3. The fuel-cost functions in S/h for two 800 MW thermal plants are given by F = 400 + 6.0P, + 0.004P? %3D F2 = 500 + BP2 + AP? where Pand P2 are in MW. Neglecting line losses and gencrator limits, find the optimal generation (P,&P2) for each plant when the incremental cost of power 2 is (a) 8S/MWh with the total demand of 550 MW and (b) 10$/MWh with the total demand of 1300 MW. (c) From the results of (a) and (b) calculate the fuel-cost coefficients B and A of the second plant.
3. The fuel-cost functions in S/h for two 800 MW thermal plants are given by F = 400 + 6.0P, + 0.004P? %3D F2 = 500 + BP2 + AP? where Pand P2 are in MW. Neglecting line losses and gencrator limits, find the optimal generation (P,&P2) for each plant when the incremental cost of power 2 is (a) 8S/MWh with the total demand of 550 MW and (b) 10$/MWh with the total demand of 1300 MW. (c) From the results of (a) and (b) calculate the fuel-cost coefficients B and A of the second plant.
Power System Analysis and Design (MindTap Course List)
6th Edition
ISBN:9781305632134
Author:J. Duncan Glover, Thomas Overbye, Mulukutla S. Sarma
Publisher:J. Duncan Glover, Thomas Overbye, Mulukutla S. Sarma
Chapter2: Fundamentals
Section: Chapter Questions
Problem 2.31P: Consider two interconnected voltage sources connected by a line of impedance Z=jX, as shown in...
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![3. The fuel-cost functions in S/h for two 800 MW thermal plants are given by
F = 400 + 6.0P, + 0.004P?
F = 500 + BP2 +
AP
where Pand P2 are in MW. Neglecting line losses and generator limits, find the optimal
generation (P,&P2) for each plant when the incremental cost of power 2 is (a) 8$/MWh
with the total demand of 550 MW and (b) 10$/MWh with the total demand of 1300 MW.
(c) From the results of (a) and (b) calculate the fuel-cost coefficients B and A of the second
plant.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fb7c02f28-28aa-42ae-aae3-1fa5d21bd83f%2Ffbe6573b-c638-4813-8e1c-f36ec26beb6e%2Fuil6tx_processed.jpeg&w=3840&q=75)
Transcribed Image Text:3. The fuel-cost functions in S/h for two 800 MW thermal plants are given by
F = 400 + 6.0P, + 0.004P?
F = 500 + BP2 +
AP
where Pand P2 are in MW. Neglecting line losses and generator limits, find the optimal
generation (P,&P2) for each plant when the incremental cost of power 2 is (a) 8$/MWh
with the total demand of 550 MW and (b) 10$/MWh with the total demand of 1300 MW.
(c) From the results of (a) and (b) calculate the fuel-cost coefficients B and A of the second
plant.
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