EUR-Lex Access to European Union law
This document is an excerpt from the EUR-Lex website
Document 32015R1185
Commission Regulation (EU) 2015/1185 of 24 April 2015 implementing Directive 2009/125/EC of the European Parliament and of the Council with regard to ecodesign requirements for solid fuel local space heaters (Text with EEA relevance)
Commission Regulation (EU) 2015/1185 of 24 April 2015 implementing Directive 2009/125/EC of the European Parliament and of the Council with regard to ecodesign requirements for solid fuel local space heaters (Text with EEA relevance)
Commission Regulation (EU) 2015/1185 of 24 April 2015 implementing Directive 2009/125/EC of the European Parliament and of the Council with regard to ecodesign requirements for solid fuel local space heaters (Text with EEA relevance)
OJ L 193, 21.7.2015, p. 1–19
(BG, ES, CS, DA, DE, ET, EL, EN, FR, HR, IT, LV, LT, HU, MT, NL, PL, PT, RO, SK, SL, FI, SV)
In force: This act has been changed. Current consolidated version: 09/01/2017
|
21.7.2015 |
EN |
Official Journal of the European Union |
L 193/1 |
COMMISSION REGULATION (EU) 2015/1185
of 24 April 2015
implementing Directive 2009/125/EC of the European Parliament and of the Council with regard to ecodesign requirements for solid fuel local space 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 Consultation Forum referred to in Article 18 of Directive 2009/125/EC,
Whereas:
|
(1) |
Directive 2009/125/EC requires the Commission to set ecodesign requirements for energy-related products that represent significant volumes of sales and trade, that have a significant environmental impact and that present significant potential for improvement in terms of their environmental impact without entailing excessive costs. |
|
(2) |
Article 16(2) 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 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 solid fuel local space heaters. |
|
(3) |
The Commission has carried out a preparatory study to analyse the technical, environmental and economic aspects of solid fuel local space heaters typically used for heating purposes in residential and commercial buildings. The study has been carried out with stakeholders and interested parties from the Union and third countries, and the results have been made publicly available. |
|
(4) |
The environmental aspects of solid fuel local space heaters that have been identified as significant for the purposes of this Regulation are energy consumption and emissions of particulate matter (dust), organic gaseous compounds, carbon monoxide and nitrogen oxides in the use phase. |
|
(5) |
The preparatory study shows that further requirements regarding other ecodesign parameters referred to in Part 1 of Annex I to Directive 2009/125/EC are not necessary in the case of solid fuel local space heaters. |
|
(6) |
The scope of this Regulation should include solid fuel local space heaters designed to use solid fuels (biomass or fossil). Solid fuel local space heaters that have an indirect fluid heating functionality are also within the scope of this Regulation. Solid fuel local space heaters using non-woody biomass have specific technical characteristics and should therefore be exempted from this Regulation. |
|
(7) |
Annual energy consumption related to solid fuel local space heaters was estimated to have been 627 PJ (15,0 Mtoe) in the Union in 2010 corresponding to 9,5 Mt of carbon dioxide (CO2) emissions. Unless specific measures are taken, annual energy consumption related to solid fuel local space heaters is expected to be 812 PJ (19,4 Mtoe) in 2030 corresponding to 8,8 Mt of CO2. |
|
(8) |
The energy consumption of solid fuel local space heaters can be reduced by applying existing, non-proprietary technologies without an increase in the combined costs of purchasing and operating these products. |
|
(9) |
Annual emissions of particulate matter (PM), organic gaseous compounds (OGCs) and carbon monoxide (CO) have been estimated at 142 kton/year, 119 kton/year and 1 658 kton/year respectively in 2010. As a result of specific measures adopted by Member States and technological development, these emissions are expected to be 94 kton/year, 49 kton/year and 1 433 kton/year respectively in 2030. Annual emissions of nitrogen oxides (NOx) are expected to increase in the absence of specific measures because new local space heaters designs will rely on higher combustion temperatures. |
|
(10) |
The emissions of solid fuel local space heaters could be further reduced by applying existing, non-proprietary technologies without an increase in the combined costs of purchasing and operating those products. |
|
(11) |
Together, the ecodesign requirements set out in this Regulation and in Commission Delegated Regulation (EU) 2015/1186 (2) are expected to result by 2030 in estimated annual energy savings of approximately 41 PJ (0,9 Mtoe) corresponding to 0,4 Mt of CO2. |
|
(12) |
The ecodesign requirements set out in this Regulation with regard to emissions from solid fuel local space heaters will result in reductions of particulate matter (PM), organics gaseous compounds (OGCs) and carbon monoxide (CO) of 27 kton/year, 5 kton/year and 399 kton/year respectively by 2030. |
|
(13) |
This Regulation covers products with different technical characteristics. If the same efficiency requirements were placed on them certain technologies would be banned from the market, which would result in a negative impact for consumers. For this reason ecodesign requirements relative to the potential of each technology create a level playing field in the market. |
|
(14) |
Ecodesign requirements should harmonise energy consumption, particulate matter, organic gaseous compounds, carbon monoxide and nitrogen oxides emission requirements for solid fuel local space heaters throughout the Union, for the internal market to operate better and in order to improve the environmental performance of those products. |
|
(15) |
The energy efficiency of solid fuel local space heaters decreases during real life operation when compared with energy efficiency as tested. In order to approach the seasonal space heating energy efficiency to the useful energy efficiency manufacturers should be encouraged to make use of controls. For this purpose, a global discount for this divergence between these two values is assumed. This discount can be recovered by choosing a number of control options. |
|
(16) |
The ecodesign requirements should not affect the functionality or affordability of solid fuel local space heaters from the end-user's perspective and should not negatively affect health, safety or the environment. |
|
(17) |
The time frame for introducing the ecodesign requirements should be sufficient for the manufacturers to redesign their products subject to this Regulation. The timing should take into account any 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. |
|
(18) |
Solid fuel local space heaters are covered by harmonised standards to be used pursuant Article 7 of Regulation (EU) No 305/2011 of the European Parliament and of the Council (3). For the sake of legal certainty and simplification, it is appropriate for the corresponding harmonised standards to be revised in order to reflect the ecodesign requirements established by this Regulation. |
|
(19) |
Product parameters should be measured and calculated using reliable, accurate and reproducible measurement and calculation methods which take into account the recognised state-of-the-art measurement methods including, where available, harmonised standards adopted by the European standardisation organisations following a request by the Commission in accordance with the procedures laid down in Regulation (EU) No 1025/2012 of the European Parliament and of the Council (4). |
|
(20) |
In accordance with Article 8 of Directive 2009/125/EC, this Regulation specifies which conformity assessment procedures apply. |
|
(21) |
In order to facilitate compliance checks, manufacturers should provide the information contained 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. |
|
(22) |
To further limit the environmental impact of solid fuel local space heaters, manufacturers should provide information on disassembly, recycling and disposal. |
|
(23) |
In addition to the legally binding requirements laid down in this Regulation, indicative benchmarks for best available technologies should be determined to ensure that information on the life-cycle environmental performance of solid fuel local space heaters is widely available and easily accessible. |
|
(24) |
The measures provided for in this Regulation are in accordance with the opinion of the Committee established under Article 19(1) of Directive 2009/125/EC, |
HAS ADOPTED THIS REGULATION:
Article 1
Subject matter and scope
1. This Regulation establishes ecodesign requirements for the placing on the market and putting into service of solid fuel local space heaters with a nominal heat output of 50 kW or less.
2. This Regulation shall not apply to:
|
(a) |
solid fuel local space heaters that are specified for the combustion of non-woody biomass only; |
|
(b) |
solid fuel local space heaters that are specified for outdoor use only; |
|
(c) |
solid fuel local space heaters of which the direct heat output is less than 6 % of the combined direct and indirect heat output at nominal heat output; |
|
(d) |
solid fuel local space heaters that are not factory assembled, or are not provided as prefabricated components or parts by a single manufacturer which are to be assembled on site. |
|
(e) |
air heating products; |
|
(f) |
sauna stoves. |
Article 2
Definitions
In addition to the definitions set out in Article 2 of Directive 2009/125/EC, the following definitions shall apply:
|
(1) |
‘solid fuel local space heater’ means a space heating device that emits heat by direct heat transfer or by direct heat transfer in combination with heat transfer to a fluid, in order to reach and maintain a certain level of human thermal comfort within an enclosed space in which the product is situated, possibly combined with a heat output to other spaces, and is equipped with one or more heat generators that convert solid fuels directly into heat; |
|
(2) |
‘open fronted solid fuel local space heater’ means a solid fuel local space heater of which the fire bed and combustion gases are not sealed from the space in which the product is fitted and which is sealed to a chimney or fireplace opening or requires a flue duct for the evacuation of products of combustion; |
|
(3) |
‘closed fronted solid fuel local space heater’ means a solid fuel local space heater of which the fire bed and combustion gases can be sealed from the space in which the product is fitted and which is sealed to a chimney or fireplace opening or requires a flue duct for the evacuation of products of combustion; |
|
(4) |
‘cooker’ means a solid fuel local space heater, using solid fuels, that integrates in one enclosure the function of a solid fuel local space heater, and a hob an oven or both to be used for preparation of food and which is sealed to a chimney or fireplace opening or requires a flue duct for the evacuation of products of combustion; |
|
(5) |
‘flueless solid fuel local space heater’ means a solid fuel local space heater emitting the products of combustion into the space where the product is situated; |
|
(6) |
‘open to chimney solid fuel local space heater’ means a solid fuel local space heater intended to sit under a chimney or in a fireplace without sealing between the product and the chimney or fireplace opening, and allowing the products of combustion pass unrestricted from the fire bed to the chimney or flue; |
|
(7) |
‘sauna stove’ means a solid fuel local space heater, incorporated in, or declared to be used in, dry or wet sauna's or similar environments; |
|
(8) |
‘air heating product’ means a product providing heat to an air-based heating system only that can be ducted and is designed to be used while fastened or secured in a specific location or wall mounted which distributes the air by means of an air moving device in order to reach and maintain a certain level of human thermal comfort within an enclosed space in which the product is situated; |
|
(9) |
‘solid fuel’ means a fuel which is solid at normal indoor room temperatures, including solid biomass and solid fossil fuel; |
|
(10) |
‘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; |
|
(11) |
‘woody biomass’ means biomass originating from trees, bushes and shrubs, including log wood, chipped wood, compressed wood in the form of pellets, compressed wood in the form of briquettes, and sawdust; |
|
(12) |
‘non-woody biomass’ means biomass other than woody biomass, including, inter alia, straw, miscanthus, reeds, kernels, grains, olive stones, olive cakes and nut shells; |
|
(13) |
‘fossil solid fuel’ means solid fuel other than biomass, including anthracite and dry steam coal, hard coke, low temperature coke, bituminous coal, lignite, a blend of fossil fuels or a blend of biomass and fossil fuel; for the purposes of this Regulation it also includes peat; |
|
(14) |
‘preferred fuel’ means the single fuel for which is to be preferably used for the solid fuel local space heater according to the manufacturer's instructions; |
|
(15) |
‘other suitable fuel’ means a fuel, other than the preferred fuel, which can be used in the solid fuel local space heater according to the manufacturer's instructions and includes any fuel that is mentioned in the instruction manual for installers and end-users, on free access websites of manufacturers and suppliers, in technical or promotional material and in advertisements; |
|
(16) |
‘direct heat output’ means the heat output of the product by radiation and convection of heat, as emitted by or from the product itself to air excluding the heat output of the product to a heat transfer fluid, expressed in kW; |
|
(17) |
‘indirect heat output’ means the heat output of the product to a heat transfer fluid by the same heat generation process that provides the direct heat output of the product, expressed in kW; |
|
(18) |
‘indirect heating functionality’ means the product is capable of transferring part of the total heat output to a heat transfer fluid, for use as space heating or domestic hot water generation; |
|
(19) |
‘nominal heat output’ (Pnom ) means the heat output of a solid fuel local space heater comprising both direct heat output and indirect heat output (where applicable), when operating at the setting for the maximum heat output that can be maintained over an extended period, as declared by the manufacturer, expressed in kW; |
|
(20) |
‘minimum heat output’ (Pmin ) means the heat output of a solid fuel local space heater comprising both direct heat output and indirect heat output (where applicable), when operating at the setting for the lowest heat output, as declared by the manufacturer, expressed in kW; |
|
(21) |
‘intended for outdoor use’ means the product is suitable for safe operation outside enclosed spaces, including possible use in outdoor conditions; |
|
22) |
‘particulate matter’ means particles of various shape, structure and density scattered in the gaseous phase of the flue gas; |
|
(23) |
‘equivalent model’ means a model placed on the market with the same technical parameters set out in Table 1 of point 3 of Annex II as another model placed on the market by the same manufacturer. |
For Annexes II to V, additional definitions are set out in Annex I.
Article 3
Ecodesign requirements and timetable
1. The ecodesign requirements for solid fuel local space heaters are set out in Annex II.
2. Solid fuel local space heaters shall meet the requirements set out in Annex II from 1 January 2022.
3. Compliance with ecodesign requirements shall be measured and calculated in accordance with the methods set out in Annex III.
Article 4
Conformity 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.
2. For the purposes of the conformity assessment pursuant to Article 8 of Directive 2009/125/EC, the technical documentation shall contain the information set out in point 3 of Annex II to this Regulation.
3. Where the information included in the technical documentation for a model has been obtained by calculation on the basis of design, or extrapolation from other models, or both, the technical documentation shall include details of such calculations or extrapolations, or both, and of tests undertaken by manufacturers to verify the accuracy of the calculations undertaken. In such cases, the technical documentation shall also include a list of the models that served as the basis for the extrapolation and of all other models where the information contained in the technical documentation was obtained on the same basis.
Article 5
Verification procedure for market surveillance purposes
Member States shall apply the verification procedure set out in Annex IV to this Regulation 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.
Article 6
Indicative benchmarks
The indicative benchmarks for best-performing solid fuel local space heaters available on the market at the time of entry into force of this Regulation are set out in Annex V.
Article 7
Review
1. The Commission shall review this Regulation in the light of technological progress and present the result of that review to the Consultation Forum no later than 1 January 2024. In particular, the review shall assess:
|
— |
whether it is appropriate to set stricter ecodesign requirements for energy efficiency and for emissions of particulate matter (PM), organic gaseous compounds (OGCs), carbon monoxide (CO) and nitrogen oxides (NOx), |
|
— |
whether the verification tolerances should be modified. |
2. The Commission shall review whether it is appropriate to introduce third party certification for solid fuel local space heaters and present the result of that review to the Consultation Forum no later than 22 August 2018.
Article 8
Transitional provisions
Until 1 January 2022 Member States may allow the placing on the market and putting into service of solid fuel local space heaters which are in conformity with the national provisions in force regarding seasonal space heating energy efficiency, emissions of particulate matter, emissions of organic gaseous compounds, emissions of carbon monoxide and emissions of nitrogen oxides.
Article 9
Entry 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, 24 April 2015.
For the Commission
The President
Jean-Claude JUNCKER
(1) OJ L 285, 31.10.2009, p. 10.
(2) Commission Delegated Regulation (EU) 2015/1186 of 24 April 2015 supplementing Directive 2010/30/EU of the European Parliament and of the Council with regard to energy labelling of local space heaters (see page 20 of this Official Journal).
(3) Regulation (EU) No 305/2011 of the European Parliament and of the Council of 9 March 2011 laying down harmonised conditions for the marketing of construction products and repealing Council Directive 89/106/EEC (OJ L 88, 4.4.2011, p. 5).
(4) Regulation (EU) No 1025/2012 of the European Parliament and of the Council of 25 October 2012 on European standardisation, amending Council Directives 89/686/EEC and 93/15/EEC and Directives 94/9/EC, 94/25/EC, 95/16/EC, 97/23/EC, 98/34/EC, 2004/22/EC, 2007/23/EC, 2009/23/EC and 2009/105/EC of the European Parliament and of the Council and repealing Council Decision 87/95/EEC and Decision No 1673/2006/EC of the European Parliament and of the Council ( OJ L 316, 14.11.2012, p. 12).
ANNEX I
Definitions applicable for Annexes II to V
For the purpose of Annexes II to V the following definitions shall apply:
|
(1) |
‘seasonal space heating energy efficiency’ (ηs) means the ratio between the space heating demand, supplied by a solid fuel local space heater and the annual energy consumption required to meet this demand, expressed in %; |
|
(2) |
‘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 (1); the value of the conversion coefficient is CC = 2,5; |
|
(3) |
‘particulate matter emissions’ means the emissions of particulate matter at nominal heat output, expressed in mg/m3 dry flue gas calculated to 273 K and 1 013 mbar at 13 % O2 or the weighted average emission of particulate matter over up to four burn rates, expressed in g/kg, dry matter; |
|
(4) |
‘carbon monoxide emissions’ means the emissions of carbon monoxide at nominal heat output, expressed in mg/m3 flue gas calculated to 273 K and 1 013 mbar at 13 % O2; |
|
(5) |
‘organic gaseous compounds emissions’ means the emissions of organic gaseous compounds at nominal heat output expressed in mgC/m3 flue gas calculated to 273 K and 1 013 mbar at 13 % O2; |
|
(6) |
‘nitrogen oxides emissions’ means the emissions of nitrogen oxides at nominal heat output, expressed in mg/m3 flue gas expressed as NO2 calculated to 273 K and 1 013 mbar at 13 % O2; |
|
(7) |
‘net calorific value’ (NCV) means the total amount of heat released by a unit quantity of fuel containing the appropriate moisture of the fuel, when it is burned completely with oxygen, and when the products of combustion are not returned to ambient temperature; |
|
(8) |
‘useful efficiency, at either nominal or minimum heat output’, (ηth,nom or ηth,min respectively) means the ratio of the useful heat output and the total energy input expressed in terms of NCV of a solid fuel local space heater, expressed in %; |
|
(9) |
‘electric power requirement at nominal heat output’ (elmax) means the electric power consumption of the solid fuel local space heater while providing the nominal heat output. The electric power consumption shall be established without consideration of the power consumption of a circulator in case the product offers indirect heating functionality and a circulator is incorporated, expressed in kW; |
|
(10) |
‘electric power requirement at minimum heat output’ (elmin) means the electric power consumption of the solid fuel local space heater while providing the minimum heat output. The electric power consumption shall be established without consideration of the power consumption of a circulator in case the product offers indirect heating functionality and a circulator is incorporated, expressed in kW; |
|
(11) |
‘electric power requirement in standby mode’ (elsb) means the electric power consumption of the product while in standby mode, expressed in kW; |
|
(12) |
‘permanent pilot flame power requirement’ (Ppilot) means the fuel consumption of solid fuel of the product for the provision of a flame to serve as an ignition source for the more powerful combustion process needed for nominal or part load heat output, when lit for more than 5 minutes before the main burner is on, expressed in kW; |
|
(13) |
‘single stage heat output, no room temperature control’ means the product is not capable of varying its heat output automatically and that no feedback of room temperature is present to adapt the heat output automatically; |
|
(14) |
‘two or more manual stages, no room temperature control’ means the product is capable of varying its heat output manually by two or more levels of heat output and is not equipped with a device that automatically regulates the heat output in relation to a desired indoor temperature; |
|
(15) |
‘with mechanic thermostat room temperature control’ means the product is equipped with a non-electronic device that allows the product to automatically vary its heat output over a certain time period, in relation to a certain required level of indoor heating comfort; |
|
(16) |
‘with electronic room temperature control’ means the product is equipped with an electronic device, either integrated or external, that allows the product to automatically vary its heat output over a certain time period, in relation to a certain required level of indoor heating comfort; |
|
(17) |
‘with electronic room temperature control plus day timer’ means the product is equipped with an electronic device, either integrated or external, that allows the product to automatically vary its heat output over a certain time period, in relation to a certain required level of indoor heating comfort, and allows the setting of timing and temperature level for a 24-hours timer interval; |
|
(18) |
‘with electronic room temperature control plus week timer’ means the product is equipped with an electronic device, either integrated or external, that allows the product to automatically vary its heat output over a certain time period, in relation to a certain required level of indoor heating comfort, and allows the setting of timing and temperature levels for a full week. During the 7-day period the settings must allow a variation on a day-to-day basis; |
|
(19) |
‘room temperature control, with presence detection’ means the product is equipped with an electronic device, either integrated or external, that automatically reduces the set-point for the room temperature when no person is detected in the room; |
|
(20) |
‘room temperature control, with open window detection’ means the product is equipped with an electronic device, either integrated or external, that reduces the heat output when a window or door has been opened. Whenever a sensor is used to detect the opening of a window or door, it can be installed with the product, externally to the product, built into the building structure or as a combination of those options; |
|
(21) |
‘with distance control option’ means the function that allows remote interaction from outside the building in which the product is installed with the control of the product; |
|
(22) |
‘single stage’ means that the product is not capable of automatically varying its heat output; |
|
(23) |
‘two stage’ means the product is capable of automatically regulating its heat output in two distinct levels, in relation to the actual indoor air temperature and a desired indoor air temperature, controlled through temperature sensing devices and an interface which is not necessarily integral to the product itself; |
|
(24) |
‘modulating’ means the product is capable of automatically regulating its heat output in three or more distinct levels, in relation to the actual indoor air temperature and a desired indoor air temperature, controlled through temperature sensing devices and an interface which is not necessarily integral to the product itself; |
|
(25) |
‘standby mode’ means a condition where the product 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; |
|
(26) |
‘other fossil fuel’ means fossil fuel other than anthracite and dry steam coal, hard coke, low temperature coke, bituminous coal, lignite, peat or blended fossil fuel briquettes; |
|
(27) |
‘other woody biomass’ means woody biomass other than log wood with a moisture content of 25 % or lower, briquetted fuel with a moisture content below 14 % or compressed wood with a moisture content below 12 %; |
|
(28) |
‘model identifier’ means the code, usually alphanumeric, which distinguishes a specific solid fuel local space heater model from other models with the same trade mark or manufacturer's name; |
|
(29) |
‘moisture content’ means the mass of water in the fuel in relation to the total mass of the fuel as used in the solid fuel local space heater. |
(1) Directive 2012/27/EU of the European Parliament and of the Council of 25 October 2012 on energy efficiency, amending Directives 2009/125/EC and 2010/30/EU and repealing Directives 2004/8/EC and 2006/32/EC (OJ L 315, 14.11.2012, p. 1).
ANNEX II
Ecodesign requirements
1. Specific ecodesign requirements for seasonal space heating energy efficiency
|
(a) |
Solid fuel local space heaters shall comply with the following requirements from 1 January 2022:
|
2. Specific ecodesign requirements for emissions.
|
(a) |
From 1 January 2022 emissions of particulate matter (PM) from solid fuel local space heaters shall not exceed the following values:
|
|
(b) |
From 1 January 2022 emissions of organic gaseous compounds (OGCs) from solid fuel local space heaters shall not exceed the following values:
|
|
(c) |
From 1 January 2022 emissions of carbon monoxide (CO) from solid fuel local space heaters shall not exceed the following values:
|
|
(d) |
From 1 January 2022 emissions of nitrogen oxides (NOx) from solid fuel local space heaters shall not exceed the following values:
|
3. Requirements for product information
|
(a) |
From 1 January 2022 the following product information on solid fuel local space heaters shall be provided:
|
|
(b) |
From 1 January 2022 the following product information on solid fuel local space heaters shall be provided:
|
Table 1
Information requirements for solid fuel local space heaters
|
Model identifier(s): |
||||||||||||||||||
|
Indirect heating functionality:[yes/no] |
||||||||||||||||||
|
Direct heat output: …(kW) |
||||||||||||||||||
|
Indirect heat output: …(kW) |
||||||||||||||||||
|
Fuel |
Preferred fuel (only one): |
Other suitable fuel(s): |
η s [x%]: |
Space heating emissions at nominal heat output (1) |
||||||||||||||
|
PM |
OGC |
CO |
NOx |
PM |
OGC |
CO |
NOx |
|||||||||||
|
[x] mg/Nm3 (13 % O2) |
[x] mg/Nm3 (13 % O2) |
|||||||||||||||||
|
Wood logs with moisture content ≤ 25 % |
[yes/no] |
[yes/no] |
|
|
|
|
|
|
|
|
|
|||||||
|
Compressed wood with moisture content < 12 % |
[yes/no] |
[yes/no] |
|
|
|
|
|
|
|
|
|
|||||||
|
Other woody biomass |
[yes/no] |
[yes/no] |
|
|
|
|
|
|
|
|
|
|||||||
|
Non-woody biomass |
[yes/no] |
[yes/no] |
|
|
|
|
|
|
|
|
|
|||||||
|
Anthracite and dry steam coal |
[yes/no] |
[yes/no] |
|
|
|
|
|
|
|
|
|
|||||||
|
Hard coke |
[yes/no] |
[yes/no] |
|
|
|
|
|
|
|
|
|
|||||||
|
Low temperature coke |
[yes/no] |
[yes/no] |
|
|
|
|
|
|
|
|
|
|||||||
|
Bituminous coal |
[yes/no] |
[yes/no] |
|
|
|
|
|
|
|
|
|
|||||||
|
Lignite briquettes |
[yes/no] |
[yes/no] |
|
|
|
|
|
|
|
|
|
|||||||
|
Peat briquettes |
[yes/no] |
[yes/no] |
|
|
|
|
|
|
|
|
|
|||||||
|
Blended fossil fuel briquettes |
[yes/no] |
[yes/no] |
|
|
|
|
|
|
|
|
|
|||||||
|
Other fossil fuel |
[yes/no] |
[yes/no] |
|
|
|
|
|
|
|
|
|
|||||||
|
Blended biomass and fossil fuel briquettes |
[yes/no] |
[yes/no] |
|
|
|
|
|
|
|
|
|
|||||||
|
Other blend of biomass and solid fuel |
[yes/no] |
[yes/no] |
|
|
|
|
|
|
|
|
|
|||||||
|
Characteristics when operating with the preferred fuel only |
||||||||||||||||||
|
Item |
Symbol |
Value |
Unit |
|
Item |
Symbol |
Value |
Unit |
||||||||||
|
Heat output |
|
Useful efficiency (NCV as received) |
||||||||||||||||
|
Nominal heat output |
Pnom |
x |
kW |
Useful efficiency at nominal heat output |
ηth,nom |
x,x |
% |
|||||||||||
|
Minimum heat output (indicative) |
Pmin |
[x,x/N.A.] |
kW |
Useful efficiency at minimum heat output (indicative) |
ηth,min |
[x,x/N.A.] |
% |
|||||||||||
|
Auxiliary electricity consumption |
|
Type of heat output/room temperature control (select one) |
||||||||||||||||
|
At nominal heat output |
elmax |
x,xxx |
kW |
single stage heat output, no room temperature control |
[yes/no] |
|
||||||||||||
|
At minimum heat output |
elmin |
x,xxx |
kW |
two or more manual stages, no room temperature control |
[yes/no] |
|||||||||||||
|
In standby mode |
elSB |
x,xxx |
kW |
with mechanic thermostat room temperature control |
[yes/no] |
|||||||||||||
|
Permanent pilot flame power requirement |
with electronic room temperature control |
[yes/no] |
||||||||||||||||
|
Pilot flame power requirement (if applicable) |
Ppilot |
[x,xxx/N.A.] |
kW |
with electronic room temperature control plus day timer |
[yes/no] |
|||||||||||||
|
|
with electronic room temperature control plus week timer |
[yes/no] |
||||||||||||||||
|
Other control options (multiple selections possible) |
||||||||||||||||||
|
room temperature control, with presence detection |
[yes/no] |
|
||||||||||||||||
|
room temperature control, with open window detection |
[yes/no] |
|||||||||||||||||
|
with distance control option |
[yes/no] |
|||||||||||||||||
|
Contact details |
Name and address of the manufacturer or its authorised representative. |
|||||||||||||||||
(1) PM = particulate matter, OGCs = organic gaseous compounds, CO = carbon monoxide, NOx = nitrogen oxides
(2) Only required if correction factors F(2) or F(3) are applied.
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 set out in points 2 to 5.
2. General conditions for measurements and calculations
|
(a) |
Solid fuel local space heaters shall be tested for the preferred fuel and any other suitable fuels indicated in Table 1 of Annex II. |
|
(b) |
Declared values for nominal heat output and seasonal space heating energy efficiency shall be rounded to the nearest one decimal place. |
|
(c) |
Declared values for emissions shall be rounded to the nearest integer. |
3. General conditions for seasonal space heating energy efficiency
|
(a) |
The seasonal space heating energy efficiency (ηS ) shall be calculated as the seasonal space heating energy efficiency in active mode (ηS,on ), corrected by contributions accounting for heat output control, auxiliary electricity consumption and permanent pilot flame energy consumption. |
|
(b) |
The consumption of electricity shall be multiplied by a conversion coefficient (CC) of 2,5. |
4. General conditions for emissions
|
(a) |
For solid fuel local space heaters, the measurement shall take account of emissions of particulate matter (PM), organic gaseous compounds (OGC), carbon monoxide (CO) and nitrogen oxides (NOx), measured simultaneously with each other and with space heating energy efficiency, except for PM if method 4(a)(i)(2) or 4(a)(i)(3) is used.
|
|
(b) |
Declared values for nominal heat output, seasonal space heating energy efficiency and emissions shall be rounded to the nearest integer. |
5. Specific conditions for seasonal space heating energy efficiency
|
(a) |
The seasonal space heating energy efficiency of solid fuel local space heaters is defined as: ηS = ηS,on – 10% + F(2) + F(3) – F(4) – F(5) Where:
|
|
(b) |
The seasonal space heating energy efficiency in active mode is calculated as: ηS,on = ηth,nom Where:
|
|
(c) |
The correction factor F(2) accounting for a positive contribution to the seasonal space heating efficiency due to adjusted contributions of controls for indoor heating comfort, the values of which are mutually exclusive or cannot be added to each other, is calculated as follows: For solid fuel local space heaters the correction factor F(2) is equal to one of the factors according to Table 2, depending on which control characteristic applies. Only one value can be selected. Table 2 Correction factor F(2)
F(2) shall be zero for solid fuel local space heaters not complying with the requirements set out in Annex II, point 2 on emissions where the temperature control is set at the minimum heat output. The heat output in this setting must not be higher than 50 % of the nominal heat output. |
|
(d) |
The correction factor F(3) accounting for a positive contribution to the seasonal space heating efficiency due to adjusted contributions of controls for indoor heating comfort, the values of which can be added to each other, is calculated as follows: For solid fuel local space heaters the correction factor F(3) is the summation of the values according to Table 3, depending on which control characteristic(s) applies. Table 3 Correction factor F(3)
F(3) shall be zero for solid fuel local space heaters not complying with the requirements set out in Annex II, point 2 on emissions where the temperature control is set at the minimum heat output. The heat output in this setting must not be higher than 50 % of the nominal heat output. |
|
(e) |
The auxiliary electricity use correction factor F(4) is calculated as: This correction factor takes into account the auxiliary electricity use during on-mode and standby-mode operation. 
Where:
|
|
(f) |
The correction factor F(5) related to the energy consumption of a permanent pilot flame is calculated as follows: This correction factor takes into account the permanent pilot flame power requirement. 
Where:
|
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. The unit shall be tested with one or more fuels with similar characteristics as the fuel(s) that were used by the manufacturer to perform measurements according to Annex III. |
|
2. |
The model shall be considered to comply with the applicable requirements set out in Annex II to this Regulation if:
|
|
3. |
If the result referred to in point 2(a) is not achieved, the model and all equivalent models shall be considered not to comply with this Regulation. If any of the results referred to in points 2(b) or 2(c) is not achieved, the Member State authorities shall randomly select three additional units of the same model for testing. As alternative, the three additional units selected may be of one or more equivalent models which have been listed as equivalent product in the manufacturer's technical documentation. |
|
4. |
The model shall be considered to comply with the applicable requirements set out in Annex II to this Regulation if:
|
|
5. |
If the results referred to in point 4 are not achieved, the model and all 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. |
|
6. |
Member State authorities shall use the measurement and calculation methods set out in Annex III. The verification tolerances defined in this Annex relate only to the verification of the measured parameters by Member State authorities and shall not be used by the supplier as an allowed tolerance to establish the values in the technical documentation. |
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 solid fuel local space heaters in terms of seasonal space heating energy efficiency and emissions of particulate matter, carbon monoxide, organic gaseous compounds and nitrogen oxides was identified as follows. At the time of entry into force of this Regulation, no single solid fuel local space heater was identified meeting all the values specified in points 1 to 5. Several solid fuel local space heaters met one or more of these values:
|
1. |
Specific benchmarks for seasonal space heating energy efficiency of solid fuel local space heaters.
|
|
2. |
Specific benchmarks for emissions of particulate matter (PM) by solid fuel local space heaters.
|
|
3. |
Specific benchmarks for emissions of organic gaseous compounds (OGCs) by solid fuel local space heaters.
|
|
4. |
Specific benchmarks for emissions of carbon monoxide (CO) by solid fuel local space heaters.
|
|
5. |
Specific benchmarks for emissions of nitrogen oxides (NOx) by solid fuel local space heaters.
|
The benchmarks specified in points 1 to 5 do not necessarily imply that a combination of those values is achievable for a single solid fuel local space heater.
For closed fronted solid fuel local space heaters using solid fuel other than compressed wood in the form of pellets an example of a good combination is an existing model with a seasonal space heating efficiency of 83 %, emissions of particulate matter of 33 mg/m3 at 13 % O2, emissions of organic gaseous compounds of 69 mg/m3 at 13 % O2, of emissions carbon monoxide of 1 125 mg/m3 at 13 % O2 and emissions of nitrogen oxides of 115 mg/m3 at 13 % O2.
For closed fronted solid fuel local space heaters using compressed wood in the form of pellets an example of a good combination is an existing model with a seasonal space heating efficiency of 91 %, emissions of particulate matter of 22 mg/m3 at 13 % O2, emissions of organic gaseous compounds of 6 mg/m3 at 13 % O2, emissions of carbon monoxide of 312 mg/m3 at 13 % O2 and emissions of nitrogen oxides of 121 mg/m3 at 13 % O2.
For cookers an example of a good combination is an existing model with a seasonal space heating efficiency of 78 %, emissions of particulate matter of 38 mg/m3 at 13 % O2, emissions of organic gaseous compounds of 66 mg/m3 at 13 % O2, emissions of carbon monoxide of 1 375 mg/m3 at 13 % O2 and emissions of nitrogen oxides of 71 mg/m3 at 13 % O2.