Subsurface soil conditioning

US 6,018,909 A
Filed: 05/28/1997
Issued: 02/01/2000
Est. Priority Date: 05/28/1996
Status: Expired due to Fees

First Claim

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1. A method of treating a soil profile to change the agricultural productivity thereof by changing the composition of the gas at a point within the soil profile, where said composition is different from the composition of atmospheric air, which comprises:

(a) creating at a first location within said profile a gas pressure differential with the atmosphere above the soil, whereby gas is caused to flow through the soil profile, to thereby create a gas pressure differential with atmospheric pressure at said point, wherein the pressure differential at said point is less than the pressure differential at the first location;

(b) measuring the composition of the gas at said point;

(c) comparing the gas composition measured at said point to a desired reference gas composition; and

,(d) controlling the duration of step (a) according to the degree to which the gas composition at said point approaches the reference gas composition, to thereby increase the fraction of gas constituents which enhance vegetative growth.

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Abstract

Soil profiles of sports fields, such as those in stadiums and golf courses, are treated by injecting or suctioning gases and water by means of buried horizontal pipe arrays or by vertical penetrators. The extent of soil treatment is controlled by measurement of subsurface gas composition and pressure at locations remote from the point of gas injection or removal, preferably by using a special probe. Penetrators and probes form seals within shaped holes in the soil profile, to control the depth of the layer at which gas is exchanged, and to inhibit atmospheric air flow vertically along the bodies of the devices. For example, a conical penetrator section forms a seal within the hole by compacting the shoulder of a stepped hole and it forms a second seal at the surface of the soil by means of a plate and gasket. In other penetrator installations, a radially expansible material forms the seal. Penetrators of one or two part construction may be removably installed in fields, to facilitate re-treatment. Vertical penetrators are also permanently installed and connected by an subterranean pipe array.

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25 Claims

1. A method of treating a soil profile to change the agricultural productivity thereof by changing the composition of the gas at a point within the soil profile, where said composition is different from the composition of atmospheric air, which comprises:
- (a) creating at a first location within said profile a gas pressure differential with the atmosphere above the soil, whereby gas is caused to flow through the soil profile, to thereby create a gas pressure differential with atmospheric pressure at said point, wherein the pressure differential at said point is less than the pressure differential at the first location;
  
  (b) measuring the composition of the gas at said point;
  
  (c) comparing the gas composition measured at said point to a desired reference gas composition; and
  
  ,(d) controlling the duration of step (a) according to the degree to which the gas composition at said point approaches the reference gas composition, to thereby increase the fraction of gas constituents which enhance vegetative growth.
- View Dependent Claims (2, 3, 4, 5, 6)
- - 2. The method of claim 1 wherein the reference gas composition is the composition of said atmospheric air.
  - 3. The method of claim 1 wherein the morphology of said soil profile comprises horizontal layers;
    - wherein, said first location is within a first horizontal layer;
      
      wherein, said point is within a second horizontal layer, the second layer lying vertically above the first layer; and
      
      , wherein, gas is caused to flow vertically between the first and second layers and predominantly horizontally within said first layer.
  - 4. The method of claim 1, wherein step (a) causes gas to flow radially within the soil profile with respect to said first location, to thereby create within a given layer of the soil profile a radial pressure gradient p in the form of
    
    space="preserve" listing-type="equation">p=ce.sup.md
    where d is distance from the first location, c and m are constants, and e is the base of the natural logarithm.
- 5. The method of claim 1 wherein step (b) comprises measuring the amount of a gas constituent selected from the group consisting of water vapor, oxygen, carbon dioxide, methane, and hydrogen sulfide.
- 6. The method of claim 5 wherein said degree is sufficient to cause the composition of the gas at said point to become comprised of constituents which are by weight percent 19-21 oxygen, less than 2 carbon dioxide, less than 1 methane, and less than 0.005 hydrogen sulfide;
  - wherein, the composition of gas at said point at the time of initiation of step (a) is characterized by having at least one of the constituents outside said weight percent limits.

7. A method of treating a soil profile having a surface exposed to atmospheric air to improve its agricultural productivity, wherein the gas composition within the soil profile is different from the composition of atmospheric air, by creating within the soil profile a pressure gradient sufficient to lessen the compositional difference of the gas within the soil profile from atmospheric air, which comprises:
- (a) inserting at least a portion of a penetrator beneath the surface of the soil profile at a first location;
  
  wherein, the penetrator has a body with a hollow interior and at least one passageway connecting the hollow interior with the penetrator exterior where the penetrator is beneath said surface;
  
  (b) creating a gas pressure differential between the hollow interior of the penetrator and the atmospheric air, to thereby cause gas to flow through said at least one passageway and through the soil profile, to thereby create a first horizontal pressure gradient within the soil profile;
  
  (c) measuring the pressure of the gas beneath the surface of the soil profile at one or more locations spaced apart from said first location, to determine a point where the pressure is insignificantly different from atmospheric pressure, insofar as causing flow of air from atmosphere into the soil profile by an amount sufficient to significantly change the composition of the gas within the soil, to thereby increase the fraction of gas constituents which enhance vegetative growth at said points;
  
  (d) performing said step (a) at a second location spaced apart from said first location; and
  
  ,(e) creating a gas pressure differential between the hollow interior of the penetrator and the atmospheric air above the soil profile, to thereby cause gas to flow through said at least one passageway and through the soil profile, to thereby create a second horizontal pressure gradient within the soil profile;
  
  wherein the second horizontal pressure gradient creates a pressure at said point which is significantly different from atmospheric pressure.
- View Dependent Claims (8, 9)
- - 8. The method of claim 7 characterized by creating a gas pressure within the interior of the penetrator which is less than the pressure of atmospheric air above the surface of the soil profile, to thereby cause flow of atmospheric air into the surface of the soil profile, and then laterally through the soil profile toward the penetrator.
  - 9. The method of claim 7 characterized by creating a gas pressure within the interior of the penetrator which is greater than the pressure of atmospheric air above the surface of the soil profile, to thereby cause flow of gas through the soil profile laterally away from the penetrator and then through the surface of the soil profile and into the atmosphere above.

10. A method of treating a soil profile having a lateral surface exposed to atmospheric air to improve its agricultural productivity, wherein the gas composition within the Boil profile is different from the composition of atmospheric air, by creating within the soil profile a pressure gradient sufficient to lessen the compositional difference of the gas within the soil profile from atmospheric air, which comprises:
- (a) forming a shaped hole having a sidewall within soil profile, the hole having an opening at the surface of the soil profile;
  
  (b) inserting a penetrator into the shaped hole from the surface;
  
  the penetrator having a body with a hollow interior, at least one passageway connecting the hollow interior to the penetrator exterior where it is beneath the surface of the soil, and a seal section on the exterior of the penetrator vertically above any said at least one passageway, the seal section sized to nominally fit a portion of the shaped hole;
  
  (c) forming a first gas seal between the penetrator seal section and the sidewall of the hole by compacting with said seal section a portion of the soil profile at the sidewall of the shaped hole during the vertical inserting step (b);
  
  (d) creating a gas pressure differential between the interior of the penetrator and the atmosphere above the soil profile, to thereby cause gas to flow through said passageway and into the soil profile, to thereby increase the fraction of gas constituents which enhance vegetative growth at said point.
- View Dependent Claims (11, 12, 13, 14, 15, 16, 17)
- - 11. The method of claim 10 characterized by creating within the penetrator interior a pressure which is less than atmospheric pressure.
  - 12. The method of claim 11 wherein the penetrator body is cylindrical and comprised of an upper body portion of a first diameter and a lower body portion of a second diameter which is smaller than the first diameter, the upper body portion and lower body portion connected by the seal section.
  - 13. The method of claim 12 which further comprises:
    - forming a shaped hole which is round, the hole having a sidewall with an upper portion of a first diameter, a lower portion of a second diameter which is smaller than the first diameter, and a shoulder portion therebetween;
      
      the hole first and second diameters generally corresponding with said penetrator body first and second diameters;
      
      wherein, the shoulder portion is compacted by the penetrator seal section during step (b).
  - 14. The method of claim 10, wherein the penetrator body has a second seal section positioned vertically above said first seal section, further comprising:
    - forming a second seal between the surface of the soil profile and said second seal section during step (b).
  - 15. The method of claim 14 wherein said second seal section comprises a plate;
    - and, wherein, said second seal is formed by pressing the plate toward the surface of the soil profile.
  - 16. The method of claim 15 characterized by placing a membrane on the surface of the soil profile around at least a portion of the plate, to seal at least a portion of the surface of the soil profile.
  - 17. The method of claim 10 wherein the first gas seal section is comprised of an expansible device surrounding the penetrator body, which further comprises expanding said expansible device to form said first gas seal.

18. A method of efficiently treating a soil profile having a surface exposed to atmospheric air to change its permeability and agricultural productivity, wherein the gas composition within the soil profile is different from the composition of atmospheric air, and wherein the soil profile is comprised of one or more permeable horizontal layers, by creating within the soil profile a pressure sufficient to change the permeability of the gas within the soil profile, which comprises:
- (a) forming a shaped hole within the soil profile, the hole having an opening at said surface;
  
  (b) vertically inserting a penetrator into the shaped hole from the surface;
  
  the penetrator having a body with a hollow interior, at least one passageway connecting the hollow interior to the penetrator exterior where it is beneath the surface of the soil, and a seal section on the exterior of the penetrator vertically above any said at least one passageway;
  
  said seal section comprising a plate extending radially from the penetrator body, the plate underlaid with a compressible material where it contacts the surface of the soil;
  
  to form a first gas seal between the penetrator seal section and the surface of the soil profile;
  
  (c) raising the gas pressure within the interior of the penetrator to above atmospheric pressure, to thereby cause gas to flow through said passageway and into a layer of the soil profile, sufficient to increase the permeability of said layer.
- View Dependent Claims (19, 20)
- - 19. The method of claim 18 which further comprises:
    - (d) lowering and then alternately raising the gas pressure within the interior of the penetrator, to thereby create pulsating pressure and flow within said layer.
  - 20. The method of claim 19 which further comprises:
    - (d) entraining a granular medium in the gas which is caused to flow into the soil profile in combination with step (c), to inject the medium within said layer.

21. A method of treating a soil profile comprised of two or more layers of differing composition or structure and having a surface exposed to atmospheric air to change agricultural productivity thereof, wherein the gas composition within the soil profile is different from the composition of atmospheric air, by creating within the soil profile a pressure gradient sufficient to lessen the compositional difference of the gas within the soil profile from atmospheric air, which comprises:
- (a) forming a hole having a sidewall in the surface of the soil profile;
  
  (b) placing a penetrator in the hole, wherein the penetrator has a body with a hollow interior and at least one passageway connecting the hollow interior to the penetrator exterior where it is beneath the surface of the soil, at the elevation of one or more of the layers;
  
  (c) forming a gas seal between the penetrator body and the hole sidewall at a location vertically above any said passageway;
  
  (d) connecting the hollow interior of the penetrator to piping running generally horizontally beneath the surface of the soil profile; and
  
  ,(e) creating within the penetrator interior a gas pressure differential between the interior of the penetrator and the atmosphere above the soil profile by connecting said piping to a means for moving air, thereby causing gas flow along a path which lie the penetrator interior, said at least one passageway, and said one or more layers, to thereby increase the fraction of gas constituents which enhance vegetative growth within the soil profile.
- View Dependent Claims (22)
- - 22. The method of claim 21 which comprises the further step:
    - (f) placing an expansible hydrophilic clay within the hole when forming the first gas seal.

23. A method of treating a soil profile comprised of layers of differing structure and having a surface exposed to atmospheric air, to change its agricultural productivity, wherein the gas composition within the soil profile is different from the composition of atmospheric air, by creating within the Soil profile a pressure gradient sufficient to lessen the compositional difference of the gas within the soil profile from atmospheric air, which comprises;
- (a) providing a penetrator comprised of two disconnectable body parts, the first body part comprising an interior cavity, passageway means for connecting the interior cavity with the exterior of the first body part, and means for coupling the first body part with a second body part; and
  
  , a second body part comprising an interior cavity, means for coupling the second body part to the first body part and means for connecting the second body part cavity to a source of differential gas pressure;
  
  wherein when the two body parts are connected by said respective means for coupling the interior cavities of the two body parts are in communication;
  
  (b) forming a shaped vertical hole having a sidewall in the soil profile by steps which comprise removing a plug of turf;
  
  (c) inserting the first penetrator body part into the surface of the soil profile and forming a first air seal with the sidewall of the hole at an elevation vertically above said passageway means, wherein said means for coupling to the second body part is exposed within the hole at an elevation lower than the Surface of the soil profile;
  
  (d) inserting the second body part into the hole and connecting the second body part with the first body part by said respective means for coupling;
  
  (e) creating a gas pressure differential between the interior cavity of said second body part and the atmosphere above the soil profile, to thereby cause gas to flow through said second body part, said first body part, said passageway in the first body part, and the soil profile, to thereby increase the fraction of gas constituents which enhance vegetative growth within the soil profile;
  
  (f) terminating said differential pressure and thereby said flow of gas;
  
  (g) disconnecting the second body part from the first body part, and removing the second body part from the hole while leaving the first body part within the hole;
  
  (h) inserting a plug into the hole, to cover over the first body part and thereby restore the surface of the soil profile; and
  
  ,(i) subsequently removing the plug and repeating the steps (d) through (h).

24. A device, for use in adding or removing gases from a soil profile, adapted for insertion vertically downward into a hole in the surface of the soil profile, comprising:
- a hollow upper body portion, having a first outside diameter, a port for connection to a source of gas pressure different from atmospheric pressure, and a first gas seal section adapted for forming a gas seal between the body portion and the soil profile in vicinity of the surface of the soil profile;
  
  a hollow lower body portion, having a second outside diameter which is smaller than said first diameter, and having at least one passageway connecting the hollow interior of the lower body portion with the exterior thereof; and
  
  ,a hollow center section, connecting the upper body portion and lower body portion, having means for forming a second gas seal between the center section and the wall of the hole in the soil profile;
  
  wherein, when the device is inserted into the hole, the first gas seal section forms a gas seal in vicinity of the surface and the second gas seal forms a gas seal at a location within the hole which is spaced apart from said vicinity of the surface of the soil profile.
- View Dependent Claims (25)
- - 25. The device of claim 24 wherein the first gas seal section is a conical section and wherein the second gas seal section is a plate.

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Current Assignee
Advanced Aeration Systems LLC
Original Assignee
Soil Air Technology
Inventors
Potts, David A
Primary Examiner(s)
Lankford, Jr., Leon B.

Application Number

US08/864,634
Time in Patent Office

979 Days
Field of Search

47/58.1, 47/1.01 F, 73/864.74, 73/23.2, 75/40
US Class Current

47/58.10R
CPC Class Codes

A01B 45/00 Machines for treating meado...

E01C 13/083 Construction of grass-grown...

Subsurface soil conditioning

First Claim

4 Assignments

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Abstract

41 Citations

25 Claims

Specification

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Subsurface soil conditioning

First Claim

4 Assignments

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Subscription Required

0 Petitions

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Accused Products

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Abstract

41 Citations

25 Claims

Specification

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Use Cases

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Others