Abstract: Systems and methods for treating wastewater with an oil-specific viscosifier composition and separating viscosified oil, undissolved solids and/or particulates, and/or other waste materials in such wastewater are provided. In some embodiments, the methods include: providing wastewater that includes oil; mixing the wastewater with an oil-specific viscosifier composition to form a viscosified oil; and separating at least a portion of the viscosified oil from the wastewater to provide treated water.

Abstract: The present invention provides methods and devices for secure computing device start up. The method includes generating a public/private key pair and signing a software image and obtaining a first time stamp and a second time stamp. The method further includes combining the signed software image, the first time stamp and the second time stamp into a bundle and deploying the bundle. During secure start up, the method includes authenticating the signed software image, the first time stamp and the second time stamp and booting the computing device if authentication passes. The computing device aborts booting the computing device if the authentication process fails.

Abstract: The present invention provides 5-[5]-[2-cycloalkyl]-6-pyridazin-3-yl]-1H-pyrimidine-2,4-dione compounds, or pharmaceutically acceptable salts thereof, that inhibit the activity of CD73 and are useful in treating cancer.

Abstract: Provided is a water retort apparatus, methods of using the water retort apparatus, and systems including the water retort apparatus. An example of the water retort apparatus comprises a sample test cell, a heating element configured to heat the sample test cell to a temperature between about 212° F. and about 400° F., a condenser in fluidic communication with the sample test cell, a sight glass in fluidic communication with the condenser, a camera configured to capture images of the sight glass, and a controller configured to analyze the images captured by the camera and estimate a volume of water in the sight glass.

Abstract: A strip stop mechanism for a fiber stripping machine including a channel for receiving an optical fiber. The strip stop mechanism can include a lever operably mounted to the fiber stripping machine, the lever extending between a first end and a second end and being rotatable between a first position and a second position. When the lever is in the first position, the first end of the lever resides within the channel to provide an end stop for the optical fiber. When the lever is in the second position, the first end of the lever is at least partially withdrawn from the channel and the fiber stripping machine is activated. A second end of the lever can be configured to depress an activation button of the fiber stripping machine once the first end of the lever is at least partially removed from the channel.

Abstract: A method, system, and apparatus for using and testing chemically tagged drilling fluid additives. In one embodiment, the method comprises: circulating a drilling fluid in a wellbore, wherein the drilling fluid comprises a chemically tagged drilling fluid additive; and extending the wellbore into one or more subterranean formations while circulating the drilling fluid. A system comprising: a drilling fluid comprising a chemically tagged drilling fluid additive; a drill string comprises a drill bit and a downhole tool; a data processing system operable to receive measurements from the downhole tool to produce a visual representation of the chemically tagged drilling fluid additive in a subterranean formation or a filter cake. An apparatus comprising: a vessel for holding a quantity of a drilling fluid a filter media; a mud sensor; a cake sensor; an outlet sensor; a data processing system coupled to the mud sensor, the cake sensor, and the outlet sensor.

Abstract: The present invention provides 5-[5]-[2-cycloalkyl]-6-pyridazin-3-yl]-1H-pyrimidine-2,4-dione compounds, or pharmaceutically acceptable salts thereof, that inhibit the activity of CD73 and are useful in treating cancer.

Abstract: Provided is a water retort apparatus, methods of using the water retort apparatus, and systems including the water retort apparatus. An example of the water retort apparatus comprises a sample test cell, a heating element configured to heat the sample test cell to a temperature between about 212° F. and about 400° F., a condenser in fluidic communication with the sample test cell, a sight glass in fluidic communication with the condenser, a camera configured to capture images of the sight glass, and a controller configured to analyze the images captured by the camera and estimate a volume of water in the sight glass.

Abstract: A filtration assembly comprising can include a housing in fluid communication with an inlet for receiving waste water from a wellbore. The assembly can also include a filter device for filtering a substances from the waste water. The filtering device can include a plurality of pores that are sized and shaped to define first dimensions. The filter device may be configurable in response to stimulus for altering the dimensions of the plurality of pores of the filter device to define a second area that is different from the first area.

Abstract: Automated systems and methods for treating wastewater or effluent are provided.

Abstract: A method for detecting the occurrence of an event at a well comprising: recording a first set of measurements collected from the well; processing the recorded measurements to provide a first set of data; calculating a first score based on the first set of processed data; recording a second set of measurements collected from the well; processing the second set of recorded measurements to provide a second set of data; calculating a second score based on the second set of processed data; wherein the first set of processed data and the second set of processed data is the number median of absolute difference from normal; combining the first score and the second score using a weighted average; and comparing the combined scores to a predetermined rule based on a specified time frame; and allowing an operator to adjust parameters of the well operation based on the score comparison.

Abstract: The present invention relates to apparatuses for distributing build powder in powder-layer three-dimensional printers (2) and for the collection of particulates of the build powder that have become suspended in the gaseous atmosphere in the vicinity of the build platform of the three-dimensional printer. These apparatuses include recoaters (20) that are particularly useful in providing uniform distribution of fine build powder across the width of the build platform or powder bed. The present invention also includes powder-layer three-dimensional printers (2) which comprise such apparatuses for distributing build powder and/or apparatuses for collecting such suspended particulates. The improved fine powder recoater (20) uses an ultrasonic transducer (30) to move powder through a sheet screen (28). The sheet screen (28) may be presented to the powder fed onto it in a narrow dispensing slot to limit the flow rate of powder from the dispenser and to provide control over the amount of powder dispensed.

Abstract: Wastewater or effluent treatment systems and methods that employ filtering skimmers and/or beaches for separating water from solids and/or other wastes are provided. In some embodiments, the systems include: at least one tank defined by a bottom wall and at least one side wall; a beach including a ramped surface disposed near a side wall of the tank, the ramped surface having a base end disposed at a first elevation relative to the bottom wall of the tank, and a top end opposite the base end at a second elevation relative to the bottom wall of the tank, the second elevation being greater than the first elevation; and a skimmer disposed in the tank that is configured to move material at a surface of the tank toward the beach, wherein (a) at least a portion of the skimmer, (b) at least a portion of the ramped surface of the beach, or (c) at least portions of both the skimmer and the ramped surface of the beach includes a filter material.

Abstract: The present application provides a mobile selective catalyst reduction system for use at a remote location. The mobile selective catalyst reduction system may include a first trailer with an ammonia delivery system and a tempering air system mounted thereon in whole or in part and a second trailer with a selective catalyst reduction section mounted thereon in whole or in part. The ammonia delivery system, the tempering air system, and/or the selective catalyst reduction section are permanently mounted on the first trailer or the second trailer for use at the remote location.

Abstract: Wastewater or effluent treatment systems and methods that employ filtering skimmers and/or beaches for separating water from solids and/or other wastes are provided. In some embodiments, the systems include: at least one tank defined by a bottom wall and at least one side wall; a beach including a ramped surface disposed near a side wall of the tank, the ramped surface having a base end disposed at a first elevation relative to the bottom wall of the tank, and a top end opposite the base end at a second elevation relative to the bottom wall of the tank, the second elevation being greater than the first elevation; and a skimmer disposed in the tank that is configured to move material at a surface of the tank toward the beach, wherein (a) at least a portion of the skimmer, (b) at least a portion of the ramped surface of the beach, or (c) at least portions of both the skimmer and the ramped surface of the beach includes a filter material.

Abstract: A method, system, and apparatus for using and testing chemically tagged drilling fluid additives. In one embodiment, the method comprises: circulating a drilling fluid in a wellbore, wherein the drilling fluid comprises a chemically tagged drilling fluid additive; and extending the wellbore into one or more subterranean formations while circulating the drilling fluid. A system comprising: a drilling fluid comprising a chemically tagged drilling fluid additive; a drill string comprises a drill bit and a downhole tool; a data processing system operable to receive measurements from the downhole tool to produce a visual representation of the chemically tagged drilling fluid additive in a subterranean formation or a filter cake. An apparatus comprising: a vessel for holding a quantity of a drilling fluid a filter media; a mud sensor; a cake sensor; an outlet sensor; a data processing system coupled to the mud sensor, the cake sensor, and the outlet sensor.

Abstract: The present invention relates to an assembly, comprising a plant pot (258) having a bottom (260) and at least one side wall (264), extending from the bottom up to a top rim and at least one hole (268) which is arranged in or at least near the bottom, at least one wick (30) extending from below the bottom and through the hole and a container (256), dimensioned to accommodate at least a bottom portion of the plant pot comprising the hole through which the wick extends out of the plant pot. The container and the plant pot in an assembled state define a reservoir to accommodate fluid, such as water, for the plant to be drawn up through the wick during at least one of growing, transporting and display for sale of a plant in the plant pot, which is accommodated in the container. An overflow (284) with a controllable valve (288) may function to distinguish between a stationary state of the assembly and transport thereof.

Abstract: Methods and apparatuses for cooling an electronic device assembly having a heat producing are described. An electronic device assembly includes a heat dissipation member and a dielectric two-phase heat transfer device. The dielectric heat transfer device has an evaporator region thermally attached to a hot region of the heat producing component and a condenser region thermally attached to the heat dissipation member. The dielectric two-phase heat transfer device is fabricated from a dielectric material.

Abstract: A multi-purpose beverage pod holder for a beverage brewing apparatus is disclosed comprising a flange adapted to be received in a slot in the brewing apparatus, a screen disposed orthogonal with the flange for allowing fluid to pass therein through, a first cylindrical wall encircling the screen on a first surface of the pod holder, the first cylindrical wall having a first diameter and defining a first packet retainer, and a second cylindrical wall encircling the screen on an opposite surface of the pod holder, the second cylindrical wall having a second diameter that is larger than the first diameter and defining a second packet retainer. The pod holder can be used to brew both espresso and coffee in the same machine depending upon the orientation of the pod holder.

Abstract: A mineral insulated heating cable for a heat tracing system. The heating cable includes a sheath having at least a first, and optionally a second layer, wherein the thermal conductivity of the second layer is greater than a thermal conductivity of the first layer. In addition, the first and second layers are in intimate thermal contact. The heating cable also includes at least one heating conductor for generating heat and a dielectric layer located within the sheath for electrically insulating the heating conductor, wherein the sheath, heating conductor and dielectric layer form a heating section. In addition, the heating cable includes a conduit for receiving the heating section. Further, the heating cable includes a cold lead section and a hot-cold joint for connecting the heating and cold lead sections. In addition, a high emissivity coating may be formed on the first layer.