Abstract: A technique for fragmenting rock or other relatively hard and/or compact material without the use of explosives is disclosed herein. In accordance with this technique, an elongated, blind opening is provided in the rock or other material to be fragmented and a pulse of water having a relatively high peak pressure and a relatively rapid rise time is directed into the elongated opening without the use of explosives to produce the pulse, whereby to produce a shock wave in the rock or other material sufficient to fragment it. In an actual embodiment, this explosion free pulse of water has a peak pressure of about 80,000 psi and a rise time of about one millisecond.

Abstract: Metal values, particularly precious metal values, are recovered from fines on a footwall and in the fissures and cracks therein by passing a solution capable of solubilizing the metal values across the footwall. The metal values are preferably adsorbed on to a suitable support such as activated carbon underground and then the support, having the metal values adsorbed thereon, transported to the surface for further processing.

Abstract: An apparatus for breaking coal or other mineral matter from a bed thereof which comprises a string filling a bore hole which can rise steeply in this bed. The string consists of alternating breaking units and connecting pipes each braking unit having a differential piston displaced solely by the action of air pressure so that breaking slots are unblocked to discharge compressed air built up in the string. The pistons are provided with check valves to permit filling of the string.

Abstract: This invention is concerned with a machine for automatically removing a curing film or membrane from a concrete floor surface and etching that surface in preparation for applying a surface coating and doing this in less time than has heretofore been required for such floor preparation.

Abstract: A mounting movable with respect to an adjacent hard face has a projecting drag bit adapted to engage the hard face. The drag bit is disposed for movement relative to the mounting by encounter of the drag bit with the hard face. That relative movement regulates a valve in a water passageway, preferably extending through the drag bit, to play a stream of water in the area of contact of the drag bit and the hard face and to prevent such water play when the drag bit is out of contact with the hard face.

Abstract: A method for oil, gas and mineral recovery by panel opening drilling including providing spaced injection and recovery drill holes (10, 12) which respectively straddle a deposit bearing underground region (20), each drill hole including a panel shaped opening (18, 19) substantially facing the deposit bearing region (20) and injecting the injection hole (10) with a fluid under sufficient pressure to uniformly sweep the deposits in the underground region to the recovery hole (12) for recovery of the deposits therefrom. An apparatus (50) for creating such panel shaped is also provided.

Abstract: The method disclosed herein relates to the removal of unwanted gases and associated fluids in underground mining operations by utilizing mine boreholes. After the mine borehole has been drilled its desired distance from the mine face, an inflatable packer assembly is inserted therein and placed to the end remote from the mine face. This assembly is made up of at least two spaced inflatable packers wherein the spacer between the packers in conjunction with the borehole defines an isolation zone. Fluid conduit members, suitably supported at the mine face, extend into the borehole and act as supply lines from the two separate fluid sources for the packer assembly and isolation zone. A fracturing fluid under high pressure is supplied to the isolation zone and an inflatable fluid is supplied to the at least two packers to rigidly mount them in the borehole. After a fracture is induced in the zone, an additional amount of fracturing fluid is injected thereinto to extend the fracture.

Abstract: A method for producing methane gas and other gases present from a subterranean coal-containing formation comprising the creation of a fracture in the subterranean coal-containing formation, introduction of a propping agent into the open fracture after which at least a portion of the proppant is permitted to settle within the fracture, introduction of a substantially propping agent-free fluid into the open fracture to create an open channel over the propping agent and then permitting closure of the fracture upon the propping agent to leave a propped channel.

Abstract: A device for breaking monolithic structures or pulsating by inducing pressure in a liquid filling a pre-drilled hole in the monolithic structure to be shattered comprises a tubular housing having a cavity for accommodating an explosive charge. Provided in the lower portion of the housing is a partition of an elastomeric material and a pipe serving to locate the device in a mouth of the hole and be filled with the liquid so as to form an air gap between the partition and the surface of the liquid. In order to retain the device inside the hole a means is provided connected to the housing and fashioned as an inertia element disposed outside the hole.

Abstract: A method of breaking rock from a free surface which uses hydrofracturing to induce rock failure. Initially, a hole is cut in the rock face to a depth suitable for spalling by a high pressure water jet drill. Next, at the bottom of this hole a thin circular slot is hydraulically cut into the rock. The slot's circular axis is cut parallel to the transverse axis of the hole and the slot is made larger than the hole diameter. Following this step, a high pressure packer, with a high pressure tube passing through its center, is inserted into the drill hole. This packer is placed near the bottom of the hole above the slot and inflated. A fluid, like water, under high pressure is pumped down the hole past the packer into the slotted area. This high pressure fluid initiates a tensile fracture in the rock at the circular periphery of the slot. Tension is induced in the rock at this peripheral location due to the small radius of curvature existing there.

Abstract: A finite region of overpressure can be created in solid underground formations by the periodic injection of a fluid that has finite gel strength that subsequently, after each injection, partially sets--i.e., equivalently becomes a very much stronger gel. A region of overpressure is a region in which the static, locked in pressure is larger than what was there before. A region of overpressure can be used to prevent a roof of a tunnel from caving by adding compressive stresses in the roof. A sequence of regions of overpressure can be used to lift an arch or dome underground, squeeze off water or gas flows, stabilize dams, foundations, large underground rooms, etc. In general, the stress or pressure distribution in rock can be altered and engineered in a fashion that is more advantageous than what would have been the case without overstressing.

Abstract: A preliminary fracturing method of a rock bed by spouting highly pressurized water into cracks existing in the rock bed to expand these cracks. The preliminary fracturing method of a rock bed comprises drilling a hole in the rock bed by means of a drilling rod having a cutter blade mounted thereto at the leading end thereof, sealing the leading end of the drilling rod by using rock mucks, injecting a high viscosity fluid from the leading end of the drilling rod into the sealed portion of the hole thereby clogging the cracks, and finally spouting a highly pressurized water or highly pressurized high viscosity fluid from the leading end of the drilling rod thereby expanding the cracks. There is also disclosed an apparatus which is adapted to perform the preliminary fracturing of a rock bed.

Abstract: Coal is extracted in a longwall working with two subsidiary galleries disposed respectively at the ends of the longwall coal-face. The coal is obtained at the longwall face, is loaded and removed with the aid of a continuous conveyor acting as a longwall-heading conveyor which delivers into one of the subsidiary galleries. In order to extract the coal a plurality of long drill-holes, respectively spaced from the coal-face and from each other by a spacing which corresponds to the effective force of an explosive charge provided with a fuse-cord, are bored in the coal starting from one of the subsidiary galleries. Each of the drill-holes extends the full effective length of the coal face and is loaded with such an explosive charge, and then filled with water under pressure. The charges are exploded in succession, starting with the drill-hole adjacent the coal-face, whereupon the coal so acquired is loaded and removed by the continuous conveyor.

Abstract: A pretreatment for use in fracturing coal seams to increase gas permeability of the seams. The pretreatment involves injecting a material capable of swelling coal into a coal seam prior to fracturing the coal seam. The pretreatment material swells the coal and closes the natural cleats therein, enhancing the effectiveness of the subsequent fracturing step.

Abstract: There is disclosed a method for more safely conducting an underground mechanical mining operation such as typically employs successive drilling, blasting, and product removing processes against a mine work face which is conducted from within an open mine room or the like in an underground deposit of salt. Such materials are per se impervious to fluid transmission therethrough but as they occur in underground deposits vicariously include pockets of or channels for outlet from traps of pressurized fluid accumulations, such as would be dangerous to the mining operation if inadvertently encountered incidental to the routine drilling and blasting processes.

Abstract: A rock breaker comprising a tool insertable in a hole in a rock and fed through a supply line with an incompressible liquid to maintain a column of the liquid in the hole, and means to apply to the liquid a shock means sufficiently high to fracture the rock, the tool comprising a hollow stem having an expansible collet and a resilient sealing ring and mechanical means to expand the collet and ring.

Abstract: A method for controlling a mine roof by drilling one or more boreholes into the roof formation to a location adjacent the top of a mineral seam and hydraulically fracturing the roof formation to enlarge the natural caving zone or to induce orderly caving of a mine roof.

Abstract: A hard compact material, such as rock, is broken by driving a longish mass body of relatively incompressible fluid, such as water, against the material to be broken. The mass body is caused to impact the material at a momentum required for breaking the material. The required momentum is obtained by adding the momentum of at least two fluid mass bodies. The longish mass body can be aligned with a drill hole by means of the drill bit and rod. The energy generator or fluid gun and the gun barrel can be made in separable units.

Abstract: A hard compact material, such as rock, is broken by maintaining a column of relatively incompressible fluid, such as water, extending from outside into at least one hole which has been pre-drilled in the material to be broken. A shock wave is generated in the column outside the hole and is transmitted through the column into the hole. Due to the energy of the propagated shock wave, cracks are initiated and driven to a free surface of the material to break same. Breakage by the effect of the shock wave may be facilitated by means of an explosive. The explosive is delivered into the hole prior to the admission of fluid thereinto and is initiated by means of the transmitted shock wave.

Abstract: A hard compact material, such as rock, is broken by forcing a longish mass body of relatively incompressible fluid, such as water, against the material to be broken. The mass body is directed into a hole in the material for impacting a surface therein. Prior to the impact delivering the mass body is accelerated to an impact velocity of sufficient magnitude for causing cracks to form in the material. Further, cracks in the hole are propagated toward a free surface in the material by the effect of the momentum or kinetic energy of the mass body.

Abstract: Method of breaking up objects, particularly concrete, blocks of rock, machines, and motors, and an installation for carrying out the method.

Abstract: In dry mining of trona by usual methods such as the room-and-pillar and the long wall mining methods, dust formation, energy requirements, and mining machine wear are reduced and mining tool life is increased by prefracturing the trona in situ prior to mining by (a) driving holes into the trona bed to be mined; (b) introducing fracturing agent into the holes, and (c) causing the fracturing agent to fracture the trona in situ without substantial displacement of the trona so that the prefractured trona will continue to support the overburden.

Abstract: A hard compact material, such as rock, is broken by delivering a hydraulic fluid, such as water, into at least one hole which has been pre-drilled in the material to be broken, the hole functioning as an hydraulic fluid cylinder. A piston is driven into the hole to impact the fluid to generate a high pressure in the fluid and to cause tensile stress cracks in the material by the established pressure. Due to the concentration of the stress at the bottom of the hole, the cracks are initiated and spread generally radially outwardly substantially normal to the principal stress direction. A plurality of said holes may be drilled and the cracks linked together by appropriate choice of form, depth, orientation, spacing and number of the holes. Preferably, the piston is driven into the hole by means of a gun at speeds ranging up to several hundred meters per second.

Abstract: 1. A method of inducing rapid failure in a shape that is under stress and is composed of cold rolled steel comprising applying against a surface of said cold rolled steel shape a mixture composed of lithium metal, lithium chloride and potassium chloride, rapidly heating that mixture as well as the surface of the steel shape in contact therewith sufficiently to melt the mixture but below the annealing temperature of the steel, and maintaining that temperature until the steel shape cracks.

Abstract: A method of connecting wells for the purpose of producing salt by solution mining. Two wells are drilled into the salt bed, one of which is drilled in the conventional manner, that is, essentially vertically and the other of which is drilled from a point on the surface a selected distance from the first well and is deflected in the direction towards the conventional well so that the bottom of the deflected well approaches within a selected distance of the bottom of the conventional well. After the two wells are drilled the salt is fractured by the use of a conventional high pressure liquid fracturing technique in one or the other or both of the two wells, so that a fracture for fluid flow between the two wells will hopefully be obtained. Thereafter the salt is mined by flowing fresh water down one well and withdrawing saturated salt solution from the other well, the water passing from one well to the other through the fracture zone where it dissolves the salt, creating a cavity.

Abstract: Method for recovering bitumen from oil or tar sand using jets of hot water and/or steam introduced into the sand via raises connected to underlying spaced aprt tunnels. The jets are arcuately moved horizontally in overlapping patterns to slurry the sand. Caverns are formed by caving the tar sand and removal of the slurry into which the over burden is permitted to cave forming there above a surface depression usable as a tailing pond. Cavities are formed by other jets which connect with the priorly formed cavities so there is a continuous backward movement of interconnecting cavities.