480
he pipe F. The supply is controlled by means of the valve H, which is actuated through the rod G by the rise and fall of the gasholder C. Gas travels from the gasholder through the purifier D to the service-pipe. The purifier is packed with heratol resting on a layer of pumice. The washer B contains a grid, the object of which is to distribute the stream of gas through the water. There is a syphon-pot J for the reception of condensed moisture. Taps K are provided for shutting off the supply of water from the generators during; recharging, and there is an overflow connexion L for conveying the water to the second generator as soon as the first is exhausted. There is a sludge-cock M at the base of each generator.
(2) Non-automatic; water-to-carbide; contact, superposed trays.
This resembles the preceding plant except that the supply of water from the cistern to the generators takes place directly through the pipe N (shown in dotted lines in the diagram) and is controlled by hand through the taps K. The automatic control-valve H and the rod G are omitted. The gasholder C is increased in size so that it becomes a storage holder capable of containing the whole of the gas evolved from one charging.
[Illustration: FIG. 59.--GENERATING PLANT OF THE ST. JAMES' ILLUMINATING CO., LTD. (SECTIONAL ELEVATION AND PLAN.)]
_Maker_: THE STANDARD ACETYLENE CO., 123 VICTORIA STREET, LONDON, S.W.
_Type_: (1) Non-automatic; carbide-to-water.
This plant comprises the generator A, the washer B, the storage gasholder C, and the purifier D. The generator is first filled with water to the crown of the cover, and carbide is then thrown into the water by hand through the gas-tight lock, which is opened and closed as required by the horizontal handle P. A cast-iron grid prevents the lumps of carbide falling into the sludge i