1
Roger J Card, Paul R Howard, Jean Pierre Feraud: Control of particulate flowback in subterranean wells. Dowell Schlumberger Incorporated, Stephen A Littlefield, July 19, 1994: US05330005 (335 worldwide citation)

The addition of fibrous materials in intimate mixture with particulates for fracturing and gravel packing decreases or eliminates the flowback of proppant and/or formation fines while stabilizing the sand pack and lowering the demand for high polymer loadings in the placement fluids. Preferred fiber ...


2
Roger J Card, Jean Pierre Feraud, Paul R Howard: Control of particulate flowback in subterranean wells. Dowell a Division of Schlumberger Technology, John E Vick Jr, August 8, 1995: US05439055 (312 worldwide citation)

The addition of fibrous materials in intimate mixture with particulates for fracturing and gravel packing decreases or eliminates the flowback of proppant and/or formation fines while stabilizing the sand pack and lowering the demand for high polymer loadings in the placement fluids. Preferred fiber ...


3
Jim D Weaver, James R Stanford, Brahmadeo Dewprashad, Philip D Nguyen: Control of particulate flowback in subterranean wells. Halliburton Energy Services, Robert A Kent, November 10, 1998: US05833000 (304 worldwide citation)

The present invention provides a method of treating a subterranean formation with a particulate laden fluid whereby particulate flowback is reduced or prevented. The method includes the steps of providing a fluid suspension including a mixture of a particulate upon which at least a partial coating o ...


4
Jim D Weaver, James R Stanford, Philip D Nguyen, Bobby K Bowles, Steven F Wilson, Brahmadeo Dewprashad, Mark A Parker: Control of fine particulate flowback in subterranean wells. Halliburton Energy Services, Robert A Kent, December 29, 1998: US05853048 (297 worldwide citation)

The present invention provides a method of treating a wellbore penetrating a subterranean formation with a treatment fluid whereby fine particulate flowback is reduced or prevented. The method includes the steps of providing a fluid suspension including a mixture of a particulate coated with a tacki ...


5
Roger J Card, Paul R Howard, Jean Pierre Feraud, Vernon G Constien: Control of particulate flowback in subterranean wells. Dowell a division of Schlumberger Technology Corporation, John E Vick Jr, March 26, 1996: US05501275 (273 worldwide citation)

The addition of fibrous mixtures in intimate mixtures with particulates for fracturing and gravel packing decreases or eliminates the undesirable flowback of proppant or formation fines while stabilizing the sand pack and lowering the demand for high polymer loadings in the placement fluids. Fibers ...


6
Jim D Weaver, Philip D Nguyen, James R Stanford, Brahmadeo T Dewprashad: Control of particulate flowback in subterranean wells. Halliburton Energy Services, Robert A Kent, April 11, 2000: US06047772 (270 worldwide citation)

The present invention provides a method of treating a subterranean formation with a particulate laden fluid whereby particulate flowback is reduced or prevented. The method includes the steps of providing a fluid suspension including a mixture of a particulate, a tackifying compound and a multifunct ...


7
David R Armbruster: Consolidation of partially cured resin coated particulate material. Acme Resin Corporation, November 22, 1988: US04785884 (211 worldwide citation)

A proppant composed of particulate material coated with a solid thermosetting resin that can consolidate and cure at tempertures below about 130.degree. F. An acidic catalyst in a solvent system is used to cure the resin underground.


8
Roger J Card, Paul R Howard, Jean Pierre Feraud, Vernon G Constien: Control of particulate flowback in subterranean wells. Schlumberger Technolgy Corporation, Gordon G Waggett, Robin C Nava, January 9, 2001: US06172011 (208 worldwide citation)

The addition of fibrous mixtures in intimate mixtures with particulates for fracturing and gravel packing decreases or eliminates the undesirable flowback of proppant or formation fines while stabilizing the sand pack and lowering the demand for high polymer loadings in the placement fluids. Fibers ...


9
Hugh Malcolm Bourne, Peter Arne Read: Well treatment. AEA Technology, William R Hinds, October 12, 1999: US05964291 (198 worldwide citation)

Chemical treatment agents are supplied to a well or borehole extending through an earth formation by subjecting the well to a fracturing treatment with a high pressure fluid and proppant particles. The proppant particles are thereby trapped in fractures in the earth formation. Some or all of the pro ...


10
Christopher Burcham, Robert E Fast, Anthony S Murer, Paul S Northrop: Oil recovery by enhanced imbitition in low permeability reservoirs. Mobil Oil Corporation, Alexander J McKillop, George W Hager Jr, Charles A Malone, May 2, 1995: US05411086 (196 worldwide citation)

A method for enhanced oil recovery from a low permeability diatomaceous reservoir by imbibition is described. In this method, oil is displaced from a single injection well, or series of injection wells into a single producer or series of producing wells by a combination of applied fluid pressure, pl ...