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Line 14: In the hours prior to the delivery, a system operator might need to deploy additional [[supplemental reserve]]s or even commit more generation units, primarily to ensure the reliability of the supply while still trying to minimize the costs. At the same time, operator must ensure that enough [[reactive power reserve]]s are available to prevent the [[voltage collapse]].{{sfn\|Conejo\|Baringo\|2017\|p=10}} The decisions ("[[economic dispatch]]") are based on the '''dispatch curve''', where the X-axis constitutes the system power, intervals for the generation units are placed on this axis in the ''[[merit order]]'' with the interval length corresponding to the maximum power of the unit, Y-axis values represent the marginal cost of a [[MWh]] of electricity. For cost-based decisions, the units are ordered per increasing incremental (per-MWh) cost. The graph below describes an extremely simplified system, with three generator units: (A) can deliver up to 120 MW at the cost of $30 per MWh, (B) can deliver 80 MW at $60/MWh, (C) is capable of 50 MW at $120/MWh: ▼ {{Graph:Lines \| table=System lambda curve 1.tab \| type=linear\| xField=demand \| series="cost" \| title=Dispatch curve ~~(a.k.a. system lambda curve)~~ \| yZero= \| xAxis=Demand (MW) \| yAxis=Cost ($/MWh) \| yMax= \| yGrid=y \| width=500 \| legend=- \| vAnnotationsValues={"text": "Current demand", "x": 150} \| hAnnotationsValues={"text": "Current system lambda", "y": 60} \| hideSource=true \| right }} ▲The decisions ("[[economic dispatch]]") are based on the '''dispatch curve''', where the X-axis constitutes the system power, intervals for the generation units are placed on this axis in the ''[[merit order]]'' with the interval length corresponding to the maximum power of the unit, Y-axis values represent the marginal cost of a [[MWh]] of electricity. For cost-based decisions, the units are ordered per increasing incremental (per-MWh) cost. The graph ~~below~~on the right describes an extremely simplified system, with three committed generator units: (A) can deliver up to 120 MW at the cost of $30 per MWh (from 0 to 120 MW of system power), (B) can deliver up to 80 MW at $60/MWh (from 120 to 200 MW of system power), (C) is capable of 50 MW at $120/MWh: (from 200 to 250 MW of system power). == Minutes-ahead operation ==

Power system operations and control: Difference between revisions