Smart Grid Panel: DTE Energy Experience using CIM in

Transcript Smart Grid Panel: DTE Energy Experience using CIM in

DTE Energy CIM Experience
CIM Role in Smart Grid for Transmission and
Distribution
EPRI Conference, Washington DC
08-Sep-2010
Focus of discussion…
• Fast forward -- DTE Energy background
• Strategy -- key factors, gaining acceptance, and moving
forward
• Implementation -- experiences with project teams
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DTE Energy Overview: Facts and Figures
Company Name:
DTE Energy Co. (NYSE:DTE)
Corporate Headquarters: One Energy Plaza
Detroit, Michigan 48226
Chief Executive Officer:
Anthony F. Earley Jr.
Employees:
11,000
Financial Information:
Revenue
Net Income
Market Cap
Assets
Avg. Shares Outstanding: 165 million
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$8 Billion
$530 Million
$7.4 Billion
$24 Billion
DTE Energy Overview: Business Segments
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DTE Energy Overview: Interesting Facts
• 10th largest electric utility and the 11th largest gas utility
• License application filed to commission a new Nuclear plant
• Investing $1 billion in biomass, solar, wind and other
renewable energy sources
• Contributions of nearly $7 million to non-profit organizations
• Currently operating in 26 states
• U.S. Department of Energy grant of $84 million will
accelerate our Smart Grid program
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SmartCurrentssm = The Future of
Energy
SmartCurrents = Data
-Connected Model
-Equipment Specifications
-Continuously updated mapping data
SmartCurrents = Customer Satisfaction
-Shorter, less frequent outages
-Control of home energy consumption and cost
-Wind Power, Solar Power, and Electric Vehicles
SmartCurrents = Job Satisfaction
-Dispatch direct to trouble locations
-Reduced patrol time, particularly at night or in bad weather
-Better operating maps and mapping products
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Smart Grid Investment Grant Project Scope
A two year project within the SmartCurrents program
AMI
• 660,000+ meters
• Rollout begins in Oakland
County and continues in
the surrounding areas,
including the city of Detroit
• DECo offers OpenWay AMI
solutions from Itron
Smart Home
• Smart appliances to 300
customers
• In-home displays (IHD) to
3,600 customers
• Programmable Thermostats
(PCT) to 3,400 customers
• Dynamic pricing to 5,000
customers
Smart Circuit
• 55 circuit upgrades
covering 11 substations at
3 distinct sites (Bloomfield,
Milford, Commerce Lake)
• Sites will overlap with AMI
installations in Oakland
County
• DECo offers PCTs and IHDs
from Comverge and smart
appliances
Information Technology (IT)
• 15 integrated IT systems to provide a complete and connected picture of the distribution network
• Security and Interoperability
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Continuous Improvement is one of the top
corporate priorities
Capabilities of the operationally outstanding
Capability 1: Design work to see problems
•
All work is designed so best practices are captured
and problems are evident immediately.
Capability
2: Swarm
problems
when they occur
Capability
1: Process
Design
•
Problems are immediately addressed, both to contain their
effects
from
propagating,
and to trigger problem
solving.
Failure
Mode:
Pre-specification
to
Capability
Share
ideal3:(no
gapknowledge
to ideal) where it is created
•
Knowledge generated locally becomes systemic through
shared problem solving.
Capability 4: Leaders train, coach, assist and teach
•
Leaders have to own the capability development process.
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CMI at DTE Energy: The Perfect Storm
•
•
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•
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•
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Awareness of point-to-point problem
Awareness of service oriented architecture approach
Experience with services development for AMI
Promotion to SmartCurrents IT Program Manager
CIM revelation at Charlotte
Securing DOE funding
NIST standards as driver for DOE efforts
Control over how interfaces built
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CMI at DTE Energy: The Perfect Storm
2005
Awareness
• Point to
point
problem
• soa
2007 -2008
AMI
Experience
• MDM
services 1
• MDM
services 2
2009
DOE
Proposal
• AMI >>
smart grid
• IT work
streams
- - - - - - - - - - - - - - - - 2010 - - - - - - - - - - - - - - DOE
Deal
• IT
Program
Mgmt
• App Integration
scope
CIM
• Charlotte
revelation
• Smart
grid
standards
SmartCurrents
• App
Integration
Strategy
• ESD
team
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Purpose: Describe SmartCurrents IT
approach for managing application interfaces
1. The most significant NIST standard for Smart Grid
Interoperability relevant to IT applications is IEC
61968/61970 – Common Information Model (CIM)
… and SmartCurrents IT work shall comply
2. SmartCurrents shall develop an Enterprise Semantic
Model (ESM) as the basis for all application interfaces
3. SmartCurrents shall have a centralized project team
with responsibility to ensure development of ESMcompliant application interfaces
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IT is key for smart grid through end-to-end system
integration of utility operations; CIM is focal point
of IT application interoperability standard
• “Interoperability” implies both inter-utility and intra-utility
• Most standards relate to devices, interconnection,
security, but most important to applications pertain to
semantics
Semantics: The study of
meaning; in IT, the meaning
or definition of data
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An ESM is a definition of terms, concepts, and
data that is a corporate standard independent of
any single department or application
Also known as a Canonical
Data Model; a proven pattern
for system integration
Assertions:
• The lack of an ESM results in a
proliferation of application specific data
implementations… this is the root cause of point-to-point
interfaces and “accidental architecture”
• The CIM is sufficient to provide a basis for a
comprehensive ESM that meets the needs of
SmartCurrents and DTE Energy
• Incremental integration using the ESM to define data
messages is a successful approach for ESM refinement
and application interface development
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An industry problem is point-to-point interfaces: each interface is a mapping
between two application data implementations
GIS
OMS
CIS
AMR
WMS
DMS
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The IEC 61968-1 Interface Reference Model (IRM) Provides The Framework For
Identifying Information Exchange Requirements Among Utility Business Functions
All IEC 61968 Activity Diagrams and Sequence Diagrams are organized by the IRM
Business Functions
Distribution Management
External To Distribution
Business Functions
Management
(NO)
Network
Operation
Interface
Standard: Part 3
(AM)
Records &
Asset
Management
(OP)
Operational
Planning &
Optimization
(MC)
Maintenance
&
Construction
Interface
Standard: Part 4
Interface
Standard: Part 5
Interface
Standard: Part 6
(EMS)
Energy
Management &
Energy Trading
Interface
Standard: Part 10
(RET)
Retail
Interface
Standard: Part 10
(SC)
Supply
Chain and
Logistics
Interface
Standard: Part 10
IEC 61968 Compliant Middleware Services
Interface
Standard: Part 7
Interface
Standard: Part 8
(NE)
Network
Extension
Planning
(CS)
Customer
Support
Interface
Standard: Part 9
(MR)
Meter
Reading &
Control
Electric Distribution Network
Planning, Constructing,
Maintaining, and Operating
Interface
Standard: Part 10
(ACT)
Customer
Account
Management
Interface
Standard: Part 10
Interface
Standard: Part 10
Interface
Standard: Part 10
(FIN)
Financial
(PRM)
Premises
(HR)
Human
Resources
Generation and Transmission Management,
Enterprise Resource Planning, Supply Chain, and
General Corporate Services
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CIM Users Group: CIM for Enterprise Integration
The CIM provides the basis for the DTE
Energy ESM, then we extend it as necessary
to meet situational needs
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Key Concept: Incremental Integration
- in Step With Business Needs
GIS
OMS
CIS
Semantically Consistent ESB
AMR
WMS
DMS
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CIM Users Group: CIM for Enterprise Integration
The required skills and maturity for ESM/CIMbased implementation requires a centralized
approach with our best technical people
• Provides: Needs for
application integration
or interface
• Application data
semantics
• Receives: Service and
payload design
Application
Team
(Consumer)
• Technical Architect acts
as liaison supporting
both ESM Services and
Application Teams in
realizing objectives
Enterprise
Semantic Model
ESD
Services
Team
Industry
Standards
Groups
• Requires: CIM training
• Consulting services to
assist in mapping
application to ESM
• Provides: Application
data semantics
• Receives: Needs for
application integration
or interface
• Service and payload
design
Application
Team
(Provider)
• Provides: Mapping of
application to ESM data
• ESM changes
• Standards feedback
• Implementation
specifics (ESB)
• Receives: Standards
details
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Several services now exist in our “Service
Catalog”
Service Name
Description
Producer Consumer
Team
Team
createMeterReadings
Send a request to get meter reading
data
AMI-MDM
CIS
getMeterReadings
Send a request to get readings from a
meter
AMI-MDM
CIS
disconnectMeter
Send a request to open the
disconnect switch of a meter
AMI
CIS
resetDemand
Send a request to reset demand
registers of a meter
AMI
CIS
pingMeters
Send a request to get energization
status for a list of meters
AMI
AMI
Operations
powerOutageNotification
Send a notification of a power outage
event from a meter
AMI
OMS
powerRestorationNotification
Send a notification of a power restore
event from a meter
AMI
OMS
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Services use various CIM objects
Service
Operation
CIM Object implementation
MeteringService
createMeterReading
MeterReading
MeteringService
pingMeter
MeterReading
MeteringService
resetDemand
EndDeviceControl/EndDeviceEvent
MeteringService
disconnectMeter
EndDeviceControl/EndDeviceEvent
MeterDataService
getMeterReading
MeterReading
OutageService
createdMeterOutage
EndDeviceEvent
OutageService
createdMeterRestoration
EndDeviceEvent
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Steps that the Enterprise Services
Development team followed
• Jump start session with SISCO guided our first CIM
implementations.
• Business partners, IT leadership, and development
teams participated in CIM orientation.
• Working sessions addressed services/object exchanges.
• Mapping documents created for services outlining
attributes of CIM objects. Corresponding XSDs and
WSDLs created.
• Producer and Consumer application teams built
interfaces based on the contract.
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As a result of the process, the Enterprise
Services Development team proposed CIM
changes
• Use case: Trouble ticket for reporting power problems.
– Developed new objects.
– Other attribute format changes.
• Left with our consultants to recommend changes with the
working groups.
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Retrospective – What went well?
• Availability of industry experts.
• Support from CIM community.
• CIMUg engagement.
• Centralized development team for our Enterprise
Semantic Model and services.
• Well defined and documented objects.
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Retrospective – What did we learn?
• Leadership support: getting right people involved at the
right time.
• CIM orientation provides necessary context.
• Ambassadorial approach to ensure understanding and
engagement.
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Retrospective – What should we do
differently?
• Repository of results (document management versus
searchable web).
• Assume responsibility for entire services design earlier
(error handling, SLAs, and other details).
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Retrospective – What still confuses us?
• No visibility into CIM working group.
• Confusion around implied duplication.
– Example: ‘ping’ a meter for its energization status.
MeterReading or EndDeviceControl/Event?
• How do we get the right people in the room at the right
time?
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