EECS4460.1410.12.191.pptx

Power System Management

EECS 4460/5460-901

Lecture #14

Electricity Public Policy Issues

1

Adequate and reliable power supply (generation)

Quantity of supply

Quality of supply

Response to events

Adequate and reliable power delivery (transmission and distribution)

Capacity of the system to deliver power

Reliability of the system

Response to events

Utility Operational Fundamentals – “Keeping the Lights On”

Outline a typical power system

Control Area Concept

Control area 1

Control area 2

Control area 3

ACE (Area Control Error)

Criteria: Adequate and reliable power supply

Real-time generation to meet the load

Adequate reserves, including real-time

Voltage and frequency control

Coordinate planned outages and maintenance

Respond to unplanned plant or interconnection outages

Functions:

Generation dispatch – directs and schedules generation – economically

AGC (Automatic Generation Control) – adjusting power output in response to changing conditions to maintain frequency and voltage

Contingency analysis and communications

Utility Operational Fundamentals

Simplified AGC Scheme

Adequate real-time reserves

Unplanned plant outages

Extreme hot or cold weather

Major storms

Fuel supply challenges

Operating with intermittent resources

Power Supply Reliability Operational Issues*

*Examples in the next lecture – Grid Operations

Criteria: Adequate and reliable transmission grid

Operate system within its ratings and limits

“Situational Awareness” with contingencies

Coordinate planned outages and maintenance

Respond to unplanned line or plant outages

“Black start” capability

Functions:

Transmission operator – functionally operates the grid

Model and monitor contingencies (“N-1’)

Contingency analysis and communications

“SCADA” – Supervisory Control and Data Acquisition"

Utility Operational Fundamentals

Historically, people operated the electric system – manned stations, monitoring, circuit breaker controls, relay protection systems

1960’s: Information communications developed; radios and power line carrier

1970’s: Logic controllers to replace relays (first in the automotive industry)

1980’s: Standard Communications protocols

1990’s to today: System automation via programmable computerized networks

SCADA Basics

Early SCADA Implementation

Today’s SCADA Functional Diagram

Transmission Control Center (NYISO)

Continuous Technology Upgrades (PJM)

Highly Automated Distribution Control Centers

Criteria: Adequate and reliable distribution grid

Operate system within its limits

Minimize customer disruptions

Coordinate planned outages and maintenance

Respond to unplanned outages

Accommodate public projects and new load

Functions:

Distribution substation operator – past approach

Automated responses to minimizing customer outages

Rapid response to outages

Utility Operational Fundamentals

Distribution Circuits Often Networked for Reliability

Distribution Fault Devices are Coordinated

Recloser

Sectionalizer

Distribution Devices for Reliability

Fuse Cutout

Lightning Arrester

Capacitors

Distribution

Transformer

Pothead

Substantial debate for decades

Revisited during Hurricane Sandy – weather resiliency

Can be reliability issues with underground as well

What is the cost of reliability?

Underground Transmission

97% of U.S. transmission is overhead

Costs range from 4-14 times overhead

Typical 138kv @ 390k$/mi vs. $2M/mi

Higher maintenance costs; potential environmental impact

Underground Distribution

41% of Europe is Underground; New U.S. is about 25%

Common in residential and commercial areas

Costs range from 2-5 times overhead

“Who pays? Government, Developer, individual customer, Ratepayers

Higher maintenance costs; potential environmental impact

Underground vs. Overhead

Government and Industry Coordination

Electricity Subsector Coordinating Council (ESCC)

DOE, DHS, FEMA and Utility CEO’s

Regional Mutual Assistance Groups (RMAG’s) for storms with national implications

Hurricane Irma – 60,000 workers from U.S. and Canada

Storm Restoration has become Highly Organized

Storm Response as Part of Operations

Typical checklist for

storm preparation

Areas in red are often

a challenge

Power plants

Damage assessment and restoration; nuclear priority

Transmission lines

Based on grid reliability and customers served

Substations

Based on grid reliability and customers served

Essential services

Public health and safety – hospitals, nursing homes, police fire, water systems

Large Service areas

Largest number of customers in least amount of time

Individual homes

Safety, damage assessment and restoration

Power Restoration Priorities

Storm Tracking Has Become Much More Sophisticated

Real Time Outage Data on Utility Websites is Common

Public Policy Continued

Conservative grid operations

Industry events and regulation

Energy policy – federal and state

Merchant generation

Evolution of power markets

Changing business structures

Renewable policies

ISO’s, RTO’s and NERC

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