A dilution device may include a first component and a second component. The first component may define a groove including an inlet portion and an outlet portion. The second component may define an inlet in fluid communication with the inlet portion of the first component and an outlet in fluid communication with the outlet portion of the first component. Relative rotation between the first component and the second component may cause relative movement between the outlet and the outlet portion that changes the effective length of the groove fluidly coupling the inlet and the outlet of the second component. The cross-sectional area of the groove may vary along a length of the groove to provide different flow characteristics depending on the effective length of the groove.

The density of slurries produced by mobile blender for injection into oil and gas wells is controlled using a microwave flow meter. Liquid having a known density is provided to the blender. The liquid is flowed through a conduit and discharged into a blending tub on the mobile blender. The amount of liquid introduced into the tub is measured with a liquid flow meter. Solid particulates having a known density are provided to the blender. The particulates are discharged into the tub by allowing them to fall into the tub from a conveyor on the mobile blender. The amount of the particulates falling into the tub are measured with a microwave flow meter. The flow of the liquid and the particulates are controlled in response to the measurements to blend a slurry having a predetermined density. The slurry is provided for injection into the well.

A method of for mixing gases is described. The gases may include a first and a second gas wherein a gas mixing system accepts the gases and operates in a plurality of modes of operation to produce a discharge gas including a mixture thereof, and the second gas may be supplied without the first gas, and the first gas may be supplied without the second gas. The gas mixing system may be integrated with a gas processing system to produce a biogas-related product. The gas mixing system may be a compressor, a jet compressor, an ejector, an eductor, venturi jet pump, eductor-jet pump, and/or a thermocompressor, that uses a first stream of high-pressure gas to entrain a relatively lower pressure second gas, mixes the two, and discharges a third gas mixture that is of a sufficiently elevated pressure to be supplied to other areas of a production facility.

A method of for mixing gases is described. The gases may include a first and a second gas wherein a gas mixing system accepts the gases and operates in a plurality of modes of operation to produce a discharge gas including a mixture thereof, and the second gas may be supplied without the first gas, and the first gas may be supplied without the second gas. The gas mixing system may be integrated with a gas processing system to produce a biogas-related product. The gas mixing system may be a compressor, a jet compressor, an ejector, an eductor, venturi jet pump, eductor-jet pump, and/or a thermocompressor, that uses a first stream of high-pressure gas to entrain a relatively lower pressure second gas, mixes the two, and discharges a third gas mixture that is of a sufficiently elevated pressure to be supplied to other areas of a production facility.

A dilution system for a hydraulic fracturing fluid includes a dilution manifold, a hydration unit configured to provide a source of liquid, a diluent line connecting the hydration unit to the dilution manifold, a diluent flow control valve on the diluent line, a hydration tank configured to hydrate a mixed additive, a gravity-driven viscous fluid line connecting an exit of the hydration tank to the dilution manifold, a viscous fluid flow meter on the viscous fluid line, and a viscous fluid control valve on the viscous fluid line.

A method and apparatus for obtaining a solution from a solid product in contact with a liquid is provided. A solid product is housed within a dispenser. A liquid is introduced into contact with the solid product. The solution formed between the solid product and the liquid is collected, and a makeup liquid can be added thereto to further dilute or control the concentration of the formed solution. The amount of makeup liquid added to the solution can be controlled based on the temperature of the liquid to provide an automatic, continuously variable amount of liquid added to the solution. In addition, a method of providing a pressure independent control of the makeup liquid is also provided.

Systems and methods for blending fluids are provided. A blended fluid may be obtained by mixing a first fluid from a first fluid source with a second fluid from a second fluid source. The blended fluid may be pumped by a pump arranged downstream of a point at which the first and second fluids are mixed, wherein no other pumps are upstream of the pump. First and second flow control valves that control the flow rate of the first and second fluids, respectively, are adjusted so as to reach a target flow rate of the blended fluid, the blended fluid having a target blend of the first fluid and the second fluid.

A shaker bottle is disclosed. The bottle includes a tumbler having a double walled structure, wherein the tumbler comprises a bottom wall internal surface, a side wall internal surface, a bottom wall external surface and a side wall external surface connected with the bottom wall internal surface and the side wall internal surface respectively through an air space arranged in between. The tumbler is configured to generate centrifugal force for shaking the predefined volume of liquid and the one or more consumable ingredients. The bottle includes a lid detachably coupled to the tumbler through one or more coupling mechanisms; an orifice to dispense a content from the internal chamber of the tumbler upon shaking; a closure to open or close the orifice through a sliding movement corresponding to the orifice. The bottle also includes at least two rubber plugs to pour a liquid coolant to the air space arranged between an external wall and an internal wall of the lid and the tumbler.

A food processing facility having application apparatus located within the interior space of the food processing facility for applying a PAA solution to food, a mixing container for containing a PAA solution having a PAA solution concentration, with the mixing container connected to the application apparatus for delivering the PAA solution to the application apparatus, and a PAA gas sensor, located within the interior space, for sensing a PAA airborne concentration. An actuation control system connected to the PAA gas sensor is adapted to receive a measure of the PAA airborne concentration and, when the measure of the PAA airborne concentration exceeds a reference value, changes one or more of the PAA solution concentration of the PAA solution in the mixing container, the flow rate of the fresh air ventilation system, and the flow rate of the exhaust air system.

Embodiments provide a liquid handling system arranged for preparation of small volume liquid formulations and dispensing these into output vessels. The system can be utilised for a variety of low volume liquid formulation preparation applications, with cell therapies being one example application.