Hydrocyclone reject chamber

The invention claimed is: 1. A hydrocyclone for separating a fiber suspension into a heavy fraction substantially containing heavy contaminants and a light fiber fraction substantially containing fibers, the hydrocyclone comprising a housing with a circumferential wall that defines an elongated separation chamber with two opposite ends and with a center axis extending between the opposite ends, an inlet member for supplying the fiber suspension substantially tangentially into the separation chamber at one end thereof, so that the fiber suspension flows in a vortex in the separation chamber, a first outlet member for discharging an accept fraction from the separation chamber at said one end, a reject chamber for discharging the heavy fraction from the separation chamber at the other end thereof, the reject chamber having an internal cavity, a reject inlet portion having a reject inlet into the internal cavity, and a reject outlet portion having a wall and a reject outlet out of the internal cavity, a longitudinal axis of the reject outlet portion being angled relative to a longitudinal axis of the reject inlet portion, a stem that extends into the internal cavity from the reject outlet portion along the longitudinal axis of the reject inlet portion where the reject inlet meets the reject outlet, and at least two bumps in the reject outlet portion wall, each of which extend into the internal cavity from the reject outlet portion and on opposite sides of the stem, the reject chamber taken along a cross section through the stem and between the bumps having symmetrical sides. 2. A reject chamber for use with a hydrocyclone for separating a fiber suspension into a heavy fraction substantially containing heavy contaminants and a light fiber fraction substantially containing fibers, the hydrocyclone comprising a housing with a circumferential wall that defines an elongated separation chamber with two opposite ends and with a center axis extending between the opposite ends, an inlet member for supplying the fiber suspension substantially tangentially into the separation chamber at one end thereof, so that the fiber suspension flows in a vortex in the separation chamber, and a first outlet member for discharging an accept fraction from the separation chamber at the one end, the reject chamber being adapted to be connected at the other end thereof for discharging the heavy fraction from the separation chamber, the reject chamber having an internal cavity, a reject inlet portion having a reject inlet into the internal cavity, and a reject outlet portion having a wall and a reject outlet out of the internal cavity, a longitudinal axis of the reject outlet portion being angled relative to a longitudinal axis of the reject inlet portion, and at least two bumps in the reject outlet portion wall, each of which extend into the internal cavity from the reject outlet portion, the reject chamber taken along a cross section between the bumps having symmetrical sides. 3. The reject chamber according to claim 1 wherein the stem is between 5 mm to 20 mm in length, but extends no more than 7 mm above the bumps, an overall length of the reject chamber is between 60 mm and 100 mm, a diameter of the reject inlet 68 is between 30 mm and 100 mm, and wherein the bumps are between 1 mm and 10 mm high, and an opening into the reject outlet portion is between 30 mm and 80 mm in diameter. 4. A reject chamber for use with a hydrocyclone for separating a fiber suspension into a heavy fraction substantially containing heavy contaminants and a light fiber fraction substantially containing fibers, the hydrocyclone comprising a housing with a circumferential wall that defines an elongated separation chamber with two opposite ends and with a center axis extending between the opposite ends, an inlet member for supplying the fiber suspension substantially tangentially into the separation chamber at one end thereof, so that the fiber suspension flows in a vortex in the separation chamber, and a first outlet member for discharging an accept fraction from the separation chamber at the one end, the reject chamber being adapted to be connected at the other end thereof for discharging the heavy fraction from the separation chamber, the reject chamber having an internal cavity, a reject inlet portion having a reject inlet into the internal cavity, and a reject outlet portion having a wall and a reject outlet out of the internal cavity, a longitudinal axis of the reject outlet portion being angled relative to a longitudinal axis of the reject inlet portion, a stem that extends into the internal cavity from the reject outlet portion along the longitudinal axis of the reject inlet portion, and at least two bumps in the reject outlet portion wall, each of which extend into the internal cavity from the reject outlet portion and on opposite sides of the stem, the reject chamber taken along a cross section through the stem and between the bumps having symmetrical sides. 5. The reject chamber according to claim 4 wherein the stem is between 5 mm to 20 mm in length, but extends no more than 7 mm above the bumps, the overall length of the reject chamber is between 60 mm and 100 mm, the diameter of the reject inlet 68 is between 30 mm and 100 mm, the bumps are between 1 mm and 10 mm high, and an opening into reject outlet portion is between 30 mm and 80 mm in diameter.