Fracturing pump arrangement using a plunger with an internal fluid passage

The invention claimed is: 1. An apparatus comprising: a fluid end body having a borehole formed therein, the borehole extending along a longitudinal axis of the fluid end body; in which the fluid end body is configured to be attached to a power end having a rotatable crankshaft mechanically coupled to a pony rod installed therein; a plunger installed within the borehole and having front and rear ends joined by an internal fluid passage; in which the plunger is configured to reciprocate within the borehole along the longitudinal axis of the fluid end body; an inlet component attached to the rear end of the plunger; a first clamp attached to a portion of the inlet component and configured to attach the inlet component to the pony rod; an inlet conduit in fluid communication with the internal fluid passage of the plunger, the inlet conduit comprising: a fluid intake end joined to a reciprocating end; in which the fluid intake end is configured to be attached to a stationary inlet manifold; a removable discharge manifold attached to the fluid end body by a second clamp; a connect plate fastened to the fluid end body; and a sleeve situated at least partially within the connect plate and at least partially within the housing, the sleeve configured to house a plunger packing; in which the reciprocating end of the inlet conduit is attached to the inlet component and is configured to move with the inlet component and the plunger as the plunger reciprocates within the borehole. 2. A pump comprising: the apparatus of claim 1 ; and a power end that is the power end of claim 1 ; in which the first clamp is attached to the pony rod. 3. The apparatus of claim 1 , in which the inlet component has opposed top and bottom surfaces and opposed front and rear surfaces; in which an internal fluid passage formed in the inlet component opens on the top surface and the front surface of the inlet component; and in which the first clamp is attached to the rear surface, the reciprocating end of the inlet conduit is attached to the top surface, and the front surface is attached to the rear surface of the plunger. 4. The apparatus of claim 1 , further comprising: a retainer attached to the fluid end body and configured to hold the sleeve within the borehole. 5. The apparatus of claim 4 , in which the retainer is attached to the fluid end body using a plurality of fasteners. 6. The apparatus of claim 1 , further comprising: a valve assembly, at least a portion of the valve assembly positioned within the internal fluid passage. 7. The apparatus of claim 1 , in which the removable discharge manifold comprises: a discharge conduit; and a flow passage; in which the flow passage is in fluid communication with the borehole. 8. The apparatus of claim 7 , in which the sleeve defines a body having a central passage and a valve seat formed therein. 9. The apparatus of claim 7 , in which the removable discharge manifold further comprises a plug valve installed within the flow passage, the plug valve configured to regulate the flow of a fluid through the discharge manifold. 10. The apparatus of claim 1 , in which the connect plate is connected to the power end via a plurality of stay rods and the connect plate is connected to the fluid end body via a fastening system. 11. The apparatus of claim 1 , further comprising a retainer installed at least partially within the connect plate, the retainer configured to contain the sleeve within the connect plate. 12. The apparatus of claim 11 , in which the retainer is secured to the connect plate by a plurality of screws. 13. The apparatus of claim 1 , further comprising an outlet valve and a perforated valve cage, wherein both the outlet valve and valve cage are situated within the borehole of the fluid end body, wherein the valve cage is configured to prevent the outlet valve from exiting the borehole, and wherein a pressurized fluid is configured to be routed past the outlet valve and the valve cage to reach the flow passage of the discharge manifold. 14. The apparatus of claim 13 , in which the valve cage is situated intermediate the outlet valve and the discharge manifold. 15. A pump, comprising: a bore pump fluid end having a reciprocating plunger bore; a hollow, cylindrical reciprocating plunger having a front end opposite a fluid intake end; a connect plate attached to the bore pump fluid end and surrounding at least a portion of the reciprocating plunger; a sleeve situated at least partially within the connect plate and at least partially within the bore pump fluid end, the sleeve configured to retain a plunger packing and surround at least a portion of the reciprocating plunger; a hollow, reciprocating element adapter comprising a reciprocating element clamp end having a fluid inlet opposite a reciprocating element end having a fluid outlet, wherein the reciprocating element end of the reciprocating element adapter is connected to and in fluid communication with the fluid intake end of the reciprocating plunger; a power end having a pony rod connected to the reciprocating element adapter via a reciprocating element clamp, the power end operable to reciprocate the reciprocating plunger in the reciprocating plunger bore of the bore pump fluid end; wherein the reciprocating element clamp couples the reciprocating element clamp end of the reciprocating element adapter with a reciprocating element clamp end of the pony rod of the power end, whereby a central axis of the reciprocating plunger is parallel to or coincident with a central axis of the pony rod; and wherein the reciprocating element clamp has a first contact surface in contact with the reciprocating element clamp end of the reciprocating element adaptor, and a second contact surface in contact with the reciprocating element clamp end of the pony rod; a removable manifold attached to the bore pump fluid end by a second clamp; and a movable manifold comprising a reciprocating element end and a fluid intake end, wherein the reciprocating element end of the movable manifold is connected to and in fluid communication with the fluid inlet of the reciprocating element adaptor, whereby the reciprocating element end of the movable manifold moves in a same axial direction as the reciprocating plunger during reciprocation of the reciprocating plunger in alternating directions along a path within the reciprocating plunger bore of the bore pump fluid end, and wherein the fluid intake end of the movable manifold is configured for connection to and fluid communication with a stationary fluid manifold such that fluid can be introduced into the movable manifold via the stationary fluid manifold and the fluid intake end of the movable manifold. 16. The pump of claim 15 , wherein the pump fluid end is a concentric bore pump fluid end and the movable manifold comprises a flexible hose. 17. An apparatus comprising: a fluid end body having a bore formed therein, the bore extending along a longitudinal axis of the fluid end body; in which the fluid end body is configured to be attached to a power end having a rotatable crankshaft installed therein; a plunger installed within the bore and having front and rear ends joined by an internal fluid passage; in which the plunger is configured to reciprocate within the bore along the longitudinal axis of the fluid end body; a tubular sleeve installed within the bore and surrounding at least a portion of the plunger; at least one packing seal installed within the tubular sleeve and engaging an outer surface of the plunger; in which the plunger is movab