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Research and innovation towards an integrated Energy Performance framework for Buildings.
How the Annex A-B approach and Modular structure of the set of EPB standards are a driver for innovation on the EP-
market place: Innovation on Systems and Tools Jaap Hogeling
Building Services Research Institute, the Netherlands ; Chair CEN TC 371 Program Committee on Energy Performance of Buildings (EPB), Chair of JWG of
ISO TC 163&205 Advisory Group on Coordination of ISO and CEN Work on EPB [email protected]
Fellow of ASHRAE and REHVA
EU FORUM FOR SCIENCE AND INDUSTRY
JRC-site event 6/3/2015
Mandate 480: CEN project on EPB standards development, current status
Basic principles EPB standards (EN/TS 16628)
Detailed Technical Rules (EN/TS 16629)
TR: Explanation and justification
(EN/TR 15615)
Overarching standard EPB
(EN 15603)
Whole set of EN (ISO) EPB standards
Fee
d b
ack
rev
isio
n
Phase 1 (2011-2014)
Phase 2
(2013-2016)
6/3/2015 JRC-site event
Observation
• One of the important instruments to support the proper implementation of the EPBD policy is the modularly structured, transparent, unambiguous, but flexible* set of EN and ISO EPB standards
*: for local climate, national legal framework, building tradition, building use, existing local energy-infrastructure, etc…
6/3/2015 JRC-site event
Example of the very different heat and electricity markets in EU
Other
Gas
Oil Heating Structure
Mainly gas heating DH mainly CHP based biofuels for DH
Netherlands Germany Sweden
100% 100% 100%
(Gas, Waste)
(Coal, Gas, Waste)
(Bio, Waste)
Renewables incl. Heat Pumps
District Heating (DH main fuels)
Gas
Coal CHP CHP Nuclear CHP
Electricity Production and CHP
Quota
Netherlands CHP mainly in industry
100% 100% 100%
Non CHP
Germany CHP mainly for
DH
Non CHP
Sweden Nuclear and hydro
for electricity
Non CHP
Other
Hydro
Wind, PV
Biofuels
• Matrix of modules and submodules
• Common terms, definitions and interactions
between the modules
• Overall energy performance
Overarching modular
structure
Climatic data
Operating
conditions
Building and
building
elements
Assessment
boundaries
Overall EP
balance
Ways to
express EP
Heating
systems
Cooling
systems
Lighting and
lighting
systems
Ventilation
systems
Domestic Hot
Water
systems
Building
automation &
Control Etc.
Etc.
Etc.
6/3/2015 JRC-site event
6/3/2015 JRC-site event
HEAT GAINS
EN 16789-1 (Internal gains)
EN ISO 52022-1-2-3 (Solar gains)
LIGHTING
EN 15193-1
BUILDING PROPERTIES
INDOOR ENVIRONMENT REQUIREMENTS
CLIMATIC CONDITIONS
CONVERSION TO PRIMARY ENERGY EN ISO 52000-1 (EN 15603)
ENERGY PERFORMANCE EN ISO 52003
CALCULATION OF BUILDING ENERGY NEEDS FOR HEATING, COOLING AND (DE)HUMIDIFICATION EN 52016-1
CALCULATION OF BUILDING POWER DEMAND EN 12831-1 (HEATING) / EN 16798-11 (COOLING)
EN ISO 6946
EN ISO 13789
EN ISO 10077
EN 12831-3
EN 15316-3-1
EN 16798-1 (Indoor Environment)
EN 16798-3 (Ventilation Systems)
EN 12464-1 (Visual Comfort)
EN ISO 52010-1
National
standards
DHW
EN 15316-1
EN 15316-3-2
EN 15316-5
EN 15316-3-3
VENTILATION
EN 16798-3
EN 16798-7
EN 16798-5
EN 16798-5
HEATING
EN 15316-1
EN 15316-2
EN 15316-3
EN 15316-5
EN 15316-4 (1 to 8)
COOLING
EN 16798-9
EN 15316-2
EN 15316-3
EN 16798-15
EN 16798-13
BUILDING
AUTOMA-
TION
SYSTEM &
CONTROL
EN 15232-1
TR 15232-2
Emission
Distribution
Storage
Generation
Energy needs
General
EN 15193-1
Principle
7
Energy
needs
Energy
use
Product
characteristics
EP From product standards to
overall energy use incl. technical building systems
Product is not longer evaluated
as a product but as
part of a system
Maintain the links between
product testing and system
evaluation
EP: Overall Building Energy Performance
8
EN 15603 CEN EPB PACKAGE OF STANDARDS
• CALCULATION STRUCTURE EN 15603 + general parts
• CALCULATION MODULES FOR EACH STEP 1 XLS per module
• EACH CALCULATION MODULE REQUIRES – INTERCONNECTION VALUES
(I/O TO THE STRUCTURE)
– PRODUCT DATA (LOCAL DATA)
– OTHER LOCAL DATA ABOUT SPECIFIC APPLICATION (LIKE LOCALISATION , INDOOR/ OUTDOOR INSTALLATION INFO)
EN XXX
EN XXX
EN XXX
IN
OUT
OUT
IN
IN
OUT
OUT
IN
IN
OUT
OUT
IN
IN
PRODUCT DATA
OTHER LOCAL DATA
IN
PRODUCT DATA
OTHER LOCAL DATA
IN
PRODUCT DATA
OTHER LOCAL DATA
INTER CONNECTION
LOCAL DATA
MODULES
9
Replacing a module with a non-CEN one
• Possible thanks to the modular structure
• … but the I/O structure has to be respected
• Needed info can be found both in the accompanying XLS and in the specific I/O clauses in the EN standard
EN 15603
EN XXX
Non-EN Std
EN XXX
IN
OUT
OUT
IN
IN
OUT
OUT
IN
IN
OUT
OUT
IN
IN
PRODUCT DATA
OTHER LOCAL DATA
IN
PRODUCT DATA
OTHER LOCAL DATA
IN
PRODUCT DATA
OTHER LOCAL DATA
NATIONAL MODULE
10
Connection of custom modules: input data
Each calculation module needs two types of input data:
• Data coming from other parts of the calculation (required energy output, operating conditions, etc.),
• Data that are specified only when using this module, «local data» Typically these are product data and application conditions like localisation of components (boiler, pipes indoor/outdoor)
Conditions to be satisfied by custom non-EN modules:
• The input data of the replaced module, together with custom local data, shall be complete to perform the calculation according to the custom module.
• The available input data coming from other parts are listed as «operating conditions» in the input data specification of the replaced EN module
Set of EPB standards:
unambiguous but flexible (allowing national choices, boundary conditions and input data)
Each EPB standard contains:
• Annex A (normative): template for choices and
input data needed for using the standard
• Annex B (informative): informative default
choices and input data
• In general:
– Each individual user of the EPB standard is free to
create his/her own data sheet according to the
template of Annex A
(~ replace the default choices and values of Annex B)
6/3/2015 JRC-site event
Explained in a note in each
Annex A and Annex B “
NOTE
In particular for the application within the context of EU
Directives transposed into national legal requirements.
These choices (either the 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.
”
6/3/2015 JRC-site event
OAS: Annex B (informative) Input data
sheet with CEN values and choices
2 References 3 Overarching preparation steps
4 Building services included in the EP-calculation
5 Assessment of thermal envelope and simplifications
6 Useful floor area and metric for building size
7 EP-assessment types according to building category
8 Building categories included in EPB
9 Perimeters and overheads in the primary energy factors
10 Weighting factors and default energy carriers properties
11 Electric energy uses, production types, priority exported energy
12 Energy flows included in the energy balance
13 The kexp-factor
6/3/2015 JRC-site event
In all new EPB standards:
• National cover page and the Introduction text in the EPB standards: this text allows the NSB’s (MS’s) to include information regarding the position of the EPB standard in their national regulation, version indication etc…
• NSB’s can publish a National Annex to each EPB standards where they make use of the Annex A template.
• A National Annex is not an Annex A.
• A NA could include more additional information! More National Annexes could be developed, e.g. for different building functions etc…
6/3/2015 JRC-site event
Example of the very different heat and electricity markets in EU
Other
Gas
Oil Heating Structure
Mainly gas heating DH mainly CHP based biofuels for DH
Netherlands Germany Sweden
100% 100% 100%
(Gas, Waste)
(Coal, Gas, Waste)
(Bio, Waste)
Renewables incl. Heat Pumps
District Heating (DH main fuels)
Gas
Coal CHP CHP Nuclear CHP
Electricity Production and CHP
Quota
Netherlands CHP mainly in industry
100% 100% 100%
Non CHP
Germany CHP mainly for
DH
Non CHP
Sweden Nuclear and hydro
for electricity
Non CHP
Other
Hydro
Wind, PV
Biofuels
Table B.25 — Weighting factors (based on net calorific value)
6/3/2015 JRC-site event
The main target groups of the set of EPB standards
It is expected, if the default values and choices in Annex B are not followed due to national regulations, policy or traditions, that:
– Either the national standardization body will consider the possibility to add or include a National Annex in agreement with the template of Annex A.
– Or the national or regional authorities will, in the building regulations, reference the standard and prepare data sheets containing the national or regional choices and values, in agreement with the template of Annex A.
• 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)
– other Pan EU parties wanting to motivate their assumptions by classifying the building energy performance for a dedicated building stock.
– Innovators on the EP-market
6/3/2015 JRC-site event
In the EU we developed CEN EPBD
standards with: • a modular and transparent structure, an
unambiguous framework for default values and choices (an EU harmonized approach);
• default values and choices in annex B to most of the EPBD standards ;
• the possibility as user, member state to create National Annexes based on the CEN Annex A template;
6/3/2015 JRC-site event
In the EU we developed CEN EPBD
standards with: • the possibility to add modules on national and/or
EU level to assess new products and concepts;
• The question if this Annex A/B approach promotes innovations;
• Besides the implementation of the B-annexes, national A Annexes, integration of these annexes and modules is needed in existing EP-assessment tools (for market adaptation)
6/3/2015 JRC-site event
Research steps to make by implementing this approach
• Analyse the differences for new design or deep renovation packages & the exchangeability of these packages between MS’s based on the Annexes A/B approach and the impact of these differences on the EP-assessment outcome;
• Which innovations are hindered by Annex B and or existing annexes A. With special attention to new innovations and the possibilities to export these solutions to other MS’s
6/3/2015 JRC-site event
Research-Steps to make
• Which new modules are needed to assess innovations and how such modules can be shaped in the CEN structure to support easy transfer towards other countries
• If there is no Annex A available, if this leads to barriers. Because possible elements in national building regulation over-rule values and choices in the EU annex B.
6/3/2015 JRC-site event
Research-Steps to make • If there is an Annex A available, if this Annex A
leads to improvements OR new barriers
• How these barriers can be addressed properly (for example by an improved Annex A) & what yield such a fix generates
• recommendation for MS’s on handling innovations by using Annex B and Annex A.
• Create a EU-wide market in assessing the impact of new designs & deep renovation packages conform the current Annexes in use in the different MS’s
6/3/2015 JRC-site event
6/3/2015 JRC-site event
Existing New and Innovotive
2 3
4 Step 1
From EU-market to a Global-
market: The CEN ISO interaction • An active process of interaction for the Overarching Type of
standards through the JWG of ISO TC 163 & 205
• for the other CEN standards via the different WG’s of ISO TC 163 and 205, Sharing early prelim draft texts
• Sharing experts in the ISO and CEN teams working on these standards, with the ultimate goal to agree on ISO standards
• A challenge given the geographic and other differences in the building sector, given the very tight time scale at CEN level, for EPB standards under some of the CEN TC’s the cooperation with ISO is for the time being informal (no parallel voting).
• In ISO a series of numbers has been reserved for all EPB standards (52000----52150)
6/3/2015 JRC-site event
workshop
Global set of standards on Energy Performance
of Buildings (EPB)
ISO: Most EPB standards are expected
to be published as EN-ISO standards
Climatic data
Operating
conditions
Building and
building
elements
Assessment
boundaries
Overall EP
balance
Ways to
express EP
Heating
systems
Cooling
systems
Lighting and
lighting
systems
Ventilation
systems
Domestic Hot
Water
systems
Building
automation &
Control Indoor env.
Etc…..
Etc.
ISO 52000
ISO 52001
ISO 52003
ISO 52004
…
ISO 52009
ISO 52010
..
ISO 52015
ISO 52016
ISO 52017
ISO 52018
ISO 52019
ISO 52020
ISO 52021
ISO 52022
…
ISO 52145
ISO 52146
ISO 52147
ISO 52148
ISO 52149
ISO 52150
Early 2014:
Consecutive
ISO numbers
reserved for
EPB set
various
standards
6/3/2015 JRC-site event
Observation/conclusion • The modularly structured, transparent,
unambiguous, but flexible* set of EN and EN-ISO EPB standards contribute to innovation and an open market for EP-improvements , solutions and services
*: for local climate, national legal framework, building tradition, building use, etc…
• However: research is needed to support and monitor the process of implementation of the EPB standards to create an effective EP-market
6/3/2015 JRC-site event