italy project overview the consortium · 2015-07-20 · page 4 scenario 3: optimisation of power...
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www.sunshineproject.eu Issue
August 2013
01
1. Project Overview 2. Work Packages
3. Scenarios: • Assessment of energy performances and
electronic energy pre-‐cerAficaAon ;
• HeaAng/cooling forecast and alerts; • OpAmisaAon of power consumpAon of
public lighAng systems.
4. System Architecture 5. Project events
6. Project meeAngs
7. PublicaAons
Project Overview
SUNSHINE “Smart UrbaN ServIces for Higher eNergy Efficiency” delivers innova&ve digital services, interoperable with exisAng geographic web-‐service infrastructures, and supports improved energy efficiency at the urban and building level. Specifically, SUNSHINE delivers a smart service pla2orm accessible from both a web-‐based client and from an App for smartphones and tablets. In parAcular, the SUNSHINE plaVorm will allow: 1) AutomaAc large-‐scale assessment of building energy behaviour based on data available from public services (e.g. cadastre, planning data etc.). The informaAon on energy performances will be used to automaAcally create urban-‐scale “ecomaps” to be used for planning acAviAes and large-‐scale energy pre-‐cerAficaAon purposes. 2) The previous assessment will be then used, together with localised weather forecasts available through interoperable web-‐services, to ensure opAmisaAon of energy consumpAon of heaAng/cooling systems through automaAc alerts that will be sent to the SUNSHINE App installed on the smartphone of the final users. 3) Lastly SUNSHINE will ensure interoperable control of public illuminaAon systems based on AutomaAc Meter Reading (AMR) faciliAes remotely accessible, via interoperable standards, from a web-‐based client as well as from an App for smartphones or tablets. The SUNSHINE technology will be the result of the customisaAon and integraAon of exisAng so]ware components developed by other EC-‐funded projects focusing on smart-‐city technologies, including BRISEIDE, i-‐SCOPE, and i-‐Tour.
Contents
• SUNSHINE – Smart UrbaN ServIces for Higher eNergy Efficiency • SUNSHINE is supported by the CIP / ICT Policy Support Programme Pilot Type B of the European Commission • ICT PSP IdenAfier: CIP-‐ICT-‐PSP-‐2012-‐6 • Project Start Date: 01 February 2013
• DuraAon: 36 months • Project Coordinator Raffaele De Amicis Fondazione GraphiTech | Via Alla Cascata, 56/C -‐ 38123 Trento, Italy E-‐mail: [email protected] Phone: +39 0461 283395 Fax: +39 0461 283398 Project website: www.sunshineproject.eu
Facts & Figures
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The Consortium
The SUNSHINE technology will be eventually piloted in the context of 9 sites across 5 countries, specifically: SUNSHINE will be piloted for 12 months and will target at energy and emission savings ranging, within the various pilots, from 10% to 30%, with higher savings being foreseen for pilots relying on older buildings, or equipped with older heaAng, cooling or lighAng technologies. Energy savings will be compared to a one-‐year baseline data acquired, during the first stages of the project prior to the deployment of the pilots.
Italy: 20 public buildings in Ferrara; 60 technical buildings across the TrenAno Province; 4 public illuminaAon lines in the centre of Bassano del Grappa (total of 200 illuminaAon units); 5 public illuminaAon lines in the city of Rovereto (total of 80 illuminaAon units); 3 building complexes in the area of Val di Non and their outdoor public illuminaAon systems.
Austria: 1 public mulApurpose building in Schwechat and the public illuminaAon systems in its surroundings.
Croa&a: 10 buildings owned by HEP ESCO in Zagreb and Split and the illuminaAon systems in the surroundings of one of HEP ESCO’s power plant (50 illuminaAon units).
Greece: five buildings in Lamia owned by Technological EducaAonal InsAtute di Lamia.
Malta: 2 buildings owned by Malta College of Arts, Science and Technology in Paola.
www.sunshineproject.eu
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Work Packages
WP1
• Pilot preparatory ac&vi&es • The objecAves of WP1 are to: • Precisely define the use cases to be addressed by the various pilots; • Collect requirements for the deployment of the SUNSHINE system, including: • User requirements • Training requirements • Service requirements • Hardware requirements • Data/metadata requirements
• Perform a Privacy Threat Vulnerability and Risk Analysis • Define the so]ware architecture of the whole SUNSHINE system.
WP2
• Pilot informa&on collec&on • The goal of this WP is to idenAfy, collect, and harmonise all informaAon inputs already available to support the use cases and the needs of partners and users of the SUNSHINE pilots. In parAcular, the objecAves of the WP are to: • Survey and collect data and services available; • Survey and collect of dynamic data and services available; • Edit an adaptaAon plan that specify the data transformaAon to be performed in order to provide a harmonised and seamless service infrastructure;
• Integrate the available data and services for end user evaluaAon.
WP3 • Standardisa&on, interoperability and methodologies for energy savings • The goal of this work package are: • To formalise extension of relevant standard relevant to smart-‐grid scenarios. • To propose, those extension relevant to the pilots, to the relevant standards bodies for possible changes to their standards or for creaAon of new work item proposal.
WP4
• Integra&on of SUNSHINE pilot smart urban services • This Work Package deals with the integraAon of technologies within a set of smart services for: • Meter data management; • Remote system management; • Building efficiency pre-‐cerAficaAon; • CiAzen-‐oriented communicaAon.
• AddiAonally, this work package aims at: • Delivering the integrated SUNSHINE toolkit; • Ensuring comprehensive validaAon of the system; • IntegraAng the SUNSHINE toolkit within final infrastructures for the pilot stage.
WP5
• Test bed pilots deployment and assessment • The goal of this work package is to perform the pilot stage of the project. The final SUNSHINE toolkit will be deployed in real operaAonal condiAons for each pilot and used by the final users. During the operaAonal tesAng acAvity of the use case tests, informaAon on system use will be collected both automaAcally (e.g. through system log) and manually (by the final users), through a dedicated web-‐based quesAonnaires. These will be used by users of the system to provide feedback, and through a dedicated forum that will ensure direct contact with members of the technical team.
• One of the objecAves of the task is to collect, on a monthly basis, consumpAon data from the various buildings focus of the different pilots through the online system setup by the European Commission.
WP6
• Awareness, networking and dissemina&on • The objecAves of this WP are: • To disseminate to the stakeholder community the achievements of the project through networking, social media, workshops, conferences and other tools and channels and to increase project awareness especially by the ciAzens;
• To gather feedback from relevant stakeholders through the necessary networking acAviAes; • To offer support to other work package leaders to ensure a high level of communicaAon for their acAviAes;
• To assess the impact of the project and to assess the level of achievement of the iniAal objecAves.
WP7
• Exploita&on and sustainability • The main objecAves of this work package are: • To prepare a sound and realisAc exploitaAon plan aiming at the exploitaAon of the SUNSHINE project’s results in a global scale;
• To analyse the market and assess the compeAAve environment surrounding the project; • To define the business models for the exploitaAon for the project’s main results. To analyse the viability and profitability of each business model, including the expected impact of the introducAon of SUNSHINE results in a large event environment;
• To prepare a realisAc business plan that will establish guidelines to the deployment of the SUNSHINE results focusing on technology analysis, distribuAon, markeAng, pricing and sales strategy, risks idenAficaAon and financial plan. It will be build based on various project results.
WP8
• Project coordinaAon • The objecAve of this WP, coordinated by GRAPHITECH, are: • To ensure the project goals and objecAves are met in compliance with the project work plan and to ensure high standards in terms of organisaAon and technical development;
• To manage and supervise the project and to provide guide and advice to all partners; • To deploy the management structure to ensure proper control over the projects’ acAviAes for proper implementaAon of the management strategy as well as adherence with administraAve, financial, technical requirements;
• To ensure tracking of the acAvity to ensure completely saAsfactory results and to guarantee the quality of planned milestones and deliverables with the following tasks.
www.sunshineproject.eu
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The Pilot Scenarios
The smart services proposed address the following three scenarios: • Assessment of energy performances and electronic energy pre-‐cerAficaAon ; • HeaAng/cooling forecast and alerts; • OpAmisaAon of power consumpAon of public lighAng systems. S c e n a r i o 1 : A s s e s s m e n t o f e n e r g y performances and electronic energy pre-certification
Scenario 2: Heating/cooling forecast and alerts
Target users and their needs This pilot targets building managers, planners, public administrators, and ciAzens. All these target users have their specific needs, namely: • Building managers, who need to:
• analyAcally idenAfy building stocks that need improvement of energy performances;
• define “cost-‐opAmal levels”; • accelerate energy cerAficaAon
process through a pre-‐cerAficaAon based on theoreAcal building performances compared against “reference buildings”;
• be able to access tools to analyAcally define “cost-‐opAmal levels”;
• publicly show building energy behaviour of building stocks based on analyAcal models.
• Planners, who need to: • r a p i d l y e s A m a t e e n e r g y
performances of buildings at urban scale;
• retrieve analyAcal indicators that can be used to define energy saving policies targeted to specific porAons of the city.
• Public administrators, who need to define energy-‐saving policies based on true requirement of public building stock.
• Ci&zens, who need to: • be informed about energy efficiency
of public buildings and consequent energy costs;
• in case of dwellers of public housing, to be aware of energy performances of the building they live in.
Innova&ve aspects The definiAon of a service that can provide assessment of energy behaviour of a building from exis&ng informa&on would provide a first operaAonal soluAon to the EBPD. Similarly, the operaAonal definiAon of the concept of “reference building” through a standardised protocol specifically engineered for urban informaAon models is certainly of significant innovaAve value. By providing a reference line for the average consumpAon of similar buildings it will be possible for a Facility Manager to spot and correct anomalies in Energy usage. A further innovaAon is the possibility to define pre-‐cer&fica&on of buildings. This informaAon could be then use to create online catalogues of pre-‐cerAficaAon informaAon on predicted environmental performances of public buildings. The project aims at providing a real control over consump&on at managed facili&es. The situaAonal awareness provided by “current” meter data and weather context will allow a “real” energy management and performance improvement.
Target users and their needs This pilot targets building managers, public administrators, ciAzens, and ESCOs. All these target users have their specific needs, namely: • Building managers, who need to manage the
exisAng public (and private) building stock to the highest possible level of energy performance (with best cost/performance raAo).
• Public administra&ons, that need to be able to clearly define energy-‐saving policies based on appropriate management of current public and private building stock.
• Ci&zens, who need to: • be i n f o rmed a bou t e n e r g y
preservaAon pracAces of public buildings and consequent energy savings;
• to receive automaAc alerts noAfying on changing weather condiAons that require change to serngs of cooling of heaAng systems, personalised for a specific building, for opAmal energy-‐use/comfort raAo.
• ESCOs, that need to create more sophisAcate bi l l ing mechanisms based on real-‐Ame consumpAon level and communicaAon/noAficaAon of users.
Innova&ve aspects The most important aspect of this scenario regards the possibility to improve energy performances and, above all, inappropriate use of energy within old buildings or within buildings with hea&ng/cooling systems with no automa&c control. These represent a major source of inefficiency due to their poor performances. The approach proposed leverage on ICT technology to facilitate behavioural changes through improved awareness of building manager and dwellers. The project aims at integraAng building characterisAcs with weather and meter data to gain a bePer understanding of the energy consump&on baseline for each building and to monitor the actual performance determined by the management and usage behaviours.
www.sunshineproject.eu
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S c e n a r i o 3 : O p t i m i s a t i o n o f p o w e r consumption of public lighting systems
Target users and their needs This pilot targets building managers, oficers at municìpal administraAon, ESCOs, planners, and professionals. All these target users have their specific needs, namely: • Building managers, who need to opAmise lighAng
levels of buildings within outdoor spaces minimising or curng use of illuminaAon whenever not required.
• Officers at municipal administra&on, who need to
• opAmise running and maintenance costs at city level through large-‐scale opAmisaAon of public illuminaAon n e two r k a c c o r d i n g t o r e a l requirement (reducing or curng unnecessary illuminaAon);
• access informaAon on status of the i l l um i n aAon n e two r k ( i n c l . consumpAon, failures, specificaAons etc.) through a standardised protocol;
• create “ecomaps”, which show dimmering level of illuminaAon systems at different Ames of day/night and consequent savings.
• ESCOs, that need to interface to exisAng public illuminaAon networks through standardised interface via interoperable protocols consistently over the city.
• Planners, who need to define planning strategies and prioriAes regarding public lighAng based on precise informaAon on public illuminaAon networks.
• Professionals, who need to access a plaVorm from where to access informaAon on public illuminaAon network and where to update georeferenced informaAon on new/updated lighAng systems.
Innova&ve aspects The approach proposed fosters a more op&mised use of public illumina&on according to real (variable) requirements and from a user-‐friendly centralised point of access, based on extended use of interoperable standards. The use of this approach allows integra&on of all illumina&on units with the wide ecosystem of sensors available within the area and which can be assessed and controlled via the web. The use of these protocols (specifically SAS and SES) also allows configuraAon of alerts that can be dispatched to the operators in case of parAcular condiAons, which extend beyond the public lighAng systems. In fact, through this approach, it becomes possible to configure very complex alerts that involve a variety of sensors beyond the energy management domain. For instance, an alert could be configured to inform the operator whenever environmental sensors detect, within a given geographical area (e.g. the aforemenAoned areas surrounding the stadium), poor visibility (e.g. due to fog), when illuminaAon system is dimmed, thus creaAng potenAal dangerous situaAons that would instead require serng lighAng units to their full power.
www.sunshineproject.eu Key Past Events
Events Focus
For more Informa&on about Project Events visit the project website: hPp://www.sunshiheproject.eu
SUNSHINE was present in various conferences and events in many ciAes in Europe: • CORP Conference (www.corp.at), Rome, Italy 20-‐23 May 2013 22-‐mag-‐13
• Sixth edi&on of the research conference on construc&ons, economy of construc&ons, architecture, urbanism and territorial development, Bucharest, 18.10.2013
• 2nd Annual Forum of the EU Strategy for the Danube Region -‐ Smart&Inclusive Danube Region Thema&c workshop, Bucharest 28.10.2013
• Standardisa&on OGC CEN/TC 287 FrascaA Oct-‐13
• Standardisa&on harmonisa&on EC Project Officers Brussels Oct-‐13
• CEN/TC 287 Na&onal bodies Norwegian Standards 11/12 April 2013
• Giornata nazionale CIP ICT 11 Marzo 2013 -‐ Best prac&ces and Success Cases, Roma, Italy, 11 March, 2013 (De Amicis
INSPIRE Conference 2013
Workshop on "Enhancing resilience of communiAes and territories through smart technologies" has been accepted for the INSPIRE Conference 2013.
The Conference has been held from June 23 All June 27, 2013, in the city of Florence, Italy.
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Agit25 Symposium und Expo
The Agit 25 conference has been held from July 3 All July 5, 2013, in the city of Salzburg, Austria.
GI_Forum 2013
The GI_Forum 2013 has been held from July 2 All July 5, 2013, in the city of Salzburg, Austria. Web 3D Conference 2013
The Web 3D Conference 2013 has been held from June 19 All June 22, 2013, in the city of San SebasAan, Spain.
REAL CORP 2013
The 18th InternaAonal Conference on Urban Planning and Regional Development in the InformaAon Society GeoMulAmedia 2013 has been held from May 20 All May 23, 2013, in the city of Rome, Italy.
www.sunshineproject.eu
Project Meetings
Kick-Off Meeting
Trento Meeting
The 6th and the 7th of February 2013, the kick-‐off meeAng of the SUNSHINE project has taken place in Trento, hosted by Fondazione Graphitech, the coordinator of the project.
From the 14th to the 16th of October 2013, the second project meeAng of the SUNSHINE project will take place in Trento, hosted by Fondazione Graphitech.
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Future Events
The project will be further disseminate through the parAcipaAon to:
• HFT2013 (in Berlin in December 2013), HCII2014 (in Crete, July 2014), and the ETSI
based workshops on Intelligent Transport and on Security in Q1-‐2014.
• A joint workshop with iSCOPE on the topic of security in CityGML and the prospect
of development of an ADE is being planned for April/May 2014 coincident with the
CEN TC287 and OGC meeAng in Seville (Spain).
• REAL CORP 2014. The 19th InternaAonal Conference on Urban Planning and
Regional Development in the InformaAon Society GeoMulAmedia 2013 will be held
in Vienna, Austria, from the 21 to the 23 of May, 2013.
www.sunshineproject.eu
Follow us
The SUNSHINE project is also promoted through several social networks including Facebook, LinkedIn, Twixer and YouTube. These can be accessed at the following addresses or through the QR codes next to each of the social network’s logo. Linked-‐in: hxp://www.linkedin.com/groups/Sunshine-‐Project-‐4863590 Facebook: hxps://www.facebook.com/SunshineProjectEu
YouTube: hxp://www.youtube.com/user/SunshineProjectEu
Twixer: hxps://twixer.com/sunshine_EU
Publications
Within the project, some publicaAons have been made, i.e.:
-‐ GI_Forum 2013 SUNSHINE – Smart UrbaN ServIces for Higher eNergy Efficiency Linda Dörrzapf, Manfred
Schrenk, Wolfgang Wasserburger hxp://hw.oeaw.ac.at/7438-‐7_inhalt?frames=yes
-‐ CORP 2013 SUNSHINE – Smart UrbaN ServIces for Higher eNergy Efficiency Linda Dörrzapf, Barbara Mušič,
Manfred Schrenk, Wolfgang Wasserburger www.corp.at
-‐ GI_Forum 2013 SUNSHINE – Smart UrbaN ServIces for Higher eNergy Efficiency Linda Dörrzapf, Manfred
Schrenk, Wolfgang Wasserburger hxp://www.gi-‐forum.org/
-‐ Greenplanner SUNSHINE – Smart UrbaN ServIces for Higher eNergy Efficiency www.greenplanner.it/
SUNSHINE @ Web 2.0
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