Abstract: A method of servicing a wellbore comprising preparing a composition comprising a calcium aluminate cement, water, a polyphosphate, a pozzolan, and a set retarding agent, wherein the set retarding agent comprises an alkali halide and a basic phosphate salt, placing the composition in the wellbore and allowing the composition to set. A composition comprising a calcium aluminate cement in an amount of from about 30 wt. % to about 60 wt. % and a set retarding agent in an amount of from about 0.1 wt. % to about 15 wt. % based upon the total weight of the composition, wherein the set retarding agent comprises an alkali halide and a basic phosphate salt in a ratio of from about 3:1 to about 1:3.

Abstract: A method comprising contacting a zwitterionic surfactant, co-surfactant, and water to form a microemulsifier, and contacting the microemulsifier with an oleaginous fluid under low shear conditions to form a microemulsion. A method comprising introducing a first wellbore servicing fluid comprising at least one oleaginous fluid into a wellbore, wherein the first wellbore servicing fluid forms oil-wet solids and/or oil-wet surfaces in the wellbore, and contacting the oil-wet solids and/or oil-wet surfaces in the wellbore with a second wellbore servicing fluid comprising a zwitterionic surfactant, a co-surfactant, and a brine to form a microemulsion.

Abstract: A method for monitoring a workspace comprising deploying a fiber optic distributed temperature sensor cable in the workspace, wherein the sensor is capable of detecting a temperature differential of ±10° F. from baseline. A method for monitoring a workspace comprising deploying a fiber optic distributed temperature sensor cable in the workspace, wherein the sensor is readily accessible for contact by a worker trapped in the workspace to signal a location of the worker. A method for monitoring a workspace comprising deploying a fiber optic distributed temperature sensor cable in the workspace and instructing workers to locate the cable and position themselves in close proximity or direct contact with the cable in order to indicate their position within the workspace.

Abstract: A method of servicing a wellbore, comprising providing a wellbore fluid comprising a carrier fluid and a resilient material, and introducing the wellbore fluid to an annulus, wherein at least a portion of the resilient material reduces in volume to affect the annular pressure.

Abstract: Methods of servicing a wellbore in contact with a subterranean formation include passing an ester-based fluid into the wellbore and reducing a temperature of the ester-based fluid by an amount effective to cause the ester-based fluid to set, e.g., by from about 10° F. to about 20° F. The ester-based fluid includes a water in ester-based oil emulsion, a pH controlling additive, e.g., hydrated lime, in the water-phase, and an emulsifier to stabilize the pH controlling additive. Cooling the ester-based fluid causes the emulsion to destabilize, resulting in the release of the pH controlling additive. This release raises pH of the ester-based fluid by an effective amount to cause it to set. Wellbore servicing fluids comprising the foregoing ester-based fluid may be employed as environmentally friendly sealants or spotting fluids in wellbores.

Abstract: A process to determine optimal completion type and design prior to drilling of a hydrocarbon producing well utilizing information from hydrocarbon recovery modeling such as reservoir, geo-mechanical, and material modeling over the production life of the well. An embodiment of the process includes obtaining information regarding pore pressure depletion, stress magnitudes and orientations, and strength of rock formation from hydrocarbon recovery modeling to determine optimum well completion design including the selection of a completion type, trajectory, and location. Additionally, the process may also consider probable failure mechanisms and identified completion requirements, and their corresponding effect on completion options.

Abstract: The present invention provides a process for natural gas in the form, e.g., of stranded gas or associated gas to transportable liquids. More particularly, the present invention provides a process in which the gas is non-oxidatively converted to aromatic liquid, preferably in proximity to the welihead, which may be onshore or offshore. In one aspect, the present invention provides integration of separation of wellhead fluids into associated gas and crude with blending of the aromatic liquid derived from the gas with the crude. Alternatively, or in combination, in another aspect, the present invention provides integration of conversion of byproduct hydrogen to power with non-oxidative conversion of gas to aromatic liquid.

Abstract: A process for removing sulfur from a H2S-containing gas stream is disclosed. A preferred embodiment of the process comprises incorporating a short contact time catalytic partial oxidation reactor, a cooling zone, and a condenser into a conventional refinery or gas plant process, such as a natural gas desulfurizer, a hydrotreater, coker or fluid catalytic cracker, in which sulfur removal is needed in order to produce a more desirable product. An H2S-containing gas stream is fed into a short contact time reactor where the H2S is partially oxidized over a suitable catalyst in the presence of O2 to elemental sulfur and water.

Abstract: Cement comprising barite, a process for preparing such cement, and methods of cementing in a subterranean formation or well bore using such cement are provided. The cement is prepared by introducing coarse barite to the cement, the course barite comprising particles having a particle size primarily greater than about 125 microns. Preferably, 90 percent of the barite particles is greater than about 125 microns in size. The presence of the coarse barite in the cement causes the cement to have a relatively low viscosity. Introducing the barite to the cement also increases the density of the cement, thus rendering the cement capable of controlling high hydrostatic pressures in a well bore.

Abstract: A process is disclosed for producing hydrocarbons. The process involves contacting a feed stream comprising hydrogen and carbon monoxide with a catalyst in a reaction zone maintained at conversion-promoting conditions effective to produce an effluent stream comprising hydrocarbons. In accordance with this invention, the catalyst used in the process preferably includes at least cobalt, rhenium, and a promoter selected from the group including boron, phosphorus, potassium, manganese, and vanadium. The catalyst may also comprise a support material selected from the group including silica, titania, titania/alumina, zirconia, alumina, aluminum fluoride, and fluorided aluminas.

Abstract: The present invention is an improvement in the preparation of liquid hydrocarbons from natural gas/methane, oxygen and/or steam. In particular, the present invention relates to processes for the production of synthesis gas, reducing the oxygen concentration from the synthesis gas, and the production of liquid hydrocarbons using the oxygen reduced synthesis gas as a feedstock. More particularly, the present invention described herein identifies catalyst compositions, apparatus and methods of using such catalysts and apparatus for preparing liquid hydrocarbons via oxygen reduced synthesis gas all in accordance with the present invention.

Abstract: A method and apparatus are disclosed for asynchronous testing of multiport memories. In one embodiment, the apparatus includes a built-in self-test (BIST) unit coupled to a multiport memory module and configured to apply a pattern of read and write test operations concurrently to multiple ports of the memory. The pattern of test operations may be any standard or customized pattern designed to establish the functionality of the multiport memory. The test operations to different ports are clocked by different clock signals so that the clock signals may be offset relative to each other by an adjustable or preset clock skew. Certain clock skews cause transitions to occur on signal lines in the memory array at the most sensitive portion(s) of a read cycle. The timing of these transitions, in combination with the presence of high-resistivity bridge faults, sufficiently disturbs the read cycle so as to cause a read error, thereby enabling detection of the bridge faults.

Abstract: A heterogeneous integrated circuit having a digital signal processor and at least one programmable logic core. An AMBA AHB couples the cores and most other functional units on the IC. The PLCs are also coupled to the DSP through a separate DMA sharing unit to the DSP, and particularly to the DSP memory. The memory sharing arrangement provides a separate high-speed data transfer mechanism between the PLCs and the DSP. The AMBA AHB allows the DSP to control the PLC operations without interference with high-speed data transfers.

Abstract: A heterogeneous integrated circuit having a digital signal processor and two programmable logic cores, PLCs. An AMBA AHB couples the cores and most other functional units on the IC. The PLCs are also coupled to the DSP through a separate DMA sharing unit to the DSP, and particularly to the DSP memory. The memory sharing arrangement provides a separate high-speed data transfer mechanism between the PLCs and the DSP. The AMBA AHB allows the DSP to control the PLC operations without interference with high-speed data transfers. The DSP may reconfigure one PLC using the AMBA AHB, while it is processing data with the other PLC.

Abstract: A graphics system includes a graphics controller for rendering polygons with texture using an improved MIP mapping technique in which texels from multiple MIP maps are blended together. The graphics controller includes a polygon engine for rendering the pixels in a polygon and at texture map engine for selecting texture elements ("texels") from an appropriate texture map to be applied to the pixels rendered by the polygon engine. The texture map engine generates texel coordinate values from pixel coordinate values provided by the polygon engine. Texel values are selected from a set of texture maps each map varying from the others by the level of detail of the texture in each map. The graphics controller computes a scale factor for each texel value according an are a bounded by adjacent texel coordinates generated by the texture map engine. The scale factor is then used to compute a weighted average of texels form more than one MIP maps.