. Journal . 2 3 4 5 TIME AXIS IN MINUTES. * * r. * ■■■ I! 2 3 4 5 6 7TIME AXIS IN MINUTES . In tin1 curves produced we have nearly one minute con-sumed in revelling the maximum rate of output. This isaccounted for by the following facts:—(1) The initialfraction is cooled below it- average temperature on enteringthe condenser. (2) In the ease of a wet run a certainamount of time is used up in admitting the oil, the inflow ofwhich gradually rises to a maximum. (3) The mains andthe gas already in the holder is further removed from thetemperature of the first fraction of the gas than from thatform
. Journal . 2 3 4 5 TIME AXIS IN MINUTES. * * r. * ■■■ I! 2 3 4 5 6 7TIME AXIS IN MINUTES . In tin1 curves produced we have nearly one minute con-sumed in revelling the maximum rate of output. This isaccounted for by the following facts:—(1) The initialfraction is cooled below it- average temperature on enteringthe condenser. (2) In the ease of a wet run a certainamount of time is used up in admitting the oil, the inflow ofwhich gradually rises to a maximum. (3) The mains andthe gas already in the holder is further removed from thetemperature of the first fraction of the gas than from thatformed in the succeeding part of the run. For thesereasons the true curve of make conditioned by the internalstate of the generator should, without doubt, be parallel tothe time axis. This fact would tend to increase the outputof the first three minutes above that shown in the curvesactually obtained, and, ipsa causa, decrease the output ofthe latter part of the run. This would he an addedargument for the method of operating proposed
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Keywords: ., bookcentury1800, bookdecade1880, booksubjectchemist, bookyear1882
