Question 4.17: A 3 MVA, 6600 V, three-phase, star connected synchronous gen...

Basic Electrical and Electronics Engineering

A 3 MVA, 6600 V, three-phase, star connected synchronous generator has a resistance of 0.2 Ω and synchronous reactance of 3.5 Ω per phase. Calculate the regulation at rated output at 0.8 power factor lagging. The speed and excitation remain constant.

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Given line voltage = 6600 V

phase voltage $V_{Ph} = \frac{6600}{\sqrt{3}}$

= 3810 V

$R_{a} = 0.2 Ω$
$X_{s} = 3.5 Ω, \cos Φ = 0.8$ lagging, $\sin Φ = 0.6$
Total MVA = 3
Total VA $= 3 × 10^{6}$
This VA is for the three phases. VA per phase will be one-third of the total VA
VA per phase $= 1 × 10^{6}$

Current per phase $I_{a} = \frac{1 × 10^{6}}{V_{Ph}} = \frac{10,00,000}{3,810} = 262.5 A$

Induced EMF, $E = \sqrt{( V \cos Φ + I_{a} R_{a})² + ( V \sin Φ + I_{a} X_{S} )² }$

= \sqrt{(3810 × 0.8 + 262.5 × .2)²  +  (3810 × 0.6 + 262.5 × 3.5)²}

= 4049.4 V

Percentage regulation $= \frac{(E – V)}{V} × 100 = \frac{(4049.4 – 3810)}{3810} × 100 = 6.28$ per cent

4.54

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