A flask stand is configured to support a flask and includes a base ring and a plurality of legs. The base ring is configured to support a lower portion of the flask. Each leg is secured to the base ring and extends outward from the base ring. Each leg includes a body, a lattice, and an elastomeric foot. The body includes a first end portion that is secured to the base ring with the foot portion being opposite the first end portion. The lattice is formed within the foot portion and includes a plurality of members that form an open-mesh frame that defines a plurality of voids between adjacent members of the frame. The elastomeric foot is formed of an elastomer and is disposed about the lattice and within the voids of the lattice. The foot is configured to engage a surface to support the body relative to the surface.

A spraying system and method is provided for more efficiently accessing the interior of a container having an access opening to the container that is offset from or in angular relationship to the center and/or rotational axis of the container to contact the interior walls and surfaces of the container with a medium, such as a liquid, mixture, solution or suspension. The spraying system and method includes a non-linear boom that is elevated by a support structure, where the non-linear boom includes at its front end a plurality of spray nozzles. In one example, the support structure is a movable support structure that includes a guide mechanism where the guide mechanism is mounted on the moveable support structure at an angle relative to the surface supporting the moveable support structure to allow access to the interior of the container.

An apparatus and method of cleaning a food processor including providing a food processor base that includes a rotary power driver having a rotatable shaft. A bowl is mounted on the base. A food processing blade attached to the shaft within the bowl. A cleaning accessory is placed in the bowl above the food processing blade. A cleaning fluid is introduced into the bowl, and the food processing blade with the rotatable shaft agitate the cleaning fluid in conjunction with the cleaning accessory.

An apparatus configured for attaching to a conventional cooler and mixing the contents therein, the apparatus including a lid assembly integrated with a mixing assembly. The lid assembly includes a lid having both a hole and an opening to allow the addition of contents to the container and a cover that can be positioned over the opening and secured to the lid. The mixing assembly is integrated with the lid assembly through the hole and includes a centering guide positioned at the bottom of the container, a mixing paddle coupled to the top portion of the centering guide, and a handle operatively coupled to the mixing paddle through the hole. After contents are added to the container through the opening, the cover is positioned over the opening and securely coupled to the lid. The handle is operated to cause the mixing paddle to stir the contents of the container.

Disclosed herein is a process for manufacturing a material, in accordance with some embodiments. Accordingly, the material facilitates a reduction of pollutants from air. Further, the process may include heating natural zeolite to at least one hundred degree celsius for a predetermined duration of time. Further, the heating removes at least one impurity from the natural zeolite. Further, the process may include producing purified natural zeolite based on the heating. Further, the process may include grinding the purified natural zeolite into particles based on the producing. Further, the process may include incorporating the particles of the purified natural zeolite into a grind paste based on the grinding. Further, the incorporating produces the material.

A mixing device includes a container and an agitator. The container includes cavity, a spout, and a lid. The agitator is retained within the cavity of the container. The agitator includes a core having opposing first and second ends, a plurality of alternating slots and slats in the first end of the core, and a plurality of alternating slots and slats in the second end of the core. The agitator also includes a ring extending circumferentially about the core, a first plurality of braces extending between the slats at the first end of the core and the ring, and a second plurality of braces extending between the slats at the second end of the core and the ring.

The present disclosure relates to a method for preparing a coating material composition or a precursor thereof, the method including at least step (1), weighing out all required components into a suitable container by means of at least one metering valve when using a gravimetric metering system, the components that are weighed out into the container being mixed by means of at least one stirring body throughout step (1) and a continuous adaptation of the position of the at least one stirring body to the respective filling level within the container taking place throughout step (1), the respective filling level being predetermined by the amount and number of components that are weighed out into the container and the position of the at least one stirring body corresponding to the height of the stirring body within the container, calculated from the bottom of the container.

The invention discloses a testing device and method for evaluating effects of CO.sub.2 reaction rate of acid rock plate. The testing device includes an acid fluid conveying unit, a CO.sub.2 conveying unit, a mixing tank, a plate holder, a recycling fluid tank, and a vacuum pump. The mixing tank includes an acid fluid inlet, a CO.sub.2 inlet, and a miscible fluid outlet. The acid fluid inlet is connected with the acid fluid conveying unit, the CO.sub.2 inlet is connected with the CO.sub.2 conveying unit, the miscible fluid outlet is connected with the plate holder, the plate holder is connected with the recycling fluid tank, and the recycling fluid tank is connected to the vacuum pump. The CO.sub.2 conveying unit includes a CO.sub.2 cylinder and a gas booster pump which is connected to the cylinder. The outlet of the pump is connected to the gas inlet of the mixing tank.

Embodiments include systems and methods of in-line mixing of hydrocarbon liquids from a plurality of tanks into a single pipeline. According to an embodiment, a method of admixing hydrocarbon liquids from a plurality of tanks into a single pipeline to provide in-line mixing thereof includes determining a ratio of a second fluid flow to a first fluid flow based on signals received from a tank flow meter in fluid communication with the second fluid flow and a booster flow meter in fluid communication with a blended fluid flow. The blended fluid flow includes a blended flow of the first fluid flow and the second fluid flow. The method further includes comparing the determined ratio to a pre-selected set point ratio thereby to determine a modified flow of the second fluid flow to drive the ratio toward the pre-selected set point ratio. The method further includes controlling a variable speed drive connected to a pump thereby to control the second fluid flow through the pump based on the determined modified flow, the pump being in fluid communication with the second fluid flow.

A device for agitating non-homogenous combinations of liquids and solids, such as peanut butter, other nut butters, yogurt, salad dressings and mixed drinks. The device mixes products in their containers without insertion into the product, eliminating the mess associated with stirring. A receptacle has a cylindrical chamber configured for receiving a container of product and is pivotably mounted along a single axis that is disposed near a first end of the receptacle. A rotatable body has a first shaft inserted into an elongated channel in a second end of the receptacle. A second shaft is inserted into a bearing and has a second pivot axis spaced radially from the first pivot axis. A prime mover drives the rotatable shaft in rotation and reciprocates the receptacle about the single axis. The elongated channel is substantially parallel with the single axis and the first shaft has a first pivot axis.