Pumping systems with dedicated surge dampeners

What is claimed is: 1. A system for pumping a fluid, comprising: a first and a second pumping apparatus, wherein each of said first and second pumping apparatuses comprises: a body with a pumping chamber, an inlet and an outlet, a suction valve for selectively controlling flow of the fluid in through the inlet; and a discharge valve for selectively controlling flow of the fluid out through the outlet; a first dampener system positioned downstream of said outlet of said body of said first pumping apparatus and a second dampener system positioned downstream of said outlet of said body of said second pumping apparatus, said first dampener system being in dedicated fluid communication with said pumping chamber of said first pumping apparatus, said second dampener system being in dedicated fluid communication with said pumping chamber of said second pumping apparatus, wherein each of said first and said second dampener systems is dedicated to dampening fluid pulsations only from said pumping chambers of said first and second pumping apparatuses, respectively, each of said first and second dampener systems comprising: a housing having an interior surface; an expandable member positioned within said housing, the expandable member adapted to be expanded in response to fluid pressure in said dedicated pumping chamber; a piston/cylinder apparatus in fluid communication with said housing, wherein said piston/cylinder apparatus comprises a movable piston that is adapted to move in response to fluid flowing from said housing to said piston/cylinder apparatus; and a torsion apparatus operatively coupled to said moveable piston, said moveable piston adapted to cause movement of said torsion apparatus in response to fluid flowing from said housing to said piston/cylinder apparatus, wherein said torsion apparatus is adapted to be moved from a first static position to a second position to dampen pulsations in said fluid, wherein said torsion apparatus comprises: a central shaft connected to said housing; an arm comprising a ring, said arm adapted to be moved by movement of said moveable piston; a plurality of flexible elements disposed around said central shaft between said central shaft and said ring; and at least one mechanical stop between said flexible elements, said at least one mechanical stop being operatively coupled to said housing, wherein movement of said arm with respect to said central shaft causes deformation of said flexible elements. 2. The system of claim 1 , wherein said expandable member comprises a lobed outer surface with a plurality of spaced-apart lobes. 3. The system of claim 1 , wherein said expandable member is one of a liner or a bladder. 4. The system of claim 1 , wherein said interior surface of said housing comprises a plurality of spaced-apart recesses for channeling fluid flow around said expandable member. 5. The system of claim 1 , wherein said expandable member comprises a plurality of spaced-apart ridges each of which is adapted to engage a portion of said interior surface of said housing. 6. The system of claim 4 , wherein said expandable member comprises a plurality of spaced-apart ridges each of which is adapted to engage a portion of said interior surface of said housing. 7. A system for pumping a fluid, comprising: a first and a second pumping apparatus, wherein each of said first and second pumping apparatuses comprises: a body with a pumping chamber, an inlet and an outlet; a suction valve for selectively controlling flow of said fluid in through said inlet; and a discharge valve for selectively controlling flow of said fluid out through said outlet; a first dampener system positioned downstream of said outlet of said body of said first pumping apparatus and a second dampener system positioned downstream of said outlet of said body of said second pumping apparatus, said first dampener system being in dedicated fluid communication with said pumping chamber of said first pumping apparatus, said second dampener system being in dedicated fluid communication with said pumping chamber of said second pumping apparatus, wherein each of said first and said second dampener systems is dedicated to dampening fluid pulsations only from said pumping chambers of said first and second pumping apparatuses, respectively, each of said first and second dampener systems comprising: a housing having an interior surface, wherein said interior surface of said housing comprises a plurality of spaced-apart recesses; an expandable member positioned within said housing, said expandable member adapted to be expanded in response to fluid pressure in said dedicated pumping chamber, wherein said expandable member comprises a lobed outer surface with a plurality of spaced-apart lobes, wherein said plurality of spaced-apart recesses in said interior surface of said housing are for channeling fluid flow around said expandable member; a piston/cylinder apparatus in fluid communication with said housing, wherein said piston/cylinder apparatus comprises a movable piston that is adapted to move in response to fluid flowing from said housing to said piston/cylinder apparatus; and a torsion apparatus operatively coupled to said moveable piston, said moveable piston adapted to cause movement of said torsion apparatus in response to fluid flowing from said housing to said piston/cylinder apparatus, wherein said torsion apparatus is adapted to be moved from a first static position to a second position to dampen pulsations in said fluid, wherein said torsion apparatus comprises: a central shaft connected to said housing; an arm comprising a ring, said arm adapted to be moved by movement of said moveable piston; a plurality of flexible elements disposed around said central shaft between said central shaft and said ring; and at least one mechanical stop between said flexible elements, said at least one mechanical stop being operatively coupled to said housing, wherein movement of said arm with respect to said central shaft causes deformation of said flexible elements.