CS233267B1 - Experimental model area with groundwater - Google Patents

Abstract

The invention solves hydrological height and hydrological measurements as well as the monitoring of agricultural activity and its impact on the environment, especially on the quality of groundwater in an experimental model area with groundwater. The mentioned effect is achieved by means of research fields separated by underground sealing walls and intermediate fields in the direction of groundwater flow, while pumping wells with perforation below the surface along with input blocked probes are located at the exit of the research fields in the direction of flow. At the entrance of the research fields in the direction of the flow, there are input probes. Both output and input probes are equipped with perforations at different depths and enable continuous monitoring of the underground value during research.

Description

233,267 - 1 -

The invention relates to an experimental model area with sub-ground water at a small footpath,

So far, hydrological measurements and hydrological measurements as well as the monitoring of agricultural activities and its environmental impact on the quality of groundwater have been carried out in various areas of representative or experimental fields, but none of these areas are extremely agriculturally exploited, or burdened, it solves most of the problematic economies in relation to water management. Another group is the research areas, which are mostly inside the basin, focusing on the hydrometric context and the issue of grassland, although all the mentioned types deal with qualitative changes, but the issue of agricultural pollution is omitted.

It is not possible to observe the level of groundwater in either case, nor is it possible to investigate the impact of several agrochemical interventions quantitatively, as the individual plots of fertilizer and agrochemical protective application are laterally affected the movement in the podium profile as well as the groundwater influenced, Due to the demand of the national economy for plant production, it is not possible to apply solid agrochemicals for the purpose of research,

The object of the invention is to experimentally model a groundwater surface consisting of underground sealing walls of the interplants to separate the fields in the direction of flow, groundwater, and thus protect them from intervening, for example, densified natural moisture can be used as sealing wall materials, which, as a natural material, does not affect the nature and the output of the individual fields are pumped to serve for changes in groundwater levels. The input and output fields are input and output driven probes for data tracking and groundwater sampling. The advantage of the method according to the invention is the possibility of constructing an experimental model area with a small occupancy of the crop, without affecting each other, testing and extracting the protective agrochemicals in case of a negative environmental impact does not pollute large areas. The technical solution makes it possible to model the height of the groundwater - 2 233 267 and monitor the effects of the application of individual substances in a much shorter time than before. At the same time, it provides the possibility to realize not only the impact of groundwater levels, on fertility and crops, but also in advance the impact of changes in groundwater levels in connection with waterworks under construction for land fertility and country hydrology,

In the accompanying drawings in Fig. 1, a V-position of individual research fields is shown, and Fig. 2 is a cross-section of a single research field at the outlet location with a pumping well probe.

The individual experimental fields of the experimental model range are separated by underground sealing walls 1 built from a compacted piece of natural moisture with the bentonite suspension in a simultaneous lamellar manner, with the walls aligned in the groundwater stream and bounding the research fields from two hills to depth min, 200 cm below ground level 4, Field width is chosen as multiple of the highest width of field machinery. On the intermediate shelves 2, the free grassy areas in the width of one agricultural machine, to which the agrochemicals do not apply, together with the underground seals of the walls 1, prevent the mutual variation of the individual applications of the agrochemicals. At the outlet 5 of the fields 3 there is a pumping well 6 with a perforation 7 below the groundwater level 4, which serves to change its height together with the outlet stopper probes 10 on which the perforations 13 serve to observe and take samples of the groundwater in different depths.

At the inlet 8 of the groundwater flow direction 4 there are input perforated probes with perforations 11 which serve to monitor the data and take samples of the water at the model area. On different research fields, aP “varies various types of chemicals, which are influenced by sealing walls 1, and interplants 2, pumping wells are used to alter the level of groundwater levels 6. placed on the outlet 5.pole to observe and sample groundwater affected by applied chemicals serve on input 8 and output 5, input 3 fields of the driven probe 2, and output drives 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.