heat pump combination heater:
Declared load profilex Water heating energy efficiency ηwh x%
Daily electricity consumption Qelec x,xxxkWhDaily fuel consumption Qfuel x,xxxkWh
Contact detailsName and address of the manufacturer or its authorised representative.

ANNEX III Measurements and calculations

1.

For the purposes of compliance and verification of compliance with the requirements of this Regulation, measurements and calculations shall be made using harmonised standards the reference numbers of which have been published for this purpose in the Official Journal of the European Union, or using other reliable, accurate and reproducible methods that take into account the generally recognised state-of-the-art methods. They shall meet the conditions and technical parameters set out in points 2 to 5.

2.

General conditions for measurements and calculations

(a)

For the purposes of the measurements set out in points 2 to 5, the indoor ambient temperature shall be set at 20 °C ± 1 °C.

(b)

For the purposes of the calculations set out in points 3 to 5, consumption of electricity shall be multiplied by a conversion coefficient CC of 2,5.

(c)

Emissions of nitrogen oxides shall be measured as the sum of nitrogen monoxide and nitrogen dioxide, and expressed in nitrogen dioxide.

(d)

For heaters equipped with supplementary heaters, the measurement and calculation of rated heat output, seasonal space heating energy efficiency, water heating energy efficiency, sound power level and emissions of nitrogen oxides shall take account of the supplementary heater.

(e)

Declared values for rated heat output, seasonal space heating energy efficiency, water heating energy efficiency, sound power level and emissions of nitrogen oxides shall be rounded to the nearest integer.

(f)

Any heat generator designed for a heater, and any heater housing to be equipped with such a heat generator, shall be tested with an appropriate heater housing and heat generator, respectively.

3.

Seasonal space heating energy efficiency of boiler space heaters, boiler combination heaters and cogeneration space heaters

The seasonal space heating energy efficiency ηs shall be calculated as the seasonal space heating energy efficiency in active mode ηson , corrected by contributions accounting for temperature controls, auxiliary electricity consumption, standby heat loss, ignition burner power consumption (if applicable) and, for cogeneration space heaters, corrected by adding the electrical efficiency multiplied by a conversion coefficient CC of 2,5.

4.

Seasonal space heating energy efficiency of heat pump space heaters and heat pump combination heaters

(a)

For establishing the rated coefficient of performance COPrated or rated primary energy ratio PERrated , the sound power level or emissions of nitrogen oxides, the operating conditions shall be the standard rating conditions set out in Table 3 and the same declared capacity for heating shall be used.

(b)

The active mode coefficient of performance SCOPon or active mode primary energy ratio SPERon shall be calculated on the basis of the part load for heating Ph(Tj), the supplementary capacity for heating sup(Tj) (if applicable) and the bin-specific coefficient of performance COPbin(Tj) or bin-specific primary energy ratio PERbin(Tj), weighted by the bin-hours for which the bin conditions apply, using the following conditions:

  • the reference design conditions set out in Table 4;

  • the European reference heating season under average climate conditions set out in Table 5;

  • if applicable, the effects of any degradation of energy efficiency caused by cycling depending on the type of control of the heating capacity.

(c)

The reference annual heat demand QH shall be the design load for heating Pdesignh multiplied by the annual equivalent active mode hours HHE of 2 066.

(d)

The annual energy consumption QHE shall be calculated as the sum of:

  • the ratio of the reference annual heating demand QH and the active mode coefficient of performance SCOPon or active mode primary energy ratio SPERon and

  • the energy consumption for off, thermostat-off, standby, and crankcase heater mode during the heating season.

(e)

The seasonal coefficient of performance SCOP or seasonal primary energy ratio SPER shall be calculated as the ratio of the reference annual heat demand QH and the annual energy consumption QHE .

(f)

The seasonal space heating energy efficiency ηs shall be calculated as the seasonal coefficient of performance SCOP divided by the conversion coefficient CC or the seasonal primary energy ratio SPER, corrected by contributions accounting for temperature controls and, for water-/brine-to-water heat pump space heaters and heat pump combination heaters, the electricity consumption of one or more ground water pumps.

5.

Water heating energy efficiency of combination heaters

The water heating energy efficiency ηwh of a combination heater shall be calculated as the ratio between the reference energy Qref of the declared load profile and the energy required for its generation under the following conditions:

(a)

measurements shall be carried out using the load profiles set out in Table 7;

(b)

measurements shall be carried out using a 24-hour measurement cycle as follows:

  • 00:00 to 06:59: no water draw-off;

  • from 07:00: water draw-offs according to the declared load profile;

  • from end of last water draw-off until 24:00: no water draw-off;

(c)

the declared load profile shall be the maximum load profile or the load profile one below the maximum load profile;

(d)

for heat pump combination heaters, the following additional conditions apply:

  • heat pump combination heaters shall be tested under the conditions set out in Table 3;

  • heat pump combination heaters which use ventilation exhaust air as the heat source shall be tested under the conditions set out in Table 6.

Table 3

Standard rating conditions for heat pump space heaters and heat pump combination heaters

Heat sourceOutdoor heat exchangerIndoor heat exchanger
Inlet dry bulb (wet bulb) temperatureHeat pump space heaters and heat pump combination heaters, except low-temperature heat pumpsLow-temperature heat pumps
Inlet temperatureOutlet temperatureInlet temperatureOutlet temperature
Outdoor air+ 7 °C (+ 6 °C)+ 47 °C+ 55 °C+ 30 °C+ 35 °C
Exhaust air+ 20 °C (+ 12 °C)
Inlet/outlet temperature
Water+ 10 °C/+ 7 °C
Brine0 °C/– 3 °C

Table 4

Reference design conditions for heat pump space heaters and heat pump combination heaters, temperatures in dry bulb air temperature (wet bulb air temperature indicated in brackets)

Reference design temperatureBivalent temperatureOperation limit temperature
Tdesignh Tbiv TOL
– 10 (– 11) °Cmaximum + 2 °Cmaximum – 7 °C

Table 5

European reference heating season under average climate conditions for heat pump space heaters and heat pump combination heaters

binj Tj [°C] Hj [h/annum]
1 to 20– 30 to – 110
21-101
22-925
23-823
24-724
25-627
26-568
27-491
28-389
29-2165
30-1173
310240
321280
332320
343357
354356
365303
376330
387326
398348
409335
4110315
4211215
4312169
4413151
4514105
461574
Total hours:4 910

Table 6

Maximum ventilation exhaust air available [m3/h], at humidity of 5,5 g/m3

Declared load profile XXS XS S M L XL XXL 3XL 4XL
Maximum ventilation exhaust air available1091281281591908701 0212 9438 830

Table 7

Water heating load profiles of combination heaters

h 3XS XXS XS S
Q tap f Tm Q tap f Tm Q tap f Tm Q tap f Tm Tp
kWhl/min°C kWhl/min°C kWhl/min°C kWhl/min°C°C
07:00 0,015225 0,105225 0,105325
07:05 0,015225
07:15 0,015225
07:26 0,015225
07:30 0,015225 0,105225 0,525335 0,105325
07:45
08:01
08:05
08:15
08:25
08:30 0,105225 0,105325
08:45
09:00 0,105225
09:30 0,105225 0,105225 0,105325
10:00
10:30
11:00
11:30 0,015225 0,105225 0,105325
11:45 0,015225 0,105225 0,105325
12:00 0,015225 0,105225
12:30 0,015225 0,105225
12:45 0,015225 0,1052250,525335 0,31541055
14:30 0,015225
15:00 0,015225
15:30 0,015225
16:00 0,015225
16:30
17:00
18:00 0,105225 0,105325
18:15 0,105225 0,105340
18:30 0,015225 0,105225
19:00 0,015225 0,105225
19:30 0,015225 0,105225
20:00 0,105225
20:30 1,05335 0,4241055
20:45 0,105225
20:46
21:00 0,105225
21:15 0,015225 0,105225
21:30 0,015225 0,525545
21:35 0,015225 0,105225
21:45 0,015225 0,105225
Qref 0,345 2,1 2,1 2,1
h M L XL
Q tap f Tm Tp Q tap f Tm Tp Q tap f Tm Tp
kWhl/min°C°C kWhl/min°C°C kWhl/min°C°C
07:00 0,105325 0,105325 0,105325
07:05 1,4640 1,4640
07:15 1,82640
07:26 0,105325
07:30 0,105325 0,105325
07:45 0,105325 4,42101040
08:01 0,105325 0,105325
08:05 3,605101040
08:15 0,105325 0,105325
08:25 0,105325
08:30 0,105325 0,105325 0,105325
08:45 0,105325 0,105325 0,105325
09:00 0,105325 0,105325 0,105325
09:30 0,105325 0,105325 0,105325
10:00 0,105325
10:30 0,10531040 0,10531040 0,10531040
11:00 0,105325
11:30 0,105325 0,105325 0,105325
11:45 0,105325 0,105325 0,105325
12:00
12:30
12:45 0,31541055 0,31541055 0,73541055
14:30 0,105325 0,105325 0,105325
15:00 0,105325
15:30 0,105325 0,105325 0,105325
16:00 0,105325
16:30 0,105325 0,105325 0,105325
17:00 0,105325
18:00 0,105325 0,105325 0,105325
18:15 0,105340 0,105340 0,105340
18:30 0,105340 0,105340 0,105340
19:00 0,105325 0,105325 0,105325
19:30
20:00
20:30 0,73541055 0,73541055 0,73541055
20:45
20:46 4,42101040
21:00 3,605101040
21:15 0,105325 0,105325
21:30 1,4640 0,105325 4,42101040
21:35
21:45
Qref 5,845 11,655 19,07
h XXL 3XL 4XL
Q tap f Tm Tp Q tap f Tm Tp Q tap f Tm Tp
kWhl/min°C°C kWhl/min°C°C kWhl/min°C°C
07:00 0,105325 11,24840 22,49640
07:05
07:15 1,82640
07:26 0,105325
07:30
07:45 6,24161040
08:01 0,105325 5,042425 10,084825
08:05
08:15 0,105325
08:25
08:30 0,105325
08:45 0,105325
09:00 0,105325 1,682425 3,364825
09:30 0,105325
10:00 0,105325
10:30 0,10531040 0,84241040 1,68481040
11:00 0,105325
11:30 0,105325
11:45 0,105325 1,682425 3,364825
12:00
12:30
12:45 0,73541055 2,52321055 5,04641055
14:30 0,105325
15:00 0,105325
15:30 0,105325 2,522425 5,044825
16:00 0,105325
16:30 0,105325
17:00 0,105325
18:00 0,105325
18:15 0,105340
18:30 0,105340 3,362425 6,724825
19:00 0,105325
19:30
20:00
20:30 0,73541055 5,88321055 11,76641055
20:45
20:46 6,24161040
21:00
21:15 0,105325
21:30 6,24161040 12,044840 24,089640
21:35
21:45
Qref 24,53 46,76 93,52

ANNEX IV Verification procedure for market surveillance purposes

When performing the market surveillance checks referred to in Article 3(2) of Directive 2009/125/EC, the authorities of the Member States shall apply the following verification procedure for the requirements set out in Annex II:

1.

The Member State authorities shall test one single unit per model.

2.

The heater model shall be considered to comply with the applicable requirements set out in Annex II to this Regulation if:

(a)

the declared values comply with the requirements set out in Annex II;

(b)

the seasonal space heating energy efficiency ηs is not more than 8 % lower than the declared value at the rated heat output of the unit;

(c)

the water heating energy efficiency ηwh is not more than 8 % lower than the declared value at the rated heat output of the unit;

(d)

the sound power level LWA is not more than 2 dB higher than the declared value of the unit; and

(e)

the emissions of nitrogen oxides, expressed in nitrogen dioxide, are not more than 20 % higher than the declared value of the unit.

3.

If the result referred to in point 2(a) is not achieved, the model and all other equivalent models shall be considered not to comply with this Regulation. If the result referred to in point 2(b) to (e) is not achieved, the Member State authorities shall randomly select three additional units of the same model for testing.

4.

The heater model shall be considered to comply with the applicable requirements set out in Annex II to this Regulation if:

(a)

the declared values of each of the three units comply with the requirements set out in Annex II;

(b)

the average of the three units for seasonal space heating energy efficiency ηs is not more than 8 % lower than the declared value at the rated heat output of the unit;

(c)

the average of the three units for water heating energy efficiency ηwh is not more than 8 % lower than the declared value at the rated heat output of the unit;

(d)

the average of the three units for the sound power level LWA is not more than 2 dB higher than the declared value of the unit; and

(e)

the average of the three units for emissions of nitrogen oxides, expressed in nitrogen dioxide, are not more than 20 % higher than the declared value of the unit.

5.

If the results referred to in point 4 are not achieved, the model and all other equivalent models shall be considered not to comply with this Regulation. The Member State authorities shall provide the test results and other relevant information to the authorities of the other Member States and to the Commission within one month of the decision being taken on the non-compliance of the model.

Member State authorities shall use the measurement and calculation methods set out in Annex III.

ANNEX V Indicative benchmarks referred to in Article 6

At the time of entry into force of this Regulation, the best available technology on the market for heaters in terms of seasonal space heating energy efficiency, water heating energy efficiency, sound power level and emissions of nitrogen oxides was identified as follows:

1.

Benchmark for seasonal space heating energy efficiency in medium-temperature application: 145 %;

2.

Benchmarks for water heating energy efficiency of combination heaters:

Declared load profile 3XS XXS XS S M L XL XXL 3XL 4XL
Water heating energy efficiency35 %35 %38 %38 %75 %110 %115 %120 %130 %130 %
3.

Benchmarks for sound power level (LWA ), outdoor, of heat pump space heaters and of heat pump combination heaters with rated heat output:

(a)

≤ 6 kW: 39 dB;

(b)

> 6 kW and ≤ 12 kW: 40 dB;

(c)

> 12 kW and ≤ 30 kW: 41 dB;

(d)

> 30 kW and ≤ 70 kW: 67 dB.

4.

Benchmarks for emissions of nitrogen oxides, expressed in nitrogen dioxide:

(a)

of boiler space heaters and boiler combination heaters using gaseous fuels: 14 mg/kWh fuel input in terms of GCV;

(b)

of boiler space heaters and boiler combination heaters using liquid fuels: 50 mg/kWh fuel input in terms of GCV.

The benchmarks specified in points 1 to 4 do not necessarily imply that a combination of these values is achievable for a single heater.

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