This European Standard covers methods for the calculation of the design heat load for single rooms, building entities and buildings, where the design heat load is defined as the heat supply (power) needed to maintain the required internal design temperature under design external conditions.
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.
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This European Standard describes a method to calculate the power and the storage volume required for the dimensioning of domestic hot water systems (DHW). The applicability ranges from direct water heaters (no storage volume and a comparatively large effective heating power) to larger storage systems with a comparatively small heating power and large storage volumes.
This European Standard is applicable to the following water storage systems:
-   storage systems characterized by a minimal mixing zone, (such as stratified charging storage tanks or storage tanks with external heat exchangers): these systems are nominated in this standard as "charging storage systems";
-   storage tank water heaters and warm water storage tanks with a pronounced mixing zone (such as DHW storage tanks with internal heat exchangers), nominated in this standard as "mixed storage systems";
and for different uses.
The Scope also includes standardization methods for determining the energy need for domestic hot water. This European Standard covers the domestic hot water needs in buildings.
The calculation of the energy needs for DHW-Systems applies to residential and non-residential buildings, a building or a zone of a building.
Figure 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.
Table 1 shows the relative position of this standard within the EPB package of standards.
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This European Standard provides a calculation method for the economic issues of heating systems and other systems that are involved in the energy demand and consumption of the building. It applies to all types of new and existing buildings.
The fundamental principles and terminology are explained in the standard.
The main items of the standard will be:
-   the definitions and the structure of the types of costs which should be taken into account for the calculation of the economic efficiency of saving options in buildings;
-   data needed for definition of costs related to systems under consideration;
-   the calculation method(s);
-   expression of the result of the economic study.
This European Standard is part of the method for calculation of economic performance of energy saving options in buildings (e.g. insulation, better performing generators and distribution systems, efficient lighting, renewable sources, combined heat and power...).
The scope of this specific part is to standardize:
-   the required inputs;
-   the required outputs;
-   the calculation formulas;
-   the type of energy systems concerned with the energy performance of the building.
NOTE 1   This is the revision of EN 15459:2007. The revision has been made consistent with the EU regulation on cost-optimal. This revision includes the definition of payback for investment, and inclusion of the costs due to the deconstruction of the building. The method presenting annualized costs has been suppressed.
NOTE 2   This standard does not consider financial advantages for higher productivity, higher attractiveness for tenants due to higher indoor comfort, when relevant for comparison of different options.
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 3   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 4   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.
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This European Standard covers energy performance calculation of water based storage sub-systems used for heating, for domestic hot water or for combination of these.
This standard does not cover sizing or inspection of such storage systems.
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.

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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.

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This European Standard defines the determination of energy indicators of district energy systems. District energy systems may be district heating, district cooling or other district energy carriers.
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 prEN ISO 52000 1.
NOTE 1   In prCEN 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 more than one module and one module may be covered by more than one EPB standard, for instance a standard may cover a simplified and a detailed method respectively. See also Clause 2 and Tables A.1 and B.1.
(Table 1 - Position of EN 15316-4-5 within the modular structure)
....

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This European Standard deals with procedures for the assessment of electricity generation within the direct building environment through wind power systems. The wind power systems described in this document are small plants as they may occur in domestic production and use of electricity in connection with buildings. This standard covers wind generation power systems ≤ 75 kW.

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This European Standard specifies the:
-   required inputs;
-   calculation method;
-   required and resulting outputs,
for heat generation systems, thermal solar systems (for space heating, domestic hot water production and the combination of both) and for photovoltaic systems applied in buildings.
Within this standard, 6 methods are specified each method has its own range of applicability.
-   Method 1,
is applicable for solar domestic hot water systems characterized by the EN 12976 series (factory made) or EN 12977-2 (custom built).
The main output of the method is the solar heat and back up heat contribution to the requested heat use.
-   Method 2,
is applicable for systems for domestic hot water and / or space heating with components characterized by EN ISO 9806 and EN 12977-3 or EN 12977-4 with a monthly calculation time step.
The main output of the method is the solar heat and back up heat contribution to the requested heat use.
-   Method 3,
is applicable for systems for domestic hot water and / or space heating with components characterized by EN ISO 9806 with an hourly calculation time step.
The main output of the method is collector loop heat supplied to the heat storage.
-   Method 4,
is applicable for photovoltaic systems with components characterized by standards and with an annual calculation time step.
The output of the method is the produced electricity.
-   Method 5,
is applicable for photovoltaic systems with components characterized by standards and with a monthly calculation time step.
The output of the method is the produced electricity.
-   Method 6,
is applicable for photovoltaic systems with components characterized by standards and with a calculation time step.
The output of the method is the produced electricity.
These three last calculation methods do not take into account:
-   electrical storage;
-   PV/thermal photovoltaic systems.
Primary energy savings and CO2 savings, which can be achieved by photovoltaic systems compared to other systems, are calculated according to EN ISO 52000 1.
NOTE 1   Standards linked to the methods are listed in Annex E.
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 2   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 3   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.

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This document specifies inspection procedures for the assessment of energy performance of existing boilers and heating systems.
Heat generators types covered by this standard are:
-   boilers for heating, domestic hot water or both;
-   gas, liquid, solid fuel fired combustion boilers;
-   electrically driven and gas driven heat pumps;
-   thermal solar systems for domestic hot water, heating or both;
-   other heat generators types, such as cogeneration units.
Parts of heating systems covered by this standard are:
-   heat generators, including generation control;
-   heating distribution network, including associated components and controls;
-   heating emitters, including components and controls;
-   space heating control system;
-   heat storage and associated components;
-   domestic hot water production system.
This standard covers issues related to energy conservation and environmental performance.
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 prEN ISO 52000 1.
NOTE 1   In prCEN 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.

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This European Standard's scope is to standardize the required inputs, the outputs and the links (structure) of the calculation method in order to achieve a common European calculation method.
This standard covers energy performance calculation of heating systems and water based cooling space emission sub-systems.
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 prEN ISO 52000 1.
NOTE 1   In prCEN 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.

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This European Standard is part of a series of standards on the method for calculation of system energy requirements and system efficiencies.
The scope of this specific part is to standardize the:
-   required inputs;
-   calculation method;
-   resulting outputs,
for space heating generation by:
-   air heating systems, including control;
-   overhead radiant heating systems for non-domestic use, including control; and
-   stoves and local heaters for residential use.
This standard does not apply to heating systems that utilize water as a heat transfer medium.
Other heat generation systems such as boilers, heat pumps and others are covered in other sub modules of M3-8.
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 prEN ISO 52000-1.
NOTE 1   In prCEN 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.

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This European Standard is the general frame for the calculation of the energy use and the energy performance of heating and domestic hot water systems. This standards is only dealing with the heat, provided by water based systems, needed for heating, domestic hot water and cooling (e.g. absorption chiller).
It specifies how to perform the calculation of the entire installation using the calculation modules (see Table 2) corresponding to the methods defined in the respective standards.
It deals with common issues like operating conditions calculation and energy performance indicators.
It standardises the inputs and outputs in order to achieve a common European calculation method.
It allows the energy analysis of the heating and Domestic hot water systems and sub-systems including control (emission, distribution, storage, generation) by comparing the system losses and by defining energy performance indicators.
The performance analysis allows the comparison between systems and sub-systems and makes possible to evaluate the impact of each sub-system on the energy performance of a building.
The calculation of the system losses of each part of the heating sub-systems is defined in subsequent standards.
Ventilation systems are not included in this standard (e.g. balanced systems with heat recovery), but if the air is preheated or an air heating system is installed, the systems providing the heat to the AHU (Air Handling Unit) are covered by this standard.
Table 2 shows the relative position of this standard within the set of EPB standards in the context of the modular structure as set out in prEN ISO 52000-1.
NOTE 1   In prCEN 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.

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This European Standard covers energy performance calculation of water based distribution systems for space heating, space cooling and domestic hot water.
This standard deals with the heat flux from the distributed water to the space and the auxiliary energy of the related pumps.
The heat flux and the auxiliary energy for pumps can be calculated at any time-step (hour, month and year). The input and output data are mean values of the time step.

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This European standard defines a method for the performance assessment of building-integrated cogeneration units by the calculation of the electricity production, useful heat output and recoverable losses. Such units are commonly known as micro or small scale cogeneration, or micro or small scale CHP.
A building-integrated cogeneration, is a cogeneration unit installed to supply space heating, domestic hot water and possibly cooling within a building. It could operate as the only heating/cooling appliance of the building or in combination with other heat generators, such as boilers or electrical chillers. Unlike district heating systems, where heat and electricity are generated at central plants and transmitted through networks to a number of remote buildings, a building-integrated cogeneration unit produces useful heat for uses within the building. The electricity produced by the integrated cogeneration unit may be used within the building or may be exported.
This standard deals with heat generators for heating or for combined domestic hot water and heating services.
The calculation is based on the performance characteristics of the units, defined in product standards, and on operation conditions such the needed heat output.
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 prEN ISO 52000 1.
NOTE 1   In prCEN 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.

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This European Standard covers heat pumps for space heating, heat pump water heaters (HPWH) and heat pumps with combined space heating and domestic hot water production in alternate or simultaneous operation, where the same heat pump delivers the heat to cover the space heating and domestic hot water heat requirement.
The standard provides a calculation method under steady conditions that corresponds to one calculation step.
The results of this calculation are incorporated in larger building models and take in account the influence of the external conditions and building control that influence the energy requirements for heating supplied by the heat pump system.
The scope of this part is to standardize the:
-   required inputs;
-   calculation methods;
-   required outputs
Generation for space heating and domestic hot water production of the following heat pump systems, including control of:
-   electrically-driven vapour compression cycle (VCC) heat pumps;
-   combustion engine-driven vapour compression cycle heat pumps;
-   thermally-driven vapour absorption cycle (VAC) heat pumps,
using combinations of heat source and heat distribution listed in Table 1.
This standard does not cover sizing or inspection of heat pumps.
This standard deals with heat generators for heating or for combined domestic hot water and heating service. Generators for domestic hot water only are taken into account into module M8-8.
NOTE 1   Heat pumps for cooling systems are taken into account into module M4–8.
NOTE 2   Heat pumps for space heating using air (distribution) are taken into account in module M5–8.
Other generation systems such as boilers are covered in other sub modules of part M3-8.
This is the revision of EN 15316 4 2:2008. The revision covers the adaptation of the standard to hourly and monthly energy calculation.
Table 2 shows the relative position of this standard within the set of EPB standards in the context of the modular structure as set out in prEN ISO 52000 1.
NOTE 1   In prCEN 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.

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This European Standard specifies methods to assess the delivered energy for space heating and domestic hot water energy performance of a building based on measurements during the operation and occupancy phase. This includes:
-   assessment of the amount of delivered energy carriers for space heating and domestic hot water preparation based on measurement;
-   assessment of the energy performance indicators of heating and domestic hot water systems and subsystems based on measurements.
This standard does not cover the measurement of delivered energy for ventilation, cooling, air conditioning and lighting systems.
This standard includes procedures to correct measured delivered energy according to climate and building use.
Weighting (e.g. conversion into primary energy, cost, CO2 emission) of the measured delivered energy and assessment of the energy performance are covered in EN ISO 52000 1:2017.
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 1:2017.
NOTE 1   In CEN ISO/TR 52000 2:2017 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.

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This Technical Report refers to standard EN 15316-2.
It contains information to support the correct understanding and use of EN 15316-2.
The scope of this specific part is to standardize the required inputs, the outputs and the links (structure) of the calculation method in order to achieve a common European calculation method.
This standard covers energy performance calculation of heating systems and water based cooling space emission sub-systems.

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This Technical Report refers to EN 15378-3:2017, Energy performance of buildings - Heating and DHW systems in buildings - Part 3: Measured energy performance, Module M3-10, M8-10.
It contains information to support the correct understanding, use and national adaptation of EN 15378-3:2017.

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This Technical Report refers to EN 15316-4-8:2017, module M3-8.8.
It contains information to support the correct understanding, use and national adaptation of EN 15316-4-8:2017.
This Technical Report does not contain any normative provision.
The scope of EN 15316-4-8:2017 includes three categories of products:
-   air heating systems means a system with one or more warm air generators for heating purpose. The hot air may be diffused in the installation space from the generator or distributed via a ductwork.
-   overhead radiant heating systems, means systems using gas and designed to provide heat into the installation room. Radiation may be generated directly by the flame (overhead radiant luminous heaters) or by circulation of flue gas in a ductwork installed near the ceiling (overhead radiant tube heaters).
-   stoves and local heaters means local devices that provide heat by transferring the heat generated by combustion into the surrounding environment.
The typical devices are shown in Figures 1 to 4.
(...)

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This technical report refers to standard EN 12831-3, module M8-2, M8-3.
It contains information to support the correct understanding, use and national adaptation of standard FprEN 12831-3.

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This Technical Report refers to EN 15316 4 3, Modules 3-8 and 8-8.
It contains information to support the correct understanding, use and national adaptation of EN 15316 4 3.
This Technical Report does not contain any normative provision.

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This Technical Report refers to standard FprEN 15316-4-5:2016.
It contains information to support the correct understanding, use and national adaptation of FprEN 15316-4-5:2016

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This Technical Report refers to EN 15316 5, covering module M3-7 and M8-7
It contains information to support the correct understanding, use and national adaptation of EN 15316 5.

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This technical report refers to standard EN 15459-1, module M1-14.
It contains information to support the correct understanding, use and national adaptation of standard EN 15459-1.

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This Technical Report refers to EN 15316-4-2, covering module M3-8.
It contains information to support the correct understanding, use and national adaptation of EN 15316-4-2.
This Technical Report does not contain any normative provision.

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This Technical Report refers to standard EN 15316 3 1, modules Space Distribution Systems Module M3-6 heating / M4-6 cooling / M8-6 domestic hot water
It contains information to support the correct understanding, use and national adaptation of standard EN 15316-3-1.

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This Technical Report refers to EN 15316 4 1.
It contains information to support the correct understanding, use and national adaption of standard EN 15316 4 1.

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This Technical Report (CEN/TR 15316-6-7) specifies details for EN 15316-4-4 and gives additional information for the application of EN 15316-4-4.

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This Technical Report (CEN/TR 15316-6-1) specifies details for EN 15316-1 and gives additional information for the application of EN 15316-1.

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This Technical Report refers to standard FprEN 12831, module M3-3 (FprEN 12831-1).
It contains information to support the correct understanding, use and national adaptation of standard FprEN 12831-1.

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This Technical Report refers to FprEN 15378 1.
It contains information to support the correct understanding, use and national adaptation of FprEN 15378-1.

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This document covers energy performance calculation of water based storage sub-systems used for heating, for domestic hot water or for combination of these.
This document does not cover sizing or inspection of such storage systems.
Table 1 shows the relative position of this document 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.
Table 1 - Position of this document within the modular structure of the set of EPB standards
[...table not reproduced...]

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This document cover heat pumps for space heating, domestic hot water production and alternate operation, where the same heat pump delivers the heat to cover the space heating and domestic hot water heat requirement.
The document provides a calculation method under steady conditions that corresponds to one calculation interval.
This calculation is intended to be connected to the whole building calculation model and takes in account the external conditions and building controls that influence the energy requirements for heating supplied by the heat pump system.
The scope of this standard is to standardize the:
-   required inputs;
-   calculation methods;
-   required outputs;
of the generation for space heating and domestic hot water production of the following heat pump systems:
-   electrically-driven vapour compression cycle (VCC) heat pumps;
-   combustion engine-driven vapour compression cycle heat pumps;
-using combinations of heat source and heat sink listed in Table 1.
Table 1 - Heating sources and sinks
[table not represented]
This document does not cover sizing or inspection of heat pumps.
Heat pumps for cooling systems are taken into account in module M4–8. Other generation systems such as boilers are covered in other sub modules of part M3-8.
Table 2 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   The same table can be found in CEN ISO/TR 52000 2, 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.
Table 2 - Position of this standard, within the modular structure of the set of EPB standards
[table not represented]

  • Draft
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This document covers energy performance calculation of water based storage sub-systems used for heating, for domestic hot water or for combination of these.
This document does not cover sizing or inspection of such storage systems.
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.
[title not presented)

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This European Standard describes a method to calculate the power and the storage volume required for the dimensioning of domestic hot water systems (DHW). The applicability ranges from direct water heaters (no storage volume and a comparatively large effective heating power) to larger storage systems with a comparatively small heating power and large storage volumes.
This European Standard is applicable to the following water storage systems:
-   storage systems characterized by a minimal mixing zone, (such as stratified charging storage tanks or storage tanks with external heat exchangers): these systems are nominated in this standard as "charging storage systems";
-   storage tank water heaters and warm water storage tanks with a pronounced mixing zone (such as DHW storage tanks with internal heat exchangers), nominated in this standard as "mixed storage systems";
and for different uses.
The Scope also includes standardization methods for determining the energy need for domestic hot water. This European Standard covers the domestic hot water needs in buildings.
The calculation of the energy needs for DHW-Systems applies to residential and non-residential buildings, a building or a zone of a building.
Figure 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.
Table 1 shows the relative position of this standard within the EPB package of standards.
(...)

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The purpose of this standard is to:
   collate results from other standards that specify calculation of energy consumption within a building;
   account for energy generated in the building, some of which may be exported for use elsewhere;
   present a summary on tabular form of the overall energy use of the building;
   specify calculation of primary energy consumption and carbon dioxide emission for the building as a whole;
   establish general principles for the calculation of primary energy factors and carbon dioxide emission factors.
This standard will provide:
a definition of system boundaries (e.g. building, installations, energy supply) and calculation periods;
general definition of the overall energy use (i.e. determine which services are taken into account within the system boundaries);
definition of energy terms (energy use, primary energy, etc.);
definition of the data interfaces with other standards in order to report the overall energy use of buildings;
general procedures for taking into consideration decentralised energy production based on renewable energy and CHP (combined heat and power production), e.g. to show how on-site energy generation offsets energy demand;
identification of the energy streams across system boundaries;
principles for assessing primary energy consumption and CO2 emission of buildings (i.e. principles for determining primary energy factors and carbon dioxide emission factors);
general principles for taking into account the interactions between the different energy uses (e.g. calculation of recovered losses and gains).
The objective of specifying the details of the energy performance calculation for a building is to:
- underline the particularity of a project (e.g. efforts made on bioclimatic design);
- show the strong and the weak points in the overall energy performance of the building and to highlight potential gains:
- distinguish between thermal uses and specific electrical uses;
- indicate the outputs required f

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This European Standard is part of a set of standards covering methods for calculation of system energy requirements and system efficiencies of heating systems in buildings. In particular this European Standard is one of a number of standards dealing with domestic hot water systems.
The scope of this specific part is to standardise the methods for determining the energy needs for domestic hot water. This European Standard covers the domestic hot water needs in buildings.
The calculation of the energy needs for domestic hot water applies to a dwelling, a building or a zone of a building.
In order to be coherent with calculation methods for space heating systems, emission losses representing taps and control should be taken into account.

  • Standard
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This standard gives methods for calculating heat losses for basic cases at thed design conditions. This standard gives a method for calculating the design heat load for basic cases under the design conditions. Basic cases are the majority of all buildings to be found in practise with a limited room height (not exceeding 5 meters) and assumed to be heated to steady state conditions under the design conditions.

  • Standard
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  • Standard
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  • Standard – translation
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This standard provides a calculation method for the economical issues of heating systems and other systems that are involved in the energy demand and energy consumption of the building. This standard applies to all types of buildings.
The fundamental principles and terminology are explained in this standard.
The main items of the standard are:
-   definitions and structure of the types of costs, which shall be taken into account for calculation of the economical efficiency of saving options in buildings;
-   data needed for definition of costs related to systems under consideration;
-   calculation method(s);
-   expression of the result of the economic calculation;
-   informative annexes indicating default values of e.g. lifetime, costs for repair, costs for maintenance, in order to introduce default values for calculations.
This standard is applicable to calculation of economic performance of energy saving options in buildings (e.g. insulation, better performing generators and distribution systems, efficient lighting, renewable sources, combined heat and power).
The scope of this standard is to standardise:
-   required inputs;
-   calculation methods;
-   required outputs
for economic calculations of energy systems related to the energy performance of buildings.
NOTE   Sensitivity of results increases with the number of parameters under consideration (e.g. lifetime, interest rates, development of different types of costs). The more parameters one changes when comparing different solutions, the more difficult it is to draw conclusions from the economic results of the calculations.
Economical results are closely related to the specific project under consideration, and no general conclusions should be drawn from any such results.

  • Standard
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Die vorliegende Europäische Norm ist Teil einer Normenreihe zu Verfahren zur Berechnung der
Energieanforderungen und Nutzungsgrade von Anlagen für die Raumheizung und Trinkwassererwärmung.
Der Anwendungsbereich dieses vorliegenden Teils dient zur Normung
⎯ der erforderlichen Eingaben,
⎯ des Berechnungsverfahrens,
⎯ der erforderlichen Ausgaben,
für die Wärmeerzeugung durch Biomassewärmeerzeuger (Kessel) mit manueller Beschickung, einschließlich
Regeleinrichtung.
Die vorliegende Europäische Norm ist sowohl für die Wärmeerzeugung für die Trinkwassererwärmung als
auch für die Raumheizung vorgesehen.

  • Standard
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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.
The scope of this specific part is to standardise the:
   required inputs;
   calculation method;
   resulting outputs;
for space heating generation by combustion sub-systems (boilers), including control.
This European Standard is the general standard on generation by combustion sub-systems (boilers). If a combustion generation sub-system is within the scope of another specific part of the EN 15316 series (i.e. part 4.x), the latter shall be used.
EXAMPLE   Biomass combustion generation sub-systems are within the scope of prEN 15316-4-7.
This European Standard is also intended for the case of generation for both domestic hot water production and space heating. The case of generation only for domestic hot water production is treated in EN 15316-3-3.

  • Standard
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This European Standard is part of a set of standards covering the methods for calculation of system energy requirements and system efficiencies of heating systems in buildings. In particular this standard is one of a number of standards dealing with domestic hot water systems.
The scope of this specific part is to standardise the methods for 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.
These values are input data for calculation of the overall energy use according to prEN 15603 and
EN 15316-1.
This European Standard specifies the:
-   inputs;
-   calculation methods;
outputs.

  • Standard
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This European Standard is part of a set of standards on the method for calculation of system energy requirements and system efficiencies.
The scope of this specific part is to standardise the method of assessing the energy performance of district heating and cooling systems and to define:
-   system borders;
-   required inputs;
-   calculation method;
-   resulting outputs.
The method applies to district heating and cooling systems and any other kind of combined production for space heating and/or cooling and/or domestic hot water purposes.
Primary energy savings and CO2 savings, which can be achieved by district heating systems compared to other systems, are calculated according to prEN 15603.

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This European Standard specifies inspection procedures and optional measurement methods for the assessment of energy performance of existing boilers and heating systems.
Boiler types covered by this European Standard are:
   boilers for heating, domestic hot water or both;
   gas, liquid or solid fuel fired boilers.
Parts of heating systems covered by this European Standard are:
   boilers, including generation control;
   other generation devices;
   domestic hot water production facilities;
   heating distribution network, including associated components and controls;
   heat emitters, including components and controls;
   space heating control system;
   storage and associated components;
   domestic hot water control system.
This standard covers issues related to energy conservation and environmental performance.

  • Standard
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This European Standard is part of a set of standards on the method for calculation of system energy requirements and system efficiencies.
The scope of this specific part is to standardise for photovoltaic systems:
-   required inputs;
-   calculation method;
-   resulting outputs.
The calculation method applies only to building integrated photovoltaic systems.
The calculation method does not take into account:
-   electrical storage;
-   PV/thermal photovoltaic systems.
The calculation method describes how to calculate the electricity production of photovoltaic systems.
Primary energy savings and CO2 savings, which can be achieved by photovoltaic systems compared to other systems, are calculated according to prEN 15603.
Standards linked to photovoltaic systems are listed in Annex A.

  • Standard
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This European Standard is part of a series of standards on the method for calculation of system energy requirements and system efficiencies. The framework for the calculation is described in prEN 15603.
The scope of this specific part is to standardise the:
-   required inputs,
-   calculation method,
-   required outputs,
for thermal solar systems (including control) for space heating, domestic hot water production and the combination of both.
The following typical thermal solar systems are considered:
-   domestic hot water systems characterized by EN 12976 (factory made) or ENV 12977 (custom built);
-   combisystems (for domestic hot water and space heating) characterized by ENV 12977 or the Direct Characterisation method developed in Task 26 ‘Solar Combisystems’ of the IEA Solar Heating and Cooling programme;
space heating systems characterized by ENV 12977.

  • Standard
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The scope of this European Standard is to standardise the required inputs, the outputs and the links (structure) of the calculation method in order to achieve a common European calculation method.
The energy performance may be assessed either by values of the heat emission system efficiency or by values of the increased space temperatures due to heat emission system inefficiencies.
The method is based on an analysis of the following characteristics of a space heating emission system, including control:
-   non-uniform space temperature distribution;
-   heat emitters embedded in the building structure;
-   control accuracy of the indoor temperature.
The energy required by the emission system is calculated separately for thermal energy and electrical energy, in order to facilitate determination of the final energy and subsequently the corresponding primary energy according to other standards.

  • Standard
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This European Standard is part of a series of standards on the method for calculation of system energy requirements and system efficiencies.
The scope of this specific part is to standardise the:
-   required inputs;
-   calculation method;
-   resulting outputs
for space heating generation by:
a)   air heating systems, including control, and
b)   overhead radiant heating systems for non-domestic use , including control.
This European Standard does not apply to air heating systems that utilise water as a heat transfer medium.

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This European Standard covers heat pumps for space heating, heat pump water heaters (HPWH) and heat pumps with combined space heating and domestic hot water production in alternate or simultaneous operation, where the same heat pump delivers the heat to cover the space heating and domestic hot water heat requirement.
The scope of this part is to standardise the:
   required inputs,
   calculation methods,
   resulting outputs,
for heat generation by the following heat pump systems, including control, for space heating and domestic hot water production:
   electrically-driven vapour compression cycle (VCC) heat pumps,
   combustion engine-driven vapour compression cycle heat pumps,
   thermally-driven vapour absorption cycle (VAC) heat pumps,
using combinations of heat source and heat distribution as listed in Table 1.

  • Standard
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