Methods of preparing a viscosified treatment fluid comprising a base fluid, a gelling agent, and breaker coated particulates (“BCPs”). The BCPs comprise particulates at least partially coated with a first layer of a stabilization agent followed by a second layer of a breaker. The viscosified treatment fluid may be introduced into a subterranean formation, the breaker activated to reduce a viscosity thereof, and a particulate pack formed in the subterranean formation with the BCPs.

Methods of preparing a viscosified treatment fluid comprising a base fluid, a gelling agent, and breaker coated particulates (“BCPs”). The BCPs comprise particulates at least partially coated with a first layer of a stabilization agent followed by a second layer of a breaker. The viscosified treatment fluid may be introduced into a subterranean formation, the breaker activated to reduce a viscosity thereof, and a particulate pack formed in the subterranean formation with the BCPs.

A method of monitoring an energy industry operation includes: collecting measurement data in real time during an energy industry operation; automatically analyzing the measurement data by a processor, wherein analyzing includes generating a measurement data pattern indicating the values of a parameter as a function of depth or time; automatically comparing the measurement data pattern to a reference data pattern generated based on historical data relating to a previously performed operation having a characteristic common to the operation; predicting whether an undesirable condition will occur during the operation based on the comparison; and based on the processor predicting that the undesirable condition will occur, estimating a time at which the undesirable condition is predicted to occur, and automatically performing a remedial action to prevent the undesirable condition from occurring.

A method of monitoring an energy industry operation includes: collecting measurement data in real time during an energy industry operation; automatically analyzing the measurement data by a processor, wherein analyzing includes generating a measurement data pattern indicating the values of a parameter as a function of depth or time; automatically comparing the measurement data pattern to a reference data pattern generated based on historical data relating to a previously performed operation having a characteristic common to the operation; predicting whether an undesirable condition will occur during the operation based on the comparison; and based on the processor predicting that the undesirable condition will occur, estimating a time at which the undesirable condition is predicted to occur, and automatically performing a remedial action to prevent the undesirable condition from occurring.

A system for a well completions operation includes a packed filtration screen assembly removably attached around a perforated portion of a liner, where the packed filtration screen assembly has an inner slotted basket, an outer slotted basket positioned concentrically around the inner slotted basket, and gravel held in an annular space between the inner slotted basket and the outer slotted basket and axial end caps located at opposite axial ends of the annular space.

A system for a well completions operation includes a packed filtration screen assembly removably attached around a perforated portion of a liner, where the packed filtration screen assembly has an inner slotted basket, an outer slotted basket positioned concentrically around the inner slotted basket, and gravel held in an annular space between the inner slotted basket and the outer slotted basket and axial end caps located at opposite axial ends of the annular space.

A system for optimizing a completion operation includes an interface to equipment and sensors for performing the completion operation. The interface supplies control signals to the equipment and obtains measurement signals from the sensors. The system further includes a short-term optimizer that derives a current job state based at least in part on the measurement signals, and that further adjusts the control signals to optimize a short-term cost function. The short-term cost function includes a difference between the current job state and a desired job state derived from optimized values of a set of decision variables. The system further includes a long-term optimizer module that determines the optimized values based on a long-term cost function, the long-term cost function accounting for at least a long-term reward and a final state cost.

A system for optimizing a completion operation includes an interface to equipment and sensors for performing the completion operation. The interface supplies control signals to the equipment and obtains measurement signals from the sensors. The system further includes a short-term optimizer that derives a current job state based at least in part on the measurement signals, and that further adjusts the control signals to optimize a short-term cost function. The short-term cost function includes a difference between the current job state and a desired job state derived from optimized values of a set of decision variables. The system further includes a long-term optimizer module that determines the optimized values based on a long-term cost function, the long-term cost function accounting for at least a long-term reward and a final state cost.

Particulates, such as proppants, that are coated with a coating agent selected from the group consisting of: organosilanes, organosiloxanes, polysiloxanes, long carbon chain hydrocarbon amines containing no silicon or fluoro-based groups in the molecule, amine functionalized polyolefins and polymerizable natural oils; and a chemical additive selected from the group consisting of: a scale inhibitor, a biocide, and an H.sub.2S scavenger. The coating agent controls the release of the additive from the particulate surface into surrounding fluid, providing a slow release that promotes the long lasting effect of the additive. The coated particulates have use in oilfield applications such as hydraulic fracturing operations, gravel pack operations, and in water treatment processes.

Particulates, such as proppants, that are coated with a coating agent selected from the group consisting of: organosilanes, organosiloxanes, polysiloxanes, long carbon chain hydrocarbon amines containing no silicon or fluoro-based groups in the molecule, amine functionalized polyolefins and polymerizable natural oils; and a chemical additive selected from the group consisting of: a scale inhibitor, a biocide, and an H.sub.2S scavenger. The coating agent controls the release of the additive from the particulate surface into surrounding fluid, providing a slow release that promotes the long lasting effect of the additive. The coated particulates have use in oilfield applications such as hydraulic fracturing operations, gravel pack operations, and in water treatment processes.