Abstract: An apparatus that is mounted above a water current flow for generating electricity. The apparatus is oriented perpendicular to the direction of the water current flow with paddles protruding from a shaft into the water causing the shaft to rotate. Component parts mounted on three parallel shafts inter connected by gears transfer the rotational motion energy through the apparatus amplifying the velocity and storing torque in a flywheel. Each shaft has a disconnect mechanism to transfer the motion from the shaft outer end to the inner end allowing for a specific installation method that moves the motion from the point of contact with the water current flow through the apparatus to an electric generator, generating electricity.

Abstract: The Hydro Torque Electric Generator produces electricity from flowing water. The devise has a drive shaft with paddles on the outer end which enter the flowing water causing the shaft to turn. This rotating motion is then transferred from the drive shaft to a flywheel shaft turning a large heavy flywheel on the shaft inner end. The flywheel then turns a power take off shaft connected to an electric generator producing electricity. This unique system uses three parallel shafts with connecting interlocking gears and disconnecting points on each shaft consisting of clutches and a transmission. To stored torque generated from the drive shaft a large heavy flywheel is used, which amplifies the rotational velocity. Once placed in flowing water, the devise generates electricity with an unique motion transfer system converting the linear motion of the flowing water to rotational motion in a manner that amplifies torque and velocity.

Abstract: A method for placing equipment in a network begins with a baseline network on which demographic data is analyzed statistically to produce a demographically-driven driven demand forecast model. The demand forecast model yields a predicted demand for each census block group. This can be visualized as one map layer with a GIS. The layout method takes the predicted demands as input and produces new attribute information for network nodes, the central office and cross-connects. By the layout method the cost of placing equipment at available placement sites or nodes is minimized based on various constraints, e.g., the capacity of the equipment to be placed, the distance a user is located from a potential node. Once the minimum cost for a given set of placement sites, subscribers, equipment capacity, and other known constraints is determined the equipment are then placed at these sites. These include the number and type of DSLAMs assigned to each node.

Abstract: A method for placing equipment in a network begins with a baseline network on which demographic data is analyzed statistically to produce a demographically-driven driven demand forecast model. The demand forecast model yields a predicted demand for each census block group. This can be visualized as one map layer with a GIS. The layout method takes the predicted demands as input and produces new attribute information for network nodes, the central office and cross-connects. By the layout method the cost of placing equipment at available placement sites or nodes is minimized based on various constraints, e.g., the capacity of the equipment to be placed, the distance a user is located from a potential node. Once the minimum cost for a given set of placement sites, subscribers, equipment capacity, and other known constraints is determined the equipment are then placed at these sites. These include the number and type of DSLAMs assigned to each node.

Abstract: The measurement and control of the percent consistency of pulp leaving a blow tank in a pulp operation is improved by using digester data and additional temperature measurements. The percent consistency of pulp is determined by using the following data: 1) the temperature and relative amounts of dry pulp, liquid and dissolved solids in a blown mixture entering the blow tank; 2) the temperature and amount of dissolved solids in a first stage filtrate liquor; and 3) the temperature of a diluted pulp mixture leaving the blow tank. Once the percent consistency of pulp is accurately measured, this value is then used to control the tonnage rate of pulp entering a first washer in a pulp washing operation.