GR1008947B - A device destined for the continuous supervision of the water's qualitative and quantitative characteristics and the management thereof - Google Patents

Abstract

The invention relates to a device which is designed to register, on a continuous basis, the changes of the physiochemical parameters of a supervised water supply. Selectively-connected sensors send their measurements to the user who, before proceeding to precise actions, checks whether the measurements are within or out the preselected limits and compliant with the programming. Furthermore, said device is able to send measurements to a database or a terminal of the user΄s choice and warn via alarm in the occurrence that a parameter deviates from the predefined desired values. The invented device aims at the prevention of the underground water spoilage as wells as at the non-expensive exploitation of water thanks to the supervision of the water qualitative and quantitative characteristics fluctuating all along the year.

Description

P E R I G R A F H

Device for continuous monitoring of the qualitative and quantitative characteristics of water and their management.

The device has the ability to monitor and record the physical and chemical characteristics of the water of wells, boreholes and the water supply network. It consists of a data processor that has the ability to optionally connect to sensors of electrical conductivity, pH, temperature, water level, water supply, relay motor, chlorine/dissolved oxygen, depending on the need, and records the changes of the above parameters giving to the user valuable information regarding the quantity and quality of the water he will use. It also has the ability to warn when certain values deviate from the desired values.

Field of technique

It is an application in the field of agriculture, industry, fish farms, Municipalities and Communities that use water extraction wells and boreholes as well as private enterprises that use underground water for the production of products and the irrigation of their plant capital.

Prior art level

Today, the use of groundwater is done without supervision and recording of the physico-chemical characteristics of the pumped water, resulting in over-pumping and in many cases brackish water entering the aquifer

horizon making the further use of such water destructive for plants and soil as well as unprofitable to treat the water in the case it is intended for watering or irrigation.

What do I suggest what are the advantages

The device, with the help of sensors, constantly monitors the physico-chemical parameters of the pumped water, giving the owner the ability to immediately know when certain characteristics change and exceed the desired limits, so that he can either activate correction mechanisms or stop the pumping at will. So, for example, we can eliminate the risks of salt water intrusion into the underground pumping horizon and protect our supply forever while still being able to use it to its fullest potential. Also, when certain values deviate from the desired limits then we can activate other corrective mechanisms depending on the application. The continuous recording provides the complete picture and the possibilities that the specific water supply has and thus an economic assessment of the area can be made in terms of uses and possibilities.

Full description concept disclosure.

The device consists of electrical conductivity, water level, pH, chlorine, dissolved oxygen, temperature and flow measurement sensors which are connected according to the customer's choice in terms of recording needs, with a special processor which has 6 analog inputs, 4 digital and 6 outputs relay type and is able to count the indicative values, monitor them and warn when one deviates outside the user-defined value band. There is also the possibility of recording the start and stop of the pump motor and the automatic calculation of the energy consumed and the function of automatic cleaning of the central filter. All the above recordings and notifications can be sent via network to a database so that the function can be checked at any time based on the history.

The pH sensor is connected to the processor through the first analog input and transmits to it the measurements of the pH values during the operation of the monitored system (drilling, well, water supply network, etc.). There is a possibility to program the upper and lower pH values accepted by the user. In addition to these values (above or below), the selected time delay is activated and with its passage, the first relay output can be activated which activates the treatment of the water to correct the pH (eg dosed use of acid or base), or activate the alarm relay to alert the user or shut down the water supply system or a combination of the above based on the initial programming options.

The EC electrical conductivity sensor is connected to the processor through the second analog input and transmits the measurements of the electrical conductivity values during the operation of the monitored system (drilling, well, water supply network, etc.). The upper and lower EC values accepted by the user are programmable. Beyond these values (above or below), the programmed time delay is activated and with its passage, the second relay output can either be activated which activates the water treatment to correct the conductivity (e.g. reverse osmosis system), or activate the alarm relay to alert the user or shut down the water supply system or a combination of the above based on the initial programming options.

The temperature sensor is connected to the processor through the third analog input and transmits to it the measurements of the water temperature values during the operation of the monitored system (drilling, well, water supply network, etc.). It is possible to program the upper and lower temperature values accepted by the user. Beyond these values (above or below) a time delay is activated and when it passes, either the third relay output that activates the water treatment to correct the temperature (cooling or heating) can be activated, or the alarm relay can be activated to alert the user or shut down the water supply system or a combination of the above based on the initial programming options.

The flow measurement sensor is connected to the processor through the fourth analog input and transmits to it the measurements of the water flow values during the operation of the monitored system (drilling, well, water supply network, etc.). It is possible to program the upper and lower water flow value that the user accepts. In addition to these values (above or below), a time delay is activated and when it passes, the alarm relay can either be activated to notify the user even via the network or the operation of the water supply system can be interrupted or a combination of the above based on initial programming options.

The water level sensors are connected to the processor through the first, second, third and fourth digital inputs and transmits to it the indications of the level electrodes during the operation of the monitored system (drilling, well, tank, etc.). It is possible to program when the water level reaches the lowest point accepted by the user and after the initially programmed time delay has elapsed the fourth relay output is activated which initiates an additional auxiliary function (e.g. activation of second supply), or the relay is activated of the alarm to alert the user or shut down the water supply system or a combination of the above based on the initial programming options.

The chlorine / dissolved oxygen sensor is connected to the processor through the fifth analog input and transmits to it the measurements of the values of dissolved oxygen or chlorine during the operation of the monitored system (drilling, well, water supply network, etc.) It is possible to program the upper and lower values accepted by the user. In addition to these values (above or below), the time delay is activated and upon its passage, depending on the option initially programmed, the fifth relay output can be activated which activates the water treatment to correct the above parameters (dilution/ additional chlorination/aeration), or activate the alarm relay to alert the user or shut down the water supply system or a combination of the above based on the initial programming options.

Examples applications

This device is directly applicable in the agricultural sector where the owner of the supply continuously monitors the water he uses in his cultivation and evaluates and adapts the cultivated variety to his data. He also chooses the type of crop he will develop. In this way, it eliminates the destructive consequences of over-pumping, makes an accurate costing of the use of water and can also estimate the cost of its subsequent treatment that can be done in order to produce stable quality and quality products.

In the industrial sector, the use of fluctuating water is prevented so that a product of constant quality can be produced. When deviations from the required specifications are observed during the production process, then the device provides guarantees for constant quality water. In the case of groundwater that is pumped by Municipalities and Communities and is intended to cover the needs of the water supply, the continuous recording prevents the destructive consequences of over-pumping while recording the actual cost of operating the pumping station, so that correct pricing can be done to the recipients.

In the case of private businesses (hotels, stadiums, urban greenery), we have the possibility of using underground water to avoid reckless and pointless use, the possibility of costing the water used, the organization and design of specialized distribution and treatment networks after pumping, as well and selecting plants that thrive when irrigated with water that has the specific characteristics. Full planning of the pumping can be done based on the variation of the characteristics to avoid the wrong plant selections, to ensure the success of the planting and to protect the underground horizon for the longevity of its use.

das as to the adequacy and the

Claims (1)

1. The basic idea behind the device innovation is that it offers immediate and continuous monitoring and recording as well as the ability to inform the user and protect the pumping source. To this day there is no organized recording and continuous monitoring and when a change in the characteristics of the water is revealed it is because economic damage has already been caused which may be irreversible! In the case of agricultural crops, the period in which the operation of the water supply causes a reduction in yield but is not immediately perceived by the producer must also be taken into account. The continuous recording and supervision of the pumped water ensures the user the certainty of his investment and the security that his supply will give him the maximum of its potential. The controller continuously records changes in the physicochemical parameters of a water supply pumped for a specific purpose. The sensors connected according to the user's choice described above, continuously send him the measurements and he performs certain actions according to the programming. It checks whether the measurements are within or outside the limits selected by the user and accordingly initiates provisions for notifying the user, or for correction provisions or even for a total shutdown of the system. Besides that, it has the ability to send its measurements in real time to a database or to a terminal of the user's choice, and the ability to be notified in the form of an alarm when a parameter deviates from the desired values, predetermined by the user. In the latter case, the possibility of stopping the operation of the pumping engine and restarting it in a reasonable time in a second phase of increased attention with a reasonable time delay is provided. It is possible during the resulting shutdown to inform the other dependent operations that are in progress at that time to enter a parallel waiting phase until the pumping is back within the approved operating limits. In the opposite case and depending on the type and the deviating factor, a specific repair device may be activated in order to maintain the uninterrupted operation of the pump.