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Ann Van Eycken
Secretary General of ES-SO
and Coordinator of the ES-SDA database

 

Dave Bush
Board of Director of ES-SO and Chair ES-SDA.
He is CEO of Hallmark Blinds in the London,
U.K. and an active member of BBSA-U.K.
 

 

Shading has moved from a building component to a smart solar management concept for NZEB or renovated buildings (http://es-so.com/new/314-es-so-position-paper-2015 ). Although shading is a mature building technology in Europe it is not adequately recognised for its energy saving properties.

Keywords: smart solar management; validated database; compliance EPB; overheating; shading properties; innovative shading; energy savings; indoor climate; NZEB

Compliance to EPBD: a scattered image of “shading performance” in national calculation methodologies.

The EPBD has become a trigger for the industry to further promote the shading performance properties. Innovative materials such as external fabrics reaching up to 95% heat rejection, interior shading with low e or reflective coatings, maximisation of natural daylight, keeping the colour rendering and with glare control, are all energy benefits.

In the EPBD, the need for shading is mainly related to reduce the risk of overheating; a risk to be considered even more since the EPBD set the NZEB objective for new build by 2020 resulting in adding much more insulation materials to the building and the practice of airtight construction. See studies on overheating in buildings on http://es-so.com/new/319-studies-on-overheating-in-buildings.

However, when it comes to the building regulation compliance in the different countries, shading is often inadequately considered. To mention the performance for heat rejection, shading energy performance properties may only be considered for a defined default g-value, or only for its actual g-value, or equally be considered compliant for both default and actual g-values. The insulation properties are generally only considered in the building regulations for (roller) shutters.

EU overview showing a wide variety of default values, in some countries considered as conservative negative values (e.g. Belgium), while in other countries very close to the actual market standard (e.g. Austria). Shading can be considered in g-tot or Fc. The g-tot means the solar factor of the glazing and the shading together; the Fc or shading factor is the ratio between the g-tot and the g-value of the glazing only.  

Country

Shading in EPB

Methodology

Austria

Prevention of overheating

Fc = 0,15/0,25/0,50 (external/interpane/internal) or EN 13363 g-value

Belgium

Prevention of overheating

Fc = 0,50/0,60/0,90 (ext/interpane/int) or accredited value

Denmark

Yes

Actual g-value; automation/manual

Finland

Yes

 

France

Detailed

At least 24 actual values; automation/manual

Germany

Yes, DIN 4108-2, 18599

Actual Fc value

Greece

 

 

Hungary

Prevention of overheating

 

Ireland

No

 

Italy

Yes, UNI 11300 (13790)

Actual g-value, external

Malta

Yes

 

The Netherlands

NEN 7120 (13790)

Fc = 0,30 (external)

Norway

Yes

 

Poland

Yes

Default values

Portugal

Yes

 

Spain

Yes

Actual g-value

Sweden

No (no EPB calculation)

Dynamic simulation

Switzerland

Yes

 

UK

Only non-residential

Default g-value

 

Quality in construction: reliable validated database as a necessary first step

With the involvement in the EU QUALICHeCK project dealing with compliance and quality regarding EPB legislation, ES-SO held a questionnaire among its member countries on the status of actual shading data. The conclusion was that only Belgium considers accredited data verified by an external lab for EPB compliance of actual shading values. In other EU countries, either the manufacturer can present their own data or can have the data measured by an external (accredited) lab. National databases for building products only exist in Belgium and France. Therefore, the decision to develop ES-SDA, the European Solar Shading Database was taken.

How to get a reliable validated database for solar shading properties

The designed ES-SDA procedure is compatible with the former existing European Window Information Systems - WIS database for glazing and solar protection devices (WIS has been developed in the beginning of 2000 as part of European Union funded activities).

The same principles are followed, meaning shading and shutter devices values are measured or calculated according to standardised methods. Testing must be done in independent labs with calibrated instruments according to Standards.

The verification of the submitted data follows in accordance with a peer review procedure executed by experts of the profession. Samples of the tested materials are also included in the verification process.

For each product, spectral optical data are given within a determined wavelength starting at least at 200 nm up to 2,500 nm taken at 5 nm intervals. Optical properties are designated on total normal hemispherical transmittance and reflectance surface for direct and diffuse components.

Fabric and material suppliers can submit their data but manufacturers can also submit data related to the finished product. Specific data on emissivity, conductivity, IR transmittance, Delta R that is not derived from the testing can be added.

Integrated values will be calculated by ES-SO as part of the review process in accordance with the procedures defined in EN 13363-1 (soon to become ISO 52022-1). Tests from an external accredited lab (or external accredited labs) are required as a principle. As an exception, manufacturers who test their own products must prove they perform tests according to the same Standards as an accredited independent lab. In addition, 5% of the products are selected by ES-SO for testing by an external accredited test lab in order to compare with the manufacturers’ test results.

Where the finished product manufacturer submits an application, a reduced procedure may be followed if they refer to the materials already present on the database.

An example of spectral curves resulting from the calculation of the web tool.

A web tool is provided to submit and to peer review the data.  Results will be available on the ES-SDA website: http://es-so-database.com/

 

ES-SDA is a comprehensive single source of performance shading data with easy accessible reliable output for many usages

ES-SDA will take performance data of fabrics and materials when combined with reference (typical) glazing and calculate a wide range of outputs such as U-values (heat retention) to Gtot (heat rejection) and Visible Light Transmittance known as Tvis.

ES-SDA will include data on all properties of shading and as it is web based it will be free to access anywhere. The database is searchable by supplier so it’s easy to find data. There is an increasing demand from architects for accurate performance data and ES-SDA provides exactly that. Engineers are also using this data in building modelling to get an accurate calculation of the benefits of solar shading, probably for the first time. There is also an international angle. ES-SO has been liaising with the team at Lawrence Berkeley National Laboratory who are working on a similar solution for North America.

As updating of the database will be key, ES-SO considers the ES-SDA European solar shading database as one of its essential cornerstones embedded in the objectives of the association. A training tool is being prepared for the industry to participate and to understand the importance of the shading performance values for their industry.

In a recent study commissioned by ES-SO in 2014, it was concluded that shading and shutters used on 75% of the windows in Europe could save 19% up to 22% energy consumption and CO2 emissions in buildings (depending on a split of energy cooling: heating of 30/70 up to 50/50). See summary report on http://es-so.com/images/downloads/Downloads%20publications/ES-SO__15-498_Extended-Executive-Summary_September-2015.pdf

To conclude, ES-SDA is conceived as a further step for the industry to have included shading and shutters as a reliable solution for energy savings, CO2 reduction and as a healthy indoor solution in renovation and new build.

 

 

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QUALICHeCK responds to the challenges related to compliance of Energy Performance Certificate (EPC) declarations and the quality of the building works. Find out more at http://qualicheck-platform.eu.

 

The QUALICHeCK project is co-funded by the Intelligent Energy Europe Programme of the European Union. The sole responsibility for the content of this article lies with the author(s). It does not necessarily reflect the opinion of the European Union. Neither the EASME nor the European Commission are responsible for any use that may be made of the information contained therein.

 

Ann Van Eycken & Dave BushPages 15 - 17

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