Energy performance of buildings - Method for calculation of system energy requirements and system efficiencies - Part 4-1: Space heating and DHW generation systems, combustion systems (boilers, biomass), Module M3-8-1, M8-8-1

This European Standard is part of a series of standards on the method for calculation of system energy requirements and system efficiencies of space heating systems and domestic hot water systems.
This standard (prEN 15316-4-1) specifies:
-   required inputs;
-   a calculation method;
-   resulting outputs;
-   a method to take into account the energy performance of heat generation devices based on fuel combustion.
for space heating generation by combustion sub-systems (boilers, biomass), including control.
This standard also specifies methods for the calculation of:
-   thermal losses from the domestic hot water generation system;
-   recoverable thermal losses for space heating from the domestic hot water generation system;
-   auxiliary energy of the domestic hot water generation systems.
This standard specifies the energy performance calculation of water based heat generation sub-systems including control based on combustion of fuels ("boilers"), operating with conventional fossil fuels as well as renewable fuels. This standard does not cover sizing or inspection of boilers.
This standard is also applicable to heat generators for heating or for combined service as domestic hot water, ventilation, cooling and heating. Generators for domestic hot water only are taken into account into part M8-8.
This European Standard is the general standard on generation by combustion sub-systems (boilers, biomass) and is also intended for generation for domestic hot water production and/or space heating. These values are input data for calculation of the overall energy use according to prEN 15603 and prEN 15316-1.

Energetische Bewertung von Gebäuden - Verfahren zur Berechnung der Energieanforderungen und Nutzungsgrade der Anlagen - Teil 4-1: Wärmeerzeugung für die Raumheizung und Trinkwassererwärmung, Verbrennungssysteme (Heizungskessel, Biomasse), Modul M3-8-1, M8-8-1

Diese Europäische Norm ist Teil einer Normenreihe für die Berechnung der Energieanforderungen und Nutzungsgrade von Raumheizungs- und Trinkwarmwasseranlagen.
Diese Norm (prEN 15316-4-1) legt Folgendes für die Raumwärmeerzeugung durch Verbrennungsteilsysteme (Kessel, Biomasse), einschließlich Regelung, fest:
-   erforderliche Eingaben;
-   ein Berechnungsverfahren;
-   sich ergebende Ausgaben;
-   ein Verfahren zur Berücksichtigung der Gesamtenergieeffizienz von Wärmeerzeugern, die auf der Verbrennung von Kraftstoffen basieren.
Diese Norm legt außerdem Verfahren fest, mit denen Folgendes berechnet wird:
-   thermische Verluste der Trinkwarmwasseranlage;
-   rückgewinnbare thermische Verluste zur Raumheizung durch die Trinkwarmwasseranlage;
-   Hilfsenergie der Trinkwarmwasseranlagen.
Diese Norm legt die Verfahren zur Berechnung der Gesamtenergieeffizienz von wasserbasierten Teil-systemen zur Wärmeerzeugung fest, einschließlich der Regelung basierend auf der Verbrennung von Kraft-stoffen (Kessel), wie herkömmliche fossile Brennstoffe und erneuerbare Brennstoffe. Diese Norm behandelt nicht die Dimensionierung oder die Inspektion von Kesseln.
Diese Norm gilt auch für Wärmeerzeuger zur Raumheizung oder für kombinierte Versorgungsarten wie Trink-warmwasser, Lüftung, Kühlung und Raumheizung. Erzeuger, die ausschließlich für die Trinkwasser-erwärmung zuständig sind, werden im Teil M8-8 berücksichtigt.
Diese Europäische Norm ist die allumfassende Norm zur Wärmeerzeugung durch Verbrennungsteilsysteme (Kessel, Biomasse) und gilt auch für die Wärmeerzeugung zur Trinkwassererwärmung und/oder Raum-heizung. Diese Werte sind Eingabedaten für die Berechnung des Gesamtenergieverbrauchs nach prEN 15603 und prEN 15316-1.

Performance énergétique des bâtiments - Méthode de calcul des besoins énergétiques et des rendements des systèmes - Partie 4-1 : Systèmes de génération de chauffage des locaux et production d’eau chaude sanitaire, systèmes de combustion (chaudières, biomasse), Module M3-8-1, M8-8-1

La présente Norme européenne fait partie d’une série de normes sur la méthode de calcul des besoins énergétiques et des rendements des systèmes de chauffage des locaux et des systèmes de production d’eau chaude sanitaire.
La présente norme (prEN 15316-4-1) spécifie :
-   les données d’entrée requises ;
-   une méthode de calcul ;
-   les données de sortie obtenues ;
-   une méthode pour la prise en compte de la performance énergétique des générateurs de chaleur à combustion ;
pour les systèmes de génération pour le chauffage des locaux par des générateurs à combustion (chaudières, biomasse), régulation comprise.
La présente norme spécifie également les méthodes de calcul :
-   des pertes thermiques du système de génération d’eau chaude sanitaire ;
-   des pertes thermiques du système de génération d’eau chaude sanitaire récupérables pour le chauffage des locaux ;
-   de l’énergie électrique des auxiliaires des systèmes de génération d’eau chaude sanitaire.
La présente norme spécifie le calcul de la performance énergétique des sous-systèmes de génération de chaleur à eau à combustion (« chaudières »), régulation comprise, fonctionnant aussi bien avec des combustibles fossiles qu’avec des combustibles renouvelables. La présente norme ne traite pas du dimensionnement ni de l’inspection des chaudières.
La présente norme s’applique également aux générateurs de chaleur pour le chauffage ou pour un service combiné de production d’eau chaude sanitaire, de ventilation, de refroidissement et de chauffage. Les générateurs produisant uniquement de l’eau chaude sanitaire ne sont pris en compte que dans la partie M8-8.
La présente Norme européenne est la norme générale sur la génération par des appareils à combustion (chaudières, biomasse) et est également destinée à la génération pour la production d’eau chaude sanitaire et/ou le chauffage des locaux. Ces valeurs sont les données d’entrée pour le calcul de la consommation totale d’énergie conformément au prEN 15603 et au prEN 15316-1.

Energijske lastnosti stavb - Metoda za izračun energijskih zahtev in učinkovitosti sistema - 4-1. del: Sistemi za pridobivanje toplote za ogrevanje in pripravo tople sanitarne vode, kurilne naprave (kotli, biomasa) - Modula M3-8-1 in M8-8-1

Ta evropski standard je del skupine standardov metode za izračun energijskih zahtev sistema in učinkovitosti sistema v sistemih ogrevanja prostora in sistemih gospodinjske tople vode.
Ta standard (prEN 15316-4-1) določa:
– zahtevane vhode;
– računsko metodo;
– dejanske izhode;
– metodo, ki upošteva energijsko učinkovitost naprav za proizvodnjo toplote, ki temelji na izgorevanju goriva.
za ogrevanje prostora s podsistemi za izgorevanje (kotli, biomasa), vključno z nadzorom.
Ta standard določa tudi metode za izračun:
– termalnih izgub iz sistemov proizvodnje gospodinjske tople vode;
– termalnih izgub za ogrevanje prostora, ki jih je mogoče obnoviti, iz sistemov proizvodnje gospodinjske tople vode;
– pomožne energije sistemov proizvodnje gospodinjske tople vode.
Ta standard določa izračun energijske učinkovitosti podsistemov za proizvodnjo toplote na osnovi vode, vključno z nadzorom, osnovanim na gorivih (»kotli«), ki delujejo na običajnih ter obnovljivih virih goriva. Ta standard ne zajema ugotavljanja velikosti ali nadzora kotlov.
Ta standard se uporablja tudi za generatorje toplote za ogrevanje ali za kombinirano storitev kot gospodinjska topla voda, prezračevanje, hlajenje in ogrevanje. Generatorji za gospodinjsko toplo vodo so upoštevani samo v delu M8-8.
Ta evropski standard je splošni standard za proizvodnjo s podsistemi izgorevanja (kotli, biomasa) in je namenjen tudi proizvodnji gospodinjske tople vode in/ali ogrevanja prostora. Te vrednosti so vhodni podatki za izračun splošne uporabe energije v skladu s standardoma prEN 15603 in prEN 15316-1.

General Information

Status
Published
Public Enquiry End Date
08-Feb-2015
Publication Date
18-Apr-2018
Technical Committee
Current Stage
6060 - National Implementation/Publication (Adopted Project)
Start Date
12-Dec-2017
Due Date
16-Feb-2018
Completion Date
19-Apr-2018

RELATIONS

Buy Standard

Standard
SIST EN 15316-4-1:2018
English language
55 pages
sale 10% off
Preview
sale 10% off
Preview

e-Library read for
1 day

Standards Content (sample)

2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.Energetische Bewertung von Gebäuden - Verfahren zur Berechnung der Energieanforderungen und Nutzungsgrade der Anlagen - Teil 4-1: Wärmeerzeugung für die Raumheizung und Trinkwassererwärmung, Verbrennungssysteme (Heizungskessel, Biomasse), Modul M3-8-1, M8-8-1Performance énergétique des bâtiments - Méthode de calcul des besoins énergétiques et des rendements des systèmes - Partie 4-1 : Systèmes de génération de chauffage des locaux et production d’eau chaude sanitaire, systèmes de combustion (chaudières, biomasse), Module M3-8-1, M8-8-1Energy performance of buildings - Method for calculation of system energy requirements and system efficiencies - Part 4-1: Space heating and DHW generation systems, combustion systems (boilers, biomass), Module M3-8-1, M8-8-191.140.65Oprema za ogrevanje vodeWater heating equipment91.140.10Sistemi centralnega ogrevanjaCentral heating systemsICS:Ta slovenski standard je istoveten z:EN 15316-4-1:2017SIST EN 15316-4-1:2018en,fr,de01-maj-2018SIST EN 15316-4-1:2018SLOVENSKI

STANDARDSIST EN 15316-4-7:2009SIST EN 15316-4-1:2008SIST EN 15316-3-3:20071DGRPHãþD

SIST EN 15316-4-1:2018
EUROPEAN STANDARD NORME EUROPÉENNE EUROPÄISCHE NORM
EN 15316-4-1
May
t r s y ICS
{ sä s v rä s râ
{ sä s v rä x w Supersedes EN
s w u s xæ uæ uã t r r yá EN
s w u s xæ væ sã t r r zá EN
s w u s xæ væ yã t r r zEnglish Version

Energy performance of buildings æ Method for calculation of system energy requirements and system efficiencies æ Part

væ sã Space heating and DHW generation systemsá M zæ zæ s Performance énergétique des bâtiments æ Méthode de calcul des besoins énergétiques et des rendements des systèmes æ Partie

væ s ã Systèmes de génération de chauffage des locaux et production d 5eau chaude

Energetische Bewertung von Gebäuden æ Verfahren zur Berechnung der Energieanforderungen und Nutzungsgrade der Anlagen æ Teil

væ sã Wärmeerzeugung für die Raumheizung und Trinkwassererwärmungá Verbrennungssysteme This European Standard was approved by CEN on

t y February
t r s yä

egulations which stipulate the conditions for giving this European Standard the status of a national standard without any alterationä Upætoædate lists and bibliographical references concerning such national standards may be obtained on application to the CENæCENELEC Management Centre or to any CEN memberä

translation under the responsibility of a CEN member into its own language and notified to the CENæCENELEC Management Centre has the same status as the official versionsä

CEN members are the national standards bodies of Austriaá Belgiumá Bulgariaá Croatiaá Cyprusá Czech Republicá Denmarká Estoniaá Finlandá Former Yugoslav Republic of Macedoniaá Franceá Germanyá Greeceá Hungaryá Icelandá Irelandá Italyá Latviaá Lithuaniaá Luxembourgá Maltaá Netherlandsá Norwayá Polandá Portugalá Romaniaá Serbiaá Slovakiaá Sloveniaá Spainá Swedená Switzerlandá Turkey and United Kingdomä

EUROPEAN COMMITTEE FOR STANDARDIZATION COMITÉ EUROPÉEN DE NORMALISATION EUROPÄISCHES KOMITEE FÜR NORMUNG

CEN-CENELEC Management Centre:
Avenue Marnix 17,
B-1000 Brussels

t r s y CEN All rights of exploitation in any form and by any means reserved worldwide for CEN national Membersä Refä Noä EN

s w u s xæ væ sã t r s y ESIST EN 15316-4-1:2018

EN 15316-4-1:2017 (E) 2 Contents Page European foreword ....................................................................................................................................................... 4 Introduction .................................................................................................................................................................... 5 1 Scope .................................................................................................................................................................... 7 2 Normative references .................................................................................................................................... 9 3 Terms and definitions ................................................................................................................................... 9 4 Symbols and abbreviations ...................................................................................................................... 10 4.1 Symbols ............................................................................................................................................................ 10 4.2 Abbreviations and indices ........................................................................................................................ 11 5 Description of the method ........................................................................................................................ 11 5.1 Output of the method .................................................................................................................................. 11 5.2 General description of the method ........................................................................................................ 12 5.3 Input data ........................................................................................................................................................ 13 5.4 Boundaries between distribution and generation sub-system ................................................... 15 5.5 Default values ................................................................................................................................................ 16 5.5.1 Default values for generator efficiency at full load and intermediate load as a function of the generator power output .............................................................................................. 16 5.5.2 Default value for the stand-by heat losses f gen;ls;P0 as a function of the generator power output ................................................................................................................................................. 16 5.5.3 Auxiliary energy ........................................................................................................................................... 16 5.6 Product values ............................................................................................................................................... 17 5.7 Measured values ........................................................................................................................................... 17 5.7.1 Boiler efficiencies from measured values ........................................................................................... 17 5.7.2 Measured total thermal losses, power input and calculated gains ............................................ 17 5.7.3 Additional default data and calculation for condensing boilers ................................................. 18 5.7.4 Thermal losses through the chimney with the burner on at full load fch;on ......................... 19 5.7.5 Thermal losses through the generator envelope fgen;env ........................................................... 19 5.7.6 Thermal losses through the chimney with the burner off fch;off ............................................... 20 5.8 Boiler rated output ...................................................................................................................................... 20 6 Generation sub-system basic energy balance .................................................................................... 20 6.1 Heat balance ................................................................................................................................................... 20 6.2 Expenditure factor ....................................................................................................................................... 20 6.3 Equation fuel heat input ............................................................................................................................ 21 6.4 Generator auxiliary energy ...................................................................................................................... 21 6.5 Generator losses ........................................................................................................................................... 21 6.5.1 Generator loss ............................................................................................................................................... 21 6.5.2 Gex ........................... 21 6.5.3 Generator thermal loss calculation at full load ................................................................................. 22 6.5.4 Generator thermal loss calculation at intermediate load ............................................................. 22 6.5.5 Generator thermal loss calculation at 0 % load ................................................................................ 23 6.5.6 Correction factor by additional tests .................................................................................................... 23 6.6 Recoverable thermal losses ..................................................................................................................... 23 6.6.1 general ............................................................................................................................................................. 23 6.6.2 Generator thermal losses through the jacket (generator envelope) ........................................ 23 6.6.3 Recoverable thermal losses out of auxiliary energy ....................................................................... 23 6.7 Recovered auxiliary energy...................................................................................................................... 24 SIST EN 15316-4-1:2018

EN 15316-4-1:2017 (E) 3 6.8 Auxiliary energy ............................................................................................................................................ 24 6.9 Generator thermal output ......................................................................................................................... 24 6.10 Heating time and load factor .................................................................................................................... 25 6.11 Direct heated DHW heaters ...................................................................................................................... 25 6.11.1 Instantaneous electrical water heater .................................................................................................. 25 6.11.2 Gas-fired domestic storage water heaters ........................................................................................... 26 6.11.3 Boundary conditions for the default values ........................................................................................ 26 6.12 Method for domestic hot water appliance, tested with 24 h tapping cycles ........................... 27 Annex A (informative)

Additional formulas and default values for parametering the boiler efficiency method ......................................................................................................................................... 29 A.1 Information on the method ....................................................................................................................... 29 A.1.1 Generator efficiencies and stand-by losses ......................................................................................... 29 A.1.2 Auxiliary energy ............................................................................................................................................ 33 A.1.3 Recoverable generation thermal losses and boiler location ........................................................ 34 A.2 Conversion of the energy content of energy carriers ...................................................................... 34 A.3 Deviation from default values .................................................................................................................. 35 A.4 Fuel constants for flue gas measurement depending on Siegert constants ............................ 35 A.5 Default values for calculation of thermal losses through the chimney with the burner off ........................................................................................................................................................................ 37 A.6 Additional default data and calculation for condensing boilers ................................................. 38 A.7 Additional default data for generator output and losses ............................................................... 39 A.8 Additional default data and calculation for water heaters............................................................ 39 Annex B (informative)

Additional formulas and default values for parametering the boiler efficiency method ......................................................................................................................................... 40 B.1 Information on the method ....................................................................................................................... 40 B.1.1 Generator efficiencies and stand-by losses ......................................................................................... 40 B.1.2 Auxiliary energy ............................................................................................................................................ 44 B.1.3 Recoverable generation thermal losses and boiler location ........................................................ 46 B.2 Conversion of the energy content of energy carriers ...................................................................... 46 B.3 Deviation from default values .................................................................................................................. 47 B.4 Fuel constants for flue gas measurement depending on Siegert constants ............................ 47 B.5 Default values for calculation of thermal losses through the chimney with the burner off ........................................................................................................................................................................ 49 B.6 Additional default data and calculation for condensing boilers ................................................. 50 B.7 Additional default data for generator output and losses ............................................................... 51 B.8 Additional default data and calculation for water heaters............................................................ 51 Annex C (informative)

General part default values and information ..................................................... 53 Bibliography ................................................................................................................................................................. 54

SIST EN 15316-4-1:2018

EN 15316-4-1:2017 (E) 4 European foreword This document (EN 15316-4-1:2017) has been prepared by Technical Committee CEN/TC 228 “Heating systems and water based cooling systems in buildings”, the secretariat of which is held by DIN. This European Standard shall be given the status of a national standard, either by publication of an identical text or by endorsement, at the latest by November 2017, and conflicting national standards shall be withdrawn at the latest by November 2017. Attention is drawn to the possibility that some of the elements of this document may be the subject of patent rights. CEN [and/or CENELEC] shall not be held responsible for identifying any or all such patent rights. This document has been prepared under a mandate given to CEN by the European Commission and the European Free Trade Association. This document supersedes EN 15316-3-3:2007, EN 15316-4-1:2008, EN 15316-4-7:2008. In case this standard is used in the context of national or regional legal requirements, mandatory choices may be given at national or regional level for such specific applications, in particular for the application within the context of EU Directives transposed into national legal requirements. Further target groups are users of the voluntary common European Union certification scheme for the energy performance of non-residential buildings (EPBD art.11.9) and any other regional (e.g. Pan European) parties wanting to motivate their assumptions by classifying the building energy performance for a dedicated building stock. The main changes compared to EN 15316-3-3:2007, EN 15316-4-1:2008 and EN 15316-4-7:2008 are: a) the typology method was removed; b) the boiler cycling method has been added for existing boilers to get the input parameters for the case specific boiler efficiency method. According to the CEN/CENELEC Internal Regulations, the national standards organizations of the following countries are bound to implement this European Standard: Austria, Belgium, Bulgaria, Croatia, Cyprus, Czech Republic, Denmark, Estonia, Finland, Former Yugoslav Republic of Macedonia, France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, Netherlands, Norway, Poland, Portugal, Romania, Serbia, Slovakia, Slovenia, Spain, Sweden, Switzerland, Turkey and the United Kingdom. SIST EN 15316-4-1:2018

EN 15316-4-1:2017 (E) 5 Introduction This European Standard is part of a series of standards aiming at international harmonization of the methodology for the assessment of the energy performance of buildings, called “EPB set of standards”. EPB standards deal with energy performance calculation and other related aspects (like system sizing) to provide the building services considered in the EPBD directive. CEN/TC 228 deals with heating systems in buildings. Subjects covered by CEN/TC 228 are: — energy performance calculation for heating systems; — inspection of heating systems; — design of heating systems; — installation and commissioning of heating systems. This standard is intended to replace EN 15316-3-3:2007, EN 15316-4-1:2008 and EN 15316-4-7:2008 and includes biomass boilers (former EN 15316-4-7:2008). This revision was required as a result of the EPBD recast (2010/31/EU). The set of standards developed under mandate M/343 will be revised to become consistent with the overarching standard under mandate M/480. Other generation systems are covered in other sub modules of part M3-8 (see Table 1). All EPB standards follow specific rules to ensure overall consistency, unambiguity and transparency. All EPB standards provide a certain flexibility with regard to the methods, the required input data and references to other EPB standards, by the introduction of a normative template in Annex A and Annex B with informative default choices. For the correct use of this standard, a normative template is given in Annex A to specify these choices. Informative default choices are provided in Annex B. The main target group of this standard are all the users of the set of EPB standards (e.g. architects, engineers, regulators). Use by or for regulators: In case the standard is used in the context of national or regional legal requirements, mandatory choices may be given at national or regional level for such specific applications, in particular for the application within the context of EU Directives transposed into national legal requirements. These choices (either the informative default choices from Annex B or choices adapted to national/regional needs), but in any case following the template of this Annex A) can be made available as National Annex or as separate (e.g. legal) document. NOTE So in this case: —

the regulators will specify the choices; — the individual user will apply the standard to assess the energy performance of a building, and thereby use the choices made by the regulators. Topics addressed in this standard can be subject to public regulation. Public regulation on the same topics can, for certain applications, override the default values in Annex B of this standard. Public regulation on the same topics can even, for certain applications override the use of this standard. Legal requirements and choices are in general not published in standards but in legal documents. In order to avoid double publications and difficult updating of double documents, the National Annex may refer to the legal texts where national choices have been made by public authorities. SIST EN 15316-4-1:2018

EN 15316-4-1:2017 (E) 6 It is expected, if the default values and choices in Annex B are not followed due to national regulations, policy or traditions, that: — national or regional authorities prepare data sheets containing the choices and national or regional values, according to the model in Annex A. In this case the National Annex (e.g. NA) refers to this text; — or, by default, the national standards body will consider the possibility to add or include a National Annex in agreement with the template of Annex A, in accordance to the legal documents that give national or regional values and choices. Further target groups are users of the voluntary common European Union certification scheme for the energy performance of non-residential buildings (EPBD art.11.9) and any other Pan EU parties wanting to motivate their assumptions by classifying the building energy performance for a dedicated building stock. More information is provided in the Technical Report accompanying this standard (CEN/TR 15316-6-4). SIST EN 15316-4-1:2018

EN 15316-4-1:2017 (E) 7 1 Scope This European Standard is part of a series of standards on the method for calculation of system energy requirements and system efficiencies of space heating systems and domestic hot water systems. This standard (EN 15316-4-1) specifies: — required inputs; — a calculation method; — resulting outputs; — a method to take into account the energy performance of heat generation devices based on fuel combustion; for space heating generation by combustion sub-systems (boilers, biomass), including control. This standard specifies methods for the calculation of: — thermal losses from the heating and the domestic hot water generation system; — recoverable thermal losses for space heating from the heating and the domestic hot water generation system; — auxiliary energy of the heating and the domestic hot water generation systems. This standard specifies the energy performance calculation of water based heat generation sub-systems including control based on combustion of fuels (“boilers”), operating with conventional fossil fuels as well as renewable fuels. This standard does not cover sizing or inspection of boilers. This standard is also applicable to heat generators for heating or for combined service as domestic hot water, ventilation, cooling and heating. Generators for domestic hot water only are taken into account into part M8-8. This European Standard is the general standard on generation by combustion sub-systems (boilers, biomass) and is also intended for generation for domestic hot water production and/or space heating. These values are input data for calculation of the overall energy use according to EN ISO 52000-1 and EN 15316-1. Table 1 shows the relative position of this standard within the set of EPB standards in the context of the modular structure as set out in EN ISO 52000-1. NOTE 1 In CEN ISO/TR 52000-2 the same table can be found, with, for each module, the numbers of the relevant EPB standards and accompanying technical reports that are published or in preparation. NOTE 2 The modules represent EPB standards, although one EPB standard may cover more than one module and one module may be covered by more than one EPB standard, for instance a simplified and a detailed method respectively. See also Clause 2 and Tables A.1 and B.1. SIST EN 15316-4-1:2018

EN 15316-4-1:2017 (E) 8 Table 1 — Position of EN 15316–4-1 within the modular structure Overarching

Building (as such) Technical Building Systems
Descriptions
Descriptions

Descriptions Heating Cooling Ventilation Humidification Dehumidification Domestic Hot water Lighting Building automation and control Electricity

production sub1
M1 sub1 M2 sub1
M3 M4 M5 M6 M7 M8 M9 M10 M11 1 General
1 General 1 General 15316–1
15316–1
2 Common terms and definitions; symbols, units and subscripts
2 Building Energy Needs 2 Needs
12831–3 ?
3 Applications
3 (Free) Indoor Conditions without Systems 3 Maximum Load and Power 12831–1
12831–3
4 Ways to Express Energy Performance

4 Ways to Express Energy Performance 4 Ways to Express Energy Performance 15316–1

15316–1
5 Building Functions and Building Boundaries
5 Heat Transfer by Transmission 5 Emission and control 15316–2 15316–2
6 Building Occupancy and Operating Conditions

6 Heat Transfer by Infiltration and Ventilation 6 Distribution and control 15316–3 15316–3

15316–3
7 Aggregation of Energy Services and Energy Carriers
7 Internal Heat Gains 7 Storage and control 15316–5
15316–5 15316–4-3
8 Building Partitioning
8 Solar Heat Gains 8 Generation
8–1 Combustion boilers 15316–4-1
15316–4-1
8–2 Heat pumps 15316–4-2 15316–4-2
15316–4-2
8–3 Thermal solar Photovoltaics 15316–4-3
15316–4-3
15316–4-3
8–4 On-site cogeneration 15316–4-4
15316–4-4
15316–4-4
8–5 District heating and cooling 15316–4-5 15316–4-5
15316–4-5
15316–4-5
8–6 Direct electrical heater 15316–4-6
15316–4-6
8–7 Wind turbines
15316–4- 10
8–8 Radiant heating, stoves 15316–4-8
9 Calculated Energy Performance
9 Building Dynamics (thermal mass) 9 Load dispatching and operating conditions
10 Measured Energy Performance
10 Measured Energy Performance 10 Measured Energy Performance 15378–3
15378–3
11 Inspection
11 Inspection 11 Inspection 15378–1
15378–1
12 Ways to Express Indoor Comfort
12 – 12 BMS
13 External Environment Conditions
14 Economic Calculation 15459–1
SIST EN 15316-4-1:2018

EN 15316-4-1:2017 (E) 9 2 Normative references The following documents, in whole or in part, are normatively referenced in this document and are indispensable for its application. For dated references, only the edition cited applies. For undated references, the latest edition of the referenced document (including any amendments) applies. EN 89, Gas-fired storage water heaters for the production of domestic hot water EN ISO 13790, Energy performance of buildings — Calculation of energy use for space heating and cooling (ISO 13790) EN ISO 52000-1, Energy performance of buildings — Overarching EPB assessment — Part 1: General framework and procedures (ISO 52000-1) 3 Terms and definitions For the purposes of this document, the terms and definitions given in EN ISO 52000-1 and the following apply. 3.1 heat transfer coefficient factor of proportionality of heat flow governed by a temperature difference between two environments 3.2 boiler gas, liquid or solid fuelled appliance designed to provide hot water for space heating 3.3 combustion power product of the fuel flow rate and the net calorific power of the fuel 3.4 low temperature boiler non-condensing boiler which can work continuously with a water supply temperature of 35 to 40°C, possibly producing condensation in certain circumstances 3.5 condensing boiler boiler in which, under normal operating conditions and at certain operating water temperatures, the water vapour in the combustion products is partly condensed, in order to make use of the latent heat of this water vapour for heating purposes Note 1 to entry: Boilers not designed to or without the means to remove the condensate in liquid form, are called ‘non-condensing’. [SOURCE: EN 15502-1:2012+A1:2015, 3.1.10.2, modified - Note 1 to entry has been added.] [SOURCE: EN 15034:2006, 3.4, modified – Slight different drafting and Note 1 to entry have been added.] 3.6 modes of operation various modes in which the heating system can operate EXAMPLE Set-point mode, cut-off mode, reduced mode, set-back mode, boost mode. SIST EN 15316-4-1:2018

EN 15316-4-1:2017 (E) 10 3.7 on/off boiler boiler without the capability to vary the fuel burning rate whilst maintaining continuous burner firing Note 1 to entry: This includes boilers with alternative burning rates set once only at the time of installation, referred to as range rating 3.8 multistage boiler boiler with the capability to vary the fuel burning rate stepwise whilst maintaining continuous burner firing 3.9 modulating boiler boiler with the capability to vary continuously (from a set minimum to a set maximum) the fuel burning rate whilst maintaining continuous burner firing 3.10 biomass boiler biomass fuelled appliance designed to provide heating medium (e.g. water, fluid) 3.11 load factor ratio between the time with the boiler ON (burner 100%) and the total generator operation time 3.12 operation cycle time period of the operation cycle of a boiler 3.13 standard condition

condition of 15 °C, 1 013,25 mbar, if there are no other information 4 Symbols and abbreviations 4.1 Symbols For the purposes of this document, the symbols and indices of EN ISO 52000-1 and the symbols and units of Table 2 applies. Table 2 — Symbols and units Symbol Name of quantity Unit D day d/mth h specific latent heat kJ/kg or Wh/kg =Heat transfer coefficient W/(m2 K) =load factor - =expenditure factor - Í=Temperature °C SIST EN 15316-4-1:2018

EN 15316-4-1:2017 (E) 11 4.2 Abbreviations and indices For the purposes of this document, the symbols and indices of EN ISO 52000-1 and the indices of Table 3 applies. Table 3 — Indices Hc Heating circuit ch chimney prio priority O2 Oxygen cond condensation s gross H2O humidity corr corrected/correction sat saturation Pn at nominal load dry dry gases sim simultaneous Pint at intermediate load env envelope sink sink P0 at zero load fg flue gas st stoichiometric Px Actual load i net test test RT Return me

...

Questions, Comments and Discussion

Ask us and Technical Secretary will try to provide an answer. You can facilitate discussion about the standard in here.