A MOBILE SYSTEM FOR CONTINUOUS, AUTOMATIC, ONLINE MONITORING OF WATER QUALITY AND PARTICLE SAMPLING IN A DRINKING WATER DISTRIBUTION NETWORK

Abstract

The present invention relates to a mobile system for continuous, automatic, online monitoring of water quality and particle sampling in a drinking water distribution network, comprising: a mobile unit provided with means for supplying, from at least a selected one of the plurality of points in the drinking water distribution network, a corresponding, selected influent fluid sample stream; means for discharging a corresponding, selected effluent fluid sample stream; for each selected influent fluid sample stream, a respectively associated continuous monitor module.

Claims

1. A mobile system for continuous, automatic, online monitoring of water quality and particle sampling in a drinking water distribution network, comprising: a mobile unit provided with means for supplying, from at least a selected one of the plurality of points in the drinking water distribution network, a corresponding, selected influent fluid sample stream; means for discharging a corresponding, selected effluent fluid sample stream; for each selected influent fluid sample stream, a respectively associated continuous monitor module comprising: means for monitoring the temperature of the influent fluid sample stream and generating a corresponding temperature signal; means for monitoring the flow rate of the influent fluid sample stream and generating a corresponding flow rate signal; means for monitoring the pressure of the influent fluid sample stream and generating a corresponding pressure signal; means for guiding said selected influent fluid sample stream to a bottle for collecting a water sample of the influent fluid sample stream; means for guiding said selected influent fluid sample stream via a filter for collecting particles of the influent fluid sample stream; and measuring means responsive to at least the temperature, flow rate, pressure signals for determining a sample sequence thereof.

2. The mobile system according to claim 1, wherein said continuous monitor module further comprises means for monitoring the electrical conductivity of the influent fluid sample stream and generating a corresponding electrical conductivity signal.

3. The mobile system according to claim 1, wherein said continuous monitor module further comprises means for monitoring the pressure of the effluent fluid sample stream and generating a corresponding pressure signal.

4. The mobile system according to claim 1, wherein said continuous monitor module is placed in a temperature controlled environment.

5. The mobile system according to claim 1, wherein said means for guiding said selected influent fluid sample stream further comprise a main influent pipe, said main influent pipe being connected to at least one secondary pipe, wherein said at least one secondary pipe is provided with said filter for collecting particles.

6. The mobile system according to claim 1, wherein said means for guiding said selected influent fluid sample stream further comprise a main influent pipe, said main influent pipe being connected to at least one secondary pipe, wherein said at least one secondary pipe is provided with at least one bottle, said bottle being sealed and isolated from surrounding air, said bottle being used for sampling water.

7. The mobile system according to claim 1, wherein said continuous monitor module further comprises means for switching said main influent pipe to at least another secondary pipe, wherein said means for switching are controlled via a time programmed sequence.

8. The mobile system according to claim 1, wherein one or more signals chosen from the group of temperature, flow rate, influent pressure, effluent pressure and electrical conductivity, are sent to a monitor unit.

9. The mobile system according to claim 8, wherein said monitor unit transmits the signals as received to an electronic data system.

10. The mobile system according to claim 5, wherein thirty lines secondary lines are present, wherein four secondary lines will run as a group, for every three hours, each controlled by an auto-valve for open and close.

11. The mobile system according to claim 10, wherein a group of four secondary lines comprises three secondary lines for collecting particles and one secondary line for sampling water.

12. A method for continuous, automatic, online monitoring of water quality and particle sampling in a drinking water distribution network, comprising: i) providing a drinking water distribution network. ii) obtaining an influent sample stream from said drinking water distribution network, iii) sending said influent sample stream to a plurality of branch lines, in which branch lines automatic controllable valves are present, said plurality of branch are provided with filters for collecting parts or bottles for sampling water, iv) operating said automatic controllable valves in such a way that according to a specific sample regime each branch line is individually provided with said influent sample stream, and v) collecting filter samples and water samples according to said specific sample regime.

13. The method according to claim 12, wherein said influent sample stream is measured for one or more parameters, chosen from the group of temperature, pH, pressure, flow rate, conductivity and flow cytometer, or a combination thereof.

14. The method according to claim 12, wherein step iv) includes providing a specific branch line with said influent sample stream during a specific time interval and, after said specific time interval, providing another branch line with said influent sample stream during a specific time interval.

15. The method according to claim 12, wherein operating said automatic controllable valves is controlled by a programmable logic controller (PLC).

16. The method according to claim 12, wherein data obtained from the present method is logged and uploaded to a server, for all measurements.

Description

[0047] The present invention will be discussed with reference to the sole FIGURE.

[0048] The FIGURE shows an example of a mobile system 1 for continuous, automatic, online monitoring of water quality and particle sampling in a drinking water distribution network. Influent fluid sample stream 2, i.e. a supply line for water to be analysed, is sent to a plurality of branch lines 6, 7, 8, 9 and 15. The flow of water in stream 2 is analysed for a number of parameters, such as temperature, pH, and pressure, conductivity, via one or more sensors 3. In this embodiment an additional sensor 4, i.e. an online flow cytometer (counting cell number), is present in stream 4 as well. The mobile system 1 shown here refers to a sample cycle of for example 0-3 hrs. The flow of water through line 5 is sent to a plurality of branch lines 6, 7, 8, and 9. In these branch lines 6, 7, 8, and 9 automatic valves 10 are present. Automatic valves 10 are connected to a PLC box (not shown here). The branch lines 6, 7, 8 are provided with filters 11, 12 and 13 for collecting particles, respectively. Branch line 9 is provided with a bottle for sampling water. In operational mode water to be analysed is passed from an inlet point via sensors 3, 4, line 5 to one of the branch lines 6, 7, 8, and 9. In case the automatic valves in branch lines 6, 7, and 8 are closed and the automatic valve in branch line 9 is open, a water sample will be taken by filling water bottle 14. After filing water bottle 14 with water, the automatic valve in branch line 9 will be closed and one or more of the automatic valves in branch lines 6, 7, and 8 will be opened. The water flow coming from line 5 will then be passed through one or more of filters 11, 12 and 13 for collecting particles. In an embodiment the filters 11, 12 and 13 will be operated according to a specific time program. For example, filter 11 will be operated in a period of 0-1 hrs, filter 12 will be operated in a period of 1-2 hrs and filter 13 will be operated in a period of 2-3 hrs. Thus each filter 11, 12 and 13 corresponds to a certain time range of the sample regime. In this example another group of branch lines 15 will be operated in the following periods, for example in a period of 3-6 hrs, in a period of 6-9 hrs, in a period of 9-12 hrs etc. This means that for every period several filter samples and a water sample will be collected. In another embodiment filters 11, 12, 13 can be operated from 0-3 h together, that triplicate filter/particle samples can be collected. Line 14, in this embodiment may take a water sample for 0-3 h. Thus, in the main supply line there are multiple sensors for measuring temperature, pH, conductivity, pressure, and an online flow cytometer measuring cell numbers in the water. In total, there are preferably thirty lines, four lines will run as a group for every three hours, each controlled by an auto-valve for open and close. Within those four lines, three lines are used for filtration to collect suspended particles by a filter placed in the filter holder (for example 1.2 μm glass fiber filters are being used), the other line is connected to sampling bottle for collecting water samples. Collected particle and water samples are analyzed on physiochemical and microbiological parameters.

[0049] The samples, i.e. solids and liquids, can be analysed on physiochemical and microbiological parameters (ATP, elements, Aeromonas, D N A et al.). For obtaining reliable liquid and solid samples it is preferred to store all filters and sampling bottles in a temperature controlled environment, for example a fridge. In terms of readability a PLC box, additional valves, pumps, control panel have not been described here. In another embodiment a different sample regime may be applied, for example filters 11, 12, 13 can be operated from 0-3 h together resulting in the collection of triplicate filter/particle samples. In such an embodiment branch line 14 may take a water sample for 0-3 h. The period of taking samples is not critical here. This means that taking samples may take place during a sample program of for example 0-2 h, 2-4 h, 4-6 h, or 0-1 h, 1-2 h, 2-3 h etc.

[0050] It is to be noted that the embodiment discussed here is not limited to a specific number of sensors, branch lines, automatic valves, filters etc. The embodiment describes the present mobile system 1 for continuous, automatic, online monitoring of water quality and particle sampling in a drinking water distribution network only for illustrative purposes.