GLOBAL SMART GRID FEDERATION 6 th Korea Smart Grid Week International Session 21 October 2015 Paddy Turnbull - Chairman GSGF - Chairman SGI -Account Director GE Digital Energy Europe 1
Agenda 1. GSGF overview and global influences 2. An interconnected society 3. Smart grids a constantly evolving environment 4. Smart cities a perspective from Smart Grids Australia 5. Which Regulator is responsible for data? 6. The digital divide - an Irish utility business strategy as part of a national approach 2
1 GSGF Overview & Global influences 3
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Global environment Megatrends: The 4Ds High volatility low growth Geopolitical crisis Consequences of the financial crisis in 2007 Speed of innovation Digitalization Democratization Demographic change Decarbonization Constantly changing growth, leads to new business opportunities Fragmented & uncoordinated market Tension between EU 28 states Decreasing investments Still below 2007 s value Disruptive innovations create opportunities & challenges for companies and countries Tremendous change 5
2 An interconnected Society 6
The System view 7
The internet connects 1B people [ [ Social marketing emerged IT architecture virtualized ] ] Consumer Internet [ Communication s mobilized Retail & ad transformed Entertainmen t is digitized ] [ [ ] ] The 5 biggest internet companies have a greater market capitalization than the whole DAX or NASDAQ 8
Digitalization: Industrial Internet Data source Data sampling Data processing Analysis and evaluation The power of 1% Across the company GE handles over 5TB of data per day Until 2020 more than 50B machines will be connected Monitoring the blades of a gas turbine 588 GB/day Max Twitter usage in 2013 130 GB/day Move from prescriptive/reactive à predictive analysis Condition monitoring Service recommendations Reduce unscheduled downtime and increase efficiency 1% efficiency increase results in savings (over 15 years) $30B in healthcare industry $30B in aviation $27B in transportation $66B in energy sector Digitalization is democratization of software 9
Internet of Things (IoT) Drive the next productivity revolution by connecting intelligent machines with people at work 1. Intelligent Machines Leverage technology & communication to costeffectively connect machines The II Connects + 2. Big Data & Analytics Combine the power of big data, big analytics, and industry physics + 3. People at Work Connecting people any place, any way, and any time for intelligent operations = A world that works better, faster, safer, cleaner and cheaper Energy Value: Global Energy Capex $1.9T/year The first 1% annual savings equals $300B over 15 years 10
What if 50B machines become connected? Brilliant machines make the industrial environment more efficient 11
3 Smart Grids - a constantly evolving environment 12
GSGF - a global perspective 3 key work groups on hot industry topics Grid Flexibility (led by SG France) Cyber Security(led by India SG Federation) Large scale storage (led by Japan Smart Community Alliance) 13
The Smart Grid is complex! Highly connected 14
Smart Grids: Converging IT and OT Information Technology Operations Technology Smart Grid Technology Enterprise Systems Web Applications AMI DSM OMS GIS Control Systems Protection Systems Cyber Secure 15
The paradigm shift in the power sector demand drives generation à generation drives demand Load Power [MW] 12000 10000 8000 6000 4000 2000 0 0:15 1:45 3:15 4:45 6:15 7:45 9:15 10:45 12:15 13:45 15:15 16:45 18:15 19:45 21:15 22:45 Time [hh:mm] Power demand (Elia area, September, 25, 2013) 16
Where we will match supply and demand country Regional level industrial sites homes city Source: 3M will influence the electricity infrastructure. 17
Active grids copper based power grid optimized topology power electronic devices control & software layer fault management network reconfiguration self-healing procedures forecasting, modeling and planning communication layer requirements of bandwidth, realtimeliness, Quality-of-Service, dependability, costs, different heterogeneous communication technologies 18
4 Smart Cities a perspective from Smart Grid Australia 19
Energy use in cities Historically: Centralized supply Remains important in smart city context Large energy needs with space limitations 20
Smart Cities Economic and social development + sustainability The broader picture is smart city not smart grid Smart energy is a key enabler of a smart city Without smart energy no smart city For a smart city, smart energy means sustainability Energy industry key to a smart city Smart city = collaboration 21
Smart Cities Some countries have active Federal Smart City policies - (China, India, Singapore) Some countries have leading city developments (USA, Netherlands) Most countries have scattered approaches around leading cities. ISGAN/GSGF (and members) focus on national government not City government More bi-partisan support at a city level Policy leadership is needed industry will do most of the rest 22
Smart Cities Most cities no budget for smart infrastructure. Cities can show policy leadership to attract investments Mayor key person to bring the city along Industry can develop a smart city platform PPPP - Public Private People Partnership Can ESCos lead this charge? City-as-a-service change CAPEX into OPEX 23
Smart Cities Energy sector a key anchor tenant to a smart city Take the initiative to establish the industry platform Key partner to most other parties (collaboration, sharing) Telecom industry key partner (or otherwise competitor) OTT 3 rd partner (and competitor to both) best positioned for smart city Smartest city the one with the best Apps 24
5 Data Privacy - which regulator is responsible for data? 25
DSOs role in data management 26
6 The digital divide - how the problem is being solved in Ireland to create a business opportunity 27
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ESB vision for an Integrated Grid Information Flow Renewables & Clean Generation Smart Network Smart Metering Connected Home Distributed Generation & Electric Vehicles Energy Flow The Integration of resilient Energy Infrastructure, Communication Networks & Information Technology 29
Smart homes & smart cities: system integration The utility of the future will strive towards full system integration: heating, gas, electricity and data! Electrification of transportation Electric heating/cooling Smart Appliances Electricity Fuel Thermal Data 30
The Importance of Fast Internet Targets - EU & Ireland By 2020, download rates of 30Mb for 100% of population and at least 50% of population using 100Mb Irish Government - Fibre to 90% of the population and wireless broadband to remaining 10% Given present initiatives, these targets will not be met in Ireland 31
The Importance of Fast Internet Historically Towns needed canals, railways, electricity, motorways now they need fast broadband Personal : e.g. Quad play, working from home Business : e.g. SME growth in rural Ireland Investment, jobs and growth in an open economy but Regional Ireland has poor broadband, with fast internet only available in cities 32
Digital Divide 1.25m fixed BB connections in Ireland but 36% less than10mbp/s Copper connections can give up to 70-100Mbp/s (download only) Cable connections (Dublin) can give up to 240Mbp/s (download only) Fibre (100%) Fastest broadband in Ireland 1,000Mbp/s (1Gbp/s) HD film (4GB) : 32 seconds download Regular film (2GB) : 16 seconds 200 photos (2MB each) : 3 seconds 100 songs (4MB each) : 3 seconds 33
What is the FTTH project? a step change in Irish Communications ESB/VF Joint Venture 50 Towns Half a million homes and businesses 100% fibre networks delivering speeds of 1Gbp/s (1,000Mbps) Large capital investment ( 450m) Transformational 34
Fibre & Electrical Infrastructure Existing Telecommunications Infrastructure New Fibre New Fibre New Fibre Core Network Local Exchange Street Cabinet Footpath Customer 38kV Station 10/20kV Substation Mini-pillar 35
ESB Networks Maps High Voltage (HV) Stations (c.700) Medium Voltage (MV) lines (c.91,000 km) ESB Fibre Optic Network (c.2,000 km) Metropolitan Area Network (Government owned fibre in 90 towns) Low Voltage (LV) lines not displayed (c.70,000 km) 36
Next Steps.Branding Create a new brand for the new company ESB and Vodafone joint venture 37
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Conclusions.. so far Renewable energy sources are causing a paradigm shift in the power sector Generation will drive demand Volatile power flows in the electricity system New transmission and distribution infrastructure needed. TSO-DSO coordination will be key. Increased role for flexibility Storage (batteries, PHS), demand-side management, Integration of energy systems will change the picture Evolution of smart cities is a key driver Market opportunities from merging comms and energy provision in an increasingly interconnected society 39