Mosquitoes are vectors for many dangerous diseases such as Malaria, Dengue, Yellow Fever, West Nile, and those from Zika virus etc. Mosquito transmitted diseases occur mostly in tropical, developing countries and create public health crises due to lack of adequate resources and rapid transmission. Malaria took 429,000 lives in 2015 and the impending Zika crisis shows the need for effective mosquito control. Nearly half of the world's population is at risk of malaria. Current mosquito control efforts focus on reducing the population of mosquitoes. The many mosquito control strategies such as using tarps to suffocate larvae, insecticides, genetic engineering, biocontrol using fish etc. have substantial drawbacks. These methods are environmentally hazardous, expensive, inefficient, hard to maintain, bulky, or energy intensive. Mosquitoes breed in stagnant water. They cannot breed in agitated water or running water. Thus, this patent describes water agitators that are environmentally safe, efficient, and cost-effective. In this patent, three water agitators prototypes are presented. They are self-sustaining, lightweight, mobile, and have minimal potential for misuse. The agitators consume solar energy. They are self propelling and do not require maintenance, such as changing parts. They are designed to be inexpensive, reusable, and mass-producible. These agitators can cover a much larger area of water compared to their size. They target small to large water areas. Agitators are versatile and can be used in flower vases, open rain jars, tire tracks, mining pits, small ponds etc.

There is provided apparatus (301) for mixing contents of a receptacle, the apparatus comprising a rotary shaft (302) equipped at a proximal end with a connection for removable attachment to a means of providing rotation. The rotary shaft has a mixing element (303) fixedly connected at a distal end of the shaft opposite to said proximal end. The mixing element comprises at least two arms (304) at the distal most end of the shaft, a corkscrew neck (306) on the shaft and a collar (305) on the shaft positioned in between the at least two arms and the corkscrew neck. The at least two arms are configured in a first partially-open resting position and are moveable to a second fully-open operative position. The mixing element further comprises a blade (307) positioned across the shaft more proximally than the corkscrew neck.

An adjustable additive cartridge that provides adjustable metering of additive to a base fluid as the base fluid is flowing through the cartridge. A spout is mounted for limited rotation within a base element of the cartridge. Rotation of the spout results in varying degrees of flow of additive into a base fluid flow path through the cartridge. The cartridge may be used with a portable beverage container, such as a sports bottle or off-the-shelf water bottle. The supply of base fluid in a container used with the cartridge may be kept in an unmixed, pure state, and other cartridges, each having different additives (i.e., flavors) may be used interchangeably with the same base fluid supply. The cartridge allows a consumer/user to experience different additives, such as different flavors or supplement compositions, for a given supply of base liquid in a single container. A check valve on the cartridge prevents backflow of the base fluid. An integrated filter for filtering base fluid flowing into the cartridge may be provided. The additive cartridge may be sealed to provide for extended storage and to provide a user/consumer with evidence of integrity, quality and/or tampering prior to purchase and/or use. Visual and tactile indicators of the amount of additive being added to a base fluid may be provided. A container may retain a spare additive adjustable cartridge on the container.

Methods, apparatus, devices and systems for mixing and dispensing multi-component materials. The mixing and dispensing may be performed using a mobile, enclosed dispenser that can be used to supply a mixed multi-component material at the point of use. In some embodiments, the components to be mixed into the multi-component material may be supplied in cartridges.

The invention relates to floating equipment, for injection of a gas into liquid effluents or waste water, and more particularly of a gas rich in oxygen into a basin from the surface. The floating equipment has the following elements: a driving device, intended to be disposed over the liquid, provided with a vertical output shaft (8), equipped at its end with a propeller (6) immersed in the liquid; a pre-mixing device (5) comprising an injection device (7) positioned above or below a mobile aerator (9) with inclined blades, the propeller being situated at the end of the shaft, under the pre-mixing reactor.

The invention provides a full-automatic erythrocyte sedimentation rate analyzer, which comprises a base as well as a blending device and a detecting device mounted on the base, wherein the blending device comprises a sample rack, a sample rack bracket and a rotating device; the sample rack bracket is arranged on the base, and is connected to the sample rack through a rotating shaft; more than one test tube rack is arranged on the sample rack; the rotating device is connected to the rotating shaft, and drives the rotating shaft to rotationally drive the sample rack to turn over up and down; a plurality of holes are arranged in each test tube rack; a fixing device is arranged in the hole, and used for placing and fixing a closed container containing samples; the detecting device comprises a guide device, a driving device, infrared transmitting and receiving devices having the same quantity as that of the test tube racks, and a mounting rack; the driving device drives the mounting rack to move up and down along the guide device; the mounting rack drives the infrared transmitting and receiving devices to move; the closed containers containing the samples are located on moving paths of the infrared transmitting and receiving devices; and infrared rays penetrate through the closed containers to realize detecting.

A self-deploying float assembly to support mechanical equipment such as aerators and mixers for use in water, wastewater and process water stream treatment basins and a method of installing same.

A matter displacement and mixing system having a mixing chamber for material to enter, and a vortex aperture that directs air into the mixing chamber at either a high velocity for violent shearing or lower velocity for gentle mixing. This would depend on the shape of the vortex aperture, or the pressure.

A bone filler mixing and delivery device includes a mixing section adapted to mix components to form bone filler. A syringe barrel is coupled to the mixing section and has an opening through which the bone filler can be dispensed. A controllable portal can be manipulated to open a flow path between the mixing section and the syringe barrel. A plunger assembly is adapted to extend telescopically in an axial direction through the syringe barrel to dispense the bone filler through the opening.

An auger for a vertical feed mixer with a lifting surface that is upwardly angle from an inner edge toward an outer edge. A fliting portion to form a part of an auger for a vertical feed mixer, the fliting portion including an outer edge that is positioned higher than a radially positioned inner edge. An auger for a vertical feed mixer that in rotation defines an hourglass shape.