Calculation of Helping Load and Helping Flow. The Nodal Load for a load bus with a negative or zero nodal distribution factor is a helping Load, defined as HLoad, and the Nodal Flow for that Load is helping flow, defined as HFlow. To identify helping Loads that have a material impact on the Generator Deactivation Reliability Need, the ISO will calculate a helping materiality threshold, defined as HMT, as follows: Where m is for the total number of Subzones and n is for the total number of load buses in a given Subzone.
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Samples: Reliability Must Run Agreement, Reliability Must Run Agreement, nyisoviewer.etariff.biz
Calculation of Helping Load and Helping Flow. The Nodal Load for a load bus with a negative or zero nodal distribution factor is a helping Load, defined as HLoad, and the Nodal Flow for that Load is helping flow, defined as HFlow. To identify helping Loads that have a material impact on the Generator Deactivation Reliability Need, the ISO will calculate a helping materiality threshold, defined as HMT, as follows: Where m is for the total number of Subzones and n is for the total number of load buses in a given Subzone.
Appears in 2 contracts
Samples: Development Agreement, nyisoviewer.etariff.biz
Calculation of Helping Load and Helping Flow. The Nodal Load for a load bus with a negative or zero nodal distribution factor is a helping Load, defined as HLoad, and the Nodal Flow for that Load is helping flow, defined as HFlow. To identify helping Loads that have a material impact on the Generator Deactivation Short-Term Reliability Process Need, the ISO will calculate a helping materiality threshold, defined as HMT, as follows: Where m is for the total number of Subzones and n is for the total number of load buses in a given Subzone.
Appears in 1 contract
Samples: nyisoviewer.etariff.biz
