A portable unit for treating potable water in municipal and similar water lines to reduce and remove undesirable disinfectant byproducts such as trihalomethanes. The unit has a housing with water and air inlet and outlet arrangements. The water inlet arraignment is connectable to the municipal water line to deliver water into the housing where it is sprayed substantially horizontally into the housing along a duct through a splash screen and up against a splash plate. The splash plate redirects the water spray laterally outwardly, rearwardly, and downwardly onto an inclined ramp that guides the water downwardly into the lower part of the housing where it is collected or held until it is pumped back into the municipal water line. In operation, the THM treatment unit is self regulating based on fluctuating downstream water demand and beneficially operates in at least two modes automatically to meet the demand and safety considerations.

A vacuum deaerator degasses material to be processed by placing a rotating rotor with a screen in a vacuum vessel, introducing a liquid material to be processed into the rotor from the interior thereof and causing the liquid to pass through the screen to refine the same. The vacuum deaerator is characterized in that: the screen is a cylinder with a circular cross-section and is in the form of a porous plate in which a plurality of through holes are opened in the radial direction of the cylindrical screen; and the screen is provided such that the area of inflow openings is greater than the area of outflow openings, where the inflow openings are openings of a plurality of penetration portions provided on the inner wall face of the screen and the outflow openings are openings of the plurality of penetration portions provided on the outer wall dace of the screen. Thus, the processing capacity of the vacuum deaerator is improved without increasing the size of the device.

Embodiments herein provide a semiconductor substrate cleaning chamber. The cleaning chamber includes side walls that partially define a cleaning volume, a pedestal disposed within the side walls, and a cleaning arm disposed above the pedestal. The cleaning arm includes a nozzle assembly disposed on a nozzle end of the cleaning arm. The nozzle assembly includes a housing, and a body disposed within the housing and having a gas port disposed through the body and configured to aerate a fluid passing through the nozzle assembly.

A device and method for improving hydration of a biomaterial includes a syringe having a cavity therein and a distal opening, an end cap, and a wall operatively coupled to the end cap. The end cap has a distal plate with an inlet and is removably attached to the syringe to cover the distal opening. The wall is positioned proximate to the inlet and at least partially defines a volume in fluid communication with the inlet. An orifice extends through the wall and fluidly connects the volume to the cavity. A flow of a liquid component of biomaterial diffuses through the orifice and is introduced into a particulate component of biomaterial. As such, the liquid component of biomaterial hydrates the particulate component of biomaterial.

The present disclosure deals with a gas cleaning system (1) for cleaning process flue gas. The gas cleaning system (1) comprises a reactor inlet duct (13) having a longitudinal axis and a reactor duct (14) fluidly connected perpendicularly to the reactor inlet duct and positioned downstream from the reactor inlet duct. The reactor duct likewise has a longitudinal axis. Within the reactor duct is a gas cleaning device (20), such as a catalytic reactor, and a gas flow rectifier (30) for rectifying flue gas flow from the reactor inlet duct (13) into the reactor duct (14). The gas flow rectifier is arranged in the reactor duct upstream of the gas cleaning device (20), wherein the gas flow rectifier (30) comprises at least one expanded screen (30a).

A bubble atomizer includes a cartridge having an open end, a liquid absorbing member provided inside the cartridge, a firing chamber covering the open end and formed with liquid outlets and liquid inlets through which liquid enters the firing chamber from the cartridge, and heaters mounted inside the firing chamber. The heaters are connected with a power electronics unit through a cable. Each heater has a thickness in micron to sub-micron scale. When a pulse signal generated is applied to the heaters, current generated heats up the heaters and vapor bubbles are formed on the heaters that generate pressure and push the liquid out of the firing chamber through the liquid outlets to thereby form droplets.

The present disclosure relates to a dissolved air flotation system using ambient air, and more particularly, to a dissolved air flotation system that is capable of allowing ambient air to be introduced in front of a pump to generate micro air bubbles with the water discharged from the pump, so that the ambient air may be used instead of compressed air.

A bubble atomizer includes a cartridge having an open end, a liquid absorbing member provided inside the cartridge, a firing chamber covering the open end and formed with liquid outlets and liquid inlets through which liquid enters the firing chamber from the cartridge, and heaters mounted inside the firing chamber. The heaters are connected with a power electronics unit through a cable. Each heater has a thickness in micron to sub-micron scale. When a pulse signal generated is applied to the heaters, current generated heats up the heaters and vapor bubbles are formed on the heaters that generate pressure and push the liquid out of the firing chamber through the liquid outlets to thereby form droplets.

A cosmetic container having a storage container for housing a liquid- or gel-form basic cosmetic and a granulated cosmetic having a different function from the basic cosmetic, an airless pump on top of the storage container for discharging the mixed cosmetics from the storage container, and pulverization apparatus including a pulverizing member, a first pulverizing mesh and a second, finely pulverizing mesh positioned in a plurality of stages in a discharge pathway within the airless pump to cause the granulated cosmetic in the mixed cosmetics to be finely pulverized in a plurality of stages, with multistage smashing and fine pulverization of the granulated cosmetic in the pump such that discharge of the cosmetic is thereby performed smoothly when the cosmetic is used.

A mixing chamber for two fluid constituents is disclosed which provides improved mixing before the mixture is pushed through a mesh insert for the production of foam. Foam production using air and liquid is the basis of the exemplary embodiment though the disclosed mixing chamber could be used for any two fluid constituents. A single stream of air is diffused into a plurality of smaller streams of air. The single stream of liquid is directed into an annular sleeve resulting in a thinner wall of liquid flow as compared to the entering liquid stream. This annular sleeve of a thinner wall of liquid flow surrounds the plurality of smaller streams of air. In a second embodiment, there are individual streams of liquid which are directed inwardly toward the individual streams of air. The mixing chamber construction is disclosed herein can be used for any two fluid constituents which would benefit for more thorough mixing.