Water quality management system

Details Water quality management system Water quality management system

1999-09-17

2001-06-12

Drodge, Joseph W. (Department: 1723)

Liquid purification or separation

With alarm, indicator, register, recorder, signal or...

Responsive to fluid flow

C073S064550, C073S863000, C137S093000, C210S093000, C210S096100, C210S097000, C210S433100, C210S541000

Reexamination Certificate

active

06245224

ABSTRACT:

BACKGROUND OF THE INVENTION
The present invention relates to a water quality management system and more particularly to measurement, monitoring and management of water quality at the end of pipe lines.
Management is made of water by filtering and disinfecting the water from a drainage basin in a purification plant and then distributing only the water that has passed water quality criteria to consumers. Among criteria for evaluating the quality of tap water are residual chlorine (for example, in Japan, 0.1 mg/L or higher for water at taps; 0.4 mg/L or less for tasty water), turbidity (2 degrees or less) and color (5 degrees or less). A conventional practice for maintaining the quality of water involves sampling water from parts of the water distribution pipe line network and checking residual chlorine concentration, turbidity and color manually or by a water monitoring apparatus to determine the amount of chlorine to be added to the water. As described in JP-A-6-320166, another conventional method of controlling the amount of chlorine to be added at the purification plant involves performing fuzzy reasoning based on signals from water quality monitors installed in the water distribution pipe line network and on measured amounts of residual chlorine in a clean water reservoir and a water distribution reservoir at the purification plant to minimize the amount of trihalomethanes. Further, as described in JP-A-7-290040, still another method performs analysis on the water distribution pipe line network to determine the flow and head of the water flowing past nodes (intersections) in the pipe line network and the amount of water taken out at respective nodes and thereby estimate the amount of residual chlorine at each node to adjust the amount of chlorine to be added into the distribution reservoirs provided at the purification plant and in the pipe line network.
The water is supplied from the purification plant to consumers through a distribution main 400 mm or more in diameter which branches into smaller distribution pipes 100-350 mm in diameter. The water in the distribution pipes is required to have residual chlorine concentrations higher than a certain level to prevent multiplication of bacteria. The amount of chlorine in the water decreases exponentially over time due to reaction with organic matters in the water and with pipe walls, and there are variations in the chlorine concentration depending on the route of water supply and the time taken by the water to reach faucets. The rate of reduction in the residual chlorine is affected by the pipe diameter, the presence or absence of lining inside the pipe, and the temperature of water. The chlorine reduction rate is higher in a smaller-pipe distribution network because the reduction rate increases as the pipe diameter decreases and the water temperature becomes high. The time it takes for the water to reach the faucets varies daily and by seasons depending not only on the amount of water used at the faucets but also on the amount of water used downstream. Further, turbidity and color variations are caused by rust due to deteriorated piping and soil particles entering into water through damaged pipes.
Since it is practically impossible to grasp by analysis the state of the small-pipe water distribution network near the consumers beyond the main pipe line branches as well as the water flow in a whole water supply network from the purification plant to the consumers, the control of water quality at the consumers' end of the water supply network is almost impossible.
SUMMARY OF THE INVENTION
An object of the present invention is to provide a water quality management system which can grasp the state of the small-pipe water distribution network near the consumers beyond the main pipe line branches as well as the water flow in a whole water supply network from the purification plant to the consumers to maintain at an appropriate level the water quality at the consumers' end of the water supply network.
A first feature of the present invention to achieve the above objective is a water quality management system for managing the quality of water in a water supply network having water pipe lines running from a purification plant to consumers' faucet, comprising: water quality monitors installed in a small-pipe water distribution network to measure the quality of water in pipe lines, the small-pipe water distribution network branching from a water distribution main and running toward the consumers; wherein the quality of water flowing from the water distribution main to the small-pipe water distribution network is controlled based on signals from the water quality monitors.
A second feature of the invention is a water quality management system comprising: a water quality supervision center for supervising and controlling the quality of water flowing into a small-pipe water distribution network on the consumers' side which branches from a water distribution main; and water quality monitors to measure the quality of water in pipe lines of the small-pipe water distribution network; wherein signals from the water quality monitors are transmitted to the water quality supervision center to control the quality of water flowing from the water distribution main to the small-pipe water distribution network.
A third feature of the invention is a water quality management system comprising: a water distribution facility installed at a base point of a small-pipe water distribution network to improve the water quality, the small-pipe water distribution network branching from a water distribution main and running toward the consumers; and water quality monitors installed in the small-pipe water distribution network to measure the quality of water; wherein the quality of water flowing from the water distribution facility to the small-pipe water distribution network is controlled based on signals from the water quality monitors.
A fourth feature of the invention is a water quality management system comprising: a water distribution facility installed at a base point of a small-pipe water distribution network to improve the water quality, the small-pipe water distribution network branching from a water distribution main and running toward the consumers; water quality monitors installed in the small-pipe water distribution network to measure the quality of water; and flow sensors to measure the flow of water running through pipe lines of the small-pipe water distribution network; wherein the operations of the water distribution facility and the purification plant are controlled based on signals from the water quality monitors and the flow sensors.
It is also an effective method to provide the water distribution facility with a water quality monitor, a means for improving the water quality and a bypass passage for bypassing the water quality improving means to deliver the water to the small-pipe water distribution network so that, when the quality of water flowing from the water distribution main to the small-pipe water distribution network as measured by the water quality monitor is good, the water improving means is bypassed when supplying the water to the small-pipe water distribution network.
It is also possible to provide in a pipe line near the water quality monitor installed in the small-pipe water distribution network a pipe line and a drain valve for discharging the water and to open and close the drain valve according to the signal from the water quality monitor.
A tank for storing the water discharged from the drain valve may also be provided.
Further, it is possible to provide a pipe line for delivering the water near the water quality monitor installed in the small-pipe water distribution network to the water distribution facility, the water distribution reservoir or the purification plant and also a drain valve for opening and closing the pipe line, and to open and close the drain valve according to the signal from the water quality monitor.
It is also an effective method to provide a water purification facility near the water q

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