The present invention provides an adjustable pulsed gas agitator including a gas accumulation chamber with a gas discharge pipe, a gas supply unit, and an adjustable gas discharge unit. The adjustable gas discharge unit has an elongatable gas pipe slidably disposed over the lower part of the gas discharge pipe, and a gas cap disposed underneath the elongatable gas pipe; so that when the adjustable gas discharge unit is moved upward or downward, the volume of the stirring gas accumulated within the gas accumulation chamber is decreased or increased; thereby the frequency and strength of the discharged pulsed gas flows is varied.

Apparatus and method for mixing a tank containing a fluid with a gas, wherein the gas is fired with a periodic intensity and duration through the employment of a gas container containing an inverted siphon, with one end contained in the container and the other end extending into a fluid.

A multiple submergence depth diffused air system includes: a vessel having a non-flat bottom floor and fluid; a single blower or compressor that provides a single mass flow and a single pressure discharge of air; a plurality of air distribution lines that extend from the single blower or compressor into the fluid, in which outlets of the plurality of air distribution lines have grids with air diffuser units for distributing air; and orifice plates associated with each air distribution line. At least some of the air distribution lines extend to different depths within the fluid and at least one of the air distribution lines extend into the fluid formed in the non-flat bottom floor of the vessel. The orifice plates can also be sized and configured to produce a unique pressure head for each air distribution line at a designated mass flow of air to the respective air distribution line.

An exemplary wastewater treatment system includes a pipe, a diffuser mount, and four disc diffusers. The diffuser mount includes a mount-to-pipe connection portion attached to the pipe, four distribution conduits arranged in a cross shape and in gaseous communication with the mount-to-pipe connection portion, and four curved mount-to-diffuser attachment slots located above the four distribution conduits. Each of the four disc diffusers occupies one of the four curved mount-to-diffuser attachment slots and is attached to one of the four distribution conduits. Configured in this manner, each of the four disc diffusers is in gaseous communication with an interior of the pipe and can be used to generate plumes of bubbles in wastewater for aerobic wastewater treatment applications.

A multi powder mixing system includes first, second and third wheels each having a first groove recessed below its top surface, with first, second and third hoppers positioned above the wheels. First, second and third conduits connect the hopper bottoms to the grooves, defining feeding paths. A mixer unit receives materials, connected to the grooves via first, second and third suction heads. First, second and third motors rotate the respective wheels, transferring powdered materials from the hoppers to the grooves to the mixer unit. The mixing system has a coaxial wheel arrangement with independent material flow control providing controlled powder mixing.

A flexible tank (10, 110) for transporting fluids in a transportation container (12) is described, the flexible tank (10, 110) defining a tank (10) volume for containing a fluid. The flexible tank (10, 110) comprises at least one mixing member (146, 46) enclosing a fluid pathway (160, 60) extending across an interior surface (144, 44) of the flexible tank (10, 110), the flexible tank (10, 110) further comprising at least one inlet valve (140, 40) configured to allow the passage of fluid from outside said flexible tank (10, 110) into said fluid pathway (160, 60). The mixing member (146, 46) further comprises at least one aperture (154) such that the inlet valve (140, 40) is in fluid communication with the tank (10) volume via the fluid pathway (160, 60). An intermodal container (12) comprising the flexible tank (10, 110) and a method of mixing a fluid with the tank (10) are also disclosed.