DE10106091A1 - Determination of the water flow rate from rain overflow or settling tanks in water treatment plants in which a water contraction is used to accurately determine the flow rate by measuring the water column height in the contraction - Google Patents

Abstract

Method for determining the volume flow rate of a liquid in proportion to the amount of liquid flowing over a weir or some such structure. The measurement edge (1) is broken in at least one point to form a flow contraction (E). The shape of the contraction is constant and the height (H) of the fluid or the fluid column above the fixed measurement edge in the area of the contraction is exactly measured and from it the volume flow rate. An Independent claim is made for a corresponding measurement device.

Description

The invention relates to a method for determining the volume flow of a river liquid according to its overflow quantity over the edge of a threshold or another structural system, with the edge under at least one point is broken. The invention also relates to a device for carrying out the method proceedings.

In water treatment plants, such as. B. rain overflow or clarifier, etc., is it is necessary to determine the flowing water quantities as precisely as possible. After this State of the art, this is usually done by measuring the level Water in relation to the height of the sulfur.

The water level can be, for example, by means of a water level Probe or by means of an outside of the water and placed on the water surface-facing sensor can be determined. In the used for the determination Formula includes, among other things, a molded part value, that of threshold length and its geometrical form accuracy, and depends on the surface quality. These dependencies lead to common thresholds, especially small ones running amounts of water, disadvantageously inaccurate measurement results. This disadvantage results from the fact that the threshold has only a constant head, and at ge volume flows with a corresponding threshold length are only very small ge water level that can only be determined relatively imprecisely. This leads - as I said - with low volume flows to a high measurement inaccuracy.  

To remedy this, DE 44 28 421 A1 proposes that instead of or in the stationary over threshold at least one movable overflow threshold is installed.

The movable overflow threshold can be defined from one or more geometrically nable wedges exist, which have a metrologically favorable channel shape as for example have rectangle, triangle or curved upper edge. The overflow threshold is by means of one or more suitable actuators such as a chain, rope, Strap, rack etc. adjustable. Furthermore, an embodiment of a kaska the series connection of several movable overflow thresholds described.

U.S. Patents 1,190,400 and 1,239,601 show measuring devices on hydraulic structures Chen systems, with at least one instead of or in the stationary overflow threshold movable overflow threshold is installed.

Document GB 2 283 267 A describes a mobile weir with a motor rule drive for height adjustment, with its measuring edge at one point a V-shaped recess and the formation of a flow restriction under is broken.

Starting from the aforementioned prior art, the object of the invention basic, for measuring small flowing quantities of water an accurate and as possible economical solution without specifying moving, height-adjustable parts that it should also make it possible to retrofit the measuring device provided for this purpose to install existing sleepers.

To solve the problem, the invention for determining the volume flow the liquid in accordance with its overflow quantity over the measuring edge of the Threshold on a water treatment system, suggested that a recess of unchangeable shape in the measuring edge, forming a flow lacing is let in, the height of the liquid or the resulting Liquid column precisely measured in the area of the constriction and from this the assignable volume flow or the amount of water is calculated. The threshold can be an overflow threshold, an inlet threshold or an outlet threshold his.  

The underlying method according to the invention is based on the fact that the usual continuous threshold at one or more points points in or in which low volume flows through the existing one Lacing (s) with a correspondingly high liquid column arise, which over a suitable measuring system can be recorded exactly. From the measured what water level can then be easily calculated.

The method according to the invention is particularly good for metrological detection and quantitative determination of smaller volume flows of liquids net. Of course, with the help of the claimed method and the bean said device also measured the larger volume flows of a liquid niche detected and determined when the liquid over the entire measuring edge left and to the right of the recess. The claimed level measurement of the liquid speed above the constriction is therefore advantageously used for smaller ones Volume flows and for larger volume flows.

An embodiment of the method provides that for the exact determination of Volu flow accordingly with considerable differences in their liquid quantities different recesses are formed.

The invention provides in particular that with the help of the water level an ex in the area of a recess with comparatively small volume flows the same or the amount of water is determined.

The recesses can be advantageous with any configurations, profiles or Shapes like parts of a circle, parabola, ellipse, sine or other against geometric or trigonometric shape or stair-like or the like be trained.

Measuring edges and or recesses made of concrete or metal or Plastic or from their combination or from other materials or material combinations.  

According to the invention, the method further provides for the detection of the liquid height in the area of a constriction by means of ultrasound measurement, pressure measurement, ra diometric measurement or the like by methods known to the person skilled in the art to be led.

And finally, from the measure Ge custom made that at least one level measurement of the level of a liquid basin lying in front of the measuring edge of the threshold for determining the Amount of water is used.

A device for determining the volume flow of a liquid or its Overflow quantity over the measuring edge of a threshold on a water treatment plant ge is characterized in that the measuring edge at least at one point by egg ne recess is interrupted to form a flow restriction, wherein in the region of the recess there is a measuring device with which the Height of the liquid measured over the measuring edge in the area of the recess and the volume flow or the amount of liquid in an electronic evaluation unit is calculated.

Further details, features and advantages of the invention result from the The following explanation is shown schematically in the drawings Embodiment.

Show it:

Fig. 1 in a plan view of a liquid reservoir with a measuring threshold and a recess arranged therein.

Fig. 2 in a view the measuring threshold with the recess.

The synopsis of FIGS . 1 and 2 shows the family tree of a method or a device for determining the volume flow of a liquid in accordance with its overflow quantity over a fixed measuring edge 1 of the threshold at a water treatment plant 2 , in particular a wastewater treatment plant or on structures of rainwater treatment , The measuring edge 1 is interrupted at least at one point by a recess 3 . The recess 3 has an invariable shape. The measuring method according to the family tree shown in the figures is carried out in such a way that the height H of the liquid above the fixed measuring edge 1 , in the area of the recess 3 is measured exactly and calculates the volume flow rate V in the computing unit 6 according to a predetermined formula becomes. Because the recess 3 also concentrates the smallest and smallest volume flows V in the passage through the recess 3 , these or, after a conversion, the amount of liquid can be measured precisely.

To this end, it can advantageously be provided that, for the exact determination of volumes, there are correspondingly different recesses 3 formed with considerable differences in their liquid quantities.

With the aid of the constriction E in the region of the recess 3 , the exact determination of the volume flow V is carried out.

The recesses 3 can be formed with any geometric shapes such as parts of a circle, a parabola, an ellipse, a sine or other flat trigonometric or stair-like or the like. In the example shown, the recess 3 according to FIG. 2 is designed similar to an elliptoid. Other forms of geometry such as paraboloid of revolution, spherical shells or spherical caps can be used with advantage.

The measuring edge 1 and the recess 3 can be made of concrete or metal or plastic or a combination of the same or a different material or de ren combinations.

The detection of the measured value of the liquid level in the area of constrictions E can be carried out by means of ultrasound measurement, pressure measurement or other suitable measuring methods. In some cases at least one level measurement of the filling height H of a liquid tank 5 lying in front of the measuring edge 1 of an overflow threshold 5 can also be used.

A device for determining the volume flow of a liquid made to measure the amount of overflow over the measuring edge 1 of a threshold on a construction site 2 shows that the measuring edge 1 is interrupted at least at one point by a recess 3 from forming a flow constriction E. In the area of the recess 3 there is a measuring device with which the height of the liquid is determined above a measuring edge and the volume flow V is calculated therefrom in an evaluation electronics 6 .

The outflow is or can be stabilized by one or more stabilizers 7 (guide walls) in order to achieve a uniform outflow.

The upstream baffle 8 prevents the outflow and discharge of solids that are located on the upper water surface and only allow a defined outflow from the clear water suspended area in connection with the stabilizers 7 .

Claims (12)

1. A method for determining the volume flow of a liquid according to Massga be from its overflow quantity over the measuring edge ( 1 ) of a threshold or other structural system, the measuring edge ( 1 ) being interrupted at at least one point, characterized in that a recess ( 3 ) preferably of unchangeable shape in the fixed measuring edge ( 1 ) with formation of a flow restriction (E), the height (H) of the liquid or the resulting liquid column in the area of the restriction (E) being measured exactly and from this the volume flow (V) or the amount of water is calculated. 2. The method according to claim 1, characterized in that correspondingly different recesses ( 3 ) are formed for determining volume flows with considerable differences in their liquid quantities. 3. The method according to claim 1 or 2, characterized in that in the region of a constriction (E) of the flow by measuring the water level in the region of the recess ( 3 ) with comparatively small volume flows (V) an exact determination is made. 4. The method according to one or more of claims 1 to 3, characterized in that recesses ( 3 ) with any configuration, profiles or shapes such as parts of a circle, a parabola, an ellipse, a sine or any other geometric or trigonometric shape or stair-like or the like. 5. The method according to one or more of claims 1 to 4, characterized in that the measuring edge ( 1 ) and the recess (s) ( 3 ) made of concrete or metal or plastic or from a combination thereof or from any other material or Material combinations are made. 6. The method according to one or more of claims 1 to 5, characterized, that the detection of the liquid height (H) in the area of the constriction (s) (E) by means of ultrasonic measurement, pressure measurement, radiometric measurement or the same measurement method is carried out. 7. The method according to one or more of claims 1 to 6, characterized in that at least one level measurement of the fill level (H) of a liquid pool ( 5 ) lying in front of the measuring edge ( 1 ) of the threshold for determining the liquid height in the region of the recess ( 3 ) is also involved. 8. A device for determining the volume flow (V) or the flowing amount of a liquid over the measuring edge ( 1 ) of a threshold ( 2 ) or other structural requirement, in particular for carrying out the method according to the preceding claims, characterized in that the measuring edge ( 1 ) is interrupted at least at one point by a recess ( 3 ) to form a flow restriction (E), a measuring device being provided in the region of the recess ( 3 ) with which the height (H) of the liquid above the measuring edge measured in the area of the recess ( 3 ), and the volume flow (V) or the amount of liquid is calculated therefrom in evaluation electronics ( 6 ). 9. The device according to claim 8, characterized in that one or more devices for level measurement are provided for height detection of the liquid, which are arranged in front of, behind or next to the recess ( 3 ). 10. The device according to claim 8 or 9, characterized in that the flow of water in the area of the measuring edge ( 1 ) and / or a recess ( 3 ) is stabilized and / or optimized by guide walls ( 7 ) or other devices. 11. The device according to one or more of claims 8 to 10, characterized in that the measuring threshold is preceded by a baffle ( 8 ) such that it keeps floating solids away from the measuring edge ( 1 ). 12. The apparatus according to claim 8, characterized in that the recess ( 3 ) has an invariable shape.