Hydraulic and earth engineering – Subterranean or submarine pipe or cable laying – retrieving,...
Patent
1998-09-03
2000-03-07
Lillis, Elleen Dunn
Hydraulic and earth engineering
Subterranean or submarine pipe or cable laying, retrieving,...
405146, 4051501, F16L 100
Patent
active
060331496
DESCRIPTION:
BRIEF SUMMARY
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates generally to a method and material for lining underground pipes such as sewer pipes. More particularly, the present invention relates to a method and material particularly suitable for, but not limited to, man-entry sized circular and oviform pipes.
2. Description of the Prior Art
Sewer pipes often become obstructed or structurally deteriorated due to pipe corrosion by hydrogen sulfide, general degradation, organic growth, and root infiltration. As a result, the flow of sewage can become obstructed or the sewer pipe may collapse. A degraded sewer pipe, even if not obstructed, may allow ground water to infiltrate, thus unnecessarily increasing fluid flow to a treatment plant.
The cost associated with replacing sewer pipes can be prohibitively high, and disruption to above ground traffic may not be feasible. Therefore, sewer pipes are often relined rather than replaced. In order to minimize above ground disruption during sewer pipe relining,, sewer pipes are often relined using technology that does not require digging a trench above the sewer pipe.
Relining sewer pipes can be accomplished by installing a layer of unplasticized/rigid polyvinylchloride (uPVC) to form a new inner surface in existing pipes. An annular gap may be created between the existing pipe's inner surface and the new liner's outer surface. Grout may then be injected into this annular gap to strengthen and support the new liner as discussed in U.S. Pat. Nos. 5,388,929, 5,145,281 and 4,678,370.
When a relining and grouting process is carried out in man-entry sized pipes, for example pipes having diameters of 36" and larger, the plastic liner must resist the hydraulic head pressure of the grout as it is being pumped into the annulus between the pipe and the plastic liner. Additionally, because gravity forces the grout to the bottom of the annulus, the liner may float on top of grout collected at the bottom of the annulus.
In order to prevent deflection of the liner due to hydraulic head pressure and to prevent floating, grout is usually injected in successive stages or "lifts". Individual grout lifts cannot be injected until the previous lift is sufficiently cured to not transmit the hydraulic pressure to that portion of the PVC liner that it is in contact with. Furthermore, the previous grout lift anchors the PVC liner and resists the hydraulic pressure trying to deflect the liner which could result in the liner pulling out of the partially-cured lower grout layer or pulling the liner and grout together away from the pipe wall by overcoming the bond between the grout and pipe wall. Adequate curing may take as much as 12 to 24 hours. This limits the rate at which grout may be injected during the grouting process and increases the total time for the lining process.
Another method to prevent liner deflection due to excessive hydraulic head pressures is to increase the stiffness of the liner. The ability of the plastic liner to withstand hydraulic head pressure without significant deflection is dependent on the flexural rigidity or stiffness factor of the liner's plastic panels. Flexural rigidity is expressed mathematically as the product of the material's flexural modulus of elasticity (E) and its moment of inertia (I).
A material's flexural rigidity may be influenced by the material's geometric form. For example, a common manner of increasing a material's flexural rigidity is to locate a large amount of the material at a distance from a neutral axis, e.g., as in "I" beams.
Liner material is usually manufactured and shipped to a job sight in flat strips or standard size circular coils. The lining material must then be formed to fit the pipe's shape and must be flexible and light enough to be manually deformed. These limitations determine the maximum value of the material's flexural rigidity. For example, a liner measuring 12" wide with 1/2" high profile, made from rigid PVC has an EI value of 1600. For this material, it is estimated that grout lifts must be lim
REFERENCES:
patent: 4585371 (1986-04-01), Jones-Hinton
patent: 5102263 (1992-04-01), Allen et al.
patent: 5145281 (1992-09-01), Molyneux
patent: 5660912 (1997-08-01), Menzel
patent: 5725328 (1998-03-01), Schmager
patent: 5785456 (1998-07-01), McAlpine
patent: 5928447 (1999-07-01), GianFrancisco
Danby of North America
Lagman Frederick
Lillis Elleen Dunn
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