Renewable energy in buildings Make your building smile your building... · Project 9 > Promoting...
Transcript of Renewable energy in buildings Make your building smile your building... · Project 9 > Promoting...
25 projects funded by the Intelligent Energy – Europe programme
Renewable energy
Projectreport
N ° 9 – A p r i l 2 0 0 9
Inte
llig
ent
Ene
rgy
Eur
ope
Renewable energy in buildings
Make your building smile
Editorial information
Project Reports are published by the Executive Agency for Competitiveness and Innovation of the European Commission (EACI). The reports showcase projects funded across the European Union by the Intelligent Energy – Europe programme (IEE), which promotes energy efficiency and renewable energy. The projects are presented by theme and contain contact details for participants to help build a network of project participants across the EU.The reports are available in English, French and German.
Editor: EACI. Design and layout: Tipik S.A./Chili con carne.
More details on the IEE programme and the EACI are available online (http://ec.europa.eu/intelligentenergy).
Useful tools and guidebooks resulting from IEE and other projects can be downloaded from the Intelligent Energy e-library (http://www.iee-library.eu).
The responsibility for the content of this report lies with the authors. It does not necessarily represent the opinion of the European Community. The EACI is not responsible for any use that may be made of the information contained herein. The information contained in the report is provided for information purposes only and does not legally bind any of the parties involved.
Project Report, N°9 – April 2009 – page 1
Renewable energy
25 projects funded by the Intelligent Energy – Europe programme
Renewable energy
Projectreport
N ° 9 – A p r i l 2 0 0 9
Inte
llig
ent
Ene
rgy
Eur
ope
Renewable energy in buildings
Make your building smile
Introduction 2Project 1 > Introduction of Renewable Energies in Building Sector (RESINBUIL) 4Project 2 > Building and Energy Systems and Technologies in Renewable Energy Sources Update
and Linked Training (BEST RESULT) 5Project 3 > Rural Advice and Support Units for RES in heat systems and integrated
energy management in buildings (RURASU) 6Project 4 > Accelerated penetration of small-scale biomass and solar technologies (ACCESS) 7Project 5 > Promotion of the Intelligent Combination of Sun and Wood for producing
warm water and heating for private houses (ICOSAW) 8Project 6 > Sustainable, comfortable and competitive biomass-based heating
of private houses (BioHousing) 9Project 7 > Reaching the Kyoto targets by means of a wide introduction of ground coupled
heat pumps in the built environment (GROUND-REACH) 10Project 8 > Promoting the use of photovoltaic systems in the urban environment through
demo relay nodes (PURE) 11Project 9 > Promoting the rational use of energy and small scale renewable energy sources
applications in buildings (ENERBUILDING) 12Project 10 > Promotion of efficient heat pumps for heating (ProHeatPump) 13Project 11 > Increasing the market implementation of Solar air conditioning systems for small
and medium applications in residential and commercial buildings (SOLAIR) 14Project 12 > Identification of most promising markets and promotion of standardised system
configurations for the market entry of small-scale combined solar heating & cooling applications (Solar Combi+) 15
Project 13 > New energy for old buildings – promoting the integration of RES & RUE measures in historic buildings (New4Old) 16
Project 14 > Expanding the existing annual ‘Solar Days’ in Austria, Germany and Switzerland to further European countries (European Solar Day) 17
Project 15 > SEasonal PErformance factor and MOnitoring for heat pump systems in the building sector (SEPEMO-Build) 18
Project 16 > PV in Urban Policies: a strategic and comprehensive approach for long-term expansion (PV-UP-SCALE) 19
Project 17 > Best practice implementation of Solar Thermal Obligations (ProSTO) 20Project 18 > Identification and mobilisation of solar potentials via local strategies (POLIS) 21Project 19 > Supporting development of Photovoltaics in the EU New Member States Network
(PV-NMS-NET) 22Project 20 > Reduction of legal-administrative barriers for photovoltaic system installations in Europe
(PV LEGAL) 23Project 21 > Photovoltaic for small investors in Germany, Spain, France and Portugal (deSOLaSOL) 24Project 22 > Refund individual investments in RES heating systems through direct tax measures (REFUND+) 25Project 23 > Geo-education for a sustainable geothermal heating and cooling market (GEOTRAINET) 26Project 24 > Farming photovoltaic flowers: a new challenge for land valorisation within a strategic
eco-sustainable approach to local development (PVs in BLOOM) 27Project 25 > Quality Certification & accreditation for installers of small-scale renewable energy systems
(QualiCert) 28
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Projectreport
Project Report, N°9 – April 2009 – page 2
Renewable energy
Small-scale renewable energy applications in buildingsThe European Union has signed up to binding, EU-
wide targets pledging to meet 20% of its energy
needs from renewable energy sources such as
biomass, geothermal, hydro, wind and solar by
2020. The agreement also includes a commitment
to a 10% use of renewable energy in transport.
These targets are contained in a new directive for
the promotion of renewable energy sources. One
of the specific requirements of the directive is to
increase the use of renewable energy in buildings
by 2020. In particular, Member States are requested
to encourage local and regional administrative
bodies to include renewable energy in the planning
of city infrastructure, to include appropriate
measures in their building regulations and codes
to increase the share of renewable energy in
the building sector and, by 2015 at the latest, to
require the use of minimum levels of energy from
renewable sources in new buildings and in existing
buildings that are subject to major renovation.
Moreover, Member States should ensure that
certification schemes or equivalent qualification
schemes are available by 31 December 2012 for
installers of small-scale renewable energy systems
in buildings, like biomass boilers and stoves, solar
photovoltaic and solar thermal systems, shallow
geothermal systems and heat pumps.
At the same time, the so-called EPBD (Energy
Performance in Buildings Directive) promotes
the improvement of the energy performance
of buildings within the Community. Before
construction starts on new buildings with a total
floor space of more than 1 000 m2, alternative
systems have to be taken into consideration,
such as decentralised renewable energy supply;
CHP (combined heat & power); district or block
heating or cooling; and heat pumps. Member
States have to ensure that the relevant technical,
environmental and economic feasibility studies
take place. The possibility of enlarging and
extending this requirement to all buildings is
currently being discussed as part of the recast
of the directive (COM(2008) 780, 13 November
2008). This would enlarge the EPBD’s scope while
supporting the EU targets on renewables.
The emphasis given in these two directives to
the buildings sector reflects the very high level
of energy consumption in buildings in Europe’s
energy economy. Residential and commercial
buildings are together the largest users of
energy. They are responsible for about 40% of
the EU’s total final energy consumption. We use
more energy for heating, cooling and lighting in
buildings than in any other sector.
While buildings are the biggest consumer of
energy, they also have the greatest potential
to reduce the EU’s conventional consumption.
By combining energy-saving measures with
renewable energy sources, the total consumption
of conventional energy in buildings can be
reduced to zero. Buildings can even become net
producers of clean energy: they can be fitted
with solar water and space heating and cooling
Introduction
Project Report, N°9 – April 2009 – page 3
Renewable energy
systems, building-integrated photovoltaic and
rooftop photovoltaic systems, and biomass-
fuelled energy systems, as well as small-scale
CHP and ground coupled geothermal heat
pumps. The design and performance of such
renewable energy supply systems are now well
understood. The technologies are both simple
and comparatively reliable, and they can be
integrated into most buildings without radical
changes to the architecture. Nevertheless, there
is still a lack of experienced planners, designers
and installers with the relevant know-how in
many parts of the EU, including many major cities.
Skilled people are urgently required.
The integration of renewable energy systems
into the urban environment is one of the
key components of the Intelligent Energy –
Europe (IEE) programme. The programme
supports multinational teams working to create
more favourable policies and better business
environments for renewable energy technologies
in buildings in all Member States. Whilst EU
policies set the targets and the legal framework,
the IEE programme supports the people who
make it happen on the ground.
IEE projects involve different bodies, including
local authorities, which are best placed to create
the conditions for the large-scale diffusion of
small-scale renewable energy applications.
Projects also involve small to medium-sized
enterprises tasked with promoting innovation.
Householders, building owners and building
managers are important because they are the
people who take the final decisions on how their
buildings are constructed and used. A big effort
to provide each of these groups with transparent
and updated information on the available
technologies, the costs and the advantages, is
vital to ensure they have the confidence to make
the right decisions. Finally, architects, engineers,
and the other conventional actors in the building
sector (e.g. construction companies, plumbers,
installers) need to develop working relationships
with the most reliable developers, manufacturers,
suppliers, retailers, and installers of renewable
energy systems, so that together they can bring
these new technologies into the market.
This brochure presents a series of selected IEE
projects aimed at promoting the integration
of renewable energy applications in buildings.
The projects address a range of issues, including
driving markets, enabling policies, and training.
Most of the IEE projects on small-scale renewables
aim to trigger market transformation by improving
conditions for suppliers and installers, and by
providing easy access to good quality information
for end-users. Before they can be expected to buy
a renewable energy system, final users must be
given access to reliable information on availability
and cost of systems and products, and who can be
trusted to install them properly. Several projects
aim to promote certified products which comply
with the relevant standards, as well as certified
installers guaranteed to meet quality standards
and to comply with industry guidelines.
Five IEE projects help develop innovative urban
planning. The aim is to boost the use of renewable
energy in cities, solar energy in particular. These
projects also support public authorities in their
drive to achieve minimum levels of renewable
energy via regulations and codes on new or
refurbished buildings.
Training and capacity building are also delivered
by IEE projects. They tackle issues such as the
development of training courses for drillers,
designers and installers of shallow geothermal
systems coupled to heat pumps, and the
development of common accreditation and
certification schemes for installers of small-scale
renewable energy systems in different Member
States, in line with the requirements of the new
renewable energy directive.
IEE projects bring together suppliers, users,
public authorities and other interest groups from
across the EU with the common goal of building
a critical mass of initiatives capable of bringing
about significant changes in the market. They
also help increase the number of skilled people
(installers, urban planners, policymakers) and final
users aware of the economic and environmental
benefits of energy from renewable sources.
Projectreport
Project Report, N°9 – April 2009 – page 4
Renewable energy
1
Introduction of Renewable Energies in Building Sector RESINBUIL
Duration: 1/1/2006–29/2/2008
ObjectivesThe RESINBUIL project aimed to encourage the use of small-scale renewable energy appliances in buildings
in four provinces in Spain, Italy, Romania and Slovenia. Target groups were local authorities, business
associations, constructors, professional associations and the public. There was a threefold strategy. First,
local markets were developed using new regulations, on taxation for example. Commercial agreements
between installers and local banks were encouraged. Second, permanent exhibitions in Spain and
Slovenia were set up as a promotion tool, to run alongside a campaign based on radio and TV adverts
and posters. Third, training courses on renewable energy sources were set up at the University of Burgos
together with online courses for the other participating countries.
Results > An increased use of small-scale renewable energy applications was noted in buildings in the
participating regions.
> Commercial agreements were set up offering favourable purchase and installation terms.
Energy agencies mediated between banks and installers. Legal ordinances were prepared
and presented to public administrations to support renewable energy in buildings.
> While the construction sector remains reticent to install renewable energy appliances,
architects and engineers are increasingly interested.
> Exhibitions, workshops and training courses proved successful.
> General public identified as the best tool for promoting renewable energy in buildings. The
public can be best reached via local authorities, partners found.
Budget: €522 681 (EU contribution: 50%)
COORDINATOR
Ricardo Pizarro
Asociación Agencia Provincial para el Control
de la Energía de Burgos, Spain
+34 947040628
+34 947040629
http://www.resinbuil.com
PARTNERS
INTEGRAL DE SISTEMAS ENERGÉTICOS
DEL NORTE, S.L., Spain
Universidad de Burgos, Spain
Harghita Energy Management Public Service,
Romania
Razvojna Agencija Sinergija d.o.o., Slovenia
RE-ING, Brdnik Jože s.p., Slovenia
Asociación para la Gestión del CEEI-Burgos,
Spain
> C O N T A C T D E T A I L S
Promoting renewable energy in buildings
Project Report, N°9 – April 2009 – page 5
Renewable energy
> C O N T A C T D E T A I L S
COORDINATOR
Enrico Cancino
Centro Regionale di Assistenza
per la Cooperazione Artigiana
Società Cooperativa, Italy
+39 0415096614
cancino @craca.it
http://bestresult-iee.com/
PARTNERS
Centre for Renewable Energy Sources (CRES),
Greece
Chambers Group for the Development
of Greek Isles, Greece
Unione Provinciale Artigiani – Confartigianato
Padova, Italy
Università degli Studi di Padova – Dipartimento
di Processi Chimici dell’Ingegneria, Italy
ESCAN, S.A., Spain
FUNDACION ASTURIANA DE LA ENERGIA, Spain
Fundación CARTIF, Spain
FUNDACION CENER-CIEMAT, Spain
Universidad de Valladolid, Spain
GfE Energy Management S.r.l., Italy
Narodowa Agencja Poszanowania Energii S.A.
(NAPE), Poland
Escola Superior de Tecnologia de Setúbal,
Portugal
CHIMINFORM DATA, Romania
2
Building and Energy Systems and Technologies in Renewable Energy Sources Update and Linked Training BEST RESULT
Duration: 1/1/2006–31/12/2008
ObjectivesThe BEST RESULT project was developed with professionals who were already involved in the training
and promotion of renewable energy source technologies. The project’s aim was to raise awareness and
improve skills on the supply side of the industry: technicians, architects, planners, retailers, and installers.
To this end, a range of training and promotional activities was put together, including specialist courses,
info-desks, and workshops. The guidelines, seminars and publications were also designed to encourage
end-users. Project partners shared a common methodology.
Results > More than 65 training courses have been given, in addition to workshops on renewable
source technologies.
> Four postgraduate courses of 200 hours tuition have been organised in three countries.
> Each partner has put together e-learning material, which has been brought together on
an e-learning platform, available to both students and suppliers.
> Several info points for the general public have been run.
Budget: €1 338 169 (EU contribution: 50%)
Renewable energy training and advice
Projectreport
Project Report, N°9 – April 2009 – page 6
Renewable energy
> C O N T A C T D E T A I L S
3
Rural Advice and Support Units for RES in heat systems and integrated energy management in buildings RURASU
Duration: 1/1/2005–30/6/2007
ObjectivesThe RURASU project addressed sustainable energy management in rural regions in Germany, Greece, Spain
and the United Kingdom. It aimed to support engineers, architects, public authorities and consumers with a
view to increasing use of renewable energy sources and saving energy in buildings. This was to be achieved
via rural design and advice support units offering free, impartial and expert suggestions. Educational material
and training in preparation for the European Buildings Directive was also to be offered.
Results > The rural design and support units have helped save about 10 000 tonnes of carbon dioxide
emissions annually and have created 1 030 direct and 550 indirect jobs, according to the
assessment methodology developed during the project.
> Renewable energy sources and energy efficiency techniques are now more broadly used,
project partners reported.
> Two new Design and Support Units were established in Spain and the United Kingdom. In
Germany and Greece, existing units were consolidated.
> Around 60 on-site audits were carried out by the four design and support units.
> Partner networks were established in each region bringing together trained energy
professionals.
Budget: €1 095 500 (EU contribution: 50%)
COORDINATOR
Betty PARTSALIDOU
Pieriki Local Development Agency S.A, Greece
+30 2351027541
http://www.rurasu.info
PARTNERS
WIP GmbH & Co Planungs-KG, Germany
Institute of Accelerating Systems
and Applications, Greece
Energie-& Umweltzentrum Algau gGmbH,
Germany
University of Cadiz, Spain
University of Strathclyde, United Kingdom
Energy advice in rural areas
Project Report, N°9 – April 2009 – page 7
Renewable energy
> C O N T A C T D E T A I L S
COORDINATOR
Angel Nikolaev
Black Sea Regional Energy Centre, Bulgaria
+359 29806854
http://www.access-ret.net/info/access.htm
PARTNERS
Centre for Renewable Energy Sources (CRES),
Greece
SEVEn, Strediisko pro efektivni vyuzivani
energie, o.p.s. (SEVEn), Czech Republic
Innoterm Energetikai és Környezetvédelmi
Fejlesztő Kft., Hungary
BIOMASA, zdruzenie právnických osôb, Slovakia
Institute for Studies and Power Engineering
(ISPE), Romania
4
Accelerated penetration of small-scale biomass and solar technologiesACCESS
Duration: 1/1/2006–31/12/2008
ObjectivesThe ACCESS project involved small-scale technologies using biomass and solar energy for heating and hot
water supply. Concentrating on Bulgaria, Czech Republic, Hungary, Romania, and Slovakia, the project
aimed to boost these technologies’ market penetration in housing with individual and local heating
systems. This was to be achieved in a variety of ways: by developing a virtual market network; exploring
biomass energy potential in the participating countries; outlining design criteria for combined systems
using solar energy and biomass; promoting standards for both the technologies and biomass products;
developing training courses; and putting together finance schemes.
Results > Biomass energy potential database has been developed.
> Guide to identifying combined solar and biomass schemes in place.
> Web-based market for technologies was set up.
> Proposals for financing have been put forward.
> Technology transfer from the rest of the EU has received support, as has local technology
production.
Budget: €661 331 (EU contribution: 50%)
Boosting biomass and solar heating markets
Projectreport
Project Report, N°9 – April 2009 – page 8
Renewable energy
5
Promotion of the Intelligent Combination of Sun and Wood for producing warm water and heating for private houses ICOSAW
Duration: 1/1/2006–29/2/2008
ObjectivesIn northern and central Europe, a combination of solar panels and firewood is proving to be a promising,
reliable way of heating smaller buildings. Building owners can supply themselves with warm water and
heating without resorting to imports and irrespective of the price of crude oil. The ICOSAW project aimed
to bring together partners with a background in crafts from Germany, Poland, Slovakia and Sweden to
promote the necessary technologies. The goal was the creation of training schemes, marketing, networks
and public relations operations capable of being adapted to other countries in the European Union.
Results > Training schemes have been created for the installation of ICOSAW plants. They enable
professions to integrate plants in their calculations for the energy demand of a building.
> A marketing plan was developed for craftsmen and architects. Demonstration plants for
installers proved popular.
> Models were created for promoting ICOSAW and establishing a European standard.
> Many network partners were found, even in Poland and Slovakia, where lower interest was
initially expected.
> The project kicked off new activities in partnering regions.
Budget: €323 668 (EU contribution: 50%)
> C O N T A C T D E T A I L S
COORDINATOR
Angela Himsel
Handwerkskammer Trier
(Saar-Lor-Lux Umweltzentrum), Germany
+49 651207239
http://www.icosaw.eu
PARTNERS
Handwerkskammer Rheinhessen
(Zentrum für Umweltschutz und Management),
Germany
Euro Info Centre Jönköpings län AB , Sweden
Europa Institutet/Euro Info Centre, Sweden
Podkarpacka Agencja Energetyczna Sp. z o.o.,
Poland
Cech vykurovania a tepelnej techniky, Slovakia
Combining solar with biomass heating
Project Report, N°9 – April 2009 – page 9
Renewable energy
6
Sustainable, comfortable and competitive biomass-based heating of private houses BioHousing
Duration: 1/1/2006–31/12/2008
ObjectivesA lack of technical knowledge and the absence of standard systems are the greatest barriers to biomass-
based energy in private houses. The BioHousing project aimed to design standard, commercial systems
and produce information on how they can be used sustainably. The use of stoves as either a secondary
or main heating source is common in Europe. Stove selection, proper firewood storage and good firing
practices are essential to avoid emissions and achieve efficient combustion and comfortable heat.
Results > Deciding on a heating system is one of the most important and long-lasting decisions the
householder will make when planning a house. This fact has been further emphasised
during the project in view of the fluctuation of fuel prices, especially oil prices.
> In order to give guidance for this decision, the project developed web tools comparing
different heating systems and equipment (catalogue) and providing solutions (the heating
tool). They focus on firewood, pellet and briquette systems, as well as the storage and
placement of stoves, fireplaces, boilers and wood-fuelled heating networks.
> To give substance to these investments, several kinds of prefabricated boiler room unit
concept have been developed and promoted, including EnergyCabin, a combination of
solar and wood, and Biocompact, a plug and heat solution.
> Training courses have been run for chimney sweeps, architects and civil engineers. There
have been 1 044 trainees. Training material has been published in six languages.
> A wide range of information on sustainable heating by biomass has been published,
including a manual on efficient and environmentally friendly biomass heating (in six
languages); a guide for private houses on storage of firewood (four languages); and a
guide for connecting houses to a micro-heating network (six languages). In addition, new
business concepts were developed to encourage entrepreneurs to start up or enlarge
biomass related businesses.
Budget: €1 523 474 (EU contribution: 50%)
COORDINATOR
Ms Tytti Laitinen
Jyväskylä Innovation Ltd, Finland
+358 144451142
http://www.biohousing.eu.com
PARTNERS
Technical Research Centre of Finland/
VTT Processes, Finland
ASSOCIATION REGIONALE BIOMASSE
NORMANDIE, France
Österreichisches Forschungsinstitut
für Chemie und Technik, Austria
ESCAN, S.A., Spain
ETA, Energia, Trasporti, Agricoltura srl, Italy
Jyväskylä University of Applied Sciences (JAMK),
Finland
> C O N T A C T D E T A I L S
Biomass for heating homes
Projectreport
Project Report, N°9 – April 2009 – page 10
Renewable energy
> C O N T A C T D E T A I L S
COORDINATOR
Dimitrios Mendrinos
Centre for Renewable Energy Sources, Greece
+30 2106603205
http://www.groundreach.eu
PARTNERS
ASSOCIAZIONE RETE DI PUNTI ENERGIA, Italy
EnPro Engineers Bureau Ltd, Estonia
Agence de l’Environnement et de la Maîtrise de l’Energie (ADEME), France
Bureau de Recherches Géologiques et Minieres (BRGM), France
COWI A/S, Denmark
Ellehauge & Kildemoes, Denmark
GEOTEAM Technisches Büro für Hydrogeologie, Geothermie und Umwelt GmbH, Austria
Österreichisches Forschungs- und Prüfzentrum Arsenal Ges.m.b.H. (Arsenal), Austria
European Geothermal Energy Council, Belgium
Energy Efficiency Agency (EEA), Bulgaria
Fachinformationszentrum Karlsruhe GmbH, Germany
Ecofys BV, Netherlands
SVEP Information & Service AB, Sweden
EUROPEAN HEAT PUMP ASSOCIATION, United Kingdom
GfE energy management S.r.l., Italy
NARODOWA AGENCJA POSZANOWANIA ENERGII, Poland
Escola Superior de Tecnologia de Setúbal, Portugal
UNIVERSITY OF ORADEA, Romania
BESEL. S.A., Spain
Flemish Institute for Technological Research (VITO), Belgium
7
Reaching the Kyoto targets by means of a wide introduction of ground coupled heat pumps (GCHP) in the built environment GROUND-REACH
Duration: 1/1/2006–31/12/2008
ObjectivesThis project concentrated on ground coupled heat pumps for the heating and cooling of housing in
Europe. It aimed to identify the potential of such pumps for reducing CO2 emissions and primary energy
demand, and to analyse their contribution towards the EU directive on the energy performance of
buildings. Project partners compiled best practice information and found ways to overcome barriers
to long-term market penetration. A promotional campaign targeted key professional groups via an
international conference and exhibition, 18 national and regional meetings, as well as articles in both
technical and commercial press.
Results > Better EU policy in relation to short and long-term market penetration of ground coupled
heat pumps through market analysis, best practice provision, guidelines for local/regional
authorities and key professional groups, conferences, meetings, websites, posters, brochures
and other promotional tools.
> Understanding of the merits and benefits of ground coupled heat pumps and their relevance
towards European Kyoto targets and the European Buildings Directive.
> Identification of barriers and strategic dissemination plan for long-term market
penetration.
Budget: €1 730 970 (EU contribution: 40%)
Boosting markets for ground coupled pumps
Project Report, N°9 – April 2009 – page 11
Renewable energy
> C O N T A C T D E T A I L S
COORDINATOR
Sabino Elorduizapatarietxe
Fundación ROBOTIKER, Spain
+34 946002266
http://www.pure-eie.com
PARTNERS
SCHEUTEN SOLAR TECHNOLOGY, Germany
ENVIRONMENTAL ENGINEERING DEPARTMENT/
TECHNICAL UNIVERSITY OF CRETE, Greece
PROVINCIA DI SAVONA, Italy
EVE-Ente Vasco de la Energía, Spain
Slovak Innovation and Energy Agency (SIEA),
Slovakia
Instituto Superior Técnico, Portugal
8
Promoting the use of photovoltaic systems in the urban environment through demo relay nodes PURE
Duration: 1/1/2006–31/12/2008
ObjectivesThe photovoltaic market in Europe is growing rapidly but unevenly. While southern Member States
have the largest solar potential, northern Member States have the highest level of usage. Moreover, the
growth of this market is necessarily linked to PV development in the urban environment. The aim of
PURE is precisely the promotion of PV energy in buildings, mainly focused on its integration into urban
elements, particularly in those EU countries with large solar potential but still with limited installed
capacity. The project was designed to overcome the existing lack of basic information, both technical
and economic, on renewable (solar) energy integration in buildings. Stakeholders who could facilitate PV
integration in our cities, namely public bodies, architecture associations, building industry professionals,
and end-users were targeted using five PV Demo Relay Nodes (PV-DRN), a permanent exhibition and a
contact point to gather technical, economic and legislation information on PV and for the organisation
of periodical events.
Results > PV-DRNs designed and set up in five EU regions: Chania (Crete-Greece), Basque Country
(Spain), Savona (Italy), Lisbon (Portugal) and Banska, Bystrica (Slovakia).
> PURE partners participated in more than 30 regional, national and international events on
BIPV.
> Reports produced on technical and economic solutions for the integration of photovoltaics
in buildings as well as the potential and benefits. Best practice guide produced.
> Report produced on European regulation in the area of building-integrated photovoltaic
systems.
Budget: €1 148 080 (EU contribution: 50%)
Local exhibitions to boost PV markets
Projectreport
Project Report, N°9 – April 2009 – page 12
Renewable energy
> C O N T A C T D E T A I L S
COORDINATOR
Pieraldo Isolani
ADICONSUM – Associazione Difesa
Consumatori e Ambiente, Italy
+39 0644237693
http://www.enerbuilding.eu
PARTNERS
APER – Associazione Produttori di Energia
da Fonti Rinnovabili, Italy
Agence de l’Environnement et de la Maîtrise
de l’Energie (ADEME), France
Consomation, Logement et Cadre de Vie, France
ESCAN, S.A., Spain
Federazione Italiana per l’uso Razionale
dell’Energia (FIRE), Italy
Agência para a Energia (ADENE), Portugal
Associação Portuguesa para a Defesa
do Consumidor, Portugal
CECU – Confederacion (De Ambito Estatal)
De Consumidores y Usarios, Spain
9
Promoting the rational use of energy and small scale renewable energy sources applications in buildings ENERBUILDING
Duration: 1/11/2006–31/10/2009
ObjectivesResidential and commercial buildings account for over 40% of the EU’s final energy use. Reductions
in carbon dioxide emissions can be achieved by combining energy efficiency with renewable energy
generation within buildings themselves. End-users can consume energy more efficiently, but they can also
act as energy producers by installing their own solar thermal collectors, photovoltaic panels or biomass
heating systems. ENERBUILDING is a broad information campaign initiated by consumers’ associations in
four EU countries: Spain, France, Italy and Portugal. By using the existing consumers’ networks, practical
information on energy efficiency measures and renewable energy systems in buildings can be spread
widely. Practical guides for consumers are being distributed; moreover, by means of ad hoc conferences,
seminars, call centres, a website in five languages and radio and TV broadcasts, at least one million end-
users will benefit from practical information on sustainable energy solutions to be adopted in their own
dwellings.
Results > Call centres set up in Spain, France, Italy and Portugal providing assistance and information
to consumers on improving the energy efficiency of their buildings.
> Website on action taken developed in five languages.
> Development of four practical guides in four languages (380 000 copies in total) as well as
a video. A mobile demo stand for use in meetings with students was set up.
> Events have taken place in Spain, France, Italy and Portugal. A conference accompanied
the launch of the project, while five conferences for the general public as consumers are
planned, as well as seven workshops for local authorities and 45 meetings with secondary
school students. A final international conference is also taking place.
> Media campaigns have taken place in each country. Project partners have participated in 30
radio and TV programmes. Press conferences have been organised.
Budget: €1 447 293 (EU contribution: 50%)
Practical information for consumers
Project Report, N°9 – April 2009 – page 13
Renewable energy
> C O N T A C T D E T A I L S
COORDINATOR
Ulrich Müller
swb Netze Bremerhaven GmbH & Co. KG,
Germany
+49 4714771210
http://www.proheatpump.eu
PARTNERS
Groupement pour la Recherche
sur les Echangeurs Thermiques, France
Dobrich Local Agency for Energy Management,
Bulgaria
Energikontor Sydost AB, Sweden
The University of Edinburgh, United Kingdom
RWE Energy AG, Germany
Technical Research Institute of Sweden (SP),
Sweden
10
Promotion of efficient heat pumps for heating ProHeatPump
Duration: 1/12/2006–31/5/2009
ObjectivesThis project aims to help reduce use of fossil fuels in heating by promoting energy-efficient heat pumps.
It will focus on the residential sector and small to medium-sized heat pumps, in particular during
refurbishment, when the need for promotion is greater than when buildings are built. The market
potential for heat pumps is being specifically analysed for buildings from 1980 onwards. The potential
for combining heat pumps and renewables will also be assessed according to technical, economic and
environmental merits. Promotional activities will target end-users, installers and policymakers.
Results > Increasing the number of heat pump installations during the project time in selected target
areas.
> Offering suitable, practical information material for each target group (installers, end-users
and policymakers) on the possibilities and the advantages of heating using heat pumps.
> Improving marketing strategies to promote heat pumps in countries with low market
penetration but high potential for heat pumps (based on experience in countries with high
market share).
> Presenting favourable conditions for the combination of heat pumps and renewables.
Budget: €654 907 (EU contribution: 49%)
Heat pumps to heat buildings
Projectreport
Project Report, N°9 – April 2009 – page 14
Renewable energy
> C O N T A C T D E T A I L S
COORDINATOR
Andreas Steege
Target GmbH, Germany
+49 51190968842
http://www.solair-project.eu
PARTNERS
TECSOL SA, France
Fraunhofer Gesellschaft zur Förderung
der angewandten Forschung e.V., Germany
Ambiente Italia srl, Italy
Centre for Renewable Energy Sources (CRES),
Greece
Arbeitsgemeinschaft Erneuerbare Energie
(AEE INTEC), Austria
Politecnico di Milano – Dipartimento
di Energetica (eERG), Italy
Province LECCE, Italy
EVE-Ente Vasco de la Energía, Spain
SISTEMES AVANÇATS D’ENERGIA SOLAR
TÈRMICA, SCCL, Spain
Univerza z Ljubljani, Slovenia
National Institute of Engineering Technology
and Innovation (INETI), Portugal
Federation of European Heating
and Air-conditioning Associations (REHVA),
Netherlands
11
Increasing the market implementation of Solar air conditioning systems for small and medium applications in residential and commercial buildings SOLAIR
Duration: 1/1/2007–31/12/2009
ObjectivesElectricity consumption for air conditioning is increasing dramatically throughout the EU. The use of
solar thermal energy for air conditioning in buildings, a relatively new technology, offers an alternative
and is today largely unexploited. The SOLAIR project will promote the rollout of small and medium-sized
solar air conditioning appliances in both residential and commercial sectors. The project will attempt to
counter a lack of awareness of the technology through market surveys and through promotions aimed
at investors.
Results > The reasons behind the poor market penetration of solar technology have been identified.
Costs are still too high compared to standard cooling appliances. There are too few running
systems and not enough monitoring of data.
> While interest is strong among both specialists and the general public, the technology is still
unknown to many technicians and investors. Market data is difficult to collect.
> A good practice guide has been compiled, as have technical guidelines and training
materials.
Budget: €1 187 375 (EU contribution: 50%)
Cool buildings down using sunshine
Project Report, N°9 – April 2009 – page 15
Renewable energy
> C O N T A C T D E T A I L S
COORDINATOR
Roberto Fedrizzi
Europäische Akademie Bozen/Accademia
Europea Bolzano, Italy
+39 0471055330
http://www.solarcombiplus.eu/index_en
PARTNERS
TECSOL SA, France
Fraunhofer Gesellschaft zur Förderung
der angewandten Forschung e.V., Germany
SK SonnenKlima GmbH, Germany
SorTech Aktiengesellschaft, Germany
Centre for Renewable Energy Sources (CRES),
Greece
Arbeitsgemeinschaft Erneuerbare Energie
(AEE INTEC), Austria
Solution Solartechnik GmbH, Austria
Università degli Studi di Bergamo, Italy
IKERLAN S.Coop
(Ikerlan Technological Research Centre), Spain
ROTARTICA , S.A., Spain
ClimateWell AB, Sweden
12
Identification of most promising markets and promotion of standardised system configurations for the market entry of small-scale combined solar heating & cooling applications Solar Combi+
Duration: 1/9/2007–28/2/2010
ObjectivesThis project aims to promote standardised solar heating and cooling systems for both water and space
up to a load of 20 kW (Solar Combi+ systems). By accelerating and facilitating the market entry of small-
scale Solar Combi+ systems, the project will help achieve the EU’s energy policy goals while promoting a
technology led by European industry. To identify standard system configurations and the most promising
applications, the project partners will undertake virtual case studies under different conditions.
Results > Defining standard systems has been a complex process. National regulations differ and are
in some cases contradictory.
> Standard systems have helped cut down on design work. Such work is often too expensive
for small applications.
> Sorption chiller producers have produced package solutions.
> Most promising markets have been identified.
> Knowledge among professionals about the feasibility and opportunities of Solar Combi+
systems has been enhanced, as has awareness among public authorities. Authorities can
consider using the technology as they implement the EU directive on energy performance
in buildings.
Budget: €969 501 (EU contribution: 50%)
Standard system configurations bring benefits
Projectreport
Project Report, N°9 – April 2009 – page 16
Renewable energy
> C O N T A C T D E T A I L S
COORDINATOR
Kim Vanguers
European Renewable Energy Council, Belgium
+32 25461933
http://www.erec.org/144.0.html
PARTNERS
National University of Ireland, Dublin, Ireland
Universität Stuttgart, Germany
National and Kapodestrian University
of Athens (NKUA), Greece
Arbeitsgemeinschaft Erneuerbare Energie
(AEE INTEC), Austria
3E nv, Belgium
Global Renewable Energy
and Conservation Trust, Belgium
13
New energy for old buildings – promoting the integration of RES & RUE measures in historic buildings New4Old
Duration: 1/9/2007–31/8/2010
ObjectivesHistoric buildings are often wasteful in terms of energy. Changing their energy supply and consumption is
particularly challenging given that heritage needs protecting. New4Old aims to promote the integration
of renewable energy and energy efficiency technologies into historic buildings while creating a Europe-
wide network of renewable energy houses. The existing renewable energy houses in Brussels have
already attracted thousands of visitors, giving them the chance to see working renewable systems. This
idea is to be transplanted to at least four other countries. Each house should not only draw attention to
renewable energy and energy efficiency in the country in which it is located but also help protect the
historic building itself.
Results > Five renewable energy houses are being set up in different Member States. They have
already begun showcasing the latest technologies.
> Technical guidelines have been drawn up for the integration of these technologies into
historic buildings. Technical training has taken place.
> Five workshops and an international conference have taken place, targeting real estate
agents and investment funds.
> A market study on renewable energy house projects for the entire EU has been carried
out.
> A marketing campaign on building integration is underway.
Budget: €823 682 (EU contribution: 50%)
Renewable energy for historic buildings
Project Report, N°9 – April 2009 – page 17
Renewable energy
> C O N T A C T D E T A I L S
COORDINATOR
Mr Uwe Trenkner
European Solar Thermal Industry Federation
aisbl, Belgium
+32 25461937
http://www.solarday.eu
PARTNERS
ASSOCIAZIONE ITALIANA SOLARE TERMICO, Italy
ENERPLAN – Association Professionnelle
de l’Energie Solaire, France
17&4 Organisationsberatung GmbH, Austria
Verband Austria Solar – gemeinnütziger Verein
zur Förderung der thermischen Solarenergie,
Austria
Bundesverband Solarwirtschaft e.V., Germany
Agencija za prestrukturiranje energetike d.o.o.,
Slovenia
Associação Portuguesa da Indústria Solar,
Portugal
Ambiente Italia (Ambita), Italy
Asociación Solar de la Industria Térmica – Solar
Association of the Thermal Industry, Spain
14
Expanding the existing annual ‘Solar Days’ in Austria, Germany and Switzerland to further European countries European Solar Day
Duration: 1/9/2007–30/11/2009
ObjectivesThis project aims to expand upon the success of existing, national Solar Days by taking the concept
to new countries with the ultimate goal of creating a European Solar Day. Solar Days are currently
celebrated in Austria, Germany and Switzerland. Between 2002 and 2007 there have been six in Austria,
two in Germany and four in Switzerland. The events have helped the solar thermal markets double in
Austria and Switzerland since 2002 while in Germany the same market growth has been achieved in
less time: since 2004. Five new countries have been targeted for 2008: Spain, France, Italy, Portugal and
Slovenia. Further expansion is also being planned.
Results > More than 4 000 events took place throughout Europe in May 2008, attracting more than
400 000 people from nine countries (Austria, France, Germany, Italy, Portugal, Slovenia,
Spain and Switzerland, and many more to come). Even more events and people are
expected for the session in May 2009.
> Professional associations, local communities, schools, agencies, and individuals can organise
events and get support by registering though the websites. Eight national websites
and a Europe-wide website have been set up, helping partners transfer know-how and
experience.
> Supported by these ‘Solar Days’, the annual solar thermal markets have doubled in Austria
and Switzerland (since 2002) and Germany (since 2004). ‘Solar Days’ have helped strengthen
local industry.
Budget: €558 728 (EU contribution: 50%)
Celebrate our use of the sun across EU
Projectreport
Project Report, N°9 – April 2009 – page 18
Renewable energy
Assessing the seasonal performance of heat pumps
COORDINATOR
Dr Roger Nordman
SP Technical Research Institute of Sweden,
Sweden
+46 105165544
N/A
PARTNERS
GtV Service GmbH, Germany
Centre scientifique et technique
du bâtiment (CSTB), France
Centre for Renewable Energy Sources (CRES),
Greece
Electricity of France (EDF), France
SenterNovem, Netherlands
Arsenal Research (Arsenal), Austria
FIZ Karlsruhe GmbH (FIZ), Germany
Association for Research and Development
of Industrial Methods and Processes, France
European Heat Pump Association EEIG (EHPA),
Belgium
> C O N T A C T D E T A I L S
15
SEasonal PErformance factor and MOnitoring for heat pump systems in the building sector SEPEMO-Build
Duration: 1/5/2009–30/4/2012
ObjectivesThe project aims to help bring about wider use of heat pumps by coming up with robust data on the
reliability and seasonal efficiency of ‘real’ as opposed to theoretical installations. A lack of such data
has been a brake on market growth, it has been suggested. Key elements for examination include
the efficiency of the heat pump unit, the quality of the installation, the design and temperature of
the heating system, the insulation level of the building and climate. The project should result in the
creation of a universal methodology for measuring heat pump systems, thereby helping the technology
achieve broader acceptance. One key requirement to achieve awareness about real-life performance
is a universal methodology for field measurement of heat pump systems or SPF (seasonal performance
factor). Such methodology requires a systems perspective including not only the efficiency of the heat
pump unit but also the respective regional building standards and climate conditions. Connected to the
development of this methodology the project seeks to improve the understanding of key parameters
influencing reliability and efficiency of heat pump systems in residential buildings. Reference is made
to national and EU standards such as EN 14511, EN 255, prEN 15316 and prEN 14825. The objective is
broader acceptance and improved quality assurance for heat pump systems in the building sector.
Results The expected results are:
> Proposal for harmonised EU field measurement method for reliable information about
‘real installations’ and guidelines for setting up and evaluating SPF field measurements
for all types of heat pump systems, giving comparable results between different field
measurements.
> Guidelines for improving heat pump system quality, reliability and energy performance for
the system for all types of heat pump systems.
> Development of quality schemes for heat pump systems based upon an SPF for certification
of installers with RES directive, Annex IV.
> National and international events and workshops with relevant target groups.
Budget: €1 545 894 (EU contribution: 75%)
Project Report, N°9 – April 2009 – page 19
Renewable energySolar electricity for cities
COORDINATOR
Henk F. Kaan
Energy Research Centre of the Netherlands,
Netherlands
+31 224564500
http://www.pvupscale.org
PARTNERS
Fraunhofer Gesellschaft zur Förderung
der angewandten Forschung e.V., Germany
HESPUL, France
MVV Energie AG, Germany
Vienna University of Technology, Austria
Ecofys Energie- und Handelsgesellschaft mbH,
Germany
UNIVERSIDAD POLITECNICA DE MADRID, Spain
Halcrow Group Ltd, United Kingdom
HORISUN, Netherlands
N.V. Continuon Netbeheer BV, Netherlands
> C O N T A C T D E T A I L S
16
PV in Urban Policies: a strategic and comprehensive approach for long-term expansion PV-UP-SCALE
Duration: 1/1/2006–30/6/2008
ObjectivesFor a sustainable electricity supply in the EU, large-scale implementation of photovoltaics (PV) in our
cities is a necessity. Successful implementation of PV on a large scale depends on PV being: part of the
urban planning process of city districts building or renovating; available as an accepted building product;
attractive for investors, utilities and end-users. The planning process and the connection of a large
number of PV systems to the low voltage grid have been addressed by PV-UP-SCALE. In the planning
process, it is crucial that decision-makers are aware of the possibilities of PV as an energy-producing
building product and that implications on an urban scale are clear. Drivers to stimulate decision-makers
to apply solar energy have been identified, and solutions for the bottlenecks have been proposed and
best practices presented to the stakeholders in the process of planning, application and use of PV.
Results > The existing PV database (developed within Task 7 of IEA PVPS) has been updated and
extended with urban-scale and large PV projects (http://www.pvdatabase.org).
> Fourteen urban planning case studies have been published online, showing in detail how
successful projects can be made to happen. Detailed reports on grid issues and economical
drivers have also been published on the project website.
> The case studies were used to determine common success factors, problems and solutions.
The results have been presented at various workshops and discussed with relevant market
stakeholders (developers and construction consortia, builders and urban planners, building
owners, architects, engineers, etc.).
> BIPV systems can play an essential role in sustainable urban planning since they are easily
integrated in building surfaces and visually attractive. Architecturally well-designed BIPV
systems are an important driver to increase market deployment.
Budget: €1 096 306 (EU contribution: 50%)
Projectreport
Project Report, N°9 – April 2009 – page 20
Renewable energy
Making solar heating a legal requirement
COORDINATOR
Riccardo Battisti
Ambiente Italia srl, Italy
+39 0644340129
http://www.solarordinances.eu
PARTNERS
Landeshauptstadt Stuttgart,
Amt für Umweltschutz, Germany
Steinbeis Forschungszentren GmbH, Germany
European Solar Thermal Industry Federation
aisbl, Belgium
Regione Lazio – Direzione Regionale Ambiente
e Cooperazione Tra Popoli, Italy
Reseda società cooperativa sociale integrata
onlus, Italy
Ecofys ema SL, Spain
SC ASTER Consulting Ltd, Romania
Instituto Nacional De Engenharia Tecnologia
e Inovação I. P., Portugal
Lisboa E-Nova – Agência Municipal
de Energia-Ambiente de Lisboa, Portugal
Sociedade Portuguesa de Energia Solar, Portugal
Primaria Municipiului Giurgiu, Romania
Ayuntamiento de Murcia, Spain
> C O N T A C T D E T A I L S
17
Best practice implementation of Solar Thermal Obligations ProSTO
Duration: 1/1/2008–31/12/2010
ObjectivesProSTO aims to boost solar thermal energy by helping implement Solar Thermal Obligations: the rules
requiring a minimum share of heating demand to be covered by solar energy when constructing or
renovating a building. A growing number of municipalities, regions and countries are already familiar
with Solar Thermal Obligations. The region of Lazio and the cities of Stuttgart, Murcia, Lisbon and Giurgiu
are together helping develop a best practice guide. The aim is to come up with model regulations,
targeted criteria and efficient administrative procedures, thereby encouraging new communities to sign
up to solar thermal obligations.
Results > Five best practice showcases have been created based on technical, legal and administrative
criteria.
> The impact of Solar Thermal Obligations is being monitored by local authorities. Real
monitoring has been missing so far. Such testing should help create confidence.
> A detailed baseline assessment has been carried out by the project partners, who have
listed success factors, performance indicators and recommendations for tools.
> Thousands of local authorities across Europe are now aware of the project. Those wanting
more information can contact a help desk.
Budget: €1 155 958 (EU contribution: 50%)
Project Report, N°9 – April 2009 – page 21
Renewable energy
Major cities going Solar
COORDINATOR
Mrs Sigrid Lindner
Ecofys Germany GmbH, Germany
+49 221569673152
N/A
PARTNERS
Climate Alliance/Klima-Bündnis/
Alianza del Clima e.V., Germany
Lund University, Sweden
Local Energy Agency of the Greater Lyon, France
Lisboa E-Nova – Lisbon’s Municipal
Energy-Environment Agency, Portugal
City of Munich – Department of Urban Planning,
Germany
Vitoria-Gasteiz City Council, Spain
Urban Planning Agency of Paris, France
City of Paris, France
Skane Association of Local Authorities, Sweden
Technical University of Madrid, Spain
HESPUL, France
> C O N T A C T D E T A I L S
18
Identification and Mobilisation of solar potentials via local strategies POLIS
Duration: 1/6/2009–31/5/2012
ObjectivesThis project goes down to the local level in its attempt to boost solar energy. It looks at town planning
and local policy in different European cities (Munich, Vitoria, Lyon, Paris, Lisbon and Malmo). The aim
is to bring key players together so that solar energy is included in an integrated planning process. Solar
energy has special needs in terms of legislation and municipal agreements. Thereby the project aims are
to increase the use of solar energies in European cities and to stimulate the cities involved in the project
to act as top runners. Therefore, identified methods and instruments for solar urban planning will be
applied together with the local authorities (planning and urban departments) in pilot actions and the
results will be disseminated on the web page and at workshops and conferences to showcase the diverse
approaches.
Results > Increased use of solar thermal systems and photovoltaics in urban areas should result.
> At least six cities should have decided to integrate solar energies as part of their urban
planning.
> Enhanced knowledge on solar urban planning activities throughout Europe.
> Implementation of advanced planning and policymaking process integrating solar aspects
in European cities.
> A more comprehensive approach of interdisciplinary planning established within local
authorities.
Budget: €1 108 874 (EU contribution: 75%)
Projectreport
Project Report, N°9 – April 2009 – page 22
Renewable energy
PV solar electricity for new Member States
COORDINATOR
Dr Stanislaw M. Pietruszko
Warsaw University of Technology
(Politechnika Warszawska), Poland
+48 222347782
http://www.pv-nms.net
PARTNERS
Tallinn University of Technology, Estonia
Cyprus Institute of Energy, Cyprus
Central Laboratory of Solar Energy
and New Energy Sources, Bulgarian Academy
of Sciences, Bulgaria
Institute of Physical Energetics, Latvia
Malta Resources Authority, Malta
Energy Restructuring Agency, Slovenia
Czech Renewable Energy Agency, Czech Republic
Semiconductor Physics Institute, Lithuania
Research Institute for Electrical Engineering,
Romania
Slovak Renewable Energy Agency, Slovakia
SOLART-SYSTEM Engineering Ltd, Hungary
> C O N T A C T D E T A I L S
19
Supporting development of Photovoltaics in the EU New Member States Network PV-NMS-NET
Duration: 10/10/2008–30/9/2011
ObjectivesPV-NMS-NET is a network for promoting solar electricity in the new Member States, where the
photovoltaic market is not as developed as in Western Europe. The project aims to develop a
methodology for monitoring the impact of measures adopted by new Member States while contributing
to the transparency, reliability and cohesion of the legal framework. The action will contribute to raising
awareness of solar electricity among decision-makers, regulators and utilities, facilitating the integration
of the photovoltaic market into the economy.
Results > An up-to-date, complete overview of the photovoltaic market in the 12 new Member States
will be put together (yearly reports and a final report).
> The project will help change attitudes towards the photovoltaic market among national
regulators and policymakers.
> Input will be provided for the preparation of national renewable energy action plans on
photovoltaics, in line with the renewable energy sources framework directive.
> The project should boost photovoltaic investment across new Member States, increasing
market experience and helping reduce the perceived risks that hinder this type of
investment.
Budget: €1 113 672 (EU contribution: 75%)
Project Report, N°9 – April 2009 – page 23
Renewable energyTackling legal barriers in PV markets
COORDINATOR
Mr Thomas Chrometzka
German Solar Industry Association, Germany
+49 30297778840
http://www.pvlegal.org
PARTNERS
European Photovoltaic Industry Association
(EPIA), Belgium
Association of Italian Photovoltaic Industries
(ASSOSOLARE), Italy
ENERPLAN, Solar Energy Professional
Association, France
Renewable Energy Association, United Kingdom
Slovenian Photovoltaic Industry Association,
Slovenia
Eclareon Ltd, Germany
Photovoltaic Industry Association, Spain
Hellenic Association of Photovoltaic Companies,
Greece
French Renewable Energy Association, France
Polish Society for Photovoltaics, Poland
> C O N T A C T D E T A I L S
20
Reduction of legal-administrative barriers for photovoltaic system installations in EuropePV LEGAL
Duration: 1/6/2009–31/5/2012
ObjectivesThe goal of PV LEGAL is to overcome market barriers to photovoltaics (PV) on a regulatory level in 12
EU Member States. The project partners will set up and regularly update a database comparing the
administrative procedures for PV installations in the 12 states, differentiated according to three main
PV applications (small-scale installations on residential buildings; small to medium-scale installations
on commercial buildings; medium to large-scale ground-mounted installations on open lands). The
database will identify the administrative steps necessary to obtain permission for constructing, grid-
connecting and operating PV systems. The findings will then be disseminated among target groups and
actively put into action with the aim of removing legal and administrative market barriers for further
PV development in the EU.
Results > A comprehensive, freely accessible and updated online database containing 12 national
PV legal-administrative frameworks and at least eight regional PV legal-administrative
frameworks is to be set up. It will provide stakeholders and policymakers with a systematic
analysis of practical experiences with regulatory barriers encountered by investors in PV
systems.
> National and regional advisory papers and recommendations (covering the three market
applications) will be drawn up, each targeted at improving legal-administrative procedures
for PV installations.
> National forums and workshops will take place with the participation of all key stakeholders
involved in legal and administrative procedures to discuss the advisory papers and the
findings of the database (national PV industry associations, grid operators, regulators,
national and regional governments, public authorities in charge of licensing/permitting
procedures, national energy agencies).
> Significant improvements to the national PV legal-administrative frameworks in each of the
12 countries are expected.
Budget: €2 491 133 (EU contribution: 75%)
Projectreport
Project Report, N°9 – April 2009 – page 24
Renewable energy
Joint investment schemes for small investors
COORDINATOR
Alicia Lafuente
Fundación Ecología y Desarrollo, Spain
+34 976298282
http://www.desolasol.org
PARTNERS
HESPUL, France
Société Financière de La Nef, France
Triodos Bank, Spain
ecovision GmbH, Germany
ASSOCIAÇÃO DE PRODUTORES FLORESTAIS,
Portugal
> C O N T A C T D E T A I L S
21
Photovoltaic for small investors in Germany, Spain, France and Portugal deSOLaSOL
Duration: 1/1/2006–30/6/2008
ObjectivesIn a number of European countries, such as Germany, Spain and France, a good legal framework is
already in place and is supporting photovoltaic uptake. However, photovoltaic energy still suffers from
high investment costs, as well as technical and administrative obstacles, which together make it difficult
for individual investors and small organisations to get access to installations. The main objective of
deSOLaSOL was to minimise these barriers, by delivering high-quality information, and to make it easier
for people to invest jointly in grid-connected plants. Public authorities, energy agencies, consumer
associations and NGOs were all targeted with an information campaign, handbook and discussion
network.
Results > A best practice handbook explaining how to invest jointly in grid-connected photovoltaic
plants was developed.
> A comparative analysis of legal, fiscal and technical norms concerning grid-connected plants
was completed, as well as a publication on project finance.
> An awareness-raising campaign took place in all the targeted countries.
> A European experts’ meeting took place to encourage the exchange of information on
jointly owned photovoltaic plants.
> There are opportunities in each country to develop jointly owned PV plants. In Germany
there are many well-known examples of this type of investment scheme. Successful
experiences encourage people to participate. Spain has seen huge photovoltaic progress
during the course of the project, including jointly owned PV plants, but there is still work to
do. Some systems are starting to appear in France whereas in Portugal there is more work
to be done.
Budget: €476 058 (EU contribution: 50%)
Project Report, N°9 – April 2009 – page 25
Renewable energy
Assessing tax- based support schemes
COORDINATOR
Yves-Bruno Civel
Observatoire des énergies renouvelables, France
+33 144180080
http://www.energies-renouvelables.org/refund
PARTNERS
Vlaamse instelling voor technologisch
onderzoek N.V., Belgium
Vienna University of Technology, Austria
Lietuvos Energetikos Institutas, Lithuania
Consultores em Energia, Lda (CEEETA-ECO),
Portugal
CLN Instytut Badawczy Paliw i Energii
Odnawialnej (CLN Centralne Laboratorium
Naftowe), Poland
> C O N T A C T D E T A I L S
22
Refund individual investments in RES heating systems through direct tax measures REFUND+
Duration: 1/11/2006–30/6/2009
ObjectivesIncome tax credits, tax reductions and tax allowances are being used today in five Member States to
reduce the high cost of renewable heating systems. The REFUND+ project explored the different designs
in Belgium, France, Italy, Austria and Portugal and looked at how well such measures have worked in
these countries. This research was accompanied by surveys involving end consumers and suppliers – in
this case, retailers and installers. Simulation exercises will be carried out for the Lithuanian and Polish
market. Project partners will devise recommendations for policymakers.
Results > Monitoring of the impact of direct fiscal measures in each country has taken place.
> Comparisons have been made of the different national experiences for the purpose of
putting together a best practice guide.
> Simulation of the potential tax impact on the Lithuanian and Polish markets has taken
place.
> Recommendations have been gathered for future tax initiatives of this kind.
> Findings to be released via workshops and conferences.
Budget: €798 069 (EU contribution: 50%)
Projectreport
Project Report, N°9 – April 2009 – page 26
Renewable energy
COORDINATOR
Isabel M Fernández Fuentes
European Federation of Geologists, Belgium
+32 27887636
http://www.geotrainet.eu
PARTNERS
Consolidated Project Management Services Ltd,
Ireland
Bureau de Recherches Géologiques et Minieres
(BRGM), France
Österreichisches Forschungs- und Prüfzentrum
Arsenal Ges.m.b.H. (Arsenal), Austria
European Geothermal Energy Council, Belgium
Universidad Politécnica de Valencia, Spain
Lund University, Sweden
Newcastle University, United Kingdom
Romanian Geoexchange Society/Societatea
Romania Geoexchange (RGS), Romania
> C O N T A C T D E T A I L S
23
Geo-education for a sustainable geothermal heating and cooling market GEOTRAINET
Duration: 1/9/2008–28/2/2011
ObjectivesGround source heat pumps contribute greatly to energy saving and emission reduction. Research in
Europe shows that one of the barriers to a sustainable and growing geothermal market is the lack
of appropriate skilled personnel. The quality of both design and work is not always satisfactory.
The objective of this project is to develop a European education programme for the certification of
geothermal installations. Different groups of professionals are involved in ground source heat pumps.
The GEOTRAINET project is focused on two target groups: designers (geologists, geotechnical engineers,
HVAC engineers) and drillers (including installers and maintenance personnel). The project will develop
an education programme, and prepare didactic materials, training courses and an e-learning platform.
Training for geothermal professionals will take place in eight EU countries.
Results > Developing a European training structure to support and improve the quality of geothermal
installations, with an education program to support continual professional development
(CPD) for earth science experts and drilling professionals.
> Establishing an international platform of experts on Geothermal Energy H&C to provide the
knowledge required for training courses and a European e-learning platform for shallow
geothermal applications.
> Improving the access to geological data needed for the design of geothermal energy
heating and cooling installations.
> Proposing high professional standards for geothermal energy heating and cooling in
Europe.
> Proposing a European certification framework.
Budget: €952 004 (EU contribution: 75%)
Training in high quality geothermal heating
Project Report, N°9 – April 2009 – page 27
Renewable energy
COORDINATOR
Ms Erica Holland
Union of Veneto Chambers of Commerce, Italy
+39 0410999411
www.pvsinbloom.eu
PARTNERS
Chambers of Commerce Development Company
of Central Macedonia, Greece
Development Company of the Municipality of
Milies, Greece
Innovation Region Styria GmbH, Austria
University of Jaén (Universidad de Jaén), Spain
Valencia Official Chamber of Commerce, Industry
and Shipping, Spain
Energy Agency of Sassari Province, Italy
Institute of Physics of Lublin University
of Technology, Poland
Italian-Slovak Chamber of Commerce, Slovakia
> C O N T A C T D E T A I L S
24
Farming photovoltaic flowers: a new challenge for land valorisation within a strategic eco-sustainable approach to local development PVs in BLOOM
Duration: 1/10/2008–30/9/2011
ObjectivesThe project aims to promote the installation of small and medium-scale ground photovoltaic plants
with a power capacity ranging from 50 kWp to 2–3 MWp for requalifying marginal or sterile soils using
a new eco-sustainable strategic approach. It will increase awareness and knowledge of the economic
potential and green value of photovoltaic panel plantations (PVPPs) in both the public and private
sectors (municipalities, chambers of commerce, energy agencies, landowners, private investors, farmers).
An initial survey will be carried out among 600 municipalities in order to identify local authorities
interested in implementing this type of plant. Handbooks for public administrations, training courses
for municipalities and policymakers, and tools to promote start-ups in PVPP enterprises will also be
provided.
Results > At least 40 municipalities will be supported with the implementation of photovoltaic panel
plantations in marginal areas.
> Several practical and strategic documents on PVPPs will be written: a ‘strategic vision’;
a technical guide for architects, engineers and investors; an administrative guide for the
public sector; and a practical guide to encourage start-up enterprises.
> 620 people will be trained on PVPPs across Europe so that they can support local authorities
and private investors facing the most critical difficulties pertaining to PVPP start-ups.
> Thanks to this initiative, approximately 20 MWp are expected to be produced in the selected
countries.
Budget: €1 428 402 (EU contribution: 75%)
Solar electricity from land that nobody uses
Projectreport
Project Report, N°9 – April 2009 – page 28
Renewable energy
COORDINATOR
Mr Stéphane Pouffary
French Environment and Energy Management
Agency (ADEME), France
+33 493957955
N/A
PARTNERS
Centre for Renewable Energy Sources (CRES),
Greece
European Geothermal Energy Council (EGEC),
Belgium
European Photovoltaic Industry Association
(EPIA), Belgium
European Solar Thermal Industry Federation
(ESTIF), Belgium
Italian National Agency for New Technologies,
Energy and the Environment (ENEA), Italy
The Polish National Energy Conservation Agency
(KAPE), Poland
Arsenal Research (Arsenal), Austria
European Heat Pump Association EEIG (EHPA),
Belgium
European Renewable Energy Council (EREC),
Belgium
Qualit’EnR, Association for Renewable
Energy Quality (Qualit’EnR), France
European Builders Confederation (EBC), Belgium
European Biomass Association (AEBIOM),
Belgium
European Technical Contractors Committee
for the Construction Industry, Belgium
> C O N T A C T D E T A I L S
25
Quality Certification & accreditation for installers of small-scale renewable energy systems QualiCert
Duration: 1/6/2009–28/2/2012
ObjectivesIn line with Member States’ obligations arising from the new directive on renewable energy sources,
QualiCert addresses the certification and accreditation of installers of small-scale building-integrated
renewable energy systems. The project in particular tackles the directive’s requirement for certification
schemes in each Member State that obey a set of similar criteria and recognise each other’s certification.
To guarantee the broadest possible support for the future accreditation and certification scheme,
QualiCert relies on an interdisciplinary multi-stakeholder approach involving builders, installers, training
providers, accrediting bodies, the European renewable energy industry, and a number of national energy
agencies. This EU-wide concerted approach will allow partners to go beyond national considerations
and concentrate on an outcome based on the best-identified methodology valid for the entire EU-27.
QualiCert also addresses the market need for a comprehensive system for certifying installers, thereby
guaranteeing quality installations and satisfied customers, which in turn will spur further market
deployment.
Results > Assessment of the performance of existing schemes for accreditation of training and
certification of installers on small-scale RES systems in buildings EU-wide.
> Validation of success criteria with stakeholder groups and development of a manual of
success criteria addressing technical, legal, institutional, financial and communication
aspects.
> Adoption of a common approach to accreditation and certification schemes for installers in
five EU Member States, with mutual recognition of the schemes.
> Facilitation of accreditation and certification schemes based on the joint approach in the
five Member States.
> Results will be used to encourage all 27 Member States to adopt a joint approach.
Budget: €1 074 462 (EU contribution: 75%)
Cross-border certification of installers
Photos
Photos all © iStockphoto.com except page 16 © EACI
Cover: David Hills, page 2: xnyo, page 2: Pavel Losevsky and Richard Schmidt-Zuper, page 4: Ian Hamilton, page 5: Gilles Lougassi, page 6: Ann Taylor-Hughes, page 7: Studio 76, page 8: Timothy Large, page 9: Joel Johndro, page 10: Anthony Buckingham, page 11: Simon Owler, page 12: Slobo Mitic, page 13: Melissa Mercier, page 14: Loopall, page 15: Eli & Ric, page 17: Pavel Losevsky, page 18: Arkadiusz Fajer, page 19: Alex Slobodkin, page 20: Plainview, pages 21 and 22: Peter Eckhardt, page 23: Tim Alford, page 24: Richard Schmidt-Zuper, page 25: Andrey Volodin, page 26: Mikael Damkier, page 27: Andy Gehrig, page 28: John Keith.
EA-78-09-825-EN
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Renewable energy in buildings
Make your building smile Renewable energy technology is a reality but has still not penetrated the building sector to the extent
that it has become part of our everyday lives. From photovoltaic panels to ground source heat pumps,
technology can help consumers save emissions while reducing their energy bills.
This brochure details 25 projects aiming to overcome the remaining hurdles renewable energy applications
face in buildings, both residential and commercial. With a little push, perhaps better marketing or a new
approach from local authorities, these applications can help change Europe’s energy map definitively.
http://ec.europa.eu/intelligentenergy
e x e c u t i v e a g e n c y
f o r c o m p e t i t i v e n e s s & i n n o v a t i o n EUROPEAN COMMISSION