CS233267B1 - Experimental model area with underground water with little land occupation - Google Patents

Abstract

The invention addresses hydrological challenges and hydrological measurements as well as monitoring agricultural activity and its activities impact on the environment in particular groundwater quality in the experimental groundwater. This effect is achieved by research fields separated by underground sealing walls and interstices in the direction of groundwater flow, taking the research poles out flowing wells are pumping wells with underwater perforation together with input probes. At the entrance research fields in the flow direction there are drive-in probes. Output and input driven probes they are provided at different depths Perforation and allow continuous monitoring underground research

Description

The invention relates to an experimental groundwater model model with low soil engagement.

So far, hydrological surveys and hydrological measurements as well as monitoring of agricultural activity and its environmental impact, in particular on groundwater quality, have been carried out in variously large areas of representative or experimental waters, but none of these areas are extremely agriculturally exploited, or burdened, Mostly forestry issues related to water management are addressed.

Another group are research areas, which are mostly within the basin, focusing on the heights of hydrometric connections and the issue of grassland. Although all these types are addressed and qualitatively changes, but the issue of agricultural pollution is omitted.

It is not possible to monitor the effect of several agrochemical interventions quantitatively next to each other, since individual areas with native application of fertilizers and protective agrochemicals would as a result of lateral movement in and underground water. Due to national crop management requirements, it is not possible to apply 'TuboStrich Agrochemicals' for research purposes,

The object of the invention is an experimentally groundwater model area consisting of underground sealing walls and divisions for separating fields in the direction of flow, groundwater and thus protecting them from mutual interference. As a sealing wall material, for example, compacted clay of natural moisture , which as a natural material does not affect chemistry · .There are pumping wells for the output of individual fields serving for changes, groundwater levels. At the inlet and outlet of the fields there are inlet and outlet punched-in probes, which are used to monitor data and take samples of groundwater.

An advantage of the method according to the invention is that it is possible to build an experimental model area with a small footprint without affecting the variants. Testing and protective agrochemicals in the event of a negative environmental impact does not pollute large areas. The technical solution allows modeling of groundwater level

233 267 and monitor the effects of applying individual substances in much less time than hitherto. At the same time, it provides the opportunity to 'not only impact groundwater, soil fertility' and crop impact, but also in advance the impact of groundwater level changes on soil fertility 'and soil hydrology,

In the accompanying drawings in FIG. 1, the layout of the individual research fields is shown, and FIG.

The individual research fields 8 of the experimental model area are separated by underground sealing walls 1 constructed of compacted lump clay of natural moisture while simultaneously sheathing the bentonite suspension in a lamellar manner, the walls oriented in the direction of groundwater flow and bounding the research fields from two slopes to min. cm below groundwater level 4. The width of the fields is selected as a multiple of the maximum width of the agricultural machinery. In the interfields 2, free grassy areas in the width of a single agricultural machine, on which no agrochemicals are applied, together with the underground sealing walls 1, prevent the mutual application of agrochemicals to the individual variants. At the outlet 5 of the fields 3 there are pumping wells 6 with perforations 7 below the surface of the groundwater 4, which serve to change its height together with the outlet driven probes 10, on which there are different depths of perforations 13 for observation and sampling of groundwater.

At the entrance 8 of the fields 2 ^{in the} direction of groundwater flow 4 there are inlet probes ^with perforation 11, which are used for data monitoring and sampling of water entering the model area. At different research fields 2, ^{there are applied} different kinds of chemicals whose interactions are prevented by the sealing walls 1 and tnedzipolia 2, pumping wells 6 located at the outlet of the 5th fields 2 are used to change the occurrence of groundwater levels. water affected by the applied chemicals serve at the input 8 and output 2 of the fields 3 of the input punch probe 2, ^{and the} output punch probe 10,

Claims (2)

OBJECT OF THE INVENTION 233 267 1. Experimentally model groundwater area characterized in that it consists of ground sealing walls (1) and a gap (2) for separation of fields (3) in the direction of groundwater flow (4) and at the outlet (5) of fields / 3 / ^{in the} direction of flow there are pumping wells (6) with perforation (7) below the groundwater level (4), Experimental model area according to claim 1, characterized in that inlet (8) fields (3) in the direction of groundwater flow (4) are located inlet driving probes (9) and in outlet (5) outlet driving probes (10) provided with perforations (11) in different depths.