White Paper on the Future of Congestion Management - PowerPoint PPT Presentation

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White Paper on the Future of Congestion Management

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White Paper on the Future of Congestion Management. IDC Granularity Task Force ... Ryan Prejean EES. Dave Robitaille IMO. Julie Novacek MISO. Dave Mabry PJM ... – PowerPoint PPT presentation

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Title: White Paper on the Future of Congestion Management


1
White Paper on the Future of Congestion Management
  • IDC Granularity Task Force
  • Standing Committee Meetings
  • July 20-22, 2004

2
Special Thanks to
  • Pat Shanahan ATC
  • Alan Mok Cinergy
  • Ryan Prejean EES
  • Dave Robitaille IMO
  • Julie Novacek MISO
  • Dave Mabry PJM
  • Paul Graves Progress Energy Florida
  • Lanny Nickell SPP
  • Rick Stegehuis WE Energies
  • Bob Cummings NERC

3
Background
  • June 2000 - IDCGTF formed by the SCS (now ORS) to
    investigate and propose technical solutions to
    existing inaccuracies in the IDC
  • June 2002 - ORS endorsed moving toward full
    granularity in the IDC
  • October 2002 - ORS provided further direction on
    combination of every generator to load and
    electrically cohesive zone methods
  • February 3, 2004 - RCWG requested white paper on
    congestion management be prepared

4
How the IDC Works Today
  • IDC calculates CA to CA Transaction Distribution
    Factors (TDFs)
  • A CA to CA TDF represents the impact of
    increasing generation in one control area and
    decreasing generation in another
  • TDFs are calculated using on-line generation
  • Impact of a tagged transaction on a flowgate is
    determined by the TDF associated with the Source
    CA and Sink CA
  • IDC CO 114 incorporate more TDF granularity for
    the MISO/PJM footprints

5
Problem Statement
  • IDC does not correctly recognize ultimate
    source/sink impacts of tagged transactions
  • IDC does not adequately address market dispatch
    of evolving balancing areas
  • TLR takes at least 30 mins to implement
  • Industry needs consistent and global application
    of granularity

6
Options Developed
  • IDCGTF developed three options for consideration
  • Options vary in complexity, paradigm shift,
    difficulty and timeliness of implementation
  • May implement all three in phases or any one or
    more on a standalone basis

7
Options Developed - Summary
  • Option 1
  • increases impact calculation granularity by
    incorporating TP zones
  • relief responsibilities assigned per existing
    methods
  • relief achieved per existing methods
  • Option 2
  • relief responsibilities assigned to BAs based on
    distributed impacts of a BAs net interchange
  • relief achieved through transaction curtailment
    and/or redispatch, uses increased impact
    calculation granularity of Option 1

8
Options Developed - Summary
  • Option 3
  • relief responsibilities assigned to BAs based on
    distributed impacts of a BAs net interchange
  • relief achieved through most effective/efficient
    re-dispatch, uses ultimate granularity

9
Option 1 - Zones Modeled in IDC
  • Used by TPs in their service evaluation
  • Must be properly linked to tagged source/sinks
  • Generation zones must contain one or more
    generators
  • Load zones must contain meter-able load pockets
  • Zone participation factors and generation block
    loading order must be provided
  • CAs may contain one or more zones
  • Zones may not cross CA boundaries

10
Option 1 - Zones Modeled in IDC
  • FERC to provide regulatory review of TP zones
  • NERC to provide reliability review of TP zones
  • Verify that sources/sinks on the schedule match
    those identified on the reservation
  • Verify that sources/sinks on the schedule can be
    dispatched as scheduled
  • Ensure that source/sink generators associated
    with curtailed schedules will be re-dispatched
  • CA modeling remains for purposes of NNL calcs
  • Will use block loading order data submitted to
    determine a more accurate NNL dispatch

11
Option 1 - Tagging Changes
  • TPs required to register OASIS sources/sinks
  • OASIS sources/sinks will be mapped to IDC zones
    and tagging sources/sinks
  • TP responsible for those sources/sinks within
    their transmission footprint

12
Option 1 - Pros
  • Doesnt require extensive IDC changes
  • Improves impact calculation granularity
  • Can be implemented quickly
  • FERC ensures comparability
  • Granularity used for estimating schedule impacts
    same as that used for provision of transmission
    service
  • Process is manageable

13
Option 1 - Cons
  • May not be uniform for all TP ATC/AFC
    methodologies
  • Perpetuates the myth of contract path
    flow-ability
  • Doesnt incorporate counter-flows

14
Option 1 - Data Requirements
  • Block loading merit order and participation
    factors for all generation zones
  • OASIS sources/sinks registered by TPs
  • IDC model changes as necessary
  • IDC software changes
  • Eventual incorporation of real-time data

15
External / Internal Relief Responsibility
  • Applicable to both Options 2 and 3

16
IRR/ERR Calculations
  • IRR Internal Relief Responsibility
  • IRR calculated like NNL is calculated today
  • GLDFs down to zero percent used
  • Specific generators supporting transactions
    removed
  • Contribution based on real-time and projected
    data (generators and area load)

17
IRR/ERR Calculations
  • ERR External Relief Responsibility
  • ERR captures transactional impacts of a
    balancing authoritys net interchange distributed
    across interconnection
  • For exporters ERR (GSFwba minus LSFw) Net
    Interchange
  • For importers ERR (GSFw minus LSFwba) Net
    Interchange
  • Will need to deal with over-counting ERRs

18
Example ERR Calculation
19
Option 2
  • Uses zonal impact calculation granularity
    introduced in Option 1
  • Uses External/Internal relief responsibility
    (ERR/IRR) methodology to assign responsibilities
    to balancing authorities
  • Fulfillment of relief responsibilities
    accomplished through curtailment of tagged
    transactions and/or redispatch

20
Option 2
  • First determines ERR for each area based on
    untagged net interchange
  • BAs with untagged ERR must curtail
  • If sufficient relief is obtained, no further
    action
  • Uses tagged interchange to determine ERR at each
    priority level
  • IRRs determined at appropriate level
  • BAs may fulfill ERRs through curtailment of
    tagged transactions and/or redispatch

21
Option 2 - Pros
  • IDC curtailment algorithm stays the same
  • Introduces improved granularity both in
    determination of relief responsibility and
    through usage of TP zones in transaction impact
    calculation
  • Adds the option of generation re-dispatch to meet
    the ERR based on tariff requirements
  • Complements CO 114 impact calculation methodology

22
Option 2 - Cons
  • ERRs for remote BAs could result
  • May be differences between ERRs assigned and
    relief obtained through transaction curtailments
  • Perpetuates the myth of contract path
    flow-ability
  • May increase complexity of coordination due to
    lack of curtailment prescription
  • May result in untimely results

23
Option 2 - Data Requirements
  • Block loading merit order and participation
    factors for all generation zones
  • OASIS sources/sinks registered by TPs
  • IDC model changes as necessary
  • IDC software changes
  • Real-time and projected output for all generators
  • Real-time and projected demand for each BA

24
Option 3
  • Uses ERR/IRR methodology for assigning relief
    responsibilities
  • Relief achieved through re-dispatch prescribed by
    RCs
  • Provider of re-dispatch compensated through a
    settlement process that would charge BAs based on
    their relief responsibilities

25
Option 3
  • Each BA will determine and document how it
    allocates re-dispatch costs to PtP and NITS
    customers
  • Resource availability and bid prices will be made
    available to RCs
  • Re-dispatch could take many forms
  • Unit pairs within same BA
  • Unit sales/purchases across BAs
  • Multiple units across multiple flowgates
  • Voluntary load curtailments

26
Option 3 - Issues
  • Re-dispatch would take place regardless of
    priority of transactions impacting constraint
  • Regulatory requirements
  • Responsibility for relief is transferred from
    PSEs to net importing/exporting BAs

27
Option 3 - Pros
  • Reduces amount of transactions curtailed
  • Improves effectiveness of relief
  • Relief is obtained quickly
  • More cost effective relief solutions
  • More likely to minimize potential impact on other
    flowgates
  • Can provide useful market signals

28
Option 3 - Cons
  • Major paradigm shift
  • Requires NERC commitment to address policy and
    regulatory issues
  • Requires sophisticated tools
  • BAs need to agree on settlement process

29
Option 3 - Data Requirements
  • IDC software changes
  • Real-time and projected output for all generators
  • Bid information for generators
  • Real-time and projected demand for each BA
  • Real-time telemetry, or state-estimated values,
    of all flowgates and OTDF flows
  • SDX data to include quick-start, min run times,
    min and max generator output, etc.

30
Recommendations to RCWG / ORS
  • Adopt and implement Option 1 immediately
  • Adopt and implement Option 3 as the long-term
    strategy for the IDC
  • Form appropriate team(s) to develop business case
    for implementation of these options

31
RCWG / ORS Resolution
  • Accept Option 1 Implement by June 1, 2005
  • Coordinate with NAESB
  • For Option 3 long-term solution further workAsk
    the MC and IDCWG to develop by September 2005
  • Functional design specification
  • Business case for congestion management tools
  • Coordinate with NAESB
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