A container (100) within which a food product is to be processed. The container (100) includes: a hollow body (101) providing an interior chamber (110) to receive the product and within which the product is processed, the body (101) having a rim portion (104) surrounding a body top opening (106); a removable lid (107) sealingly associated with the rim portion (104) to close the top opening (106), the lid (107) having: a base (111) sealingly associated with the rim portion (104), the base (111) having a base opening (115) providing access to the chamber (110) and a sealing surface (157) surrounding the base opening (115), a removable valve assembly (112) located in the base opening (115) and sealingly associated with the base (111) to close the base opening (115), the valve assembly (112) including: a main part (122) associated with the base (111) to removably secure the valve assembly (112) in the base opening (115), a seal (123) mounted on the main part (122) and engaging the sealing surface (157), an air opening (131) in the main part (122) providing for air flow from the chamber (110) to exterior of the container (100), a valve (132) operatively associated with the air opening (131) to close the air opening (131) to at least inhibit air flow from exterior of the container (100) to said chamber (110) but permit air flow from the chamber (110) to the exterior, and wherein a cavity (156) is provided between the base (111) and main part (122), leading to said seal (123), with the cavity (156) including a first cavity portion (151) and a second cavity portion (153), with the first cavity portion (151) being configured relative to the second cavity portion (153) to at least partly dissipate kinetic energy of liquid being propelled from the interior (110) into the cavity (156).

Chemical reactor with high speed rotary mixing, system thereof, and method thereof, for catalytic thermal conversion of organic (hydrocarbon-containing) materials (coal, plastics, rubber, plant matter, wood shavings, biomass, organic wastes) into diesel and other liquid fuels (automobile or/and jet engine fuels). Relevant to non-conventional commercial scale production of liquid fuels, and to commercial scale processing and disposing of organic waste materials. Chemical reactor includes: integrated combination of a reactor stationary assembly (RSA), having only stationary components remaining stationary during chemical reactor operation, and a reactor rotary mixing assembly (RRMA), having only rotatable components rotating during chemical reactor operation. May include anti-abrasion shield for shielding inner surface of reactor central housing from abrasion during chemical reactor operation. Rotor may include a reinforcement disc. Rotor blades or/and reinforcement disc may include rotor-based performance and process control structural features (openings, or/and protrusions, or/and depressions), for additionally controlling performance of the rotor.

A slurry mixer for a battery electrodecapable of maximally simplifying a configuration of a high-speed stirring body to minimize a rotational load, such that a stirring time of the slurry may be greatly reduced and productivity may be increased, preventing a powdery material from being accumulated on an upper side face and an upper surface of a low-speed stirring body, preventing a deterioration in a performance, failure and a reduction in a life span of a high-speed stirring shaft and bearing, and uniformly stirring mixed materials located at inner corners and a bottom of a container, thereby further increasing stirring efficiency.

A mixing machine includes a mixing head and at least one connection means for connecting a mixing container containing material to be mixed to said mixing head for forming a closed mixing container. The mixing head, as part of a pivotable assembly, is pivotably mounted with respect to a frame such that the closed mixing container formed from the mixing head and the mixing container can be pivoted relative to the frame for performing the mixing process. The mixing head carries at least one rotationally-driven mixing tool. The mixing head comprises a head plate having a connecting flange molded thereon which is configured as an annular disc and comprises a planar contact surface. At least two ring seals of differing diameters are arranged in said contact surface of the connecting flange at a spacing between each other, such that mixing containers with different connection diameters of their mixing head side can be connected to said mixing head. The at least one connection means is configured for gripping mixing containers which differ in the diameter of their connection sides.

The objective of the present invention is to provide a storage container for a vacuum blender having a backflow prevention function, which is configured such that a floating valve member is installed at a lower part of a sealing lid for covering the storage container for the vacuum blender, and when micronized foodstuffs, such as foam, rise in the process of creating a vacuum in the storage container, the floating valve member rises together by means of buoyancy of the micronized foodstuffs to hermetically seal an air passage, thereby preventing the micronized foodstuffs from flowing back out of the storage container. In order to achieve the above objective, the storage container for a vacuum blender having a backflow prevention function, according to the present invention, is a storage container used in a vacuum blender capable of processing foodstuffs in a vacuum state, and comprises: a container body which has an open upper portion and is provided with an inner space for storing foodstuffs; a sealing lid which covers the upper portion of the container body and has a check valve for blocking air from flowing into the inner space from the outside of the container body in a vacuum state; and a backflow preventing means which is installed at a lower portion of the sealing lid and has a floating valve member embedded therein to prevent micronized foodstuffs from flowing back out of the sealing lid through the check valve in such a manner that when the micronized foodstuffs rise, the floating valve member rises together by means of buoyancy to hermetically seal an air passage.

In a method for continuously treating vacuum residuals originating from the refinery of crude oil, the the vacuum residuals are continuously fed into an agitated vessel,

A food mixer comprises a container, a rotational shaft, an agitation member, a main packing, a collar, and a sub packing. The rotational shaft penetrates a wall of the container and is rotatably supported by the container. The agitation member is configured to agitate a work product in the container by rotating together with the rotational shaft. The main packing is disposed between the container and the rotational shaft. The collar is held at an outer periphery of the rotational shaft by a fixing member so that a space is formed between the main packing and the collar. The collar allows the space to be opened toward the container when the collar moves away from the fixed position after the fixing state is removed. The sub packing is provided between an outer periphery of the collar and a boss portion.

Systems and methods for bearing housings are disclosed. A labyrinth seal bearing housing includes: a first seal element that is structured and arranged to be connected to a wall of a mixing vessel; a second seal element that is structured and arranged to be connected to a rotatable shaft; and a bearing support that is structured and arranged to be connected to the first seal element. The second seal element is configured to rotate relative to the first seal element and the bearing support. The first seal element and the second seal element are structured and arranged to create a tortuous flow path between an exterior and an interior of the mixing vessel.

A direct contact steam injection heater that allows shear to be adjusted by modifying a lateral position of a movable combining tube. The movable combining tube includes a rack on an outer surface of the combining tube that engages a movable lever arm of an adjustment mechanism. The pivoting movement of the lever arm moves the combining tube in a lateral direction to adjust the shear in the product being heated. The combining tube is supported in a housing by a pair of lateral bushing and a pair of end seals prevent product from entering the combining tube housing. The lever arm is coupled to a worm gear shaft such that rotation of the worm gear shaft creates pivoting movement of the lever arm and lateral movement of the combining tube.

Systems and methods for bearing housings are disclosed. A labyrinth seal bearing housing includes: a first seal element that is structured and arranged to be connected to a wall of a mixing vessel; a second seal element that is structured and arranged to be connected to a rotatable shaft; and a bearing support that is structured and arranged to be connected to the first seal element. The second seal element is configured to rotate relative to the first seal element and the bearing support. The first seal element and the second seal element are structured and arranged to create a tortuous flow path between an exterior and an interior of the mixing vessel.