The cyclone separation device has a case (1), a space partition plate (7), and a cylindrical member (11). The case (1) is formed into a cylindrical shape and has a first intake port (4), an outflow port (6), and a second intake port (5). The first intake port (4) has a circumferential opening (2) circumferentially formed in a side surface on a side of the one end of the case (1), and a fixed blade (3) arranged along the circumferential opening (2). The outflow port (6) is disposed on a surface on the side of the one end and discharges the swirling airflow fed through the first intake port (4). The second intake port (5) is disposed on a side surface on a side of the other end opposite to the one end. The second intake port (5) is located at the lowermost part of the case (1) when the central axis of the case (1) is kept in a horizontal position. The space partition plate (7) partitions an interior of the case (1) into a first swirl chamber (8) on the inner-circumference side and a second swirl chamber (9) on the outer-circumference side. The space partition plate (7) has a through-hole (10) that provides communication between the first swirl chamber (8) and the second swirl chamber (9). The cylindrical member (11) is disposed in the first swirl chamber (8) on the side of the other end of the case such that a central axis of the cylindrical member agrees with the central (20) axis of the case (1). The cylindrical member (11) is disposed such that an end face of the cylindrical member (11) on the side of the outflow port (6) is located within the range of the through-hole (10)) in the direction of the central axis.

A mixed fluid collection apparatus includes a collection vessel configured to contain a fluid comprising a first component and a second component. The collection vessel includes an outer shell within which the fluid is contained. An emitter is coupled to an outside of the outer shell at a first position, and is configured to emit an acoustic signal into the outer shell. A receiver is coupled to the outside of the outer shell at a second position, with the receiver being configured to detect the acoustic signal emitted by the emitter. A controller is coupled to the emitter and the receiver. The controller is configured to determine a time between when the acoustic signal is emitted and when the acoustic signal is detected, and the controller is configured to determine a level of the second component in the collection vessel based on the time.

A centrifugal separator separates a mixture of fluid and particulate matter in a cylindrical tank. The mixture enters the tank tangentially through one passage. The mixture is swirled within the tank through the use of angled blades to guide flow rotation, increasing centrifugal force on the mixture. Separated fluid flows into a discharge pipe and out of the tank. The flow of fluid into the discharge pipe may be provided by an opening along the length of the pipe, the fluid may enter and exit the tank at opposing ends, and the angled blades may be circumferentially offset from adjacent blades.

A separation device (1) for separating particles from a fluid flow, comprising a centrifugal separator (2), wherein the centrifugal separator (2) comprises a separation chamber (3), a fluid inlet (5), at least two dip tubes (7, 7) and at least one particle discharge opening (9, 9) and the separation chamber (3) is substantially formed as a rotational body. The rotational body has a casing (13) and two end faces (15, 15), the fluid inlet (5) opening into the separation chamber (3) tangentially to the surface of the casing (13) and one dip tube (7) being situated in one of the end faces (15) and the other dip tube (7) being situated in the other end face (15).

A mixed fluid collection apparatus includes a collection vessel configured to contain a fluid comprising a first component and a second component. The collection vessel includes an outer shell within which the fluid is contained. An emitter is coupled to an outside of the outer shell at a first position, and is configured to emit an acoustic signal into the outer shell. A receiver is coupled to the outside of the outer shell at a second position, with the receiver being configured to detect the acoustic signal emitted by the emitter. A controller is coupled to the emitter and the receiver. The controller is configured to determine a time between when the acoustic signal is emitted and when the acoustic signal is detected, and the controller is configured to determine a level of the second component in the collection vessel based on the time.

A mixed fluid collection apparatus includes a collection vessel configured to contain a fluid comprising a first component and a second component. The collection vessel includes an outer shell within which the fluid is contained. An emitter is coupled to an outside of the outer shell at a first position, and is configured to emit an acoustic signal into the outer shell. A receiver is coupled to the outside of the outer shell at a second position, with the receiver being configured to detect the acoustic signal emitted by the emitter. A controller is coupled to the emitter and the receiver. The controller is configured to determine a time between when the acoustic signal is emitted and when the acoustic signal is detected, and the controller is configured to determine a level of the second component in the collection vessel based on the time.

Provided is a centrifuge media separator for separating blast particulate from fine particulate carried by air flowing from a blast cabinet and through the media separator. The centrifuge media separator comprises an upper panel, a lower panel, and an outer wall. The upper panel has a central opening formed therein. The outer wall is configured in a truncated logarithmic shape and which extends between the upper and lower panels. The outer wall has at least one particulate escape aperture formed therein. The upper panel, lower panel and outer wall collectively define a curvilinear air passageway having an inlet and an outlet. An air foil extends from the outer wall in to the air passageway. The distance than the air foil extends in to the air passageway is adjustable. The inlet is configured to allow a flow of air to enter the air passageway and circulate therethrough toward the outlet. The escape aperture is configured to exhaust the blast particulate out of the passageway. The central opening is configured to exhaust the fine particulate out of the passageway.

Provided is a centrifuge media separator for separating blast particulate from fine particulate carried by air flowing from a blast cabinet and through the media separator. The centrifuge media separator comprises an upper panel, a lower panel, and an outer wall. The upper panel has a central opening formed therein. The outer wall is configured in a truncated logarithmic shape and which extends between the upper and lower panels. The outer wall has at least one particulate escape aperture formed therein. The upper panel, lower panel and outer wall collectively define a curvilinear air passageway having an inlet and an outlet. An air foil extends from the outer wall in to the air passageway. The distance than the air foil extends in to the air passageway is adjustable. The inlet is configured to allow a flow of air to enter the air passageway and circulate therethrough toward the outlet. The escape aperture is configured to exhaust the blast particulate out of the passageway. The central opening is configured to exhaust the fine particulate out of the passageway.

Apparatus for use in, or forming part of, a separation process to be implemented in separation processor technology, the apparatus comprising synthetic bubbles or beads configured with a polymer or polymer-based material functionalized to attach to a valuable material in a mixture so as to form an enriched synthetic bubbles or beads having the valuable material attached thereto, and also configured to be separated from the mixture based at least partly on a difference in a physical property between the enriched synthetic bubbles or beads having the valuable material attached thereto and the mixture.

Apparatus for use in, or forming part of, a separation process to be implemented in separation processor technology, the apparatus comprising synthetic bubbles or beads configured with a polymer or polymer-based material functionalized to attach to a valuable material in a mixture so as to form an enriched synthetic bubbles or beads having the valuable material attached thereto, and also configured to be separated from the mixture based at least partly on a difference in a physical property between the enriched synthetic bubbles or beads having the valuable material attached thereto and the mixture.