An oil separator includes a cylindrical housing that accommodates a rotor and is provided with a gas discharge portion (first exhaust portion), the oil separator being configured to introduce target gas from a rotation center side of the rotor to condense oil mist and emit condensed oil from an outer peripheral edge of the rotor and further being configured to discharge from the housing through the gas discharge portion the blow-by gas (target gas) after having the oil mist separated. The oil separator includes a dome portion (sectioning member) that covers from an outside of the housing the gas discharge portion and sections a closed space around the gas discharge portion and an outlet pipe (second exhaust portion) that is provided to the dome portion and that discharges the blow-by gas from the closed space that is sectioned by the dome portion.

A separator system includes a base unit and an exchangeable separation insert. The base unit includes a drive arrangement. The exchangeable separation insert includes a rotor casing configured to rotate about a rotational axis and a first stationary portion. The drive arrangement includes an entrainment member through which a portion of the exchangeable separation insert including the first stationary portion extends. The entrainment member engages with the rotor casing. The entrainment member has an axial extension <50%, such as <40% of a total axial extension of the rotor casing. The rotor casing is supported in the entrainment member over a distance <30%, such as <20%, such as <10% of the total axial extension of the rotor casing.

A separator system includes a base unit and an exchangeable separation insert. The base unit includes a drive arrangement. The exchangeable separation insert includes a rotor casing configured to rotate about a rotational axis and a first stationary portion. The drive arrangement includes an entrainment member through which a portion of the exchangeable separation insert including the first stationary portion extends. The entrainment member engages with the rotor casing. The entrainment member has an axial extension <50%, such as <40% of a total axial extension of the rotor casing. The rotor casing is supported in the entrainment member over a distance <30%, such as <20%, such as <10% of the total axial extension of the rotor casing.

A centrifuge separator device for use in mining gold ore receives bulk quantities of gold bearing materials through a port in a central vertical pipe, diverting the materials through a series of rotating baffles into a multi-tiered bowl, with a variable speed bowl drive system turning the bowl and the baffles at a selected speed while framework, including a channeled bin, gussets and a plurality of blades extending a plurality of upper and lower cutters, remains stationary, forcing the materials to separate by density, forcing the lighter materials up and over the rotating bowl into a channeled bin for further disposal through an exit port in the channeled bin, leaving the heavier gold bearing ores in the lower part of the bowl for collection and further classification.

A centrifuge separator device for use in mining gold ore receives bulk quantities of gold bearing materials through a port in a central vertical pipe, diverting the materials through a series of rotating baffles into a multi-tiered bowl, with a variable speed bowl drive system turning the bowl and the baffles at a selected speed while framework, including a channeled bin, gussets and a plurality of blades extending a plurality of upper and lower cutters, remains stationary, forcing the materials to separate by density, forcing the lighter materials up and over the rotating bowl into a channeled bin for further disposal through an exit port in the channeled bin, leaving the heavier gold bearing ores in the lower part of the bowl for collection and further classification.

A rotor separates oil mist from a target gas. This rotor includes a separation disk group having separation disks including a plurality of truncated cone shape plate members layered. The separation disk group includes a first space (hollow part with attachment opening) and a second space (gaps between separation disks), the first space formed on a rotation center side of the rotor and the second space formed between separation disks that are laid over and in communication with the first space. The first space contains an oil introducing portion (gap between the upper end of the spindle and the upper side sealing member). Target gas is introduced into the first space, target gas and oil introduced from the oil introducing portion are made to flow from the first space to the second space to be discharged outward from an outer peripheral edge of the separation disk group, while rotating the rotor.

A rotor separates oil mist from a target gas. This rotor includes a separation disk group having separation disks including a plurality of truncated cone shape plate members layered. The separation disk group includes a first space (hollow part with attachment opening) and a second space (gaps between separation disks), the first space formed on a rotation center side of the rotor and the second space formed between separation disks that are laid over and in communication with the first space. The first space contains an oil introducing portion (gap between the upper end of the spindle and the upper side sealing member). Target gas is introduced into the first space, target gas and oil introduced from the oil introducing portion are made to flow from the first space to the second space to be discharged outward from an outer peripheral edge of the separation disk group, while rotating the rotor.

A method for manufacturing a separation disc, starting from a metal sheet blank with a top side and a bottom side, applying on said metal sheet blank extra metal material in positions on its top side, by means of welding, placing the metal sheet blank on a mandrel including a truncated conical support surface with recesses corresponding to spacing members on the completed separation disc, with the bottom side facing said truncated conical support surface, aligning the metal sheet blank so that the positions of the extra metal material after the pressing will correspond to the recesses, flow forming the metal sheet blank by means of a roller and the mandrel, the roller forming the separation disc over the mandrel completing a separation disc with spacing members on said bottom side. A separation disc for a centrifugal separator is made of a metal material and adapted to be compressed in a stack of separation discs inside a centrifugal rotor for separating a liquid or liquid/solid mixture. The separation disc has a truncated conical shape with an outer surface and an inner surface and a plurality of spacing members extending a certain height above the inner surface for providing interspaces between mutually adjacent separation discs in said stack. The thickness of the separation disc and the height of the spacing members have a ratio of at least 1 to 1.

A method for manufacturing a separation disc, starting from a metal sheet blank with a top side and a bottom side, applying on said metal sheet blank extra metal material in positions on its top side, by means of welding, placing the metal sheet blank on a mandrel including a truncated conical support surface with recesses corresponding to spacing members on the completed separation disc, with the bottom side facing said truncated conical support surface, aligning the metal sheet blank so that the positions of the extra metal material after the pressing will correspond to the recesses, flow forming the metal sheet blank by means of a roller and the mandrel, the roller forming the separation disc over the mandrel completing a separation disc with spacing members on said bottom side. A separation disc for a centrifugal separator is made of a metal material and adapted to be compressed in a stack of separation discs inside a centrifugal rotor for separating a liquid or liquid/solid mixture. The separation disc has a truncated conical shape with an outer surface and an inner surface and a plurality of spacing members extending a certain height above the inner surface for providing interspaces between mutually adjacent separation discs in said stack. The thickness of the separation disc and the height of the spacing members have a ratio of at least 1 to 1.

A centrifugal separator includes a housing, a spindle, and a rotor. The spindle is only journaled in a bearing arrangement fixedly positioned in the housing at the first axial end portion. The centrifugal separator includes a seal arranged between the spindle and the housing. The seal is arranged at a distance from the bearing arrangement where the spindle is subjected to deflection. The seal includes a cylindrical inner surface associated with the housing, a circular slot in the spindle or in a rotating member associated with the spindle, and a piston ring arranged in the slot and abutting against the cylindrical inner surface.