April 30 2013 Robert Rowe Director of Smart Grid Overview Service Territory LIPAs Vision LIPA Experience Technology Implementation Cycle Distribution Automation Reactive Power AMI Network Model ID: 805305
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Slide1
Presents:Smart Grid as a Process and a Life Cycle
April 30, 2013
Robert Rowe
Director of Smart Grid
Slide2Overview
Service TerritoryLIPA’s VisionLIPA ExperienceTechnology Implementation Cycle
Distribution AutomationReactive Power
AMI
Network Model
DOE Projects Move Us Ahead
SGDP Overview
Slide3LIPA Service Territory (Nassau / Suffolk County)
TOTAL CUSTOMERS = 1.2 million
Slide4Page
3
LIPA’s Vision for Grid Modernization
The creation of an electric grid that has a robust and interoperable communications network supporting a secure control system, managing strategically deployed intelligent devices focus on:
Enhancing Customer Service
Improving System Reliability
Optimizing cost
Enabling the right information, at the right time to the right people.
LIPA embarked on the path to modernizing the Grid before the term
Smart
Grid was developed. There is a firm belief that implementing technology and innovation in a manner that focuses on cost and flexibility leads to the best outcomes for the customer.
Technologies required to modernize the grid are evolving. Many are
unproven
. Their interoperability with existing infrastructure and cost benefits have not been defined.
Slide5Identify
Business Need
Identify
Technology
Initial
Deployment
of
Technology
Limitations
of
Technology
Intensive Effort
To
Invest & Upgrade Technology Continually Improve on the Technology
Ongoing Process
to keep
Improving
Continue the
Brainstorming
Process
to Improve
Make the Investment
to Achieve
Additional Benefits
Technology Adoption Model
Slide648 V
Josyln Vacuum Switch
Communications using
In-Band Radio channels to
Control the Switch
No Auto-sectionalizing
No 3 Phase Mon of V
Need better Comms
24V Joslyn Switch
Added Ext Sensors
Added RTU w/Asect
Comm 900MhzS&C Scadamate
License Freq & Cellular Comm Built-in Sensors2nd Generation S&C Switch
Upgrade Head-End ConcentratorExpand to AMI CommsUse of Fiber CommsMove to a Full DMSMore Automated Switching
New Technology comes at a
premium & persistence that
lead to solutions that meet the
business need which is
a perpetual process
Distribution Automation
Control of
Switches
On the
distributionsystem
Total Customer Interruptions Avoided 1994 ~ 60,000
Total Customer Interruptions Avoided 1994- 2011 ~ 5,100,000
90’s
2000’s
Ongoing
80’s
70’s
Slide7Reactive Power Compensation
Time Clocks
Demonstration of DVAR
Technology
Distribution Capacitor Banks
Fisher Pierce Radio Control One Way Communication
Installation of DRSS Technology
Home Grown 1
st
Generation Pager Control
Second Generation Pager Control
Two way communication with Capacitor Controllers
90’s
2000’s
Ongoing
80’s
70’s
Slide8Deployment of
Itron Hand-helds for Residential Meter Reading and Billing
AMR Residential and Commercial Meter Reading with MV90 using POTS Communication and Billing
Implementation of Wireless Modem Communications to MV90 to Meters
Reading of Cogeneration, Interties and Totalized Metering Accounts
Pilot AMI Technologies Silver Spring Network and ACLARA,
Lab Testing with Trialliant, Itron and Elster
Lessons Learned
Pilot L&G AMI Gridstream Network
Deployment of New eMeter (MDM)
Implemenation of Automated Customer Billing
Expand to AMI Cellular
Expand Billing to handle Totalized Meter
Enhanced Customer ToolsNew Technology comes at a premium & persistence that lead to solutions that meet thebusiness need which is a perpetual processAdvanced Metering Infrastructure
Need to
Automatically
Read Electric
Meters
90’s
2000’s
Ongoing
80’s
70’s
Slide9Data and Network Model
Hand Drawn
Paper and
Microfiche
Cad Based Drawings
Computer Representations of the system in a Raster model
GIS system
Cyme/GIS based planning Tools
Connectivity Based Model supporting OMS
Impedence Based Connectivity Model to support DMS
SCADA System Deployed
Fiber Ring installed, SCADA expanded
90’s
2000’s
Ongoing
80’s
70’s
Slide10DOE Projects Move Us Ahead
The Department of Energy funded “Smart Grid Demonstration Project” provides the opportunity to evaluate, test and deploy multiple technologies in a monitored and controlled environment.
Advanced Metering InfrastructureTime of Use RatesCustomer Direct Load ControlDistributed Generation
Visualization and Analytics
Distribution/Substation Automation
Communications (Radio, Cellular, Fiber)
Slide11Page
10
SGDP Interactions & Collaborations
LIPA
Distribution
Automaton
LIPA
Energy
Efficiency
LIPA
Smart MeterInitiative
LIPAedgeDLCProgramLIPA RenewablesProgram
SUNY
Stony Brook
AERTC
SUNY
Stony Brook
CEWIT
SUNY
FSC
Smart Campus
SUNY FSC
Renewables &
Sustainable Ctr
SMART
ENERGY
CORRIDOR
L + G
AMI
Technology
Cooper
Industries/
Lindsey
Cap. Controller/
Sensor
efacecACS
DMS/OMS
S&CDA
ASU
TelventSubstation RTU
eMeter
MDMS
Navigant
Consulting
Slide12Page
11
ASU Installations
PMH Installations
Cap 2-Way Controller Installations
Substation RTU Upgrades
Substation Digital Metering
Substation Control House Solar Panels
AMI Residential / Commercial & Industrial Installations
Residential Direct Load Control Installations
IHDs / Smart App
Load Modeling and Forecasting
Cyber Security Testing
Visualization / Curriculum Development Solar Charging for EV
Smart Home Resi / Comm Models
Education, Training and Public Outreach
SGDP Overview
Slide13Bringing it all Together
System Automation and Intelligence
Network Model
Data Integration
AMI and Customer facing Systems