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TNMP Load Forecasting Methodology for the ERCOT Steady State Cases

TNMP Load Forecasting Methodology for the ERCOT Steady State Cases. Tony Hudson Transmission Planning. TNMP’s load forecasting methodology varies between two categories of load types Industrial load, which typically does not “creep” with any consistency.

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TNMP Load Forecasting Methodology for the ERCOT Steady State Cases

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  1. TNMP Load Forecasting Methodology for the ERCOT Steady State Cases Tony Hudson Transmission Planning

  2. TNMP’s load forecasting methodology varies between two categories of load types Industrial load, which typically does not “creep” with any consistency. Commercial and residential load, which typically does creep in a consistent manner.

  3. Load Forecasting for TNMP Industrial Load • Load growth/reduction is typically in the form of unpredictable addition/removal of blocks of load. • TNMP is in frequent contact with all of the large industrial customers and some of the smaller industrial customers and diligently pursues up-to-date load forecast information. • Load for the remainder of the smaller industrial customers usually does not change significantly, which is verified through archived SCADA telemetry or ALDR data obtained from distribution engineers.

  4. Load Forecasting for TNMP Industrial Load (continued) • TNMP uses archived SCADA telemetry to maintain baseline MW/MVAR load models and to verify load forecasts the customers have communicated in the past. • Peak loads of the individual customers not necessarily coincident with TNMP local area peaks or ERCOT system peaks. Can, and have occurred during various seasons and low ERCOT/TNMP local area loading periods.

  5. Load Forecasting for TNMP Industrial Load (continued) • TNMP uses engineering judgement in applying the concepts and data discussed in the previous two slides to produce industrial load models that should be appropriately conservative for the given Data Set A or Data Set B case.

  6. Load Forecasting for TNMP Commercial/Residential Load • TNMP has SCADA visibility on over half of its distribution feeders. Transmission Planning collects archived MW/MVAR values on these feeders. Currently utilizing three years of archived data as one of the sources for projecting load. • Transmission Planning collects non-coincident load data from distribution engineers for the distribution feeders without SCADA visibility. Distribution engineers also provide estimated growth factors for existing load and information on planned incremental increases in distribution load (blocks of new load).

  7. Load Forecasting for TNMP Commercial/Residential Load (continued) • TNMP uses engineering judgement along with the data discussed in the previous slide to: • Estimate MW creep factors. • Estimate appropriate load power factor adjustments corresponding to real power growth/reduction. • Estimate TNMP loads coincident with the ERCOT peak, TNMP local area peaks, TNMP local area off-peaks, and TNMP local area minimum loads.

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