Economic Operation and control of PS
Please find the attachments for the solution of the problem
Economic Operation and control of PS 3. The fuel-cost functions for three thermal plants in $/h...
Economic Operation and control of PS 2. Find the optimal dispatch and the total cost in $/h for the thermal plants in problem 1 when the total load is 1000 MW with the following generator limits (in MW): 200SP 5455; 1505PX350; 1005Px5250. chine 1. The fuel-cost functions for three thermal plants in S/h are given by G=600 +5.4P +0.004P,?: C500 5.6P2 +0.006P2?; C = 300 + 5.9P+0.009P3 Where P. P. and P, are in MW. The total load, Po, is...
Problem 2 The fuel-cost function in $/h of two thermal plants are ?1 = 320 + 6.2?1 + 0.004?1 2 , ?2 = 200 + 6.0?2 + 0.003?2 2 , where ?1 and ?2 are in MW. Plant outputs are subject to the following limits (in MW) Problem 2 The fuel-cost function in $/h of two thermal plants are C1 = 320 +6.2P2 +0.004P], C2 = 200 +6.0P2 + 0.003P2, where P and P2 are in MW. Plant outputs are...
Economic dispatch. The fuel cost function in dollars / hour of two thermal plants is C1=320+6.2 P1+0.004 P1^2 C2=200+6.0 P2+0.003 P2^2 where P1 and P2 are in MW. Plant outputs are subject to the following constraints: 50 ≤ P1 ≤ 250 50 ≤ P2 ≤ 350 On a 100MVA base, the per unit real power loss is PL = 0.0125 P1^2+ 0.00625 P2^2 The total load is 412.35MW. Determine the optimal dispatch of generation.
Problem 2 -The fuel-cost curves for a three-generator po system are given as follows: Ax10 P C2(P2)-600+ 10xP2+0.3 xP2 Ca(Ps)900+ 15xP3+0.1x P, The system losses in MW can be approximated as: P 10 If the system is operating with a marginal cost(λ) of $50/hr, dete (a) The output of each unit, (b) The total transmission losses cost (A) of SSO/hr, determin10% Pf+ 10% P3, 4x104 P1 P2 (c) The total load demand, (d) The total operating cost.
Please do problem #2. I posted both problems 1 and 2 because problem 2 is based on problem 1. Please do part a,b and c. Label each part clearly (5 points) Given below are the cost curves of 5 generators which are to supply a load of 750 MW: 1. fi -0.01 Pa2+2 Pa+50 f 0.005 P24 P2 +200 f 0.0075 P+1.5 Pe3 +10 S/h f4-0.04 Pgs 0.5 P4+ 150 fs-0.003 P +3 Pgs+ 12S/h S/h S/h S/h Assume that...