Hao Zhu Dept. of Electrical & Computer Engineering University of Illinois, Urbana-Champaign ECE 498HZ: Power Distribution System Analysis Chapter 6: Distribution Line Models February 16, 2016
Clean Power Plan 2
Line Parameters 3
Special cases 4
Line Model 5
Circuit Analysis At node m At node n Voltage diff 6
Generalized Line Matrices 7
Matrix form 8
Additional Line Matrices 9
Same to transmission, but 10
Example microSiemens (1e-6)
Example 6.1 Calculating generalized matrices 12 Because shunt is too small
Example 6.1 Since load voltage is rated and balanced At node m At node n 13 Very close to I m Again, because of tiny shunt effects ~ 1.047p.u.
Voltage Unbalance ANSI/NEMA standards Note that all values are magnitudes For Example 6.1, 14
Modified Line Models 15
Three-wire Delta Lines 16 Primitive impedance values No neutral line
Neutral and Ground Currents To recover the neutral line current, recall the neutral transformation From flow conservation 17
Example 6.2 Change Ex 6.1 to that node n is balanced, not the load node m To solve for node m, compute Equivalently no shunt 18
Example 6.2 Line-to-line voltage Voltage unbalance Load complex power 19
Example 6.3 Neutral transformation matrix Neutral current Ground current 20
Approximation using Sequence Matrix Assuming transposed lines with balanced loads Corresponding phase impedance matrix So the voltage diff 21
Approximate Line Model For phase a of node n In addition, 22
Example
Example
Distribution Network Power Flow 25 ……
Forward sweep 26 Node n Node m
Backward sweep 27 Node n Node m
Iterative Ladder 28
Example 6.5 So far we only consider a single line segmant Given the unbalanced load and source voltage 12.47kV –Phase a: 2500 kVA and PF = 0.9 lagging –Phase b: 2000 kVA and PF = 0.85 lagging –Phase c: 1500 kVA and PF = 0.95 lagging 29