PL216076B1 - Method and kit for the preparation of a soil sample for testing the filtration rate, especially for anisotropic conditions - Google Patents

Description

Description of the invention

The subject of the invention is a method for preparing a soil sample for testing the filtration coefficient, especially for anisotropic conditions.

So far, methods for the preparation of soil samples for testing the filtration coefficient are known. From the textbook by J. Ostromęcki "Introduction to agricultural melioration" PWRiL Warszawa 1964 p. 118, a method is known which consists in pressing a cylinder into the ground, taking it out, leveling the bottom of the soil with a knife, closing the bottom of the cylinder with a mesh cover, tamping the soil along the perimeter with a small plunger and soaking it samples by flooding with water from above, and from the textbook by M. Marciniak et al. "Research on the filtration coefficient of semi-permeable formations" Sorus Poznań-Kraków 1999 p. 80 a method consisting in placing an intact cylindrical soil sample in a constant pressure hydraulic chamber and subjecting it to isotropic consolidation and the process of deaeration and water saturation is known.

From the Polish patent application No. P. 335338, a method for determining the filtration coefficient of sandy soils in a hydrogeological permeameter is known, consisting in placing the soil sample in a cylinder with a bottom in the form of a filter mesh and centrally mounting the cylinder on a socket holder in a larger cylindrical tank, with the water flowing through the sample takes place only from the bottom up, which shows that this method does not take into account the anisotropy of the soil.

US Patent No. 6,935,159 discloses a method for determining the filtration coefficient of a porous medium in a cylindrical sample in a centrifugal permeameter, in which the liquid flow takes place in one direction, without taking into account the anisotropy of the soil.

From the American patent application No. 6,055,850, a method for determining the filtration coefficient of a porous medium in a multidirectional permeameter is known, consisting in passing water through a cylindrical sample in the horizontal or vertical direction due to the appropriate location of the inlet and outlet openings of the filtering liquid, so it is possible to study the anisotropy of soil by determining the filtration coefficients the same soil sample with different water flow directions.

From US patent application No. 6655192, a method for determining the filtration coefficient of a porous medium is known, taking into account the anisotropy of this medium, consisting in testing the permeability in the horizontal and vertical direction separately in different samples, while determining the vertical permeability requires the use of a disk-shaped sample and liquid transmission from from one circular wall to another, while the determination of horizontal permeability uses ring-shaped samples through which the liquid flows from the inside to the outside, with the possibility of measuring the porosity. This method takes into account the anisotropy of the medium. The medium permeability in the horizontal and vertical directions is tested in this apparatus separately - on different samples.

The essence of the method of preparing the soil sample for the filtration coefficient test, especially for anisotropic conditions, is that the cube-shaped soil sample is taken with a die, then all surfaces of the soil sample are secured with gypsum near the site of sampling in the field, without changing the position of the sample. in relation to the sides of the world, after which, after the gypsum has solidified, the individual surfaces of the cube, geographical directions and the position "up", "down" are described, then the samples are transported to the laboratory, and then in the laboratory the gypsum is removed from two selected opposite walls of the soil sample , a set for preparing a soil sample for testing the filtration coefficient is assembled and the joints of the set are sealed with silicone and gypsum so that the water flowing through the set can only flow vertically through the soil sample, then the soil sample in the set is saturated with water and the filtration coefficient is measured wp on the impermeability meter according to standard procedures, then the set for the preparation of the soil sample for testing the filtration coefficient is disassembled and the exposed walls of the soil sample, the top and bottom, are covered with plaster, and after the plaster has solidified, the sample is rotated by 90 ° and the selected two opposite walls of the sample are exposed and the set for the preparation of the soil sample for the filtration coefficient test is reassembled, the soil sample in the set is saturated with water and the measurements are made according to standard procedures, repeating the activities previously performed.

The invention has been illustrated in an exemplary embodiment in a schematic drawing.

The advantageous effect of the invention is that it allows the filtration coefficient to be tested for different water flow directions in the same soil samples. Thus, it is possible to test the filtration medium of not only homogeneous anisotropic soils, but also heterogeneous soils. Moreover, during the tests there is no problem of wall leakage, which would overestimate the obtained measurement results. The proposed method of testing the filtration coefficient is relatively cheap, the sampling equipment is light, easy to transport and simple to operate.

The method of preparing the soil sample for the filtration coefficient test, especially for anisotropic conditions, is based on the fact that the cube-shaped soil sample 4 is taken in the field with a punch, then all surfaces of the soil sample are protected with gypsum near the site of the sampling in the field. 8 without changing the position of the sample in relation to the directions of the world. After the gypsum protection 8 has set, the individual surfaces of the cube, the geographic directions and the "top", "bottom" positions are described and the samples are transported to the laboratory. In the laboratory, gypsum is removed from two selected opposite walls of the soil sample, a set for preparing a soil sample for testing the filtration coefficient is assembled and the joints of the set are sealed with silicone 6 and gypsum 7 sealing so that the water flowing through the set can only flow vertically through the sample 4 ground. The soil sample 4 in the kit is then saturated with water and the filtration coefficient is measured in a permeability meter according to standard procedures. Then the set for the preparation of the soil sample for testing the filtration coefficient is disassembled and the exposed walls of the soil sample 4, the lower and the upper, are protected with plaster 8. After the plaster 8 has solidified, the sample 4 is rotated by 90 ° and the selected two opposite walls of the sample 4 are exposed. Then the set for the preparation of the soil sample for testing the filtration coefficient is reassembled, the soil sample 4 in the set is saturated with water and the measurements are repeated by repeating the previously performed activities according to standard procedures.

P r z k ł a d

A cube-shaped sample of medium-wet loess soil with dimensions of 5 cm x 5 cm x 5 cm was taken in the field with a punch and carefully placed on a flat horizontal surface so as not to change its original position in relation to the directions of the world. Then, the gypsum was pulverized with water in a gypsum to water volume ratio of 4: 1, and then all surfaces of the soil sample were secured with mixed gypsum, without changing the position of the sample in relation to the directions of the world. After the plaster had set, the individual surfaces of the cube were marked with a waterproof marker pen, respectively: "north," south, "east," west "," top, "down" and the sample number was given on at least one of the faces. Then, the secured soil samples were transported to the laboratory. In the laboratory, using a knife with a thin blade, the plaster was removed from two selected opposite walls of the soil sample, and then a set for the preparation of the soil sample for testing the filtration coefficient was assembled, placing soil sample 4 in a cuboid-shaped container at the bottom 2 in the form of a mesh so that the surfaces were placed on the top and bottom of the soil sample 4 without gypsum, then the space between the gypsum 8 protecting the side walls of the soil sample 4 and the container 1 was filled with silicone 6 at the bottom 2 in the form of a mesh and with plaster 7 over the silicone 6, then placed on the soil sample 4 protected with mesh 3, rectangular element 5 and sealed with silicone 6 on the outer side, the contact point of soil sample 4 with cuboidal element 5, and the space between the rectangular element 5 and the container 1 was filled with gypsum 7. After assembling the set for preparing the soil sample for testing the filtration coefficient, the set with sample 4 was placedsoil in a vessel with water for several hours, which makes it possible to saturate the soil sample 4 with water from below through the bottom 2 in the form of a mesh. Then the set with the saturated soil sample 4 was placed in a water-filled main tank of the permeability meter, in which the water is kept constant by a pump. When water appeared above the soil sample 4 in the set for the preparation of the soil sample for testing the filtration coefficient, the set was connected with a siphon filled with water to the drain siphon, which is equipped with the main tank of the permeability meter, thus allowing water to drain from the cuboidal element 5 above the sample 4 primer for the measuring burette. When an equilibrium of flow was established, the height of the water table in the main reservoir of the permeability meter and in the cuboidal element 5 of the soil sample preparation set for testing the filtration coefficient over soil sample 4 was measured, and the water flow through the soil sample 4 was measured immediately thereafter. For this purpose, the measuring burette was closed from the bottom with a stopper and the time during which water fills the burette was measured with a stopper. The measurement was repeated five times due to the correctness of the statistical analysis. After completion of the measurements, the pump was turned off, one end of the siphon from the element 5 of the rectangular set for the preparation of the soil sample for testing the filtration coefficient, the other end of the siphon was removed from the drain siphon and the plug was removed from the measuring burette.

PL 216 076 B1 emptying. Then the set for the preparation of the soil sample for testing the filtration coefficient was disassembled and the exposed walls of the soil sample 4, the lower and the upper, were secured with plaster 8. After the plaster 8 had set, the soil sample 4 was rotated by 90 ° and the selected two more opposite walls of the soil sample 4 were exposed. Then the set for the preparation of the soil sample for the filtration coefficient test was reassembled, the soil sample was saturated with water in the set by placing the set in a vessel with water and measurements were made by repeating the previously performed activities. On the basis of the conducted measurements, the water flow Q through the soil sample 4 was determined as the quotient of the water volume in the measuring burette of the permeability meter and the time of filling the burette with this water volume, the difference in height ΔΗ between the water level in the main reservoir of the permeator and the water level in the cuboidal element 5 of the preparation set was determined soil samples for testing the filtration coefficient over soil sample 4, and then, with the known cross-section of soil sample 4 F and thickness 5 of soil sample 4 ΔΙ, the value of the filtration coefficient was calculated using the formula:

Q Al FAH where:

Q - the amount of water percolating through the sample per unit of time,

ΔΙ - sample length measured in the direction of water flow,

F - sample cross-sectional area, perpendicular to the direction of water flow,

ΔΗ - difference in water levels in the main tank of the permeability meter and in the cuboidal element 5 of the set for the preparation of the soil sample for testing the filtration coefficient over the soil sample 4, k _s - filtration coefficient.

After performing the calculations for samples of the loess soil of medium moisture, the filtration coefficient was obtained in the range of 0.259-0.852 m / d depending on the sampling site and the tested water flow direction.

Claims (1)

The method of preparing the soil sample for the filtration coefficient test, especially for anisotropic conditions, characterized in that the cube-shaped soil sample (4) is taken with a punch, then all surfaces of the soil sample are protected with gypsum near the site where the sample is taken in the field ( 8) without changing the position of the sample (4) in relation to the directions of the world, then after the plaster has solidified (8), the individual surfaces of the cube, geographical directions and the position "up", "down" are described, then the samples are transported to the laboratory, and then in the laboratory, gypsum is removed from two selected opposite walls of the soil sample, a set for the preparation of a soil sample for testing the filtration coefficient is assembled and the joints of the set are sealed with silicone (6) and gypsum (7) so that the water flowing through the set can only flow vertically through the soil sample (4), then the soil sample (4) in the set is saturated with water and the measurement is made the filtration coefficient in the permeability meter according to standard procedures, then the set for the preparation of the soil sample for testing the filtration coefficient is disassembled and the exposed walls of the soil sample (4), the upper and lower, are protected with gypsum, and after the gypsum has solidified, the sample (4) is rotated by 90 ° and the selected two opposite walls of the sample (4) are exposed and the set for the preparation of the soil sample for the filtration coefficient test is reassembled, the soil sample (4) in the set is saturated with water and measurements are made according to standard procedures by repeating the previously performed steps.