RM2CRJGER–. Electric traction and transmission engineering . ity or pondage of about 350 million cubic feet. Fig.121 shows the power house and sluice-gate masonry of thisdevelopment, looking upstream. The power furnished by a given stream may be increasedby a suitable reservoir, for the water impounded during therainy seasons may be partially drawn off during time of lowwater. The water available for pondage is limited, how-ever, since the level of head water can only be lowered acomparatively small amount without impairing the outputand efi&ciency of the plant. Water is led from the head-race or the re
RM2CH0888–. Electric traction and transmission engineering . SPILLWAY 530 FT. SLUICE GATES. Fig. 120. capacity or pondage of about 350 million cubic feet. Fig.121 shows the power house and sluice-gate masonry of thisdevelopment, looking upstream. The power furnished by a given stream may be increasedby a suitable reservoir, for the water impounded during therainy seasons may be partially drawn off during time of lowwater. The water available for pondage is limited, how-ever, since the level of head water can only be lowered acomparatively small amount without impairing the outputand efficiency of the pl
RM2CEF811–. Electrical news and engineering. While the Rock Forest iilant was of modern design andconstruction, the maximum load the two units would deve-lop at the switchboard at Rock Forest, was only 2,200 horse-power. In view of the local conditions not permitting of therealization of the full extent of power with the old turbines,it was decided to replace them in order to increase the cap-acity of this plant. As the Rock Forest plant has the ad-vantage of the pondage of Lake Magog, which is approxi-mately five square miles in area, the capacity of this plantwas based on a load factor of 50 per cent.
RM2CH07T4–. Electric traction and transmission engineering . apacity or pondage of about 350 million cubic feet. Fig.121 shows the power house and sluice-gate masonry of thisdevelopment, looking upstream. The power furnished by a given stream may be increasedby a suitable reservoir, for the water impounded during therainy seasons may be partially drawn off during time of lowwater. The water available for pondage is limited, how-ever, since the level of head water can only be lowered acomparatively small amount without impairing the outputand efficiency of the plant. Water is led from the head-race or th
RM2CRF0FJ–. Electric traction and transmission engineering . DEFLECTING WALL. SPILLWAY 530 FT. SLUICE CATL3 Fig. 120. capacity or pondage of about 350 million cubic feet. Fig.121 shows the power house and sluice-gate masonry of thisdevelopment, looking upstream. The power furnished by a given stream may be increasedby a suitable reservoir, for the water impounded during therainy seasons may be partially drawn off during time of lowwater. The water available for pondage is limited, how-ever, since the level of head water can only be lowered acomparatively small amount without impairing the outputand effi
RM2CREXNK–. Electric traction and transmission engineering . apacity or pondage of about 350 million cubic feet. Fig.121 shows the power house and sluice-gate masonry of thisdevelopment, looking upstream. The power furnished by a given stream may be increasedby a suitable reservoir, for the water impounded during therainy seasons may be partially drawn off during time of lowwater. The water available for pondage is limited, how-ever, since the level of head water can only be lowered acomparatively small amount without impairing the outputand efficiency of the plant. Water is led from the head-race or th
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