. Design of a direct current generator and switchboard for a farm power plant. Rt No Load. Part Mat-erial. flux perPole. tneaalines) Section/Urea. Flux Density HeartMagnetic Length H I. perUnit Letyth ffiam curta) TotQ/ Rrmature ShrctStccl 0581S 70,730 26 Teeth SheetStccI IJ65 1 7 68300 8 Rir Gap ^ Rir. U65 291 0 Pole Core. Cott Steel is. 9 88,000 5 1/4 YoKe. hastlron Z9 24,100 17. 5 166 Total RT. Needed at No Load = 32&4- 0o Rrmature. SheetStcel 0625 J 32 Teeth Sh^tStcd 1*25 If 115 1
. Design of a direct current generator and switchboard for a farm power plant. Rt No Load. Part Mat-erial. flux perPole. tneaalines) Section/Urea. Flux Density HeartMagnetic Length H I. perUnit Letyth ffiam curta) TotQ/ Rrmature ShrctStccl 0581S 70,730 26 Teeth SheetStccI IJ65 1 7 68300 8 Rir Gap ^ Rir. U65 291 0 Pole Core. Cott Steel is. 9 88,000 5 1/4 YoKe. hastlron Z9 24,100 17. 5 166 Total RT. Needed at No Load = 32&4- 0o Rrmature. SheetStcel 0625 J 32 Teeth Sh^tStcd 1*25 If 115 1 o Rir Gap Rir. 5 23. S 01875 3125 Pole Core CastStsel. d~ 190 YoKe. Castlron. S 25,850 180 Total RT. Needed at Full Load-Rc/d to Compensate for Armature Reaction. Deduct Shunt R. T. at No LoadSeries RT = Difference. 3537 3852 3224 628.
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Keywords: ., bookcentury1900, bookdecade1910, booksubjecttheses, bookyear1912
