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ICT4SMARTDG “ICT Solutions to enable Smart Distributed Generation”. WORK PACKAGE 2 DISTRIBUTION OF WORK. WP2 WORKING GROUPS: GROUPS A AND B. Look a at standar organization NIST, IEEE,EPRI, NEMA, GRIDWISE smart grid platform etc
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ICT4SMARTDG“ICT Solutions to enable Smart Distributed Generation” WORK PACKAGE 2 DISTRIBUTION OF WORK
WP2 WORKING GROUPS: GROUPS A AND B • Look a at standar organization NIST, IEEE,EPRI, NEMA, GRIDWISE smart grid platform etc • Look at some other experiences, California , SmartCity, eEnergy etc Most of them in WP1 stuff • Look at Different Projects related with ICT over Smart Grid SEESGEN , INTEGRAL, etc Group A EUTC, EREC, COGEN View Standarization organizations and pilots And impose Conditions to ICT over Smart Grid • Different Technologies ( technologies deployed when possible ) • specifying accessibility, • reliability, • monitoring possibilities • IPaddress needs • Write something about Bussiness benefits Group B TELCO: TELEFONICA, BT,T-SYSTEMS selection of Network and access Technologies
WP2 WORKING GROUPS: GROUPS C AND D • Requirements of availability, • fail protected , • real-time answer , • control needs, • etc • Write something about Foreseen benefits for the Electrical companies, OPEX reduction reliability of the Smartgrid, possibilities of alarms etc. Mostly Bussiness Criteria Group C Power Companies: IBERDROLA,EDF Impose Electrical requirements Group D ALCATEL,NSN,ERICSSON ICT Manufacturers identify Tecnology for final solution • devices , • OSS solutions etc ( OSS solutions as that from Nokia), • AMM from Alcatel, • any other devices • Routers from BT solution for microgrid etc
WP2 WORKING GROUPS: GROUPS E AND F • Use deployed network technology when possible • copper, Wireless, • PowerLine, Fiber • POF ( Plastic Fiber ,etc) etc) • Some other requirement • LOOK AT PROJECTS FROM FP7 RELATED with SMARTBUILDING? Beywatch, Beaware, eDIANA , INTUBE , MESSIB etc ? • Write something about Foreseen benefits for the Distributed Generation technology . Group E ACCIONA Requirements on buildings for ICT over SmartGrig (include BMS) Group F Distrib Gene Mnufacturers SAMARES and DISENCO identify and requirerments DG • Distributed generation Equipments available and requirements. • Write something about Foreseen benefits for the Distributed Generation technology . Mostly Bussiness Criteria
WP2 WORKING GROUPS: GROUPS G AND H Group G SAP,NSN Analysis and requirements of Middleware and other sw components of solutions • Probably some systems for buying and selling service of the smart Grid Distributed Generation . Front end of services • Some other Group H COGEN Social Benefits • Social Impact • Customer relationship management • Customer relñationship benefits • Emisions • etc
WP2 WORK DISTRIBUTION OVERVIEW Target: 1: Solutions Identified & Stakeholders • TASK 2.1 IDETIFICATION OF CURRENT AVAILABLE SOLUTIONS • TASK 2.2 ANALYSIS OF ICT SOLUTIONS Target: 2: Forums & Other Identified Target: 3: ICT4SMARTDG Reference Architecture Target: 4: Define Requirements to do analysis of ICT Solutions • TASK 2.3 PROPOSAL OF ICT SOLUTIONS Target 5:Proposed ICT Solutions ( NOT CATALOG, RELATE WITH BOX IN ARCHITECTURE and features) Do reference to Solutions analized • TASK 2.4 SUPPORT WP3 IN TECHNICAL FEATURES Target: 6: Consensus about advantages of ICT for Smart DG Target: 7: Integration of the final document • TASK 2.5 FINAL DOCUMENT
Targets Timeline Target: 3: ICT4SMARTDG Reference Architecture Target: 6: Consensus about advantages of ICT for Smart DG Target 1: Solutions Identified & Stakeholders 29-1-2010 Target 4: Define Requirements to do analysis of ICT Solutions Target 2: Forums & Other Identified 17-2-2010 Target 5:Proposed ICT Solutions ( NOT CATALOG, RELATE WITH BOX IN ARCHITECTURE and features) Do reference to Solutions analized 17-3-2010 Target 7: Integration of the final document 17-4-2010 30-04-2010
TASK 2.1Identification of available solutions and stakeholders • Target involved: TARGET 1 (Solutions identified and Stakeholders) • Co-leaders: TELEFONICA and SAP • Groups to take part: GROUP B (TELEFONICA, BT, T SYSTEMS), D (ALCATEL, NSN, ERICSSON) and G (COGEN) • Deadline: 29th January • Audio: 21 January • Expected inputs: 3 days before Audio
Task 2.2 Analysis of ICT Solutions • Target Involved: TARGET 2 (Fora and others identified) • Leader: EUTC • Groups to take part: GROUP A (EUTC, EREC, COGEN ) • Deadline:17-02-2010 • Target Involved: TARGET 3 (ICT4SMARTDG reference architecture) • Leader: TELEFONICA • Groups to take part: All plus specific feedback from group A • Deadline: no deadline apart from WP2 deadline. This is expected to last all along WP2
Task 2.2 Analysis of ICT Solutions • Target Involved: TARGET 4 (Define Requirements to do analysis of ICT Solutions) • Leader: IBERDROLA • Groups to take part: GROUP A (EUTC, EREC, COGEN ),C(IBERDROLA,EDF),E(ACCIONA) and F(SAMARES, DISENCO) • Deadline:17-02-2010
Task 2.3 Proposal of ICT Solutions • Target involved: TARGET 5 (Proposed ICT Solutions ( not catalog, relate with box in architecture and features; make reference to Solutions analized) • Leader: SAP • Groups to take part: B (TELEFONICA, BT, T-SYSTEMS) • ,D (ALCATEL, NSN, ERICSSON), and G (COGEN). Discussion after inputs are provided will be made among all partners • Deadline:17-03-2010
Tasks 2.4 and 2.5 Support WP3 in technical features and integartion of a final document for WP2 • Target involved: TARGET 6 (Consensus about advantages of ICT for Smart DG) • Leaders: TELEFONICA and SAMARES • Expected deadline: 17-04-2010 • Contributions: This target runs in parallel with the rest, contributions can be made at any time. 3 Control dates • 29-1-2010 • 17-02-2010 • 17-04-2010 • Target involved: TARGET 7 (Integration of a final document) • Leader: TELFONICA with some help from volunteers • Expected deadline:30-4-2010
Agenda 25 feb 2010 • OBJECTIVES ICT4SMARTDG • The general objective of this Th ematic Network (TN) is to foster and promote the development of ICT solutions which could promote large-scale integration of domestic and distributed micro-generation and therefore improve energy efficiency through the implementation of smart technology into local power grids. The TN will bring together key relevant players in the telecommunications and energy sector. Th ey will overview and provide insight of existing and new innovative ICT technologies available for smart distributed generation at domestic level, forecast steps forward that can promote large-scale implementation, identify best technical solutions available, non-technical barriers, as well as promote all TN results and conclusions as key elements to boost deployment.
ICT4SMARTDG Objectives • The general objective of this Thematic Network (TN) is to foster and promote large-scale integration of domestic and distributed micro generation and promote improvements in energy efficiency through the implementation of innovative ICT solutions into local smart power grids. WP2 Achieve consensus on benefits of available solutions. Project Period month 7-15 Build and expand an European forum for stakeholders for experience and information exchange and consensus building. Overview and provide insight of ICT technologies available for smart distributed generation at domestic level. Bridge knowledge gaps by interacting with key ICT, Power Generation, Distribution System Operators and the Telecoms Operators and Solutions Providers Identify and promote benefits of ICT-based solutions available in the short to medium term (2009 – 2015). DELIVERABLE 2.1 Consensus on ICT solutions for a Smart Distributed Generation at domestic level Forecast steps forward to promote large-scale implementation of ICT based solutions Identify inhibitors to large scale implementation and make targeted recommendations to overcome them. DELIVERABLE 2.2 Event meetings ( At least 3) Disseminating results to specific targeted audiences i.e., policy makers, ICT community and energy industry and increase awareness of general public. Source: Nokia Siemens Networks
ICT4SMARTDG WP2 TASKS • The objective of this WP is to seek an agreement on the benefits that ICT solutions can provide to • each of the main issues identified in the previous WP. Analysis of solutions by different criteria. Identifying benefits and viability of each solution by different stakeholders and sector. In this task we will need to establish the criteria for the analysis and comparison of the different ICT solutions. These criteria may be principally technical: telecom aspects, generation aspects and environmental aspects. Once the criteria are established we will develop between 2 and 3 workshops with the stakeholders to explore the problems and benefits of each ICT solution. WP2 Achieve consensus on benefits of available solutions. Project Period month 7-15 T2.1: Identification of current available solutions and stakeholders T2.2: Analysis of ICT solutions T2.3: Proposal of ICT solutions With the previous analysis we will make a general and strategic proposal with short, medium and long term perspective for their implementation. It could be a classification of the ICT solutions under this term perspective. But also technical barriers or shortcomings identified and possible action lines to solve or minimise them. One workshop will be organised, T2.4 Support WP3 in technical features DELIVERABLE 2.1 Consensus on ICT solutions for a Smart Distributed Generation at domestic level T2.5 Final document DELIVERABLE 2.2 Event meetings ( At least 3)
Planning Target: 1 Solutions Identified • 1 Solutions identified for Smart DG T2.1 ( Include Scenarios) Group D Manufacturers Group G SW and Middleware Wp1 SOLUTIONS Get more Solutions Group B Telcos Leader ? Date : 29 01 10 Result Document
Planning Target: 2 Forums & Other Identified • 2 Forums Identified , Organizations, Experiences and FP7 ProjectsT2.2 Wp1 Some Fiches , Experiences, SmartCity, ETC Group A Leader ? Date : 15 02 10 Result Document
Planning Agreement on WP2 structure and work assignment and (3) architecture • 3 ICT4SMARTDG Reference Architecture T2.2 VISION of Group A ( Only Feedback) Discussion All (Iterative) Decide Today Architecture Reference Framework and Work plan Feedback Group A Integrated in whole document Document at the end of WP2
Planning Target: 4 Define Requirements to do analysis of ICT Solutions • 4 Define requirements and do analysis of solutions T2.2 and selection GroupF( Buildings, ICT Req) Group E ( Distributed Gen Equipments) Group C ( Power companies) Group A ( Vision Forums and Experiences) Leader ? Date : 15 02 10 Result Document
Planning Target 5 : First proposal of selected solutions according Requirements • 5 Proposed ICT Solutions T2.3 ( NOT CATALOG, RELATE WITH BOX IN ARCHITECTURE and features) Do reference to Solutions analized All ( Discussion) Group G SW and Middleware Group D Manufacturers Group B Telcos Leader ? Date : 15 03 10 Result Document
Planning Target 6: First proposal of Document about advantages. Nearly continous till 30 APRIL • 6 Consensus about advantages of ICT for Smart DG. Point of view of : • Power Companies • Telcos • Manufacturers ( Hw and SW) • Institutions • etc Every Group Group H Social Benefits etc Leader ? Control Date : 29 01 10 Control of the CONSESUS part of the Document as it is the center of the WP2 Control Date : 15 02 10 Control Date : 15 03 10 Date : 08 04 10 Result Document
Agenda 25 feb 2010 • 9:30 Status Target 1- ICT Solutions Telefonica • 10:30Status target 4 – Requirements Iberdrola • 11:00- 11:30 Coffe • 11:30 Status Target 3 Telefonica • 12:30 Status Target 6 Consensus • 13:00 LUNCH • 13 45: Status Target 2 Proposed ICT Solutions • 14:30 Status Target 5 Consensus • 15:00 Conclusions
Target 1 • Draft • Identified state of the art technology communication • Some disagreement about 2 pictures
TARGET 1 • Index • Fixed and Mobile Network Communication • Fixed Network Communication for DG • Mobile Wireless communications for DG at Domestic Level • PLC as an option in SmartGrid DG • SATELLITE • HOME AND DOMESTIC COMM TECHNOLOGIES • SW AND MIDDLEWARE SOLUTIONS • Different layers Solutions • SOME OTHER ACTORS AND SOLUTIONS • Stakeholders identified • CONCLUSIONS AND RECOMENDATIONS
Target 1 • Solutions identified • Communications:there is different Possibilities • Consider the technology deployed Fixed and WirelessMobile • PLC is OK but only in the home network or places where no other option • Wimax seems to be for places where fixed or wireless are not available • Satellite also full accesible , but problems : price, dependent on weather, delays • Not found the Vattenfall / Emtele solution for substation communications • About Home Network Zwave, Zigbee, WiFi, 6lowpan, 802.15.4g / 802.15.4e ,HomePlug, BPL, etc • Identified in WP1 the contribution from Eutelsat
Target 1 • Technology available at the user place in the access
Target 1 • Diagram of technologies at home
Target1 • Sw Solutions, identified in WP1 , EMS Nokia. Good Solution for DG. Wind Mills? Some other DG?
Target1 • Different layer solutions. PIAM from WP1
Target1 • Other Solutions and players
Target1 • IBM SAFE SOLUTION • CURRENT OPENGRID SOLUTION • Energy Axis ¿? • BPL Solution • GE Wimax solution for rural • Needed Microgrid from BT • Some other solution from partners
Target1 • Stakeholders ¿some other? Need to relate a bit with previous solutions
Target 2 • Needed some contributions. Necessary to identify some forums, experiences and projects. Position of ICT4SMARTDG in this ecosystem
SOME REFERENCE MODELS identified NSN SmartGridPlatform E-Energy Alcatel PSERC Power Systems Engineering Research Center Cisco
Target 3 ¿Can westartonthis ? Draft Reference Framework Architecture for ICT analysis in ICT4SMARTDG Standardization Organization , Forums and Other Projects and pilots ICT BUILDINGS REQUIRMENTS PEHV Mobility APPLICATIONS (PHEV : Plug-in Hybrid Electric Vehicle) PIAM Local Home Appliances PHEV Latency parameters Billing /CRM LEGACY METERS Loss Management Technical/ non Technical SMART METERS- AMI ACCESS( Cellular, Wimax, DSL, Fiber, Cable, BPL), satellite Demand Management, smart metering , etc Data Mediation and mangement Wide Area Network General Electric Microgrid IEDS intelligentelectronicdevices DG ( Distributed Generation) NSN EMS IBM SAFE Currentopengrid EMS/dms/OMS Middleware To ICT Services Layer ICT Services layer (TISPAN-IMS ) Interface to information generated in ICT, Telco etc Remote Sensors Renewables aggregation Provisioning & Netw Monitoring Condition Monitor APPLIANCEs & UTILITIES /SDK OPEN DELIVERY SERVICE`PLATFORM MARKET PLACE FRONT END Satellite Backup communications solutions Update Equipment Status Switches Other Devices,SMART GENERATION Alarms & Triggers Mesurement Data BTMicrogrid Other devices Connection Network Other microgrids Meter Data Management Agent (MDMA) Energy Axis Communication Netw Mngmt- Control planes Cyber Security Management Restoration Control , ICT resiliance , reliability, against attacks and natural disaster Analysis Contingency, Simulation Models of the evolution of the SmartGrid and other information to Electrical Company Alarm systems (Stealing, out of order, etc) Other Interoperability Scenarios ( NIST, IEEE etc) • WP1 Scenarios • Isolated house to grid • Building to Grid • Microgrid Building-to-Grid (B2G) Industrial-to-Grid (I2G) Home-to-Grid (H2G) Transmission and Distribution (T&D) Vehicle to Grid (V2G) IMS provides building blocks allowing faster integration and deployment of IP –SIP services 36
Target 4 • Contribution form Iberdrola • Technical Requirements • PROTECTION requirements (critical) • MANAGEMENT requirements (non-critical) • The main technical requirements to be fulfilled are the following: • Generators send data to its CCG each 4 seconds • Additionally, there is a constant bidirectional communication each 30 seconds • CCG must be connected with CECRE through dedicated lines, redundant, and with a bandwidth that guarantees the correct interchange of information (typical minimum value 256 kbps). • It will have a SCADA system in case of failure. • The communication protocol for information interchange in real time between both systems will be ICCP (Inter-Control Centre Communications Protocol), and more specifically IEC-60870-6-503. TASE 2. • Needed Requirements from DISENCO and Others standard requirements Group A, and Buildings
Target 5 • On work • Who is the leader ?
Target 6 • First draft • Need more finance data from Europe • A lot of information about benefits of using Smartgrid but not on ICT for Smartgrid on DG at Domestic level • In general much more contributions needed
Target6 • Universal connectivity • First, ICT creates universal connectivity between a large variety of grid devices, specially those connected at Domestic área • Second, ICT provides new ways for real-time interaction between suppliers, distributors, and customers in the grid • Increasing the intelligence of the grid • The third trend in ICT for power is that new techniques in hardware and – even more so – in software, effectively inject intelligence into the grid. • Research in Europe: making the critical infrastructures of power and ICT work together • The networks for both power and ICT are infrastructures that are highly critical to the functioning of society today.
Target 6 • Distributed intelligence: agents and electronic markets • Intelligence in the grid involves designing innovative hardware and software components for the electricity grid, in ways that cross-cut power and ICT systems engineering. • Two such successful advanced ICT technologies are software agents and electronic markets. • Supply-demand matching reduces regulating power needs • Advanced fault detection and handling • Intelligent load shedding
Target 6 • •Power reliability and power quality . • Clearly the ICT technologies can offer the necessary intelligence over the SmartGrid , specifically DG at Domestic level environment • •Safety and cyber security benefits. • The protection against Cyber attacks is a due if IP is used as general protocol for communication between elements in The smart Grid for DG at Domestic level. Since beginning of Internet different solution has been adopted to warranty the security of the networks. So different mature solutions are available to cope with the cyber security of SmartGrid for DG at domestic Level
Energy efficiency benefits. . • ICT solution can set up monitoring and control solutions to make more feasible the balance between consumption and generation at domestic level • Environmental and conservation benefits. • ICT can set up some mechanism to make easier the control of emissions and reduce the OPEX in the Electrical Grid as it could reduce the maintenance costs establishing a way for remote control of the Grid. Operators won´t need to move • Direct financial benefits. • ICT can make available the prosumers issues , consumption and generation , visible in a more general environment of e-commerce
General Smartgrid Benefits and contribution from ICT Gridwise • Reduce peak demand by actively managing consumer demand. The ICT could manage getting the necessary data and processing it in data mining and management tools • Balance consumer reliability and power quality needs: . • ICT offer the communication, sensor, and IT sw tools needed to get this balance and reliability , getting the data at remote DER equipment in consumers and prosumers premises , and taking decisions that help to balance • Improve overall operational efficiency • By mean of ICT is possible to do all operation tasks in remote way and using the Telcos structure to collect big amount of data and support of customer ( at this case could be Electrical Companies) applications to do billing, management, provisioning etc of the Grid.
Target6 • Seamlessly integrate all clean energy technologies. • ICT make EASY the integration of New Energy Technologies
Target6 • Stake holders
Target 6 • Consumers • Through ICT have an easy way to play their prosumer role with the capacity to monitoring and control the their energy consumption and the energy generated . Accesing to the virtual Energy Providers Market • A Smart Grid for DG at Domestic Level will enable in a more easy way through ICT , a new level of consumer participation, providing consumers more control over their energy-consumption decisions. • Customers will have a clear, instantaneous picture of their energy usage.
Target6 • The eventual goal of DG, as we see it, is to “reinvent” the grid. Instead of electricity produced in large central plants and transmitted in one direction, DG through ICT gives consumers a number of benefits such as: • • a degree of energy independence • • opportunities for local control to improve security of supply • • financial optimisation • • equal or better power quality, anda cleaner environment • Ict plays an important role in monitor and control DG devices • Electricity consumers—from factory and business managers to homeowners and small business operators—will have the ability to customize their energy supplies to suit their individual needs, this will achieved specially thanks to ICT
•Utilities. • Utilities can provide more reliable energy, particularly during challenging emergency conditions, while managing their costs more effectively through efficiency and information. ICT can offer to the Utilities a way to coordinate the data collected in the electric Grid and to process in a more efficient way