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Cluster Energy Compendium
Cluster initiative "Energy efficiency and renewable energy sources" in the Baltic Sea Region Programme 2007-2013
TU Berlin Publications
Edited by Prof. Dr. -Ing. Klaus Rückert, Berlin
Published by Prof. Dr.-Ing. Klaus Rückert, Berlin
© 2012 by TU Berlin.
All rights reserved.
Content
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Content
1. Acknowledgement ....................................................................................................................... 4
2. Contribution ................................................................................................................................ 5
3. Introduction ................................................................................................................................. 6
4. Method ........................................................................................................................................ 8
5. Longlife ...................................................................................................................................... 10
5.1. Description ............................................................................................................................ 10
5.2. Main Outputs......................................................................................................................... 10
5.3. Contribution to an Eco Region .............................................................................................. 11
6. SPIN ........................................................................................................................................... 12
6.1. Description ............................................................................................................................ 12
6.2. Main Outputs......................................................................................................................... 12
6.3. Contribution to an Eco Region .............................................................................................. 13
7. REMOWE ................................................................................................................................... 14
7.1. Description ............................................................................................................................ 14
7.2. Main Outputs......................................................................................................................... 14
7.3. Contribution to an Eco Region .............................................................................................. 15
8. Co2olBricks ................................................................................................................................. 16
8.1. Description ............................................................................................................................ 16
8.2. Main Outputs......................................................................................................................... 16
8.3. Contribution to an Eco Region .............................................................................................. 17
Content
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9. Baltic Biogas Bus .................................................................................................................... 18
9.1. Description ........................................................................................................................ 18
9.2. Main Outputs .................................................................................................................... 18
9.3. Contribution to an Eco Region .......................................................................................... 19
10. Bioenergy Promotion ............................................................................................................ 20
10.1. Description ........................................................................................................................ 20
10.2. Main Outputs ..................................................................................................................... 20
10.3. Contribution to an Eco Region .......................................................................................... 21
11. Urb.Energy ............................................................................................................................. 22
11.1. Description ........................................................................................................................ 22
11.2. Main Outputs ..................................................................................................................... 22
11.3. Contribution to an Eco Region .......................................................................................... 23
12. PEA ......................................................................................................................................... 24
12.1. Description ........................................................................................................................ 24
12.2. Main Outputs ..................................................................................................................... 24
12.3. Contribution to an Eco Region .......................................................................................... 25
13. Covenant of Mayors in the Cluster Energy ............................................................................ 26
14. Summary................................................................................................................................ 30
15. Recommendations................................................................................................................. 38
Appendix 1 Glossary of the Cluster Energy ....................................................................................... 42
Appendix 2 Products of the Cluster Energy Projects ......................................................................... 55
Acknowledgement
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Cluster Energy Kick off Workshop in Berlin 2011
Cluster Energy Round Table Meeting in Brussels 2012
1. Acknowledgement
We want to acknowledge and appreciate the enthusiasm and contributions from the eight cluster projects and the their cluster partners as well their colleagues and friends who have shared their knowledge and experiences in order to realized the value of working together as a team and as a new experience in working environment, which challenges us every minute.
Special thanks go to the Baltic Sea Region Programme 2007-2013 Joint Technical Secretariat in Rostock, Germany for its initiative, support and trustful cooperation.
Contribution
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2. Contribution
Eight projects representing 16 project partners from six countries are contributing to the Cluster Energy as a pilot initiative in the Baltic Sea Region Programme 2007-2013.
Longlife DE Technische Universität Berlin, tek
www.longlife-world.eu DK City of Roskilde
SPIN
SE Swedish Environmental Research Institute
www.spin-project.eu PL Central Mining Institute
EE University of Tartu
Bioenergy Promotion
DE Agency for Renewable Resources www.bioenergypromotion.net
Urb.Energy DE German Association for Housing, Urban and
Spatial Development www.urbenergy.eu
DE Housing Initiative for Eastern Europe
Baltic Biogas Bus
DE ATI erc gGmbH www.balticbiogasbus.eu
REMOWE
SE Mälardalen University
www.remowe.eu
FN University of Eastern Finland
FN Savonia University
DE Ostfalia University of Applied Sciences
PEA DE City of Wittenberge
www.peaproject.eu
PL City of Niepolomice
Co2olBricks DE City of Hamburg, Ministry of Culture and Media, Department of Heritage Preservation
www.co2olbricks.eu
Cluster Energy EU Baltic Sea Region www.energy-cluster.info
The eight Cluster Energy projects Longlife, SPIN, Bioenergy Promotion, Urb.Energy, Baltic Biogas Bus,
REMOWE, PEA and Co2olBricks are represented by partners from the following six countries:
Denmark, Estonia, Finland, Germany, Poland and Sweden. The projects are linked with each other
through their main outputs. The aim is to prepare the implementation as real investments to create
an Eco Energy Region as a result of the Cluster Energy cooperation.
Introduction
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In regard to the EU 2020 Strategy and the EU Strategy for the Baltic Sea Region the Cluster Energy is stimulating and contributing to an Eco Region through:
3. Introduction
The Monitoring Committee of the Baltic Sea Region Programme 2007-2013 initiated in 2010 a new
instrument for cooperation, i.e. cluster initiatives. The cluster of "Energy efficiency and renewable
energy sources" was selected for piloting the concept. Three further clusters "Sustainable,
multimodal and green transport corridors", "Baltic Impulse - saving the Baltic Sea waters" and
"Innovation in SMEs" were established in 2012. The Cluster Energy lasts for one year, starts in
October 2011 and ends in September 2012. The Technische Univerisität Berlin, Department of
Design and Structure, tek - the lead partner of the project Longlife - is the cluster leader.
The eight Cluster Energy projects are sharing with transnational actions the common thematic interest to work on sustainable energy solutions and to build up an Eco Region with focus on:
Renewable energy
Sustainable technologies
Resource saving in buildings
Energy efficiency in urban context
Increasing the visibility of single project results in a bigger framework
Showing the possibilities of cooperation in the field of Energy efficiency and renewable energy sources to reach decision makers and politicians
Enhancing the network to intensify cooperation between the Baltic countries
Connect the region, increase prosperity, create new businesses and jobs
Developing & promoting the Baltic Sea Region as an attractive place to invest, work and live in
Promoting the Cluster Energy to continue the cooperation and to enhance the benefits
Introduction
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Germany
Denmark
Estonia
Finland
Poland
Sweden
EU Strategy 2020 and EU Strategy for the Baltic Sea Region
Baltic Sea Region
Cluster Energy
Collaboration
Eight projects
20% lower CO2 emissions
20% more energy efficiency
20% of renewable energy
Climate change
Eco Region
Networking
Shaping the BSR into a regional cooperation model for the whole EU
Renewable energy
Sustainable technologies
Resource saving in buildings
Energy efficiency in urban context
Longlife
SPIN
Bioenergy Promotion
Urb. Energy
PEA
REMOWE
Co2olBricks
Baltic Biogas Bus
8 Cluster Projects
6 Countries
16 Cluster Partners
6 Cities, members in Covenant of Mayors
© Baltic Sea Region
Method
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4. Method
The Cluster Energy was initiated to improve the dialogue between single projects and to increase the
awareness of the achievements of the Baltic Sea Region Programme 2007-2013. The focus lies on
Energy efficiency and renewable energy sources. Four areas of competences make it clear:
Renewable energies, sustainable technologies, resource saving solutions in buildings and energy
efficiency in the urban context.
All eight cluster projects allocated to the four fields of competences. The Cluster partners who
represent the eight projects, represent too the science, the administration and the business. With
this triple helix structure the projects SPIN, REMOWE, Co2olBricks, Baltic Biogas Bus, Bioenergy
Promotion, Urb. Energy, PEA and Longlife develop strategies in energy efficiency and resource saving.
The Cluster Energy forms a network in order to create an Eco Region by transferring knowledge,
generating synergies and new jobs.
The proceeding of Cluster Energy includes to find out doublings in research and to compare similar
results. In fact doublings in Cluster Energy project topics exist (e. g. research on biogas REMOWE and
Bioenergy Promotion), nevertheless the results deal different aspects and levels.
Method
9
Definition of Cluster and Eco Region
In general, clusters are considered to increase the productivity with which companies can compete,
regionally, nationally and globally. The Cluster Energy is a transnational collaboration of
interconnected projects, represented through specific institutions from science, administration and
business in the field of Energy efficiency and renewable energy sources.
The Cluster Energy is a business cluster based on different kinds of knowledge and competences,
reached in the eight single projects.
The Cluster Energy combines the main results and performance of the single projects retrospectively.
With the Cluster Energy we try to use the cluster effect to promote the Baltic Sea Region as good for
the Energy efficiency and renewable energy sources.
To sustain cluster performance in the long term, we are suggesting some ideas in the chapter
recommendations.
The Eco Region is the big picture of sustainable cooperation. It is an area with the focus ecology,
economy and social adjustment. The Covenant of Mayors has defined indicators to define a specific
Eco Region, a city. The defined area for the Cluster Energy is the Baltic Sea Region.
"Covenant of Mayors" as an instrument to establish an Eco Region
The Covenant of Mayors is an European movement of local and regional authorities with the goal of implementing sustainable energy policies focusing on following thematically fields: • Power and heating: strategy for heating and energy supply
• Buildings: municipal buildings, private and public houses
• Transport: public and private transport, mobility plan
• Planning: Strategic town planning, raising building density, transport and parking,
"Car out - bus and bicycle in"
• Civic participation: Public involvement and cooperation through campaigns, green funding,
local climate councils
Longlife
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5. Longlife
5.1. Description
Longlife buildings and technologies are innovative solutions for economic,
energy efficient and resource saving growth in the Baltic Sea Region. Longlife developed practices,
unified procedures and guidelines for the design of sustainable, energy efficient and resource saving
buildings. These buildings are constructed with the Longlife Prototype Catalogue and are issued by
the Longlife Performance Pass.
Longlife guidelines and procedures lead to low lifecycle costs and reduction of energy consumption
during a building’s life cycle.
The above mentioned knowledge was transferred between Denmark, Germany, Lithuania, Poland
and Russia and can be applied in other countries too. By its participation in the Cluster Energy,
Longlife aims to contribute its project outputs to the framework of an Eco Region. The project directs
the integration of practices, technologies and procedures of all Cluster partners. Moreover, Longlife
draws up proposals for the future funding period of 2014-2020 in the Baltic Sea Region.
5.2. Main Outputs
Longlife Building, designed with prototype catalogue of materials, elements and technologies
Longlife Performance Pass to evaluate and certificate sustainable buildings with specific tools for energy demand, life cycle costs and CO2
Longlife Institute e.V. - International association to advertise and train standards for sustainable buildings in the Baltic Sea Region
Achievements of EU 2020 targets
20 % increased share of renewable energy
20 % reduction of greenhouse gas emission
20 % improvement of energy efficiency
© Longlife
Longlife
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5.3. Contribution to an Eco Region
Longlife's specific outputs for buildings are prior applicable by those clusters partners that deal with buildings. The Longlife Prototype Catalogue is a database of plenty materials, elements and technologies for sustainable and energy efficient buildings. SPIN can enlarge its database for selected eco-innovative technologies by the technologies Longlife has already researched. When being commissioned for the planning of public or service buildings, PEA can include sustainable and energy efficient technologies and materials out of this catalogue. Urb.Energy and Co2olBricks are able to plan the refurbishment of building stock with elements of the Longlife Prototype Catalogue and ensure consequently an energy efficient and sustainable building that can also be certified by the Longlife Performance Pass. This certification indicates low energy demand of the building, ecological impacts such as CO2 emissions and economical figures in terms of initial, maintaining and operating costs.
"Longlife Institute e.V. is an association for sustainable, energy efficient and resource saving buildings with respect to certification and life cycle analysis."1 The membership in the Longlife Institute is an option for all Cluster Energy partners and offers synergy effects within a network of public authorities and enterprises. Moreover Cluster Energy projects like Urb.Energy and Co2olBricks can benefit from planned education sessions for craftsmen, architects, engineers and administration staff.
1 http://www.longlife-world.eu/news_news-group:2_Coming+Events_news-post:69_Longlife+Institute+eV_en.html
SPIN
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6. SPIN
6.1. Description
SPIN is based on the simple but normally successful business equation of matching supply and
demand. European directives and regulations require enterprises to comply with environmental
standards and to ensure eco-efficient production processes. As a response numerous environmental
technologies and management systems have been developed throughout the Baltic Sea Region.
Despite, many SMEs still struggle or even fail to respond to EU requirements, as they do not have
access to the existing technological or managerial solutions developed in other parts of the region.
On the other side, many innovative ideas & technologies are lost as those SMEs that offer such
innovative tools do not have access to big enough markets. To overcome this mismatch, SPIN
connects some of the most outstanding expert institutions for eco-innovation in the BSR in order to
combine their efforts both on practical as well as policy level.
6.2. Main Outputs
Database for selected eco-innovative
technologies
Toolbox for sustainable construction, processing with bio-waste and bio-gas and decentralized wastewater treatment
National Contact Points for small and medium enterprises in the Baltic Sea Region
Achievements of EU 2020 targets
20 % increased share of renewable energy
20 % reduction of greenhouse gas emission
20 % improvement of energy efficiency
© SPIN
SPIN
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6.3. Contribution to an Eco Region
The SPIN database for selected eco-innovative technologies is applicable by all projects. Whether they use technologies in practice or compare the quality and performance with their own technologies in order to optimization. Longlife for instance can offer an expanded selection of technologies by implementing SPIN technologies into the Catalogue. Urb.Energy and Co2olBricks can use energy efficient technologies for heating and ventilation in refurbishment of housing stock.
For countering various challenges, entrepreneurs can operate with the SPIN Toolbox for industry sectors of sustainable construction, processing with bio-waste, bio-gas and decentralized wastewater treatment.2 Different tools in topics of financing, business and markets as well as several competences in a company give assistance for entrepreneurial ideas and are thus usable by all cluster partners through innovative processes.
National contact points for small and medium enterprises as the third main output of SPIN leads to an international competency network where all cluster partners can benefit from and participate in. A small connection potentially exists to the Longlife Institute that under certain circumstances serves as contact point for experts.
2 http://www.spin-project.eu/index.php?node_id=Toolbox;100&lang_id=1
REMOWE
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7. REMOWE
7.1. Description
Waste is a resource which has to be used in order to help reducing harmful carbon dioxide
emissions. The project REMOWE focuses on renewable resources of waste from cities, farming and
industry. Project partners from Sweden, Finland, Poland, Lithuania, Estonia and Germany represents
both far developed regions in the field as well as regions in which the level of energy utilisation of
waste is currently low. Main objectives of the project are to contribute to regional action plans and
strategies in the participating regions; supporting innovations for a sustainable development; identify
bottle-necks and possible solutions for waste-to-energy solutions and to facilitate transnational
transfer of knowledge and technology. Further REMOWE project contributes with activities for
improved knowledge on how waste can be disposed and processed in regions under varying
conditions, but also gives guidance to stakeholders who want to build-up or improve waste-to-energy
systems.
7.2. Main Outputs
Tool for regional modelling of waste-to-
energy production
Evaluation platform for innovations
Report on biogas potential and suitable substrate mixtures
Achievements of EU 2020 targets
20 % increased share of renewable energy
20 % reduction of greenhouse gas emission
20 % improvement of energy efficiency
© REMOWE
REMOWE
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7.3. Contribution to an Eco Region
The efforts in regional modelling platform is mainly address authorities for more strategic decision making and companies preparing investment based on regional conditions of supply and demand. By planning sustainable neighbourhoods, Urb.Energy can model the energy production by a certain amount of waste. With regard to public waste management, PEA is predestined to include this modelling tool into their regional energy strategies. A further combination consists to the report on regional bio-energy potential of Bioenergy Promotion. When modelling regional potentials it is possible to amount the energy supply adequately.
Innovations from all projects - whether in terms of technologies or strategies and methods - can be evaluated on a platform under certain technical and functional aspects.
The report on biogas potential is also an output of Bioenergy Promotion and can be practiced as comparison or expansion of their own report. Regional potentials of biogas compose a basis for regional energy supply by PEA. The knowledge about suitable substrate mixtures can be useful for the service of biogas driven buses from the project Baltic Biogas Bus. But also SPIN has the ability to analyze whether new substrate mixtures are applicable for their biogas technologies.
Co2olBricks
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8. Co2olBricks
8.1. Description
Co2olBricks is a project that is looking for solutions to modernize historical brick buildings. The aims are to protect the historical value as well as reducing the energy consumption. The conservation of heritage, in particular of historical buildings, is a common goal in the Baltic Sea Region (BSR). Modern heating, thermal insulation and windows of a high thermal standard are the technical solutions for new buildings. In historic buildings the boundary conditions were often not investigated; in many cases serious damages, defects or disadvantages are caused by applying technical solutions that were originally developed for new buildings to existing buildings. In Co2olBricks for the first time a combined insulation and heating concept for old buildings is developed. Nowadays climate protection goals and heritage conservation are often in conflict with each other. Regarding the restoration of old buildings it is difficult to decide between no/bad climate protection and no/bad heritage conservation. This project aims to find solutions to combine the necessary CO2 reduction targets with technically, administratively and historically adequate approaches to heritage conservation. Especially the BSR‘s brick architecture in the former area of the Hanseatic League presents an excellent possibility to find transferable methods and solutions.
8.2. Main Outputs
Database for technical solutions to save
energy in brick buildings
Curriculum for training of craftsmen, architects, engineers to improve the knowledge about energy saving in building stock
Innovative technical solutions to implement, monitor and evaluate optimized energy performance e.g. wall heating technology
Achievements of EU 2020 targets
20 % increased share of renewable energy
20 % reduction of greenhouse gas emission
20 % improvement of energy efficiency
© Co2olBricks
Co2olBricks
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8.3. Contribution to an Eco Region
Main outputs from the project Co2ol Bricks are applicable by cluster projects in the field of buildings. Common activities of Co2olBricks and Urb.Energy in the housing stock implicate a benefit from the database for technical solutions for Urb.Energy when refurbishing an existing building. The innovative technical solutions to implement, monitor and evaluate energy refurbishments of historical buildings with optimized energy performance is moreover figuratively useful for the project Longlife. The Longlife pilot projects are already planned and disposed to be built. Although it is not a historical building the method of monitoring and evaluation could be conveyed.
Craftsmen, architects and engineers are working within the projects Longlife, Urb.Energy and SPIN. According to that training sessions to improve their knowledge concerning energy saving in the building stock is an applicable output and worthy investment in human resources for these projects.
Baltic Biogas Bus
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9. Baltic Biogas Bus
9.1. Description
Global warming and the rising costs for fossil fuels force society to break new grounds for
sustainable energy supply. One of the cornerstones of the EU Baltic Sea Strategy is to make the
region more environmentally sustainable. One of the key challenges will be found in the sector of
transportation.
The comprehensive picture that will emerge as the result from the project will demonstrate
economic and environmental benefits of biogas as a renewable fuel that contributes to make public
transport an even stronger part of the solution of global environmental problems.
A change from fossil to sustainable fuel is crucial to develop the transport system of the future. The
main project objective is to increase the use of biogas buses in public transport in the Baltic Sea
region - with the long term aim of improving air quality and reducing CO2. Furthermore the Baltic
Biogas Bus project aims to increase the knowledge and acceptance of biogas as fuel for public
transport. The Baltic Biogas Bus project will stimulate cities and regions around the Baltic Sea to use
biogas driven buses.
9.2. Main Outputs
Regional strategies for the introduction of
biogas buses in public transport
Greenhouse gas emission analysis and life cycle cost analysis for biogas buses
Baltic Sea Region biogas infrastructure Overview
Achievements of EU 2020 targets
20 % increased share of renewable energy
20 % reduction of greenhouse gas emission
20 % improvement of energy efficiency
© Baltic Biogas Bus
Baltic Biogas Bus
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9.3. Contribution to an Eco Region
Baltic Biogas Bus provides local passenger traffic to public areas with strategies, life cycle cost and greenhouse gas emission analysis as well as an infrastructure overview of biogas in the Baltic Sea Region. From those three outputs the projects PEA and Urb.Energy can benefit. PEA shows up opportunities to supply public areas with priory renewable energy. Local traffic as a part of public areas can also be supplied by renewable energies so that a biogas driven bus forms a good solution for PEA. But also to a sustainable neighborhood belongs an alternative local traffic system like the usage of biogas buses. Urb.Energy and PEA can especially access life cycle cost and greenhouse gas emission analysis as background.
Bioenergy Promotion can generally serves as an information and promotion instrument for innovative ideas concerning bioenergy.
Bioenergy Promotion
20
10. Bioenergy Promotion
10.1. Description
The aim of the project Bioenergy Promotion is to promote and to increase the sustainable use of
bioenergy in the Baltic Sea Region. There are huge biomass resources and only a fraction of it is
utilized so far. At the same time there is an increasing interest for these large but limited resources
and therefore the use has to be sustainable and the competition between the use for food, fodder,
fibre and fuel has to be balanced. The project strengthens development towards a geographically
integrated, competitive and sustainable bioenergy sector in the Baltic Sea Region.
The project contributes to development of sustainable bioenergy business and regions. In addition,
the project has highlighted the development of technology and cooperation between different actors
in the bioenergy field and has provided support to policy development on national, local and regional
level.
Bioenergy Promotion reinforces sustainable agriculture and forestry and improves the functioning of
the energy market, facilitates the creation of networks, clusters and public-private partnerships in
the bioenergy sector and fosters conditions that will support the Baltic Sea Region in reaching the
20% target for renewable energies by 2020.
10.2. Main Outputs
Criteria for sustainable biomass supply,
use and trade
Virtual brokerage platform
Report on regional bio-energy potential
Achievements of EU 2020 targets
20 % increased share of renewable energy
20 % reduction of greenhouse gas emission
20 % improvement of energy efficiency
© Bioenergy Promotion
Bioenergy Promotion
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10.3. Contribution to an Eco Region
Bioenergy Promotion developed certain criteria for sustainable biomass supply as well as their use and trade. To be efficient and on the same level in the field of biomass, there should be at least similar benchmarks and requirements. By using these criteria a kind of standardization and high quality in supply, use and trade is ensured. Biomass in its different specifications is focused in the projects PEA, REMOWE and Baltic Biogas Bus. All of them are able to operate with these criteria and augment consequently the quality of their products and services. The virtual brokerage platform "biobrokers" intends to establish a common bioenergy market in the Baltic Sea Region.3 Bioenergy Promotion informs that not only biomass products were taken into account at the platform, moreover technologies and services concerning bioenergy are included and accessible for businessmen. Input from the projects SPIN, PEA, REMOWE and Baltic Biogas Bus are imaginable. A report on bioenergy potential was also generated by REMOWE in a more general consideration. So that REMOWE itself and Baltic Biogas Bus benefit in the same way as explained in 7.3. PEA can take more advantage out of this report because of its regional consideration. A more detailed knowledge simplifies the planning of biogas usage in specific public services.
3 www.biobrokers.eu
Urb.Energy
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11. Urb.Energy
11.1. Description
In view of the increasing significance of energy efficiency in the field of urban development, the
transnational cooperation project Urb.Energy was launched in January 2009. The aim of the project
was to combine measures of energy efficient refurbishment of the housing stock with the overall
improvement of residential neighbourhoods. The project was co-funded by the territorial
cooperation programme “Baltic Sea Region Programme 2007-2013” as well as by the German federal
programme “Transnational Cooperation”. 15 partners from Estonia, Germany, Latvia, Lithuania,
Poland and Belarus took part in the project and represented key actors in national activities for
energy efficient settlement structures.
Urb.Energy’s key objective is the development and implementation of integrated concepts and
strategies for the comprehensive energy efficient renewal of residential areas in the Baltic Sea
Region. The partners worked together to develop Integrated Urban Development Concepts (IUDC) to
combine energy efficient housing refurbishment with the renewal of the energy supply
infrastructure, the upgrading of the residential environment, the improvement of the social and
economic infrastructure and the participation and mobilisation of residents.
11.2. Main Outputs
Manual on holistic strategies for energy
efficient refurbishment of the housing stock
Integrated urban development approach targeting at energy efficient residential areas
Guidelines for innovative use of EU funds in housing sector and urban areas
Achievements of EU 2020 targets
20 % increased share of renewable energy
20 % reduction of greenhouse gas emission
20 % improvement of energy efficiency
© Urb.Energy
Urb.Energy
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11.3. Contribution to an Eco Region
Within the Cluster energy only Co2ol Bricks and Urb.Energy cover the treatment of the building stock. Accordingly Co2olBricks takes advantage from the manual on holistic strategies for energy efficient refurbishment of the housing stock that includes general recommendations for developing energy efficient concepts as well as good practice examples.
The integrated urban development approach that is targeted at energy efficient residential areas highlights not only buildings refurbishment but also the modernization of energy supply structure and aspects of social and economic infrastructure. Collectively this output can be interesting for Longlife, Co2olBricks and also PEA in respect to their particular array.
Although some projects in the cluster are determined, a guideline for an innovative use of EU funds can be useful also in further projects. Concerning the housing sector, this guideline addresses priory Longlife and Cool Bricks. Different funding options were listed and explained; examples of their use by Urb.Energy are also given in the guideline and can be conveyed to other projects.
PEA
24
12. PEA
12.1. Description
“During the last years the costs for fossil energy resources are heavily increasing. Even though
the prices for these resources will not be rising to ever new peaks it is obvious that they will remain
on a high level and in medium and long term rise continuously. Consequently, the costs for public
services, such as transportation or the provision of heat and electricity, are rising as well. This
situation is creating the necessity to explore alternative energy sources, especially regenerative
energies. With this a real alternative for the exploitation of so far not profitable fossil energy sources
can be generated. Another approach to absorb rising costs is to critically question the status quo of
energy consumption in order to be able to use existing energy saving potentials and find new ways
for energy saving. Rising energy costs are contributing to a steadily increasing financial pressure for
public utilities. These are the initial thoughts behind the PEA project.”4
12.2. Main Outputs
Strategies for regional energy production
and demand
Baltic Energy Compendium with restructuring and modernization processes in the public energy sector
Training concept with modules for energy related personnel
Achievements of EU 2020 targets
20 % increased share of renewable energy
20 % reduction of greenhouse gas emission
20 % improvement of energy efficiency
4 http://eu.baltic.net/Project_Database.5308.html?&&contentid=33&contentaction=single
© PEA
PEA
25
12.3. Contribution to an Eco Region
Strategies for regional energy production and demand were transnational promoted by Bioenergy Promotion. Additional strategies from other perspectives can widen the range of Bioenergy Promotion. Usable in practice are these strategies by REMOWE producing energy out of regional waste supply. Moreover Urb.Energy is able to integrate regional energy production into the sustainable neighbourhood so that this component completes an independent urban area.
The Baltic Energy Compendium will be a guideline for restructuring and modernization processes in the public energy sector. As long as REMOWE, Bioenergy Promotion or also Urb.Energy will be instructed by public institutions or cooperate with them, this guideline can be a precious instrument regarding energy supply. Public local traffic companies in energy-conscious regions are more and more interested in transport services that are operated in sustainable manner. Thus Baltic Biogas Bus can transfer the Baltic Energy Compendium in connection with their own strategies to implement biogas buses into the public sector.
Referring to Co2olBricks, PEA similarly developed an education concept which is more general and targets the whole group of energy related personnel and hence all projects of the energy cluster.
Covenant of Mayors
26
13. Covenant of Mayors in the Cluster Energy
“The Covenant of Mayors is the mainstream European movement involving local and regional authorities, voluntarily committing to increasing energy efficiency and use of renewable energy sources on their territories. By their commitment, Covenant signatories aim to meet and exceed the European Union 20% CO2 reduction objective by 2020.”5 For a successful and holistic implementation of energy and CO2 emission reducing measures in municipalities, it is necessary that more European cities join the Covenant of Mayors.
Three partners of the Cluster Energy are member of the Covenant. The city of Niepolomice joined the Covenant in 2010, one year later the Covenant was signed by the mayor of Roskilde and the city of Hamburg already joined the Covenant in 2008. To implement an Eco Region, the Cluster Energy has chosen the Covenant of Mayors (CoM) as a corresponding instrument. Due to the large variety of expertise and range of energy topics, the different Cluster projects can serve the Covenants' focused aspects. Based on the city of Roskilde, the operating mode of the Covenant of Mayors will be shown related to the Cluster Energy working fields and the eight Cluster Energy projects:
CoM focus
Power & heating
Buildings
Transport
Planning
Public involvement
and cooperation
5 http://www.eumayors.eu/index_en.html
Cluster Energy fields
Renewable Energy
Sustainable technologies
Resource saving in buildings
Energy efficiency in urban context
© City of Roskilde, Denmark
Covenant of Mayors
27
Interview with the Mayor of Roskilde Municipality, Joy Mogensen * Summary of interview, long version is available: www.energy-cluster.info
1. Which targets has the city of Roskilde set for the use of renewable energies?
The municipality’s ‘Strategy is to reduce CO2 emissions from heating by 80% which is a
scenario which can be implemented in 10 to 20 years through different actions and actors.
Solar cells are implemented on municipal buildings at the amount of EUR 1.5 million. The EU
ELENA project contributes with support to administrative expenses. Windmills are planned
with the capacity of approx. 50 MW. Use of biomass is surveyed in cooperation with villages
outside central district heating areas. Establishing a new biogas plant is considered in
cooperation with the regional energy cluster to determine the best place (-es) for biogas in
the region with respect to transport of biomaterial and use of biogas.
2. What is the role of bio energy for reaching the target?
At the moment the biomass forms approx. 30% of the fuel in the central district heating
system. The amount of bio energy used to exchange fossil fuel is not yet calculated but will
be reported in the following accounts to the EU according to the Covenant of Mayors
agreement. In the Zeeland region biogas can be a possible solution to improve bio heating
performance.
3. Which actors and initiatives are participating in the discussion on sustainable bio energy
strategy development?
The municipality council has representatives in the board of the metropolitan area of
Copenhagen transmission company (VEKS) and in the local distribution company (Roskilde
Forsyning A/S). VEKS is a major actor to fulfil ambitions of more sustainable energy together
with power/heating plants in Copenhagen and the surroundings. The Region of Zeeland is an
© Joy Mogensen, Mayor of Roskilde © Roskilde
Covenant of Mayors
28
important actor in supporting the municipalities in the region with knowledge and
cooperation to improve their energy performance. Here at, the City of Roskilde plays a key
role in implementing initiatives towards the citizens, industry, shops, schools and institutions
in the municipality. Village councils and citizens are important to create and implement
initiatives into daily actions in the life of families in their transport, housing, maintenance,
shopping etc.
4. How do you finance the cost for the introduction of renewable energies?
Some of the expenses will be put on tariffs on district heating and power for the end-user. A
new national energy agreement seems to favour renewal fuels on behalf of fossil fuels which
might end up with lower tariffs for users of district heating. At the municipality level the EU
funds are the crucial factor. These initiatives are only implemented in case the long term
profitability of the project seems to be positive.
5. How do you reduce heating energy consumption of the existing building stock without
destroying their cultural value? This refers to buildings that are not protected historic buildings
but which are important for the look of the city.
Apart from protection of buildings registered in the national database of buildings worthy to
preserve, which is the most secured way to protect historical buildings. The local plans in the
municipality are the strongest tool to describe the image of buildings, the size and the
materials for façade, windows and roof.
6. Does any kind of certification for sustainable and energy efficient buildings exist in the
Covenant of Mayors?
Not to the knowledge of the municipality. 7. How do you engage the topic of awareness rising? Which channels are most successful?
Rising awareness is handled between employees within the environmental and climate
section together with our departments for schools, buildings and technique. It is of great
interest for the municipality to mobilize the end-user in the effort to motivate to a more
sustainable living. Our dialog with citizens, shops, private companies, authorities and other
municipalities gives the base to find solutions on the present needs for creating initiatives for
a more sustainable life and governance of the city.
Covenant of Mayors
29
The interview questions are compiled by all eight cluster projects.
8. What advantages do you have gained since the beginning of sharing the Covenant of Mayors?
The Covenant of Mayors have made us focus on ways to gain knowledge, to cope with
challenges in implementing solutions with citizens and companies and sharpen our
cooperation with the companies where we are in the boards to urge for back up to the
municipality politics. Until now the efforts have not shown any decrease in the CO2 emissions
but the efforts goes on as it is well known, that if changes may take time the measurable
results surely takes more time.
9. What factors are most critical for the implementation of an energy strategy?
The municipality’s possibilities to implement activities in this broad field are critical due to
our ability to motivate local actors in joining the tasks to support the municipal goals in their
daily life. Another critical factor is the existence of national (and maybe international)
agreements on climate reductions with the status of minimum standards, which will direct
the national legislation into fulfilment of the agreements. From this point the national
legislation or directives are of great use for the municipalities in case the initiatives are well
coordinated with the national politics on tariffs, incentives and taxes. The knowledge of the
existing technical systems of production and distribution and consumption of heat and power
is crucial to the understanding of today's challenges, tomorrows actions and future solutions.
10. How do you think more municipalities can be convinced to start with renewable energies and
participate in the Covenant of Mayors?
I think that the present initiative on Cluster energy contributes to gather knowledge and
cooperate on solutions on the great, broad variations of tasks in which the municipality has
to manoeuvre to create results on CO2 reductions in the city. Inspiration from universities,
professionals and practical orientated authorities is good to broaden experiences and share
knowledge. Such activities can be of great inspiration and motivation for others to join the
covenant in the challenge to cope with problems, achieve knowledge, implement solutions
and achieve reductions in climate change. EU projects and funds are crucial to start
cooperation, support dialog, exchange experiences and implement solutions between actors
and participants with knowledge and motivation.
Summary
30
14. Summary
In the Cluster Energy each project can build connections to the other projects through its outputs, its strategies and its further proceeding. Under the focus of sustainability and energy efficiency the Cluster Energy covers the fields of construction and refurbishment of buildings and building heritage, waste to energy production, transport and infrastructure as well as renewable power generation and its specific technologies. The Cluster Energy strengthens potentials in the region to trigger new competences, business opportunities, investments and new jobs. The Cluster Energy retrospectively draws conclusions and evaluates projects processes, outputs and synergies in the final phase of the funding period.
Opportunities and growth in the Baltic Sea Region
The regional labour market of Baltic Sea Region can extend by knowing and using regional resources, competences and technologies. Out of demographic development possibilities have to be created for ensuring employment and preserving qualified staff in the BSR. Following fields have to be considered regarding a persistent economic growth in the BSR
creating employment
preserving value added chain in the Baltic Sea Region
using high density of universities in the BSR as innovation medium in cooperation with regional economy – “economy meets science”
gaining from potentials to form an innovation strategy in the BSR (“InnoBSR”)
Summary
31
Cluster Energy network for green economic growth
During the Cluster Energy work excellent competences of all cluster partners led to new co operations. For instance Longlife takes part in the advisory board of the Co2olBricks Project. New partnerships within the Cluster Energy have been built and new project proposals have been drawn up for the future. The common platform through the collaboration of the eight Cluster projects will be sustained and contribute to the expanding of the Covenant of Mayors.
Our proposal to develop an Eco Region
The target of an Eco Region is to establish green growth in means of economic, ecologic and social aspects in a bordered region. Moreover, the Cluster Energy Eco Region is defined by the existence of the combination of fields of competences to foster a strong economic performance of the set region: renewable energy, energy efficiency in urban context, resource saving in buildings and sustainable technologies.
Summary
32
Cluster Energy products as possible investments in an Eco Region
4 Supply for power and heating
2 Refurbishments of cultural heritage buildings
and housing stocks
F
1 Training for engineers, architects and regional labours
F
4 Supply for power and heating F
5 Public transport systems F
4
3 Longlife buildings F
Summary
33
1) Education in form of training modules will strengthen the regional labour market, assumed that local employees participate at prepared courses. Currently Co2ol Bricks, Longlife, PEA and Baltic Biogas Bus have worked out training modules for planers, engineers, technician and craftsmen. To reach the target of creating an Eco Region as a compound of the different facets of cities and regions, an education program with all Cluster partner’s knowledge is needed.
2) The energetic refurbishment of building stock contributes to energy savings in cities. In order to realize the savings, Urb.Energy delivered strategies and Co2ol Bricks delivered methods and suitable technologies. For cultural heritage buildings, Co2olBricks developed qualified products like wall heatings for internal refurbishments. Urb.energy dealed with energetic improvements of external building elements. The usage of regional materials and renewable energy out of PEA’s regional analysis improves sustainability in the Eco Region.
3) The construction of new residential sustainable buildings will be implemented with the help of Longlife Prototype Catalogue; eco-innovative technologies can be added by SPIN. A certification by the Longlife Performance Pass is also possible. Information about advantageous regional resources and subsequent installed technologies are adequately given through PEA’s regional analysis.
4) Corresponding technologies and infrastructures have to be supplied for regions with sustainably produced energy. SPIN’s eco-innovative technologies register technologies to produce energy, but also heat. Small producing units come along with the EU request for decentralized energy supply. PEA intends public investments into individual units like photovoltaics or wind turbines. Similarly the reuse of waste for the production of energy contributes to an Eco Region and is treated in the project REMOWE. Infrastructure for the transport of bio-waste from e.g. buildings to power stations has to be considered. PEA provides for the Eco region technical innovations and raises the of energy efficiency while reduction of costs for electricity, heat and transport via implementing renewable energy. Bioenergy Promotion provides the Eco region with a free of charge marketing and networking platform for bio energy producers and consumers.
5) Public transport as an important sector of an Eco Region has to be provided with renewable energy and its energy efficient implementation. The project Baltic Biogas Bus offers a transport plan with biogas driven buses. Under certain conditions the Eco Region will be able to supply the busses with its own produced biogas supported by the projects REMOWE and SPIN.
Summary
34
Feasible investments of Cluster Projects in order to implement the above mentioned products of an Eco Region are listed under the types accessibility, education, infrastructure and others. Type of project investment: Accessibility
Accessibility investment Estimated financial investment in EUR
Estimated CO2 reduction
SPIN SPIN Innovation Database Eco-innovative technologies register technologies
20.000 -30 %
Bioenergy Promotion
Virtual brokerage platform Marketing and networking platform for bio energy producers and consumers
10.000 -20 % (indirect)
Type of project investment: Training and further education
Education/ Training course investment
Estimated financial investment in EUR
Estimated CO2 reduction
Longlife Green Construction
20.000 -30 % (indirect)
SPIN Innovative technologies for experts, enterprises, researchers
20.000 -20 % (indirect)
Baltic Biogas Bus
Regional benefits of biogas 20.000 -20 % (indirect)
PEA Qualification of energy related personnel
20.000 -25 % (indirect)
Summary
35
Type of project investment: Infrastructure
In Appendix 2 one product of every Cluster Energy project is represented in context with the
corresponding main outputs. Specific product data are mentioned in the figure as well as the
connection to an advisor who supports the implementation of those products which cause the
highest economical and ecological benefit in a set region.
Infrastructure investment Estimated financial investment in EUR
Estimated CO2 reduction
Longlife Prototype Catalogue and Longlife Performance Pass Catalogue of materials, elements and technologies; Quality seal for buildings
100.000 -30 %
SPIN National contact points for SMEs for small and medium enterprises in the Baltic Sea Region
10.000 /
Baltic Biogas Bus
Biogas service station Filling and service station for biogas buses
1.600.000 -30 %
PEA Vacuum solar collector system
Energy production through solar energy
40.000 -20%
Summary
36
Type of project investment: Others
Other investment Estimated financial investment in EUR
Estimated CO2 reduction
Longlife Longlife Building (net floor area approx. 1300 m², DE) Sustainable, resource saving, energy efficient, residential building
2.000.000 -30 %
Co2olBricks Wall heating technology for historical buildings refurbishment of external walls through internal insulation
10.000 -20 %
Baltic Biogas Bus
Biogas Bus 300.000 -80%
REMOWE Waste-to-energy-production
decentralized small and medium waste-to-energy plants
1.000.000 -50%
Urb.Energy Energetic refurbishment of
building stock refurbishment of external walls and windows, optional heating system
120.000 -30%
Summary
37
The Cluster Energy as a virtual cluster developed with their possible products a common solution to
face the EU challenges and to insure that the renewable energy is the natural choice for our future
problems considering the EU 2020 - strategy through:
Reducing greenhouse gas emissions 20% till 2020
Reducing fossil energy consumption 20% till 2020
Using renewable energy
Shared commitment to counter climate change
Enhance Baltic Sea Region market through better cooperation
Contribution for an Eco Region
The objective of the cluster initiatives is to improve the Programme's performance with view to its
relevance, effectiveness, and efficiency and to present the Programme outcomes to a broader public.
By increasing the awareness of the Programme‘s achievements, the results of the cluster initiatives
shall also be taken into consideration for the future programming period 2014-2020.
Baltic Sea Region
Cluster Energy
Collaboration Eight projects
Cluster Project
Products
20% lower CO2
emissions
20% more energy
efficiency
20% of renewable
energy
Climate change
Eco Region
Networking
Shaping the BSR into a
regional cooperation
model for the whole EU
Renewable energy
Sustainable
technologies
Resource saving in
buildings
Energy efficiency in
urban context
Longlife
SPIN
Bioenergy Promotion
Urb. Energy
PEA
REMOWE
Co2olBricks
Baltic Biogas Bus
Longlife building
SPIN Innovative Technologies Database
Bioenergy Promotion Virtual brokerage platform
Urb.Energy refurbishment
PEA Vacuum solar collector system
REMOWE waste to energy plants
Co2olBricks wall heating
Baltic Biogas Bus Service Station
Recommendations
38
15. Recommendations
Within the work of the Cluster Energy good experiences were made and results should be used for
next projects and further programmes.
1. Clustering in the programme 2014-2020 to build up a new quality
The Cluster Energy draws conclusions and evaluates projects processes, outputs and synergies in the
final phase of the funding period retrospectively.
As result of this Cluster Energy there are great chances in coordinating the cooperation between the
projects from the start of the programme for better use and dissemination of project results within a
programme. By forming the clusters at the beginning of the funding period synergies between
projects shall be organized, coordinated and monitored from the very start by a cluster manager.
The proposal forsees a Master Cluster Project as the general funding programme manager (level 1).
The programme will be subdivided into four or more clusters which are compatible to the priorities
of the recent funding programme: Energy, Water, Waste, Innovation and N.N. For better
coordination and monitoring a Cluster manager is needed in level 2. The funded projects will be
integrated thematically into the four clusters (level 3).
Recommendations
39
Cluster Manager for the Cluster quality management The Cluster Manager (CM) accompanies Cluster projects throughout the whole funding period,
monitors and manages the process of linking the projects and their results. That process includes to
check crossings in topics and results with reference to sphere of influence, level of influence and
associated groups as well as the development of a product in every cluster project that ensures the
EU 2020 targets and brought up a solution for the problems of a region. In this way synergies can be
used systematically. Cluster Energy experienced that crossings do not lead automatically to
inefficient work, as long as there are still differences in influencing factors. The absence of crossings
leads to unique selling points in a cluster. The CM is a project in itself.
Crossing topics in renewable energy
Remowe Bioenergy Promotion
PEA Cool
Bricks BBB
Urb. Energy
Longlife SPIN
Biogas production x x x
x
Biogas usage x x x
Refurbishment of housing stock
x x
Infrastructure traffic
x
Standards for energy efficient construction
x x x
Training courses
x x x
x
Recommendations
40
2. Cluster Energy Action plan test run The Cluster Energy Leader will apply for a test run, to build up an Eco City as an example for a small
Eco Region. As a model city the City of Wittenberge is chosen. The project idea is in progress.
Eco-cities forwarding a new type of energy efficient and clean model region. Increasing the efficiency
of the EU budget and maximize the EU added value through using the knowledge and
recommendations of common EU-projects by implementing their results within “from- cluster-result-
to-action-model-cities” through a test run with the City of Wittenberge6.
For the implementation a preceding phase is required. The first step will be an evaluation of current
CO2 emissions in different sectors (like CoM working fields: power & heating, transport, buildings,
etc.). Considering this state is and specify the greatest potentials in savings, the second step can be
taken: the implementation of efficient measures in means of investments.
A funding framework is needed for the implementation of future eco-regions which realize
innovative, economic and social solutions are wanted. The Cluster Energy is looking for financial
support in order to continue the fruitful Cluster Energy work.
6 A more detailed explanation can be found in the Cluster Energy policy paper on the webpage.
Recommendations
41
Improvements of further funding programmes In the field of energy the EU aims to reach defined targets. European funding programmes are
oriented at these targets and for several projects these targets are basic guidelines. But in the end of
the project an evaluation according these targets is still missing.
The Cluster Energy ask for measurable indicators of the EU 2020 targets
20 % increased share of renewable energy
20 % reduction of greenhouse gas emission
20 % improvement of energy efficiency
With defined indicators, every project, including projects which work on renewable energy, should
set a self defined target concerning the basis line of the EU strategy. The Cluster Energy already tried
to calculate its sustainability, but indicators were chosen more arbitrarily than certain and
consequently the majority of Cluster Energy projects could not be evaluated. Therefore it would be
helpful to create certain methods of measurement that will be implemented into the funding
programme. Calculations referring CO2 should already be considered in the application phase.
Rem
ow
e
Bio
ener
gy
Pro
mo
tio
n
PEA
Co
ol B
rick
s
BB
B
Urb
.En
ergy
Lon
glif
e
SPIN
20 % increased share of renewable energy
20 % reduction of greenhouse gas emission
20 % improvement of energy efficiency
“Economy meets science” should be an overriding principle in order to invest into applicable project
results that are verifiably useful in commerce. With that approach projects can demonstrate the
economic added value of their research results and involve the private sector.
Appendix 1 Glossary of the Cluster Energy
42
Appendix 1 Glossary of the Cluster Energy
The Glossary is a collection of terms and definitions concerning the Cluster Energy work and
aspects of an Eco Region with respective translations in six languages.
Originally the Glossary is an output of the project Longlife and was
modified and enlarged within the Cluster Energy to improve
international communication on a daily working level about energy,
ecology and politics.
The Glossary of the Cluster Energy comprehends currently 25 words.
EN Baltic Sea Region
Area of land and sea surrounding the Baltic Sea including parts of Germany, Denmark, Sweden, Finland, Russia, Poland, Lithuania, Estonia and Latvia
DE Ostseeraum
DK Østersølande
EE Läänemere piirkond
FN Itämeren alue
PL Region Morza Bałtyckiego
SE Östersjöregion
Appendix 1 Glossary of the Cluster Energy
43
EN Bioenergy, biofuel, biogas
Means liquid fuels and biogas gained from biomass
DE Biokraftstoff
DK Biobrændstof
EE biokütus
FN Biopolttoaine
PL Biopaliwo
SE Biobränsle
EN Certification process
To get certified by an National Green Building Council, every project has to go through a process, the one that ensures that all steps and objectives have been successfully fulfilled. It begins with the registration of the project with the GBC (usually at the planning period of the project) and ends with the certification.
DE Zertifizierungsprozess
DK Certificeringsprocedure
EE sertifitseerimise protsess
FN Sertifiointiprosessi
PL Proces certyfikacji
SE certifieringsprocess
Appendix 1 Glossary of the Cluster Energy
44
EN Cluster
The term cluster describes a business-related corporation with a common goal. Its purpose is to promote business development, add competitiveness, and often comprises a triple-helix structure: a corporation of enterprises, research institutions and public administrations
DE Cluster
DK Cluster
EE Klaster
FN Cluster
PL Klaster
SE Kluster
EN Cost efficient architecture
Is a term that refers to the economical approach to design techniques in the field of architecture. It seeks to minimize construction and operation costs by enhancing efficiency and moderation in the use of material, energy and development of space, yet it ensures high quality architecture
DE Kostengünstiges Bauen
DK Totaløkonomisk projektering
EE Kuluefektiivne arhitektuur
FN Kustannustehokas arkkitehtuuri
PL Architektura opłacalna ekonomicznie
SE Kostnadseffektiv arkitektur
Appendix 1 Glossary of the Cluster Energy
45
EN
Covenant of Mayors (CoM)
The Covenant of Mayors describes an international movement of European cities. Their mayors sign a commitment to increase energy efficiency and reduce CO2 emissions with the use of renewable energy.
DE Konvent der Bürgermeister
DK Borgmesterpagten
EE Linnapeade pakt
FN Kaupunginjohtajien yleiskokous
PL Porozumienie między burmistrzami
SE Borgmästaravtalet
EN Eco-label, quality seal
Labelling system to mark products, services or buildings that are considered environmentally friendly in one or more aspects
DE Umweltzeichen
DK Miljømærke
EE ökomärgis
FN Ympäristömerkki
PL Znak ekologiczny
SE miljömärkning
Appendix 1 Glossary of the Cluster Energy
46
EN Ecology
Ecology is the interdisciplinary scientific study of the interactions between organisms
DE Ökologie
DK Økologi
EE ökoloogia
FN Ekologia
PL Ekologia
SE ekologi
EN Energy demand / energy consumption
It is the amount of energy needed by a building to work. It can be divided according to the task to be done, for example energy demand for heating, for ventilation, etc.
DE Energiebedarf/Energieverbrauch
DK Energikrav/Energiforbrug
EE energianõudlus
FN Energian tarve/energian kulutus
PL Zapotrzebowanie na energię/Zużycie energii
SE energibehov
Appendix 1 Glossary of the Cluster Energy
47
EN
Energy efficiency
Energy efficiency is the optimal benefit of using energy, considering adequacy and ecological compatibility
DE Energieeffizienz
DK Energieffektivitet
EE energiatõhusus
FN Energiatehokkuus
PL Wydajność energetyczna
SE energieffektivitet
EN Energy performance certificate (EPC)
Energy Performance Certificates (EPCs) give information on how to reduce carbon dioxide emissions and improve the energy efficiency of a building. All houses bought, sold or rented should require an EPC
DE Energieausweis
DK Energimærke
EE energiatõhususe sertifikaat
FN Energiatehokkuustodistus
PL Świadectwo Charakterystyki Energetycznej
SE Energideklaration
Appendix 1 Glossary of the Cluster Energy
48
EN Environmental audit
Describes measurement methods to assess the environmental performance of products
DE Umweltprüfung
DK Miljørevision
EE keskkonnaaudit
FN Ympäristötarkastus
PL Audyt środowiskowy
SE Miljörevision
EN Environmental awareness
Awareness of humans of the environmental impact of their behaviour and actions
DE Umweltbewusstsein
DK Miljøbevidsthed
EE keskkonnateadlikkus
FN Ympäristötietoisuus
PL Świadomosć wpływu na środowisko
SE miljömedvetandet
Appendix 1 Glossary of the Cluster Energy
49
EN Greenhouse effect
The natural process of the atmosphere retaining sun energy on earth and reducing transmission of heat
DE Treibhauseffekt
DK Drivhuseffekt
EE kasvuhooneefekt
FN Kasvihuoneilmiö
PL Efekt cieplarniany
SE växthuseffekt
EN Integrated planning
Integrated planning - joint planning, exercise to ensure the participation of different specialists and affected departments to combine all economic, social, and environmental fields in order to determine the most effective result
DE Integrierte Planung
DK Integreret planlægning
EE integreeritud planeerimine
FN Integroitu suunnittelu
PL Zintegrowane planowanie
SE Integrerad planering
Appendix 1 Glossary of the Cluster Energy
50
EN Life cycle analysis / assessment (LCA)
This is a tool or technique that analyzes the most relevant inputs related to energy and material consumption during the life cycle of a product, and its impacts. The LCA is divided into four main interdependent phases: Definition of goals and scope, life cycle inventory (LCI) analysis, impact assessment (LCIA), and interpretation.
DE Lebenszyklusanalyse
DK Livscyklusanalyse
EE elustsükli analüüs
FN Elinkaariarviointi
PL Analiza cyklu życia
SE Livscykelanalys/bedömning
EN Pilot project
Pilot project is activity planned as a test or trial to proof a concept or a principle, to realize a cer-tain method or idea(s) to demonstrate its feasibility, or to demonstrate in principle, whose purpose is to verify that some concept or theory is probably capable of being useful. A proof of concept of an idea is usually considered a milestone on the way to a fully functioning prototype.
DE Pilotprojekt
DK Pilotprojekt
EE pilootprojekt
FN Pilottiprojekti
PL Projekt pilotażowy
SE pilotprojekt
Appendix 1 Glossary of the Cluster Energy
51
EN Prototype
Prototype is an original type, form, or instance of something serving as a typical example, basis, or standard for other things of the same category. A prototype presents a technic for a functional and often simple experimental design model. It serves often as a preparation of a serial production, it can be also planned as a unique item, that presents a specific concept to examine aesthetical and ergonomical characteristics
DE Prototyp
DK Prototype
EE prototüüp
FN Prototyyppi
PL Prototyp
SE Prototyp
EN Recycling
Processing used materials into new products to reduce waste
DE Recycling
DK Recycling-genanvende
EE ümbertöötlemine
FN Kierrätys
PL Recykling / recyklizacja
SE återvinning
Appendix 1 Glossary of the Cluster Energy
52
EN Renewable energy
Type of energy obtained from constant natural sources, which for this reason are considered permanent or naturally renovated (e.g. sunlight, wind)
DE Erneuerbare Energie
DK Vedvarende energi
EE taastuvenergia
FN Uusiutuva energia
PL Energia odnawialna
SE Förnybar energi
EN Small and Medium-sized Enterprises (SME)
Small and Medium-sized Enterprises is a collective name for companies that do not exceed a certain level of size in terms of number of employees, business volume or total assets
DE Kleine und mittlere Unternehmen (KMU)
DK Små og Mellemstore Virksomheder (SMV)
EE Vastupidavus
FN Pienet ja keskisuuret (PK-) yritykset
PL Sektor małych i średnich przedsiębiorstw (MŚP)
SE Små och medelstora företag (SMF)
Appendix 1 Glossary of the Cluster Energy
53
EN Sustainability
In a broad sense sustainability is the capacity to endure. For man it is the potential for long-term maintenance of wellbeing, which in turn depends on the responsible use of natural resources. There is a wide range of measures for sustainability like cultural acceptance, feasible technologies, generationally awareness, environmentally consciousness, viable financing etc.
DE Nachhaltigkeit
DK Bæredygtighed
EE Vastupidavus
FN Kestävä kehitys
PL Rozwój zrównoważony
SE Uthållighet
EN Sustainable Energy Action Plan (SEAP)
The Sustainable Energy Action Plan is the key document of the Covenant of Mayors. It documents how the signatory is planning to reach the reduction of CO2 emissions by 2020
DE Aktionsplan für nachhaltige Energie
DK Handlingsplan for bæredygtig energi
EE Säästva energia tegevuskava
FN Kestävän energian toimintasuunnitelma
PL Plan działań na rzecz zrównoważonej energii
SE Åtgärdsplan för hållbar energi
Appendix 1 Glossary of the Cluster Energy
54
EN Thermal heat
Form of energy required to supply heating in buildings
DE Heizwärme
DK Varmekapacitet
EE soojusenergia
FN Lämpö
PL ciepło
SE värme
EN Urban waste
Waste produced by all structures in an urban area such as households, commercial, industrial and infrastructural activities
DE Städtischer Abfall
DK Byaffald
EE Linnajäätmed
FI Yhdyskuntajäte
PL odpady miejskie
SE avfall
Appendix 2 Products of the Cluster Energy Projects
55
Appendix 2 Products of the Cluster Energy Projects
Appendix 2 Products of the Cluster Energy Projects
56
Appendix 2 Products of the Cluster Energy Projects
57
Appendix 2 Products of the Cluster Energy Projects
58
Appendix 2 Products of the Cluster Energy Projects
59
Evaluation overview of project funding budget and accumulated impact for an Eco Region to
reflect the efficiency of EU funding
Listed products are existing or possible investments of the projects with estimated costs.
Cluster Project
Budget (EUR) Product Description
Product costs (EUR)
Quantity Accumulation impact (EUR)
Longlife 2.378.480 Building 2.000.000 5 10.000.000
Urb.Energy 3.714.260 Refurbishment 0 0 0
SPIN 2.937.160 Innovative Technologies Database
0 0 0
PEA 3.732.080 Vacuum solar collector system
0 0 0
REMOWE 1.583.800 Waste to energy plant
1.000.000 1 1.000.000
Co2olBricks 4.308.970 Wall heating system
10.000 1 10.000
Bioenergy Promotion
5.006.710 Brokerage platform
0 0 0
Baltic Biogas Bus
4.173.260 Service Station / city
1.600.000 8
12.800.000
TOTAL 27.834.720 4.610.000 15 23.810.000
Appendix 2 Products of the Cluster Energy Projects
60
Unanswered questions
What happens with project results after project finishing?
Who needs solutions?
Who is asking for products? Who uses the products?
Who is responsible for advertisement and sales of products?
Who implements products into practise?
Who calculates the ecological impact of project results?
Which indicators can be used?
How can a virtual cluster become a commercial partner?
The above mentioned questions are so far unanswered. With a Cluster Manager,
accompanying the cluster projects from the very start, answers will be found.
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