Flexible manifold for reciprocating pump

We claim: 1. A pump comprising: a bore pump fluid end having a reciprocating element bore; a hollow, cylindrical reciprocating element having a front end opposite a fluid intake end; 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 element; a power end having a push rod connected to the reciprocating element adapter via a reciprocating element clamp, the power end operable to reciprocate the reciprocating element in the reciprocating element 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 pushrod of the power end, whereby a central axis of the reciprocating element is parallel to or coincident with a central axis of the pushrod, and wherein the reciprocating element clamp has a first contact surface perpendicular to a central axis of the reciprocating element clamp in contact with the reciprocating element clamp end of the reciprocating element adaptor and a second contact surface tapered relative to the central axis of the reciprocating element clamp in contact with the reciprocating element clamp end of the pushrod; 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 adapter, whereby the reciprocating element end of the movable manifold moves in a same axial direction as the reciprocating element during reciprocation of the reciprocating element in alternating directions along a path within the reciprocating element 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. 2. The pump of claim 1 , wherein the pump fluid end is a concentric bore pump fluid end and the movable manifold comprises a flexible hose. 3. The pump of claim 2 , wherein the hose comprises: a first end and a second end separated by a length (L) along a centerline of the hose, wherein the first end reciprocates with when the reciprocating element of the pump during operation of the pump; an inner surface and an outer surface separated by a thickness; and a variable bend radius wherein a bend radius of a first section of the hose is different from a bend radius of at least one second section of the hose, such that, during operation of the pump, a stress on the first end of the hose, the second end of the hose, or both the first end of the hose and the second end of the hose is reduced relative to that of a hose that does not contain the variable bend radius. 4. The pump of claim 3 , wherein the hose is preformed such that, at rest, the hose assumes a configuration in which the hose comprises the variable bend radius wherein the bend radius of the first section of the hose is different from the bend radius of the at least one second section of the hose. 5. The pump of claim 4 , wherein the configuration comprises a mid-stroke configuration the hose takes during operation of the reciprocating pump when the reciprocating element of the pump is at a midpoint of a stroke of the pump power end of the pump, such that the hose is in a substantially unstressed position each time the pump is at the midpoint of the stroke, wherein the midpoint of the stroke is halfway between a fully extended position and a fully retracted position of the reciprocating element. 6. The pump of claim 5 , wherein, in the mid-stroke configuration: the first section has a bend radius in a range of from ¼ to four times a stroke length of the reciprocating pump, wherein the stroke length is a distance traveled by the reciprocating element of the pump from top dead center (TDC) to bottom dead center (BDC); and/or each at least one second section has a radius of curvature that transitions along a length thereof from the bend radius of the first section in the mid-stroke configuration to an infinite bend radius. 7. A pump comprising: a bore pump fluid end having a reciprocating element bore; a hollow, cylindrical reciprocating element having a front end opposite a fluid intake end; a hollow reciprocating element adapter comprising a first end having a fluid inlet opposite a second end having a fluid outlet, wherein the second end of the reciprocating element adapter is connected to and in fluid communication with the fluid intake end of the reciprocating element; a pump power end having a push rod connected to the first end of the reciprocating element adapter, the pump power end operable to reciprocate the reciprocating element in the reciprocating element bore of the pump fluid end, wherein the pump fluid end and the pump power end are separated by a minimum spacing distance; a packing assembly comprising a packing screw, a packing carrier, and a packing, wherein the packing screw, the packing carrier, and the packing are each cylindrical and have a width measured along a central axis thereof that is less than the minimum spacing distance, wherein the central axis thereof is coaxial with a central axis of the pump fluid end, wherein a front side of the packing carrier distal the pump power end is in contact with a back side of the packing proximate the pump power end, wherein at least a portion of a front side of the packing screw distal the pump power end is in contact with a back side of the packing carrier proximate the pump power end, and the packing screw is coupled with an inside surface of the reciprocating element bore of the pump fluid end, whereby the packing screw retains the packing carrier and the packing within the reciprocating element bore during operation of the pump; 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 adapter, whereby the reciprocating element end of the movable manifold moves in a same axial direction as the reciprocating element during reciprocation of the reciprocating element in alternating directions along a path within the reciprocating element 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, wherein the minimum spacing distance is an axial distance measured along the central axis between a back of the pump fluid end and a front end of the reciprocating element adapter when a crankshaft is at top dead center (TDC), and wherein the back of the pump fluid end is axially proximal the pump power end. 8. The pump of claim 7 , wherein the push rod is connected to the reciprocating element adapter via a reciprocating element clamp and wherein the reciprocating element clamp couples a reciprocating element clamp end of the reciprocating element adapter with a reciprocating element clamp end of the pushrod of the pump power end, whereby a central axis of the reciprocating element is parallel to or coincident with a central axis of the pushrod. 9. The