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© 2009 Accenture. Todos os direitos reservados. Accenture, seu logo e Accenture “High performance. Delivered.” são marcas registradas da Accenture.7674
Roberto FalcoSenior ManagerAccenture do Brasil
19 a 21 de outubro de 2009Hotel Transamérica São Paulo, Brasil
Smart Grid: What is This and What Means to You?
Technology is Key, but Enough?
Smart Cities: Concept Turned on Reality
Q&A
Agenda
© 2009 Accenture. Todos os direitos reservados.3
Smart Grid (Modern Utility) = Reliable Grid
Reliable Grid (Smart Grid)
Electric/
Power Telecommunication
Internet Information/Data
Computing
The Modern Reliable Grid is enabled by technologies/ applications/ solutions from several industries
© 2009 Accenture. Todos os direitos reservados.4
Key Drivers for Smart Grid
� In the US, the federal Energy Act of 2007 has language that fosters the advancement of smart grid but leaves to the states to define its requirements
� Different EU countries are fostering the massive roll-out of Smart Meters by mandatory requirements
� ANEEL isssued a public hearing process to assess strategies for developing a Smart meter introduction roadmap for Brazil
� Massive investment will be needed to upgrade the transmission and distribution grid over the next 10 years – 60% of equipment to be replaced
� “The total estimated annual cost to the U.S. economy from power outages and power quality disturbances is over $100 billion…”
� Need for automation is also generated by the estimate that 50% of technical workforce are expected to reach retirement age in 5-10 years (North America)
� Plug-In Hybrid Vehicles are likely to increase the stress on the distribution network
� Future development in distributed generation will also affect the design and operation of the distribution network
� The grid will need to be able to deal with intermittency and peak shaving technologies, such as battery banks
� Peak shaving and load shifting reduce reserve requirements which reduce total energy required
� Energy efficiency can reduce energy usage thus reducing carbon emissions
� Capital deferment and distributed generation reduces the need for additional future generation or power plants
� Under rising costs of energy, customers are likely to demand a more granular level of information to reduce their bills and contribute to the conservation of the environment
� The use of more flexible pricing mechanisms, such as Time of Usage and Critical Peak Pricing, will require automation to be implemented
� Automated Meter Reading is quickly becoming obsolete and vendor support cost for old systems are likely to increase exponentially
� In the face of new capital investment, new technology, such as Advanced Metering Infrastructure may be the cheaper solution
Regulatory Mandate
Aging Grid & Reliability
Future Generation Mix/Network Management
Customer Needs/ Requirements
Environmental Impact
Technology Evolution
© 2009 Accenture. Todos os direitos reservados.5
One Size does Not Fit All!
WEF Archetypes definition and drivers:1. Aging Infrastructure – e.g. New York
Reduce cost and improve reliability
2. Island Networks – e.g. SingaporeRenewables and consumption optimization
3. Concentrated Intermittent Renewables –e.g. US MidwestNetwork stability due renewables
4. Developing Economy – e.g. Mumbai, Rio de JaneiroFight energy theft
5. Hi-Tech manufacturing – e.g. Silicon ValleyImprove power quality
6. Distributed Generation and Storage – e.g. Flanders, BelgiumIncorporate renewables and optimize consumption
7. Enhanced Resilience – e.g. New Orleans, North-east ChinaIncrease reliability (severe weather) and power quality
© 2009 Accenture. Todos os direitos reservados.6
Smart Grid – Customer Value Proposition
Ability to manage and reduce costs• Lower bills by changing
when electricity is used from the grid
• Manage costs by viewing real- time consumption changes based on appliance changes
• Lower bills by allowing the smart grid to automatically adjust appliance settings
• Lower bills by participating by voluntarily conserving during extreme peak demand
Supply reliable power• Fewer power
outages• More trust in the
accuracy of restoration estimates during outages
• Reduced impact of outages with battery/backup equipment that takes advantage of time-of-use pricing
More accurate bills• No more estimated
reads• More trust in meter
read accuracy• Accurate bill
forecasts
Reduce environmental impact• Quantify
carbon-emission savings due to changes in behavior
© 2009 Accenture. Todos os direitos reservados.7
Smart Grid Definitions
• “SmartGrid” - a modern, intelligent electricity transmission and distribution system that provides better grid performance and to support a wide array of additional services to customers and the economy.
• The Smart Grid is the integration of technologies that can…- Detect and address emerging problems before they impact
service- Make protective relaying the last line of defense, not the
only defense- Respond to local and system-wide inputs; know more about
broader problems- Incorporate extensive measurements, rapid
communications, centralized advanced diagnostics, and feedback control that quickly return the system to a stable state after interruptions or disturbances.
- Automatically adapt protective systems to accommodate changing conditions
- Re-route power flows, change load patterns, improve voltage profiles, and take other corrective steps within seconds of detecting a problem
- Enable loads and distributed resources to participate in operations
- Be inherently designed and operated with reliability and security as key
- Provide system operators with advanced visualization tools to enable essential human oversight
Leading utility companies and research institutes h ave defined Smart Grid their ways
BC Hydro San Diego Gas and Electric
• A power system made up of numerous automated transmission and distribution systems, all operating in a coordinated, efficient and reliable manner.
• A power system that handles emergency conditions with ‘self-healing’ actions and is responsive to energy-market and utility business-enterprise needs.
• A power system that serves millions of customers and has an intelligent communications infrastructure enabling the timely, secure and adaptable information flow needed to provide reliable and economic power to the evolving digital economy.
EPRI - IntelliGrid
© 2009 Accenture. Todos os direitos reservados.8
An Accenture Definition: Intelligent Networks• An intelligent network uses sensing, embedded processing, digital communications, and
software to integrate network-derived information into utility processes and systems, thus making itself observable (able to measure the states of all grid elements), controllable (able to affect the state of any grid element) and automated (able to adapt and self-heal).
SmartD
Substation
SmartT
Substation
SmartT
Substation
SmartD
Substation
Grid-based renewables
Grid-based storage
NuclearPower Plant
Coal & GasPlant with CCS
Natural GasTransmission
CO2 Transport for Sequestration
Tidal Power
Hydrogen, biofuels and gasoline/diesel distribution infrastructureH2 production –
electrolysis
Direct H 2production –
Gen IV
H2 production –electrolysis
Direct H 2production –
Gen IVBio-fuels
Production
H2 production –electrolysis
Direct H 2production –
Gen IV
High TempSuperConductor
Super Grids
HVDC link to neighboring grids
CHP/District heating
network, DC Micro Grid
Embedded renewables
Embedded storage
Photo Voltaics
Heat pump
SmartSensors
AutomaticFault Isolation
Smart Buildings
Smart Homes
FaultLocation
Sensors, Smart Switches
Highly insulated housing structure
Micro generation
Photovoltaic roof tiles
Dynamic control of refrigeration and HVAC
In-house data on usage and costs
Demand side management
High efficiency appliances
Plug-in hybrid
Wind Farm
Wind Farm
FaultLocation
Generation
Transmission & Distribution
Retail
Smart Grid: What is This and What Means to You?
Technology is Key, but Enough?
Smart Cities: Concept Turned on Reality
Q&A
Agenda
© 2009 Accenture. Todos os direitos reservados.10
Technology is a Key Enabler of Smart Grid
Several advancements in technology over the past decade will allow more of the Smart Grid concept to come to reality • Sensors and two-way communications will increase
large volume of data
• Introduction of Common information standard - CIM
• New tools allowing real-time data processing• Advanced visualization tools for decision-making
support
• Key new applications such as Distribution Management System and accompanying customs
• Enhancements to existing enterprise applications within the Retail, Distribution, Generation, and Transmission areas.
• Advanced architecture, such as SOA will enable the processing and transfer of large volumes of data in near real-time to meet Smart Grid performance needs
SAP Work Management& Purchasing
PersonalManagement
Drilling Information
Collaboration
"As Is"Business Process: 3.0 Set-up New WellSub process: 3.3 Set-up Well OwnershipCompany: APCVerison 1.0, Version Date 2/28/01
3.3.2CREATE TEMP WELLFILE AND CHECKLIST
OF STEPS TOCOMPLETE D.O.
PROCESS(LAND CLERK)
R.O.W.L.DRILLING
TITLEOPINION
TITLE CURATIVES
CONTRACTS ANDLEASES FOR UNIT
PLAT (IF NEEDED)
SPACING/ POOLINGINFORMATION
3.3.5DELIVER WELLFILE TO D.O.MANAGER
(LAND CLERK)
3.3.6ASSIGN WELL FILETO LAND ADMINDIVISION ORDER
ANALYST(D.O. MANAGER/SUPERVISOR)
3.3.7REVIEW WELL
FILE FORCOMPLETENESS(LAND ADMIN)
3.3.9ANALYZE AREATO DETERMINE IFIN A PRIORITY
MARKETING AREA(LAND ADMIN)
PAPER PAPER
3.1.19TRACK PARTNERAFE RESPONSES(LAND ADMIN)
3.5.1PLACE DRILLING
REPORT WITH "FINALREPORT" STATUS ON
NETWORK DRIVE(PROD CLERK)
3.3.1SET-UP 100% APCBILLING SCHEDULE
IN EXCALIBUR(JIB)
A
B
3.3.3SEND R.O.W.L. TO
JIB(LANDMAN)
PAPER
3.3.8COORDINATE WITH LANDMANFOR MISSING FILE INFO. (LAND
ADMIN DIVISION ORDERANALYST)
3.3.4UPDATE BILLINGSCHEDULE WITH
TRUE JIBINTEREST
(JIB)
PRE-DRILL ACTIVITIES
"As Is"Business Process: 3.0 Set-up New WellSub process: 3.3 Set-up Well OwnershipCompany: APCVerison 1.0, Version Date 2/28/01
3.3.2CREATE TEMP WELLFILE AND CHECKLIST
OF STEPS TOCOMPLETE D.O.
PROCESS(LAND CLERK)
R.O.W.L.DRILLING
TITLEOPINION
TITLE CURATIVES
CONTRACTS ANDLEASES FOR UNIT
PLAT (IF NEEDED)
SPACING/ POOLINGINFORMATION
3.3.5DELIVER WELLFILE TO D.O.MANAGER
(LAND CLERK)
3.3.6ASSIGN WELL FILETO LAND ADMINDIVISION ORDER
ANALYST(D.O. MANAGER/SUPERVISOR)
3.3.7REVIEW WELL
FILE FORCOMPLETENESS(LAND ADMIN)
3.3.9ANALYZE AREATO DETERMINE IFIN A PRIORITY
MARKETING AREA(LAND ADMIN)
PAPER PAPER
3.1.19TRACK PARTNERAFE RESPONSES(LAND ADMIN)
3.5.1PLACE DRILLING
REPORT WITH "FINALREPORT" STATUS ON
NETWORK DRIVE(PROD CLERK)
3.3.1SET-UP 100% APCBILLING SCHEDULE
IN EXCALIBUR(JIB)
A
B
3.3.3SEND R.O.W.L. TO
JIB(LANDMAN)
PAPER
3.3.8COORDINATE WITH LANDMANFOR MISSING FILE INFO. (LAND
ADMIN DIVISION ORDERANALYST)
3.3.4UPDATE BILLINGSCHEDULE WITH
TRUE JIBINTEREST
(JIB)
PRE-DRILL ACTIVITIES
"As Is"Business Process: 3.0 Set-up New WellSub processes: 3.1 Set-up Drilling AFECompany: UPRVersion 1.1, Version Date 3/5/01
3.1.1RUN WELL
ECONOMICS INOGRE
(RESVR ENGR)
3.1.2TEAM MTNG TOCOMMUNICATENEED FOR AFE,
LEASE ANDWELL STATUS
3.1.3SET-UP WELLNUMBER IN
WINS(ENGR TECH)
3.1.4CREATE $0.00PENDING AFE
IN WINS(LAND SPEC)
3.1.5COMPLETE ANDPRINT AFE (LAND
SPEC)
3.1.6ENTER $0.00 AFEIN EXCALIBUR(FIN SPEC)
3.1.9APPROVE AFEBY COMMITTEE
MEETING(CROSS-DEPT)
E-MAIL,PHONE orFAX
3.1.7NOTIFY
LANDMAN AFE ISCOMPLETE(LAND SPEC)
PRINTEDINTERNAL AFE
3.1.10SEND SIGNED
AFE TOFINANCIAL SPEC
(LAND SPEC)
3.2.2SET-UP WELLNUMBER INPERC/ DIMS
(AUTO)
AUTO
3.1.8
NOTIFYENGINEERINGTECH AFE ISCOMPLETE(LAND SPEC)
SIGNEDAFE
A
3.2.1SET-UP WELLNUMBER INEXCALIBUR
(AUTO)
MARKETINGPRICE
INFORMATION
G + GFORECAST
ECONOMICFORECAST
WELL-UNITOWNERSHIP(LANDMAN)
"As Is"Business Process: 3.0 Set-up New WellSub processes: 3.1 Set-up Drilling AFECompany: UPRVersion 1.1, Version Date 3/5/01
3.1.1RUN WELL
ECONOMICS INOGRE
(RESVR ENGR)
3.1.2TEAM MTNG TOCOMMUNICATENEED FOR AFE,
LEASE ANDWELL STATUS
3.1.3SET-UP WELLNUMBER IN
WINS(ENGR TECH)
3.1.4CREATE $0.00PENDING AFE
IN WINS(LAND SPEC)
3.1.5COMPLETE ANDPRINT AFE (LAND
SPEC)
3.1.6ENTER $0.00 AFEIN EXCALIBUR(FIN SPEC)
3.1.9APPROVE AFEBY COMMITTEE
MEETING(CROSS-DEPT)
E-MAIL,PHONE orFAX
3.1.7NOTIFY
LANDMAN AFE ISCOMPLETE(LAND SPEC)
PRINTEDINTERNAL AFE
3.1.10SEND SIGNED
AFE TOFINANCIAL SPEC
(LAND SPEC)
3.2.2SET-UP WELLNUMBER INPERC/ DIMS
(AUTO)
AUTO
3.1.8
NOTIFYENGINEERINGTECH AFE ISCOMPLETE(LAND SPEC)
SIGNEDAFE
A
3.2.1SET-UP WELLNUMBER INEXCALIBUR
(AUTO)
MARKETINGPRICE
INFORMATION
G + GFORECAST
ECONOMICFORECAST
WELL-UNITOWNERSHIP(LANDMAN)
"To Be" for 2001Business Process: 3.0 Set-up New WellSub-process: 3.3 Set-up Well OwnershipVersion 1.5, Version Date 7/18/01
3.3.1PREPARE STAKE/PERMIT PACKAGE
IN WORD(LANDMAN)
3.3.4BEGIN RELEASE
OF WELLLOCATION MEMO(ROWL) IN WORD(LANDMAN/LANDEXPLORATION
SPEC)
3.3.2ORDERTITLE
OPINION(S)(LANDMAN)
3.3.3BUILD
WELL/ UNITFILES
(LANDMAN)
3.3.7EVALUATE PIPELINECONNECTIONS TOWELL, PRIORITY OFMARKETING AREA
(FIELD SERV)
A
3.3.5REVIEW JOACONTRACT
OWNERSHIP INCONTRACTS(LANDMAN)
3.3.6 REVIEW OR
CREATE CROSSREFERENCE OF
JOA TO WELL(S) INWINS
(LANDMAN)
3.3.8CAPTURE
PRELIMINARYWELL OWNERSHIP
IN ROWL(LANDMAN)
PRE-DRILL ACTIVITIES
3.1.10RECEIVE REQUESTFOR NEW WELL
DRILL AFEOWNERSHIP (LAND
ADMIN SPEC)
3.3.10ENTER LEASES AND
CONTRACTS INTO WINS;SET UP APO INTERESTS;
SET INTEREST FINAL-LANDFLAG
(LAND EXPLORATIONSPEC)
3.3.13REVIEW MKTGARRANGEMENTSET-UP FOR ANY
OWNER CHANGES(FIELD SERV)
3.3.14REVIEW JIB
DECK FOR ANYOWNER
CHANGES(JIB ACCT)
3.3.12COMPLETE ANDAPPROVE ROWL(LANDMAN/LANDEXPLORATION
SPEC)
3.3.9SEND WELL WORKINGINTEREST PARTNERSAND PERCENTAGES TOBUSINESS SERVICES(LAND EXPLORATION
SPEC)
EMAIL AND POST TO NETWORK DRIVE
3.3.15ANALYZE ROWL FOR
DRILLING/COMPLETION INFO IN
DIMS, WINS, PDB(OPERATIONS TECH)
3.1.33UPDATE FINAL
INTERESTS BASED ONPARTNERS' RESPONSESIN ROWL (LAND ADMIN
SPEC)
EMAIL 3.3.11ADD/COMPLETENACU DATA TO
ROWL(LANDMAN/LANDADMIN ANALYST)
TITLE CURATIVE,TITLE OPINIONS,
ETC.
3.3.16
3.4.1PRELIMINARY D.O.
HEADER AUTOESTABLISHED IN
DOMAIN
"To Be" for 2001Business Process: 3.0 Set-up New WellSub-process: 3.3 Set-up Well OwnershipVersion 1.5, Version Date 7/18/01
3.3.1PREPARE STAKE/PERMIT PACKAGE
IN WORD(LANDMAN)
3.3.4BEGIN RELEASE
OF WELLLOCATION MEMO(ROWL) IN WORD(LANDMAN/LANDEXPLORATION
SPEC)
3.3.2ORDERTITLE
OPINION(S)(LANDMAN)
3.3.3BUILD
WELL/ UNITFILES
(LANDMAN)
3.3.7EVALUATE PIPELINECONNECTIONS TOWELL, PRIORITY OFMARKETING AREA
(FIELD SERV)
A
3.3.5REVIEW JOACONTRACT
OWNERSHIP INCONTRACTS(LANDMAN)
3.3.6 REVIEW OR
CREATE CROSSREFERENCE OF
JOA TO WELL(S) INWINS
(LANDMAN)
3.3.8CAPTURE
PRELIMINARYWELL OWNERSHIP
IN ROWL(LANDMAN)
PRE-DRILL ACTIVITIES
3.1.10RECEIVE REQUESTFOR NEW WELL
DRILL AFEOWNERSHIP (LAND
ADMIN SPEC)
3.3.10ENTER LEASES AND
CONTRACTS INTO WINS;SET UP APO INTERESTS;
SET INTEREST FINAL-LANDFLAG
(LAND EXPLORATIONSPEC)
3.3.13REVIEW MKTGARRANGEMENTSET-UP FOR ANY
OWNER CHANGES(FIELD SERV)
3.3.14REVIEW JIB
DECK FOR ANYOWNER
CHANGES(JIB ACCT)
3.3.12COMPLETE ANDAPPROVE ROWL(LANDMAN/LANDEXPLORATION
SPEC)
3.3.9SEND WELL WORKINGINTEREST PARTNERSAND PERCENTAGES TOBUSINESS SERVICES(LAND EXPLORATION
SPEC)
EMAIL AND POST TO NETWORK DRIVE
3.3.15ANALYZE ROWL FOR
DRILLING/COMPLETION INFO IN
DIMS, WINS, PDB(OPERATIONS TECH)
3.1.33UPDATE FINAL
INTERESTS BASED ONPARTNERS' RESPONSESIN ROWL (LAND ADMIN
SPEC)
EMAIL 3.3.11ADD/COMPLETENACU DATA TO
ROWL(LANDMAN/LANDADMIN ANALYST)
TITLE CURATIVE,TITLE OPINIONS,
ETC.
3.3.16
3.4.1PRELIMINARY D.O.
HEADER AUTOESTABLISHED IN
DOMAIN
DocumentsKnowledge
Management
Planning
Process Guides
© 2009 Accenture. Todos os direitos reservados.11
Internationalstandards-developing organizations
Sources: EPRI, IEC, UCA IUG, and Accenture
Open standards are a part of the solution, but the area is confusing
Sorting Out Standards
ISO IECJTC 1
ITU JTC1 WG25 CENELEC
ANSI(US) EIA/CEMA IEEEASHRAE
SAE AHAM ASHRAESSPC135UIWG
ANSI C12Series
NAESB
NIST
National Organizations
Trade, technical,and government
UCAInternational
ZigBeeAlliance
AEIC MeterGroup
BACnet™Users
IEC61970/68CIM Users
IEC 61850Users OpenSG Utility AMI Open HAN
BACnet™MfrsEPRI IWG
IETF
Consortia and user groups
Projects EPRI Projects DOE Projects DOD Projects Other ProjectsNIST Projects
© 2009 Accenture. Todos os direitos reservados.12
Navigating the Technology LandscapeApplications and infrastructure development are occ urring in parallel
© 2009 Accenture. Todos os direitos reservados.13
Information Will Fuel the Ability to Transform
Size of installed base of smart technologies
Info
rmat
ion
volu
me
Accenture is helping utility companies by acting as the “master integrator”of this massive volume of data –and then turning this data into actionable information that will help transform utilities for the new energy economy.
Full Service Energy Services Company
Demand Reducer
Network Integrator
Current Utility Role
Information volume (post smart grid) =
846 copies of War and Peace per second
Information volume (pre smart grid) = 1 copy of Tale of Two Cities per second
© 2009 Accenture. Todos os direitos reservados.14
The Key to Handling Smart Grid Data is Transformati on via Analytics• Analytics are software tools that transform data into information
• Business Intelligence is one aspect, but for smart grids there is much more to consider
• We recognize many classes of analytics beyond traditional BI:
– Electrical and device states (traditional as well as renewables and Distributed Energy Resources)
– Power quality
– Reliability and operational effectiveness (system performance)
– Asset stress and asset utilization (for asset management)
– Customer behavior (especially in terms of Demand Response)
• We catalog over 200 analytics from our INDE tool now, with more coming !
Smart Grid: What is This and What Means to You?
Technology is Key, but Enough?
Smart Cities: Concept Turned on Reality
Q&A
Agenda
© 2009 Accenture. Todos os direitos reservados.16
Accenture Global Experience in Smart Grid• Accenture currently has 30 active intelligent network solution/smart grid engagements
across 13 countries.
Amsterdam
© 2009 Accenture. Todos os direitos reservados.17
Xcel Energy’s Smart Grid Vision• Xcel defines a smart grid as fully connected and horizontally integrated system across
multiple parts of the business leading to real-time analytics, decision-making and allow customers to actively participate in decisions on energy use
• “A smart grid covers the entire value chain –“wind to light,” or “coal to cool air”– and sees smart grid as a continuing organic evolution that includes multiple layers of functional intelligence leading to real-time analytics, decision-making, and action”
• “A smart grid is a fully connected and horizontally integrated system requires real-time and automated decision making across multiple parts of the business. It creates heightened abilities to communicate and analyze data, but also calls for considerable modernization of infrastructure along the entire pathway”
• “A smart grid must be built on a design for a fully inter-connected system that allows customers to more actively participate in decisions about their own energy use. Additionally, there are digital technologies available now that will allow the utility to reliably produce and deliver that energy through real-time, automated controls”
Definitions Concept
• Distributed generation technologies (such as wind turbines, solar panels, and plug-in hybrid electric vehicles)
• A dynamic system rich in information technology
• Decision-making data and support for peak efficiency
• Automated “smart substations”
• High-speed, real-time, two-way communications
• Sensors throughout the grid enabling rapid diagnosis and corrections
• In-home energy control devices
• Automated home energy use
© 2009 Accenture. Todos os direitos reservados.18
Smart Grid City™ Key components• Xcel defined several key components in a Smart Grid. The main are: high-speed, real-time
two-way communication network, automated substations, smart sensors, distributed energy sources and in-home energy control devices
The Smart Grid will:• Be more reliable• Be self-healing and self-monitoring• Be more secure• Be cleaner and greener• Support widespread distributed generation• Help customers better control energy use• Achieve lower throughput, thus lowering
prices
Key components of Smart Grid City are:• A dynamic system rich in information technology• High-speed, real-time, two-way communications• Sensors throughout the grid enabling rapid diagnosis and corrections• Decision-making data and support for peak efficiency• Distributed generation technologies (such as wind turbines, solar
panels, and plug-in hybrid electric vehicles)• Automated “smart substations”• In-home energy control devices• Automated home energy use
© 2009 Accenture. Todos os direitos reservados.19
INDE @ Xcel• INDE stands for “Intelligent Network Data Enterprise” and refers to the project which is
responsible for the integration of all partner solutions at Smart Grid City. The INDE-project is integrating 10 core capabilities of a smart grid in comprehensive architecture
• Receive ‘real time’operational data obtained from line sensors, grid devices and substation instrumentation
• Store operational data in Historian
Grid State Monitoring
• Detect, classify and categorize faults where if necessary sensor-equipment is available
• Determine fault location• Log en distribute fault
events and information (example Outage Management)
Fault Intelligence
• Receive and register operational data from sensors in sub-station and on power lines
• Perform specified analytics on these data
• Determine events/ trends and distribute this information to central control level
Substation Analytics
• Detect and classify outages from sensor-equipment and fault-events and information
• Log momentaries• Determine outage
extent, root cause analysis
• Log en distribute outage events and information
Outage Intelligence
• Collect residential and C&I meter data
• Store meter data in meter data repository
• Distribute meter data• Collect meter data on
request ‘near real time’(‘meter ping’)
Meter Data Collection (AMI)
• Capture event information from different sources
• Perform Complex • Event Processing
(CEP) and message filtering
• Log and distribute events and information
Event Management
• Receive and process forecast-data, VPP-data, DR-connectivity-data and customer-data
• Run system-& distribution optimization
• Distribute DR-signals and collect responses
• Receive and act upon override-signals
Demand Response
• Receive data on power-quality, environment, asset-health and-stress
• Receive and store grid connectivity from OMS
• Capture connectivity changes from switches, sensors, reclosers
• Store connectivity-snapshots periodically
Non-Operational & Meta Data Mgt.
• Visualize grid connectivity and state
• Visualize events, faults and outages
• Visualize measurements of grid-& line sensors
• Visualize different kind of reports
• Interactive by ‘drill-down’ functionality
Visualization
• Subscribe users to data event scenarios
• Look for requested event scenarios
• Notify subscribers about events via preferred communication medium
Notification Agent
© 2009 Accenture. Todos os direitos reservados.20
Smart City Amsterdam (Alliander)
© 2009 Accenture. Todos os direitos reservados.21
Amsterdam Smart City Concept
The Amsterdam Smart City program is build on 3 key principles:
• The momentum for smart energy is stopped without result if any one of the required parties in society does not cooperate
• Therefore a collective effort of activating and involving all parties is required to realize CO2 reduction
• Stimulation of behavioral change creates a demand pull for more sustainable technology
• Application of innovative technology results in a technology push towards sustainable behavior
• Economically unviable initiatives will never be applied in a large scale
• Only economically viable initiatives (for all stakeholders) are interesting to apply on a large scale and can therefore have a large CO2 impact
Solution initiation
Collective effort Tech push / demand pull Economic viability
© 2009 Accenture. Todos os direitos reservados.22
Smart City Amsterdam Focus Areas
Sustainable Living
Sustainable Working
Sustainable Municipality
Sustainable Transport
In progress
Planned
• Equip 1200 Amsterdam homes with smart meter and behavior changing initiatives
Q3 2009:• Equip the ITO
Tower (large office building) with diverse energy saving and behavior changing technology
Q3 2009: • equip all Municipal
Offices and Buildings with smart meters and diverse energy saving and behavior changing technologies
• Equip the Port of Amsterdam with 73 shore power connections for inland freighters and river cruisers
Q4 2009: • trial with 100
charging terminals for electric vehicles in the city centre
Smart GridBy introducing intelligent technology in the networ k,
Smart City aims to reduce CO2 emission.
© 2009 Accenture. Todos os direitos reservados.23Source: Templates as filled out by Smart City Participants
Impa
ct o
n go
al (
CO
2 re
duct
ion)
Feasibility
Hig
h
Low
Low
High
Priority
Medium
Med
ium
Pilot projectsConsiderNot now
Sustainable Living
SustainableTransport Climate
street
Shipping power
SustainablePublic
Service
SustainableWorking
V2G
User specified
energy mixH Eff.Heat sys.
Heat/Coldnetwork Remote
WorkingInnovativeFinancing
EnergyStorage
Readiness Evaluation Methodology• Impact and feasibility analysis leads to three stages of Smart City Amsterdam ‘readiness’
Ready to start:1. Sustainable Living2. Climate street3. Sustainable Municipality4. Sustainable Working 5. Sustainable Transport
Start further investigation:1. Commercial shipping power2. Remote working3. High efficiency heating system
Monitor developments:1. Mini Power/heat plant2. V2G3. Heat / Cold network4. Energy Storage5. User specified energy mix6. High return heating
© 2009 Accenture. Todos os direitos reservados.24
Accenture Intelligent Cities NetworkChallenges to solutions at scale
Intelligent Cities Framework
Energy Mobility Water WasteBuildings
1Strategy
2Coordination
3Initiatives
• City coordination• Local / national government
• Coordination of private sector parties• Fragmented risk and value• Uncertain business case
Public Sector
Private Sector
© 2009 Accenture. Todos os direitos reservados.25
Smart Grid Business Case Per Connection Year (15 Snapshot)
Private Sector BenefitsPrivate Sector Costs Public Sector Benefits
Public Sector Costs Opportunity Value
Private Sector Business Case Public Sector Business Case
-$500
-$400
-$300
-$200
-$100
$0
$100
$200
NPV ofOpex
NPV ofCapex
Laborreduction
Nonlaborreduction
Workingcapital
System lossreduction
RevenueProtection
CapitalDeferral
ReducedCarbon
Emissions
ReducedElectricyDemand
Comms.Effectiveness
OpportunityBenefits
Job Losses Total
Total Cost $410 Per Household
Private Deficit $100
Total Value $130
Smart Grid: What is This and What Means to You?
Technology is Key, but Enough?
Smart Cities: Concept Turned on Reality
Q&A
Agenda