An apparatus (1) for mixing a paste material with gas includes: a mixing part (2) that mixes the paste material with the gas using a piston pump (10); and a static mixer (3) that is connected to the mixing part to stir a mixture obtained by mixing the paste material with the gas in the mixing part. The static mixer includes one or a plurality of stirring sections through which the mixture passes, the stirring section has a shape that allows a flow of the mixture passing through the stirring section to be stirred. A ratio of a volume of the piston pump to a volume of at least one of the stirring sections of the static mixer is within a range from 1:0.2 to 1:5.

Provided herein are solids removal systems for dehydrator systems comprising a large rotating paddle, a small rotating paddle, and a drive shaft. The dehydrator system also includes a core dehydrator and a mixing unit. The core dehydrator comprises a plurality of small deflector plaques in fluidic communication with a plurality of large deflector plaques. The mixing unit includes a rapid mixing manifold in fluidic communication with a plurality of vertical flocculators and the core dehydrator. The large rotating paddle and the small rotating paddle of the solids removal system are connected to the drive shaft and configured to remove solids from the core dehydrator.

Provided herein are methods and compositions utilizing one or more cementitious replacement materials, one or more alkaline activating materials, and, optionally one or more bonding materials and/or one or more setting time enhancer materials. The one or more cement precursors comprises one or more of calcareous sludge; paper pulp, biomass flyash; bag house dust; biomass sludge; filter cakes from bio industry's and wastewater treatment; bio ash; biomedical ash; agricultural ash; sugar cane bagasse; rice husk ash; palm oil fuel ash; oxygen furnace slags; plant stalks; bio char; starch; pyrophyllite; or a combination thereof. The one or more alkaline activating agents comprises potassium silicate, potassium hydroxide, sodium hydroxide, sodium silicate, calcium hydroxide, magnesium hydroxide, reactive magnesium oxide, calcium chloride, sodium carbonate, silicone dioxide, sodium aluminate, calcium sulfate, sodium sulfate, or dolomite, or a combination thereof. The system comprises a vertical impact mixer.

A method for mixing a fluid includes: dispensing a first volume of a fluid into a flexible container, the flexible container being at least partially disposed within the chamber of a support housing; repeatedly moving the support housing and the flexible container contained therein so as to mix the first volume of fluid within the flexible container; adding further fluid into the flexible container after moving the support housing to form a second volume of fluid; and manipulating a mixing element within the flexible container so as to mix the second volume of fluid.

Disclosed is an automatic ink color blending apparatus, which comprises an apparatus cabinet (1) with a carrying platform (11), an ink bucket moving platform (2) provided on the carrying platform, the ink bucket moving platform including a moving guide rail (21), a weighing device (22) and an ink bucket (23), and wherein the ink bucket is disposed on the weighing device,the weighing device is provided on the moving guide rail and moves along the moving guide rail, an ink supply tank (3) arranged above the ink bucket moving platform,and wherein the ink supply tank includes a plurality of ink supply devices (31), each of which provides inks of different chromaticity and a control terminal (4) provided on the carrying platform, which is electrically connected to the ink supply tank, the moving guide rail and the weighing device respectively, for obtaining target chromaticity information, and generating control information of ink selection to select one or several ink supply devices to inject the corresponding chromaticity ink into the ink bucket sucessively, wherein the control information of ink selection includes selection information of an ink device and information of the amount of ink to be injected.

A dispense tap with integral gas/liquid infusion for dispensing a beverage at a given dispensing point inside a restaurant, a coffee shop, a bar, or a convenience store, features a mixing chamber having at least one gas input port configured to receive at least one incoming gas stream; at least one liquid input port configured to receive at least one incoming liquid or concentrate stream; and an infuser configured to mix the at least one incoming gas stream and the at least one incoming liquid or concentrate stream at the given dispensing point within the dispensing tap, and provide a mixing chamber stream containing a gas infused liquid mixture of the at least one incoming gas stream and the at least one incoming liquid or concentrate stream for dispensing as a beverage. The degree of absorption of the at least one incoming gas stream and the at least one incoming liquid or concentrate stream in the gas infused liquid mixture depends at least in part on sensed gas, liquid or concentrate pressure characteristics of one or more of the at least one incoming gas stream received by the infuser, the at least one incoming liquid or concentrate stream received by the infuser, or the gas infused liquid mixture provided from the infuser.

The present application provides an ingredient mixing module for mixing a number of ingredients. The mixing module may include a mixing chamber, a number of entry ports positioned about the mixing chamber, a mixer positioned within the mixing chamber, a brushless motor positioned about the mixing chamber so as to drive the mixer, and a nozzle downstream of the mixing chamber.

A paint and coating mixing kit, comprising: a shelf assembly; a plurality of aerosol blank cans disposed on the shelf assembly; a plurality of paint or coating cans or bottles disposed on the shelf assembly; and a filling assembly disposed on the shelf assembly; wherein the filling assembly is operable for selectively delivering a paint or coating from one of the plurality of paint or coating cans or bottles to one of the plurality of aerosol blank cans at a point of service location such that the paint or coating may be delivered in spray form from the aerosol blank can to an object to be painted or coated at the point of service location.

This disclosure features methods of forming chemical compositions. The method includes (1) mixing a plurality of continuous material flows in a mixing tank to form a chemical composition, each continuous material flow including at least one component of the composition; and (2) moving a continuous flow of the chemical composition to a packaging station downstream of the mixing tank. The mixing and moving steps are performed continuously. This disclosure also features systems that can be used to perform such methods.

A hydrator includes a dry module with a vertically oriented tube having a central axis, an interior, an upper inlet aperture, a lower outlet, and an inlet section including a dry inlet. A mixing segment includes a vertically oriented tube having an interior wall, a mixing-segment inlet at an upper end, and a mixing-segment outlet at a lower end. The mixing segment is vertically aligned with and sealingly connected to the outlet of the dry module. A rotating hydrator shaft has a liquid channel and a longitudinal axis aligned with the central axis of the dry module. Dry blades are disposed on and rotate with the hydrator shaft in the mixing segment. A hydrator nozzle is disposed on and rotates with the hydrator shaft and has a plurality of outlets in fluid communication with the liquid channel and open to the mixing segment for discharging liquid from the liquid channel.