Presentation is loading. Please wait.

Presentation is loading. Please wait.

Company's Logo 10th-11th December 2009 Ganesh Sauba & Alberto Muñoz Gallego BeyWatch : Building EnergY WATCHer ICT for Energy Efficiency in Buildings.

Similar presentations


Presentation on theme: "Company's Logo 10th-11th December 2009 Ganesh Sauba & Alberto Muñoz Gallego BeyWatch : Building EnergY WATCHer ICT for Energy Efficiency in Buildings."— Presentation transcript:

1 Company's Logo 10th-11th December 2009 Ganesh Sauba & Alberto Muñoz Gallego BeyWatch : Building EnergY WATCHer ICT for Energy Efficiency in Buildings

2 Company's Logo 10h-11th December 2009 – ICT21 - EE BeyWatch Consortium Proprietary 2 Project Summary & Goals - What is BeyWatch? - Innovation areas & partners - Main Project Goals Relevant Innovation Activities - Hierarchical Agent/Supervisor Architecture - Agent & Supervisor Software Stack - BeyWatch BSS Concept Detailed & Quantified Objectives - Qualified Objectives - Smart Objectives Index

3 Company's Logo 10h-11th December 2009 – ICT21 - EE BeyWatch Consortium Proprietary 3 BeyWatch: Building EngergY WATCHer Project Summary & Objectives BeyWatch is a FP7-ICT-2007 project which covers ICT for environmental management and energy efficiency. It proposes an energy-aware and user-centric solution, able to provide intelligent energy monitoring/control and power demand balancing at home/building & neighbour level. The system will: A) Interconnect legacy professional/ consumer electronic devices with a new generation of energy-aware white-goods, where multilevel hierarchic metering, control, and scheduling will be applied (based on power demand, network conditions and personal preferences). B) Via an innovative hybrid photovoltaic/solar system, it will be able to produce hot water and energy, which will be used at home or at peak hours fed to the electricity network. The proposed system will function in a two layers hierarchy: Micro-management plane: interactive monitor/control of all the devices in the home, and RES power generation in order to achieve amortization of loads and peak suppression of small-scale power consumption. Medium-management plane: medium-level control and coordination of the energy resources at larger geographical regions.

4 Company's Logo 10h-11th December 2009 – ICT21 - EE BeyWatch Consortium Proprietary 4 BeyWatch: Building EngergY WATCHer Innovation areas & partners Reduced energy Consumption Intelligent energy-aware white goods 1 Ultra low-cost in-home communications 2 Devices monitoring & personalized control 3 Hybrid Photovoltaic/ solar home system 4 Modelling & control of power distribution in local areas 5 Business Support Systems and new business models 6 Power demand balancing Mutual beneficial contracts Contribution to standards Contribution to Energy & environmental Sustainability EU vision Reduced pollution & CO2 emission

5 Company's Logo 10h-11th December 2009 – ICT21 - EE BeyWatch Consortium Proprietary 5 BeyWatch: Building EngergY WATCHer Main Project Goals Design ultra-low energy-consumption white-goods Implement methods, techniques and services to reduce the power consumption in smart/green homes/blocks/neighbours by intelligent control of electrical devices Generate hot water and electricity from RES at building level, leading to further power savings and energy consumption/production optimisation services Elaborate business plans and BSS applications that will help the users and the providers to reach beneficiary contracts Motivate users awareness, towards less CO2 emissions on the whole energy value chain (production, transportation, distribution, supply) and cleaner environment.

6 Company's Logo 10h-11th December 2009 – ICT21 - EE BeyWatch Consortium Proprietary 6 BeyWatch: Building EngergY WATCHer Hierarchical Agent/Supervisor Architecture Home Network Energy efficient/ aware appliances Network Infrastructure User Profile Personalized Energy Control Home Network Home Network Power Distribution Network Green House with legacy and ultra energy efficient white-goods & appliances Watcher Agent Supervisor Service Center HPS/RES Hierarchical Architecture

7 Company's Logo 10h-11th December 2009 – ICT21 - EE BeyWatch Consortium Proprietary 7 BeyWatch: Building EngergY WATCHer Relevant Innovation Activities Upstream xDSL Electricity Control Low Level Drivers Embedded Operating System OS Kernel, Device Drivers Network Topology OA&M Native Applications JVM & OSGi Framework System Applications/ Bundles BSS Neighbour Pow Management GPRS Statistics Downstream PLC Access Interfaces xDSLFTTHIEEE Home Network InterfacesHome Automation Interfaces EthernetWiFiLonWorksZigBeePLCBluetooth Low Level Drivers Embedded Operating System OS Kernel, Device Drivers, Networking Protocols Network Devices User Profiles Management & UPnP Native Applications JVM & OSGi Framework System Applications/ Bundles Plug & Play Manager Service Personalisation Home Control & Automation Home Power Management AV & Voice Applications Agent & Supervisor SW Stack

8 Company's Logo 10h-11th December 2009 – ICT21 - EE BeyWatch Consortium Proprietary 8 BeyWatch: Building EngergY WATCHer Relevant Innovation Activities Utility Aggregator/ BeyWatch Supervisor BSS Aggregation Tools The User Energy Meter Energy Consumption Energy Generation Neighbourhood Energy Information Customer BSS interface & applications & Billing Information User and Service provider management BeyWatch Agent BeyWatch Agent BeyWatch Agent CPS BeyWatch BSS Concept

9 Company's Logo 10h-11th December 2009 – ICT21 - EE BeyWatch Consortium Proprietary 9 BeyWatch: Building EngergY WATCHer Relevant Innovation Activities BeyWatch M2M Architecture

10 Company's Logo 10h-11th December 2009 – ICT21 - EE BeyWatch Consortium Proprietary 10 BeyWatch: Building EngergY WATCHer Qualified Objectives 1.Study and specify the energy consumption and power demand models taking into consideration: Building/Domain type (i.e. house, office, hotel, hospital, etc) White goods power demand (i.e. heating, cooling, lighting, refrigeration, etc) User needs and requirements as a function of the season/environment conditions. Consumption, preferences and modify the operational status of the device Special requirements for various domains (i.e. health-care, elderly people, outdoors installations, etc) 2.Design and prototype three ultra-low power consumption white-products: Refrigerator (electronic controlled) Dishwasher and a washing machine (efficient management of hot water). Integrate Watcher functionality 3.Specify applicable services and develop the interconnection methods, the M2M interfaces the primitive-based communication. 4.Design and develop the BeyWatch Agent platform. Communicate with the various white-goods and energy-consuming devices Calculate and display in real-time, the instant energy-consumption of the home/domain Remote control the energy aware devices Communicate with the BeyWatch Supervisor

11 Company's Logo 10h-11th December 2009 – ICT21 - EE BeyWatch Consortium Proprietary 11 BeyWatch: Building EngergY WATCHer Qualified Objectives 5. Design and implement an intelligent user-oriented SW Agent. OSGi-compatible open programming interfaces for personalised services creation and instantiation Automatically capture/model users behaviour and preferences. Utilise the user profile to control the white goods and energy-consumption devices. 6.Design and implement the BeyWatch Supervisor system. Distributed system/platform for the management and control of energy consumption and power demand at a local/square or urban geographical level. Aggregate the lower hierarchy layer BeyWatch Agent consumption patterns Remotely control their consumption based on the network conditions, the electricity requirements forecast and the customer contract. 7.Optimize, prototype and integrate an innovative combined photovoltaic/solar (CPS) system. Produce electrical energy and hot water for the house Supply hot water to the energy-aware white goods Communicate with eth BeyWatch Agent in order to act according to energy management rules Feed the home and the public electricity network on peak hours. 8.Study, analyse, evaluate and validate the results, as well as the conduction of case studies and business models for the wider adoption of the platform and the proposed services. Perform extended energy modelling and simulation on state of the art platforms and real laboratories Creation of flexible business models and shaping of a dynamic energy market. 9. Participate and contribute in standardization efforts, special guidelines and regulations for the monitoring and control of energy consumption and power demand.

12 Company's Logo 10h-11th December 2009 – ICT21 - EE BeyWatch Consortium Proprietary 12 BeyWatch: Building EngergY WATCHer Smart Objectives ObjectiveLeading Partner IndicatorTrial Ultra-low power consumption washing machine Fagor24-hour/weekly measurementsMadrid/Paris Ultra-low power consumption dish washerFagor24-hour/weekly measurementMadrid/Paris Ultra-low power consumption refrigeratorGorenje24-hour/weekly measurementMadrid/Paris Machine-to-machine (M2M) interfacesMOVInter-devices communication/ Control of legacy devices Madrid/Paris Agent PlatformSynelixisPersonalised remote-management of appliancesMadrid/Paris Supervisor PlatformSynelixisElectricity metering/remote control of urban areasMadrid/Paris Combined Photovoltaic/Solar systemUniPa24-hour/weekly measurement of energy/hot waterPalermo/Par is Analysis/control of power distributionAdvanticaMeasurements, statistical data & simulation analysisParis Business Model SWTIDMeasurements, statistical data & simulation analysisMadrid/Paris Smart Home DemoTIDIn-home laboratory demoMadrid Integrated BeyWatch DemoEDFIntegrated BeyWatch laboratory demoParis Dissemination/Public AwarenessSigmaBrochures, web site, workshops, exhibitions Standardization ActivitiesFagorFollow/contribute to standards

13 Company's Logo BeyWatch: Building EngergY WATCHer Consumption/Generation Model Suite of Modelling Software made-up of: SynerGEE Electric Network design and analysis tool Forecaster Future demand based on history and prediction {including weather pattern} Energy Models Data files for scenarios and input conditions to be adopted 10h-11th December 2009 – ICT21 - EE BeyWatch Consortium Proprietary 13

14 Company's Logo BeyWatch: Building EngergY WATCHer Model Town Loughborough Contains a good mix of different energy user groups. It is small enough to allow construction of an asset and demand model which meets the requirements of the project. Project staff has local knowledge of the area which benefits the accuracy of the base model. Good range of dwellings - both size and age 10h-11th December 2009 – ICT21 - EE BeyWatch Consortium Proprietary 14

15 Company's Logo BeyWatch: Building EngergY WATCHer Application Single Dwelling Street Estate Town 10h-11th December 2009 – ICT21 - EE BeyWatch Consortium Proprietary 15

16 Company's Logo BeyWatch: Building EngergY WATCHer Model Town – House Distribution by Size No. of Bedrooms %No. Implied Bedsit One Two Three Four Five or more Total h-11th December 2009 – ICT21 - EE BeyWatch Consortium Proprietary 16

17 Company's Logo BeyWatch: Building EngergY WATCHer Model Town – House Distribution by Age Built Date %No. Implied Before to to to After Unknown Total h-11th December 2009 – ICT21 - EE BeyWatch Consortium Proprietary 17

18 Company's Logo BeyWatch: Building EngergY WATCHer Analysis Criteria Take-up Rate 20% 50% 100% ( Eco-Town) Scenarios Appliance Selection Frequency of Use Energy Management 10h-11th December 2009 – ICT21 - EE BeyWatch Consortium Proprietary 18

19 Company's Logo BeyWatch: Building EngergY WATCHer Model Outcome Customer Expected Savings Comparison based on BeyWatch/non-BeyWatch System Financial Energy Environmental Utilities/Service Providers Benefits from local generation Peak shavings Multi-tariff management Network loading Reduction in network size (Eco-Town) 10h-11th December 2009 – ICT21 - EE BeyWatch Consortium Proprietary 19

20 Company's Logo 10th-11th December 2009 Ganesh Sauba & Alberto Muñoz Gallego Thank You!


Download ppt "Company's Logo 10th-11th December 2009 Ganesh Sauba & Alberto Muñoz Gallego BeyWatch : Building EnergY WATCHer ICT for Energy Efficiency in Buildings."

Similar presentations


Ads by Google