Abstract: A delayed coking process in which a flash zone gas oil stream from the bottom of the coker fractionator is upgraded by removing suspended solids and then hydroprocessing the stream to make it more attractive as a feed to a fluidized bed catalytic cracking unit or other processing unit. Removal of the solids allows the stream to be processed in a fixed bed catalytic hydrotreater without plugging of the catalyst bed.
Type:
Grant
Filed:
January 5, 1996
Date of Patent:
July 8, 1997
Assignee:
Conoco Inc.
Inventors:
Thomas L. Hraban, Paul E. Seyler, Todd W. Dixon
Abstract: In a delayed coking process the temperature of the liquid in the coke drum is increased by the addition of a heated non-coking hydrocarbon diluent. The heated non-coking diluent can be added to either a delayed coker furnace effluent prior to entering the coke drum, directly into the coke drum, or both. The resulting increase in coke drum temperature results in increased liquid yields and a decrease in coke yields.
Abstract: Gas in association with liquids is produced from a wellbore by disposing a first tubing string having a first fluid communication path into the wellbore to near or below the bottom of a producing zone, disposing within the annulus between the first tubing string and the outer surface of the wellbore a second fluid communication path from near or below the bottom of the producing zone to an offtake line at the surface, disposing a choke means in at least one of the fluid communication paths, and producing gas while controlling the choke means to establish sufficient gas flow up the first fluid communication path so as to unload liquids from near or below the bottom of the producing zone and produce the liquids up the first tubing string in association with gas flow. In accordance with a preferred embodiment, the first tubing string has a sufficiently small diameter that liquids can be unloaded from the well over life of the production.
Abstract: A fluid actuated detonating device is shown being used to activate explosive devices in a borehole. The detonating device has an explosive detonation charge arranged in a housing wherein a rupture disc in the wall of the housing separates the explosive charge from a fluid environment so that when pressure in the fluid environment is raised to a sufficient level the rupture disc fails and communicates a sudden pressure wave to the explosive to detonate the explosive.
Abstract: Use of a ribbon shaped flow configuration at the entrance to a round spinneret used for spinning carbon fibers from mesophase pitch promotes the formation of random microstructure and prevents formation of axial cracking in the fibers.
Abstract: This application relates to a process for making carbon artifacts from solvated mesophase pitch comprising quinoline insoluble materials. The process has a significant advantage over the art as it permits the use of otherwise unusable pitch feedstocks and the artifacts formed according to the process retain their structural integrity during carbonization. This invention also relates to the pitch formed by this process and carbon artifacts formed by this process.
Abstract: This application relates to a process for making carbon artifacts from solvated mesophase pitch comprising quinoline insoluble materials. The process has a significant advantage over the art as it permits the use of otherwise unusable pitch feedstocks and the artifacts formed according to the process retain their structural integrity during carbonization. This invention also relates to the pitch formed by this process and carbon artifacts formed by this process.
Abstract: This invention relates to low melting solvated mesophase pitches which are suitable for spinning into carbon fibers. The solvated mesophase pitches have a lower melting point than conventional mesophase pitch but remain substantially anisotropic. The solvated mesophase can be produced as an intermediate during solvent fractionation or supercritical solvent fractionation of mesogen-containing isotropic pitches. The process is enhanced through the ability to recover pseudomesogens with an increased average molecular weight which, in combination with the solvent content, provides a fusible mesophase capable of being spun directly into infusible oriented anisotropic carbon fibers.
Type:
Grant
Filed:
July 28, 1994
Date of Patent:
July 23, 1996
Assignee:
Conoco Inc.
Inventors:
Walter M. Kalback, H. Ernest Romine, Xavier M. Bourrat
Abstract: This invention relates to an improved termination connection for advanced fiber composite cables of the type comprised of fibers fixed in a matrix binder. In particular, the composite cable is provided with one or more ribs of tension wound binder impregnated fiber cured on the end portion thereof. Potting material is secured over the ribs at the end of the cable preferably having a parabolically curved outwardly tapered contour to distribute the longitudinal and transverse forces over the fibers in the cable.
Type:
Grant
Filed:
December 29, 1993
Date of Patent:
June 11, 1996
Assignee:
Conoco Inc.
Inventors:
Jerry G. Williams, Randall G. Ivie, Joseph L. Schiltz
Abstract: The present invention provides a single trip system for placing perforating apparatus and sand control equipment in a wellbore. This system includes a casing string equipped with extendible pistons and a pumpable activator plug for extending the pistons. Additionally, this system utilizes a single gravel-pack and completion tool string. Further, this system includes a means for opening the extendible pistons to fluid flow.
Type:
Grant
Filed:
June 1, 1995
Date of Patent:
April 9, 1996
Assignee:
Conoco Inc.
Inventors:
Eric E. Andersen, Larry K. Moran, Richard M. Hodge, Nobuo Morita
Abstract: A hydrocarbon soluble drag reducing suspension is described as well as a process for obtaining the same. Process is directed toward producing a drag reducing product which is easily transportable, non-hazardous, easily handled and while providing a significant increase in drag reduction capability over existing commercial products. The suspension is preferably substantially solvent-free.
Type:
Grant
Filed:
April 12, 1995
Date of Patent:
April 2, 1996
Assignee:
Conoco Inc.
Inventors:
Ken W. Smith, Leo V. Haynes, Debora F. Massouda
Abstract: A hydrocarbon soluble drag reducing suspension is described as well as a process for obtaining the same. Process is directed toward producing a drag reducing product which is easily transportable, non-hazardous, easily handled and while providing a significant increase in drag reduction capability over existing commercial products. The suspension is preferably substantially solvent-free.
Type:
Grant
Filed:
April 12, 1995
Date of Patent:
April 2, 1996
Assignee:
Conoco Inc.
Inventors:
Ken W. Smith, Leo V. Haynes, Debora F. Massouda
Abstract: This invention provides a process for preparing a solvated isotropic pitch having a fluid temperature at least 40.degree. C. lower than the same pitch in the non-solvated state. Additionally, the present invention provides a solvated isotropic pitch which may be formed into carbon artifacts which do not require oxidative stabilization prior to carbonization.
Type:
Grant
Filed:
June 27, 1994
Date of Patent:
March 26, 1996
Assignee:
Conoco Inc.
Inventors:
H. Ernest Romine, Edward J. Nanni, Mark W. Carel, W. Mark Southard
Abstract: The present invention provides a process for obtaining a very clean mesophase pitch from isotropic pitch. This invention utilizes a solvent fractionation process which does not involve the process steps, yield loss and waste generation associated with fluxing and filtering the isotropic pitch. Additionally, this invention provides a liquid/liquid extraction process that avoids the solids handling and the high temperatures and pressures of supercritical fluid extraction. Finally, this invention controls the hardness of the mesophase product.
Type:
Grant
Filed:
November 7, 1994
Date of Patent:
February 6, 1996
Assignee:
Conoco Inc.
Inventors:
H. Ernest Romine, W. Mark Southard, Edward J. Nanni, Mark W. Carel
Abstract: A VASPS (vertical annular separation and pumping system) is integral with a floating production vessel such as a TLP. The head section of the VASPS is located at the deck level of the vessel. The tail section is located at or near the bottom of the body of water. The head and tail sections are in fluid communication by a riser having at least two fluid passageways (conductors). The invention constitutes an improvement on the VASPS unit described and claimed in U.S. Pat. No. 4,900,433.
Abstract: This invention is directed to a system for determining the position and depth of downhole equipment in a wellbore which includes an elongate spoolable composite coiled tubing for running the downhole equipment into the wellbore. The composite coiled tubing string has multiple layers of fibers arranged in a generally cylindrical shape, wherein each layer has a plurality of fibers arranged in a predetermined orientation to form a composite coiled tubing string having sufficient strength to be pushed into and pulled and out of the borehole. A plurality of detectable indicia (such as metallic, magnetic or encoded sections) overlay at least one of the layers of fibers and are integral to the composite coiled tubing string and spaced apart along the length of the tubing string at predetermined distances.
Abstract: Methane gas recovery from wells extending into subterranean coal seams is stimulated by treatment of near-wellbore coal seam with cryogenic liquid.
Type:
Grant
Filed:
December 14, 1994
Date of Patent:
November 7, 1995
Assignee:
Conoco Inc.
Inventors:
Dennis R. Wilson, Robert M. Siebert, Pat Lively
Abstract: A hydrocarbon soluble drag reducing suspension is described as well as a process for obtaining the same. Process is directed toward producing a drag reducing product which is easily transportable, non-hazardous, easily handled and while providing a significant increase in drag reduction capability over existing commercial products. The suspension is preferably substantially solvent-free.
Type:
Grant
Filed:
May 6, 1994
Date of Patent:
September 12, 1995
Assignee:
Conoco Inc.
Inventors:
Ken W. Smith, Leo V. Haynes, Debora F. Massouda
Abstract: The interruptive mobile production (IMP) system comprises a floating semisubmersible structure with equipment and facilities for hydrocarbon production in association with a small tension leg wellhead platform (TLWP) having direct vertical access. The small TLWP has an upper deck positioned above the surface of the water with wellhead equipment thereon and has risers generally vertically connecting subsea wells to the upper deck.Lateral bending restraints of the risers and tendons are preferably located at about the same horizontal level as the lower pontoon section. The semisubmersible structure can be conveniently disconnected from its moorings and from the wellhead platform for demobilizing to another location while the TLWP remains tethered in place.
Abstract: Use of a ribbon shaped flow configuration at the entrance to a round spinneret used for spinning carbon fibers from mesophase pitch promotes the formation of random microstructure and prevents formation of axial cracking in the fibers.