Generator to Load Distribution Factor definition

Generator to Load Distribution Factor or “GLDF” shall mean a generator’s impact on a Flowgate while serving load in that generator’s Balancing Authority Area.
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Generator to Load Distribution Factor. (or “GLDF”) shall mean a generator’s impact on a Flowgate while serving load in that generator’s Balancing Authority Area.the amount of generation capability from external sources identified by a Load-Serving Entity (LSE) or Resource Planner (RP) to meet its generation reliability or resource adequacy requirements as an alternative to internal resources.
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Examples of Generator to Load Distribution Factor in a sentence

  • The Generator to Load Distribution Factor (GLDF) is determined through superposition by subtracting the LSF from the GSF.

  • AEP Historic NNL = ∑ (Individual AEP MW at 1500 hrs @ 3/14/03)* (Generator to Load Distribution Factor of AEP) GLDF of AEP is the:(Generator Shift factor (GSF) for each AEP unit)- (Load Shift factor (LSF) of AEP) All Generator Shift factors for the AEP units were provided from the IDC as determined at 1500 hrs, 3/14/03.

  • Flowgate 5717 passes the “Study 1) – IDC GLDF” test in the CMP whereby “[u]sing the historic Control Area representation in the IDF [(Interchange Distribution Calculator)], if any one generator has a GLDF [(Generator to Load Distribution Factor)] that is 5% or greater as determined by the IDC, this Flowgate will be considered a Coordinated Flowgate.”4 Flowgate 5717 qualifies under this test with multiple MISO generators each having a GLDF equal to or greater than 5%.

  • The IDC can provide a list of Flowgates for any user- specified Control Area whose Generator to Load Distribution Factor (GLDF) NNL impact is 5% or greater.

  • PJM Historic NNL = ∑ (Individual PJM Gen MW at 1500 hrs @ 3/14/03)* (Generator to Load Distribution Factor of PJM) GLDF of PJM is the:(Generator Shift factor (GSF) for each PJM unit)- (Load Shift factor (LSF) of PJM) If available, Generator Shift factors for PJM units were provided from the IDC as determined at 1500 hrs, 3/14/03.

  • The Generator to Load Distribution Factor (GLDF) is calculated as the GSF minus the LSF.

  • The IDC can provide a list of Flowgates for any user-specified Control Area whose GLDF (Generator to Load Distribution Factor (GLDF) (NNL)) impact is 5% or greater.

  • The Generator to Load Distribution Factor (GLDF) is determined through superposition by subtracting the LSF from the GSF.The determination of the Market Flow contribution of a unit to a specific Flowgate is the product of the generator’s GLDF multiplied by the actual output (in megawatts) of that generator.

  • PJM Historic NNL =∑ (Individual PJM Gen MW at 1500 hrs @ 3/14/03)* (Generator to Load Distribution Factor of PJM) GLDF of PJM is the:(Generator Shift factor (GSF) for each PJM unit)- (Load Shift factor (LSF) of PJM) If available, Generator Shift factors for PJM units were provided from the IDC as determined at 1500 hrs, 3/14/03.

Related to Generator to Load Distribution Factor

  • Power Transfer Distribution Factor or “PTDF” shall mean a measure of the responsiveness or change in electrical loadings on Transmission Facilities due to a change in electric power transfer from one area to another, expressed in percent (up to 100%) of the change in power transfer in the pre-contingency configuration of a system under study.

  • Distributed Generator means a person who owns or operates Distributed Generation;

  • Main Distribution Frame (MDF) means the termination frame for outside facility and inter-exchange office equipment at the CO.

  • Distributed Generation means generating plant equipment collectively used for generating electricity that is connected, or proposed to be connected, to the Network or a Customer's Installation, but does not include: