. Design of a power plant for an interurban railway capacity 16,000 kVA . covered cable is x 15 = lbs. per ft. Resultant of weight and wind_ _ ( / ()° = lbs. per pressure on cable without x 15 = .471 lbs. per of weight and wind pressure. 1 .50SJ / .47lJ = .694 lbs. per ft. S ■ 400 W = Wr = at 38° F and .694 at 66° F. A = .1315 T = 60000 x .1315 = 7890 T = and 150 K s .0000168 Kx = 15000000 Ls = Sl / S^ WrS/24T2 = 400 / 400° x V24x78913 = Lu - £B i /—i AE L^ = / 7890/l5xl06 x .01315 = 40
. Design of a power plant for an interurban railway capacity 16,000 kVA . covered cable is x 15 = lbs. per ft. Resultant of weight and wind_ _ ( / ()° = lbs. per pressure on cable without x 15 = .471 lbs. per of weight and wind pressure. 1 .50SJ / .47lJ = .694 lbs. per ft. S ■ 400 W = Wr = at 38° F and .694 at 66° F. A = .1315 T = 60000 x .1315 = 7890 T = and 150 K s .0000168 Kx = 15000000 Ls = Sl / S^ WrS/24T2 = 400 / 400° x V24x78913 = Lu - £B i /—i AE L^ = / 7890/l5xl06 x .01315 = range temp.:- L-and Lt> u #36 Sag: 3 o D - 3S]/8 (L (1/ K/) - S. ) D = 3S-,/L Iff /64AE Temp. -0° and 100° at 0° D3-3x400/8 ((-400 )D = 3D - = 1480 D = sag D = x = : 100° F. D3 - 3x400/8 ( (l/.00168) - 400) D = ^x^W5 x X .694/64 x 15 x 106 x .1315 D3- = 425. D s Sag = ..^08/.694 x = ft. &i m. ■ ■ 8§ • ~2 n 1 1 z ° z ^ n n n ° ■< r £s °w ? ?if! i 3 HO z . * H [
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Keywords: ., bookcentury1900, bookdecade1910, bookiddesignofpowe, bookyear1913
