Conference 2011 Conference under the patronage of the Polish National Contact Point for Research Programmes of the EU Supported by: Let s Construct Europe s Future With Innovative Buildings and Infrastructures Construction and Societal Challenges Radisson Blu Centrum Hotel - WARSAW 04 / 05 October2011 Intelligent Management System to integrate and control energy generation, consumption and exchange for European Sport and Recreation Buildings Christian Mastrodonato t D Appolonia SpA
What is SportE 2 What is SportE 2. SportE 2 will develop an approach, methodology, and technologies dedicated to energy savings in sport facilities. The main result will be a modular and scalable intelligent building management system ready for market deployment. It will have a ROI of less than 5 years and will target 30% energy and carbon emissions reductions. Another outcome will be knowledge, best practices, and guidelines that can be used by anyone. Start date: Sep 10 End Date: Aug 13
Main Ideas & Motivation Sport facilities consume massive amounts of energy and there are a lot of them in Europe INDOOR: 40.000 OUTDOOR: 30.000 1.500.000 EUROPEAN SPORT FACILITIES INDOOR: 30.000 OUTDOOR: 500.000 Some of these structures are very exciting INDOOR: 3.000 INDOOR: 15.000 OUTDOOR: 40.000 000 OUTDOOR: 450.000 000 Also, sports facilities are unique: In their energy demand profiles (timing and peaks) Usage patterns (long periods of low use and then short periods of high use sporting event) Comfort and ventilation requirements Facility characteristics (e.g. swimming pools, indoor courts, saunas) In how they are owned and managed (public and private) They can encompass large open spaces (multiple buildings, complexes, parking areas, lighting, etc.)
Main Ideas & Motivation Also if we get this right, we won t just be saving energy, we will be CHANGING BEHAVIOUR
Background The European Project SportE 2 Energy Efficiency for European Sport Facilities is bringing the concept of fitness from our bodies to our buildings. It is important, the dimension of the EU Sport and Recreation Building Stock is around 1 million and half buildings and it represents about the 8% of the overall EU 48 Buildings Sector. Because the building sector represents 40% of Europe's energy consumption, developing ICT enabled energy savings solutions for this key sector will help Europe meet its 20 20 20 targets. 1.500.000 EUROPEAN SPORT FACILITIES Sports facilities are unique in their energy demand profiles (timing and peaks), usage patterns (long periods of low use and then short periods of high use sporting event), comfort and ventilation requirements, facility characteristics (e.g. swimming pools, indoor courts, saunas, large open spaces, indoor and outdoor lighting, g, etc.). Theseaspects present the opportunity andneedforintelligent energy management actions.
Objective SportE aims at managing and optimizing the triple dimensions of energy flows (generation, grid exchange, and consumption) in Sport and Recreation Buildings by developing a new scalable and modular BMS based on smart metering, integrated control, optimal decision making, and multi facility l management. This tool will enable a new relationship and business model structure between facility managers and power providers. The SportE modules will be applicable to both new and existing structures and answer the fundamental questions of how, where, when and why energy is produced, used and grid exchanged.
Concept SportE 2 How Smart Metering Provides the capability for owners and managers to understand d how energy is being consumed by the facility. If we want to make better energy management decisions then better information is required. To have and make use of this type of information the following are required: a sensor network, communication capabilities, a database, data processing, data management, and a way to access and interact with the information. SportE 2 When Integrated t dcontrol Provides facilities with integrated control capabilities. In specific, this module will provide the software, hardware, and user interface that enables the control and management of lighting, g heating, cooling, indoor air quality and ventilation, cogeneration, and renewable energy production. Paired with the How Module, it becomes possible to enact energy management decisions from a centralised location when there is a data supported reason to do so.
Concept SportE 2 Why Optimisation i i Given smart metering data and the ability to control facility energy flows, it becomes possible to execute optimal energy management decisions. Over time and as data is collected, the Why Module will learn how a facility is operating, why current practices are not optimal, and what control actions will lead to energy savings, looking at energy prices, weather forecasting, and the planned facility usage. SportE 2 Where Multi Facility ili Management Many stakeholders own or manage more than one facility or perhaps a complex is made of multiple buildings. For these users, the Where Module will provide a multi facility management tool that will collect, analyse, and display energy demands, consumption, production, and grid exchange across multiple facilities against common metrics (e.g. kwh/m, /m, kg CO2, etc).
Results How SportE 2 will make an IMPACT By opening a market for ICT based customized solutions integrating numerous products from different vendors and offering services from design of integrated systems to the operation and maintenance phases. Market, Client, and Product Oriented Customised solutions through 4 scalable modules Ability to integrate with existing systems on site Replication Plan Development for EU wide implementation Through the establishment of a collaboration framework between the ICT and buildings and construction sectors aimed at exploiting opportunities for the development of ICT based systems in compliance with the Energy Performance BuildingsDirective. Direct links to E2B and ECTP platforms Consortium integrates whole value chain ICT Enabled Energy Audits and Assessments Development of business models and market analysis Through the radical reduction of energy consumption and CO2 emissions, in line with the policy framework for facilitating the transition to an energy efficient, low carbon economy though ICT. Up to 30% of Energy Saving Up to 30% Emission reduction Maximum 5 year ROI Case studies available for bench marking (Italy, Portugal, Spain)
With SportE 2, you can Visualise energy consumption profiles, to include when energy is consumed Identify y trends that don t make sense which may be a function of non optimal operation or poorly maintained equipment Determine if your energy contract is right for you Control your facility from one central station Implement manual or automatic control actions Develop intelligent decision making strategies. If it will rain tomorrow or if the facility will be empty or full should you be doing something different? Develop alert conditions and alert avoidance strategies Optimise facility energy management decisions Benchmark against past performance or other structures Develop facility specific performance indicators View and manage multiple facilities from one central station Save energy, reduce emissions, save money, save time
The Consortium to Realise the Idea: TEAM SportE 2 Italy: Engineering Consulting Studio di Architettura ed Ingegneria Italy: Green Design / Architecture Portugal: Smart Metering Greece: Building Management Systems Spain: Research Centre / Tech Group Italy: University (Mechanical, Thermal Measurements, Testing) Italy: Sport tfacility Owner Portugal: ESCO Spain: Sports Facility Manager (17 facilities).
Also in the consortium: Pier Luigi Marzorati! Bestresultswith the Italian Silver medal at the Moscow Olympics of 1980 Gold medal at the European Nantes of 1983 3 Times European bronze medal 1971 1975 e 1985 Best results with Cantù Basketball 2 Italian Championships 1975 1981 2 European champion s Cup 1982 1983 4 Cup of Cups 1977 1978 1979 1981 4 Korac s cup 1973 1974 1975 1991 2 Intercontinental Cups 1975 1982 Official Recognitions Since 12th September 2007 is entered in the Hall of Fame FIBA (Fédération Internationale de Basketball) In 2008, the fiftieth anniversary of European Club Competitions, was added in Eurolega to the list of European Legends 50 most important figures in the history of continental basketball. Member of the Italian Basketball Hall of Fame. Pier Luigi Marzorati 23 Seasons 693 Games 8659 Points
System Validation We will integrate and test our system at the living laboratory KUBIK provided by partner TECNALIA 500 m2 Over400 Sensors Controllable Environments Renewable energy production Realistic scenario development We will then demonstrate the SportE 2 Approach & System at three sport facilities 1. A small privately owned facility 2. A public, medium sized complex run by an energy management company 3. A large public/private facility at a school with olympic sized pool with ESCO under contract
Pilot #1: Santa Maria de Lamas, Portugal (SELF) Olympic Pool (indoor) size: 50m x 25m, depth: 1,20 to 1,80,, Capacity: 1650m3 Learning Pool (indoor) size: 20m x 6 m, depth: 1,1m, Capacity: 132 m3 2 Gyms (indoor) with one provided of electric equipment (electric bicycles, etc ) Water Heating for pools and showers Air Heating for large environments Electric Energy for indoor/outdoor lighting and electric equipment
Pilot #1: Santa Maria de Lamas, Portugal (SELF) 2 boilers fuelled with natural gas (1070KW each) Co Generation System fuelled with natural gas (130KW) Solar Thermal Panels with total area of 32m2 (annual production of 22500 KWh) According to the Portuguese legislation applied to these specific case (Co Generation Production and Selling) it has been determined that it can be injected to the electric grid a total of 50 % of the total annual electric production. The others 50 % are for the consumption of the installation in study.
Pilot #2: Rome, Italy (FIDIA) Pool (indoor) size: 25m x 16m, depth: 1,60m to 2,10m, Capacity: 760m3 Learning Pool (indoor) size: 16m x 4 m, depth: 1m, Capacity: 64 m3 1 Gym (indoor) provided of electric equipment (electric bicycles, etc ) 1 Volleyball court (indoor) size: 40m x 28m x 8m, Volume: 8960m3 2 Tennis/Five a side courts (outdoor, with changing rooms) size: 30m x 20m Water Heating for pools and showers Air Heating for large environments Electric Energy for indoor/outdoor lighting and electric equipment BiomassCo Generation System (35KW) Solar Thermal Panels with a total area 40m2 (annual production of 25000KWh) Co Generation Diesel plant (60KW) The Co Generation Diesel plant was selling energy on the grid in the past. Actually this ability is not used for economic and contractual reason but it is possible to re activate this energy exchange as soon the Italian regulation will return convenient
Pilot #3: Bilbao, Spain (EMTE) Adult Pool (indoor) size: 25m x 12,5m, depth: 1,65 to 2,10, Capacity: 578 m3 Children Pool (indoor) size: 12,5m x 6 m, depth: 0,98 to 1,1m, Capacity: 75 m3 Multisport Court (indoor) (Basketball, Football, Rhythm Gimnastic, Handball ) Stands with more than 1.400 seats Weight room (14 x 14,85 m) Multipurpose room (5 rooms) Indoor Cycling room (8,60 x 670m) 6,70 Yoga room Paddle courts (2 indoor) Tennis courts with bleachers (2 courts) Football court with bleachers (45,50 x 35 m) Indoor rock climbing Sauna Solarium
EMTE Dashboard Social Aspects
Best Practices & Lessons Learned Documented on our Webpage @ www.sporte2.eu We want to hear your experience become a Friend of SportE 2 Or perhaps our consortium partners can help you save energy
Thanks!!! Join the Team Contact the Project www.sporte2.eu christian.mastrodonato@dappolonia.it In partnership with the EC ICT Group for Sustainable Growth ec.europa.eu/ictforsg The research leading to these results has received funding from the European Community's Seventh The research leading to these results has received funding from the European Community s Seventh Framework Programme (FP7/2007 2013) under grant agreement No. FP7 2010 NMP ENV ENERGY ICT EeB 260124