[0001] This invention is directed to a method and apparatus for constructing a novel underground
impervious fluid barrier which is useful for pollution control, impounding water,
oil and other flowable material, especially in populated areas, where government and
industries are faced with the problem of arresting underground seepages and situations
where there is little or no gradient between the outside water table and the polluted
area inside.
[0002] Lining underground slurry trenches with impervious films such as rubber liners, plastic
sheets, foils and the like has been attempted prior to this invention but they have
not been particularly successful. (See page 130 of R-.G.H. Boyers' text entitled "Structural
and Cut-Off Diaphragm Walls" John Waley & Sons). In Ranney Patent 2,048,710, an apparatus
is disclosed for constructing an underground wall in which two rolls of lining material
are carried inside wings of an excavating shield for unrolling the lining material
to line the walls of the trench preparatory to filling of the trench with the desired
wall material. There is no teaching in Ranney of utilizing a lining material which
is folded (or otherwise joined) at the bottom and of sufficient height to comfortably
drape over the sides of the trench. A feature of the process of the present invention
is the use of the fill material to weight the lining material and displace the bentonite
(using the lining material to transmit the displacing force to the bentonite). In
Zaklewicz Patent 3,603,099 and Caron et al Patent 3,759,044, a plastic sheet is immersed
in a bentoni-c mud filled trench. In the Zaklewicz patent the filling material is
added to each side of the plastic membrane to displace the excavating slurry and in
the Caron et al patent, the plastic sheeting is immersed in a cementious bentonite
filled trench and remains there until the wall material has set. Neither of these
prior art references disclose the concept of applicant's double or folded plastic
membrane nor is there disclosed a membrane of sufficient vertical height to drape
over the sides of the trench. In the present invention, the double layer end fold
results in a basic wall structure not disclosed in these prior art references.
[0003] The use of the lining for protecting underground pipes and conduits has been known
in the art as is disclosed in Grodsky Patent 2,007,969 and in Keene Patent 3,675,432.
However, these are non-analogous to the present invention and neither of these is
disclosed in the context of a slurry trench excavating process and obviously, do not
in any sense teach the depth of the wall and process as disclosed herein and do not
teach or suggest a membrane of 30 to 40 feet in depth containing industrial pollutants
or impounding water or other flowable materials. In Grether et al Patents 3,298,183
3,218,810 and 3,182,459, a fluid barrier is disclosed for water impoundment and/or
channelization but there is no underground structure contemplated, and the double
folded material is simply folded at the top above the ground and burried to anchor
same against the force of the upstream water.
[0004] The basic object of the present invention is to provide an improved impervious underground
wall structure and an improved method and apparatus for constructing same, particularly
for pollution control.
[0005] A basic feature of the invention is that the liner is a folded plastic liner (forming
a sheath or envelope for the backfill material) of sufficient height so that both
sides thereof can extend and drape over the sides of the slurry filled trench so that
the backfill material, which, preferrably, is hydraulically placed and of greater
density than the slurry in the trench, carries the fold line to the bottom of the
trench and displaces the bentonite slurry towards the end of the excavation where
the excavation is taking place thereby reducing the amount of slurry needed. The double
layer plastic is unrolled along the trench, until extending up above the surface is
opened up and the backfill material is hydraulically placed between the sheets. Typically
the backfill material may be a mixture of sand and water which will have two effects.
It will sink the plastic to the very bottom of the trench and make it adhere to the
sides of the trench and will displace forward the bentonite, reducing the need for
a lot of bentonite for excavation. The wall structure resulting from this technique
is novel in that the impervious barrier that is constructed in the earth will consist
of an area of soil adjacent the excavation which has been permeated by bentonite (e.g.
the side walls of the trench), a bentonite cake, the plastic membrane, the backfill
material inside the plastic membrane (typically sand or coarse grannular material)
and the same system repeated again on the opposite trench wall side.
[0006] The advantages of the system are that it assures an absolute water tightness by two
identical pollutant barrier systems in series, - the soil permeated bentonite the
bentonite cake and the plastic membrane. Moreover, the backfill material is used to
sink the plastic sheath or envelope to the bottom of the trench, hence, once the initial
insertion in the trench of the roll and a preliminary backfilling is accomplished,
the plastic material is unrolled or unfolded from an accordion fold and floats in
the trench or slot until it is opened up at the top and the backfill material is inserted
and the bentonite slurry is displaced to the opposite ena of the trench or slot.
[0007] The above and other objects, advantages and features of the invention will become
more apparent from the following specification taken in conjunction with the accompanying
drawings wherein:
Figure 1 is a sectional elevational view of an excavation illustrating one embodiment
of the invention,
Figure 2 is a top plan view of the trench illustrated in Figure 1,
Figure 3 is a sectional view taken on the lines 3-3 of Figure 1 illustrating the folded
plastic sheet, sheath or envelope liner prior to being filled with a backfill material,
Figure 4 is a sectional view taken on lines 4-4 of Figure 1 illustrating the plastic
sheet, sheath or envelope liner after it has been filled with backfill material,
Figure 5 is a sectional elevational view of a further embodiment of the invention
illustrating the plastic liner being fed into the trench from a rack with an accordion
folded liner, and
Figure 6 is a sectional view taken on lines 6-6 of Figure 5.
[0008] the basic method of this invention for constructing an underground pollution control
barrier comprises excavating a narrow trench or slot along the desired line of the
pollution control barrier in the presence of a bentonite slurry. It will be appreciated
that while bentonite is the preferred slurry, other materials which perform the same
function as the bentonite slurry may be used but bentonite slurry is preferred since
it can be closely tailored to have the property of permeating the soil adjacent and
contiguous to the excavation to form a first barrier to the polluting substance. In
addition, a bentonite cake forms on the wall during the excavating process to serve
as a second barrier to the flow ot any polluting substances. After forming the initial
trench excavation or slot and while the trench is full of the slurry maintaining it
open in the way disclosed in Veder Patent 3,310,952, a sheath or envelope constituted
by a double layered plastic membrane which is folded at the bottom of the trench and
open at the top and'of sufficient vertical extent to extend above the ground surface
on both sides of the trench, is inserted into the trench or slot. The trench or slot
T in Figure 1 has been excavated by clam shell, backhoe, trenching apparatus and the
like, to the desired depth of the barrier. Typically, this invention will apply to
depths of 30 to 40 feet and, in the usual case about 20 feet or down to the water
table level. In the illustrated embodiment, the trench T is filled with a bentonite
slurry B to the top of the trench slot all in accordance with the teachings of Veder
Patent 3,310,952, incorporated herein by reference. A portion of the loading by the
lifting and placing devices 10 may be transferred to the slurry by the use of the
slurry float technique as disclosed in my application Serial No. 173,538. Lifting
and placing device 10 has a boom 11 carrying control cables 12 to a plastic film pay
'out roll 13. A frame 14 having bearings 15 and 16 for rgll 13 is maintained in vertical
relation by stabilizing members 17 and 18 extending from lifting and placing device
10. The plastic film F (forming the backfill sheath or envelope) which, under certain
circumstances can be reinforced or complemented by a woven fabric WF to give it additional
strength, is capable of withstanding the stress and avoidance of possible tears.
[0009] After the formation of the initial trench portion, the end of the sheath or envelope
constituted by the plastic film F is opened up and each of the ends is draped over
the sides of the trench so that the fold .ine lies in approximately the center of
the trench. In this sense, the end then will be floating on the bentonite layer and
at this time, the backfill material
1as begun to be hydraulically placed between the sheets of plastic. Typically, a mixture
of sand and water can be used which will have two effects. It will sink the plastic
to the bottom of the trench or slot.and make it adhere to the sides of the trench
and will also displace the bentonite slurry forward in the trench by the force exited
through the plastic layers thereby reducing the need for a lot of bentonite for the
excavation. On the other hand, the end of the trench can be sealed and with a rigid
bar member forcing the end of the envelope down to the bottom of the trench and then
the envelope or sheath is filled with the backfill material as described. Of course,
the end of the sheath can be heat sealed along a vertical line joining the two sides,
if desired.
[0010] By using a course granular material as a fill within the plastic, a very pervious
layer enclosed in plastic can act as a filter. Draining the filter material is an
excellent method of maintaining the effectiveness of the barrier and, with a minimum
amount of pumping at long intervals, guaranteeing that any pollutant which crosses
the initial barrier is collected and eliminated.
[0011] In Figure 3, the plastic film is shown as it is being unrolled from roll 13. As shown
in the top plan view of Figure 2, the ends 20, 21 of the plastic film are draped over
the surface above the side walls of the trench. The bentonite slurry B in trench T
exerts a hydraulic head on the sides of the plastic film which is immersed thereby
forcing any air out of the construction. Thus, the hydraulic placement of the backfill
material applies a pressure against the inside surfaces of the plastic film thereby
forcing and displacing the bentonite slurry towards the excavating end of the trench
thereby reducing the amount of bentonite required to perform the excavation.
[0012] It will be appreciated that the excavating slurry can in fact by a cementious bentonite
mixture and the backfill material 30 can itself be a self-hardening substance such
as a cement-bentonite mixture.
[0013] When the end of the roll 13 is approached, the backfilling is withheld for a distance
of approximately 50 feet. The roll 13 is then lifted out of the excava-' tion and
the remaining portions completely unrolled and washed of bentonite material and laid
flat. A second roll is then placed on the carrier and its end unrolled and two ends
are then welded together using conventional plastic sheet welding. For example, R.F.
Welding or other heat seam welding can be utilized to join the end of the new roll
to the end of the old roll. The new roll is then lowered back into the trench or slot
T and the backfilling operation resumes along with the excavating of the forward end
of the trench.
[0014] In this regard, instead of the roll being vertical and instead of a fold at the bottom
of the trench, the roll is not folded but is simply rolled along the top of the trench
so that it floats on the bentonite slurry. The ends of the roll extend quite some
distance beyond the edges of the excavation and the end of the roll is then pushed
to the bottom of the trench either by the backfill material or by a rigid rod and
the backfilling operation commenced. In this case, the roll per se never goes below
the surface but the ends thereof is open and clear for performing the welding operation
to add the next roll on.
[0015] Larger rolls can be accomodated by varying the thickness of the trench along the
line of the barrier. Thus, as the,, roll is payed out, the trench can be made narrower,
this approach having the advantage of permitting longer rolls and minimizing the number
of joints.
[0016] Referring now to Figure 5, a backhoe excavator 40 is shown excavating the trench
or slot T' which is maintained full of bentonite slurry B. A rack 41 with a accordion
folded liner F' is coupled by pulling cables or a draw bar to backhoe 40. In this
method, the laying of the plastic comprises in folding it up accordion style in a
large roll above ground with the backfill material opening up the folds and pushing
the plastic down into the trench as illustrated in Figure 5. The joining of the ends
of the film F' of a new roll to the old roll does not thereby require the removing
of the expended roll as in the embodiment of Figure 1. As shown in Figure 6, there
is as in the case of Figure 4, a bentonite jell of a zone of bentonite intrusion 5,
a bentonite cake 6 and plastic layer or sheet 7 on each side of the trench and the
backfill material of'sand, gravel etc. It will be appreciated that the plastic film
can be payed out from a pair of parallel rolls and prior to entry to the trench heat
sealed or otherwise bonded at the lower edges of the two rolls to form the joint that
will eventually be at the bottom of the trench.
[0017] Thus, there has been disclosed an improved process and apparatus for constructing
a novel impermeable membrane of -30 to 40 feet in depth which is particularly useful
for containing areas of industrial pollutants and arresting underground seepage where
there is little or no gradient between the outside water table and the polluted area
inside. Moreover, the invention has applicability to forming water and petroleum impoundments,
cut-off walls and water channelization at relatively high rate of installation and
at relatively low cost.
[0018] While I have disclosed several embodiments of the invention and suggested other modifications,
it will be apparent that many modifications which will be obvious to those skilled
in the art and it is intended that such modifications be encompassed within the spirit
and scope of the claims appended hereto.
1. An underground fluid material flow control carrier: comprising
1) a narrow slot in the earth having a length extending across the expected pollution
path and a depth extending at least to-the water table,
2) bentonite impregnating the earth walls of said slot and forming a bentonite cake
on the inner surfaces thereof,
'3) a plastic sheath in said narrow slot and in contiguous relation to all surfaces
in said slot and,
4) a material filling said sheath having a density greater than bentonite slurry used
in forming said narrow slot.
2. The underground fluid material flow control barrier defined in Claim 1 including
means in said sheath for draining the backfill material.
3. The underground fluid material flow control barrier defined in Claim 1 wherein
said material filling said sheath is sand.
4. The underground fluid material flow control barrier defined in Claim 1 wherein
said material filling said sheath is a self-hardenable wall forming material.
5. The underground fluid material flow control barrier defined in Claim 1 wherein
said material filling said sheath is a mixture of cement and bentonite.
6. The underground fluid material flow control barrier defined in Claim 1 wherein
said plastic sheath includes a strengthening material.
7. The underground fluid material flow control barrier defined in Claim 6 wherein
said strengthening material is a woven fabric.
8. The underground fluid control barrier defined in Claim 1 wherein soil material
filling said sheath is a coarse granular material, and means for draining said coarse
granular material.
9. A pollution control barrier comprising
a narrow slot in the earth, said slot extending downwardly in the earth at least to
the water table,
a plastic sheath contacting at least the sides and bottom of said slot, and
a backfill material contained within said plastic sheath.
10. A method of constructing an underground fluid barrier comprising:
excavating a trench along the desired line of said barrier in the presence of a bentonite
slurry, said- trench having a pair of facing side walls,
and simultaneously installing a flexible impervious lining material adjacent each
of said facing walls and along the bottom of said trench and backfilling the space
between said lining material and displacing said bentonite slurry in a selected direction
by said lining material.
11. The method defined in Claim 10 wherein said lining material is plastic.
12. The method defined in Claim 10 wherein said backfilling material is a coarse granular
material which in bulk, is surrounded on at least the bottom and sides thereof by
said lining material and as installed displaces said bentonite slurry in said direction.
13. The method defined in Claim 10 wherein said flexible impervious lining material
is constituted by a pair of plastic sheets which have been hermetically joined at
their contiguous lower edges to form an impervious envelope in said trench.
14. A method of constructing an underground pollution control barrier comprising:
excavating a trench along the desired line of said pollution control barrier in the
presence of a excavation slurry,
installing a double layered plastic membrane which is joined at the bottom of the
trench and opened at the top and of sufficient vertical extent to extend above the
ground surface on both sides of said trench,
as said double layer plastic membrane is installed in the trench, hydraulically backfilling
between the two facing surfaces of said double layered plastic membrane with a backfilling
material, said backfilling material having a density greater than the density of the
bentonite slurry to sink the membrane to the bottom of said trench and displace the
bentonite slurry forward in the trench toward the end being excavated and reduce the
amount of bentonite needed for the excavation,
whereby said pollution .control barrier is constituted by the areas of the two earth
side walls of the trench each side wall being permeated by bentonite and having bentonite
cake contiguous thereto, a plastic membrane and the backfill material between the
facing surfaces of said plastic membrane.