High-pressure positive displacement plunger pump

The invention claimed is: 1. A pump for pumping a process fluid, the pump comprising: a housing defining an internal pressure chamber, the internal pressure chamber configured to contain a working fluid; an end cover spaced from a first end of the housing and at least partially defining a process fluid flowpath; a fluid cover connected to the first end of the housing; a spacer disposed between the fluid cover and the end cover, wherein the spacer has a cylindrical interior and is connected to the end cover; a reciprocating member disposed within the internal pressure chamber; a fluid displacement component having a first portion having a first surface and a second portion having a second surface, the first surface configured to contact the working fluid and the second surface configured to contact the process fluid in the process fluid flowpath, wherein the fluid displacement component is configured such that pressure exerted on the first surface by the working fluid moves the second surface in a first direction towards the process fluid to expel the process fluid downstream, and wherein an area of the first surface is greater than an area of the second surface; a pull extending between the reciprocating member and the fluid displacement component, the pull mechanically transferring a pulling force from the reciprocating member to the fluid displacement component to move the fluid displacement component in a second direction that is the opposite of the first direction, wherein the pull does not mechanically transfer a pushing force from the reciprocating member to the fluid displacement component when the reciprocating member moves in the first direction; and an outer chamber formed on a side of the first portion opposite the first surface and between the first portion and the fluid cover, wherein the first portion fluidly isolates the outer chamber from the internal pressure chamber, the second portion fluidly isolates the outer chamber from the process fluid flowpath, and at least one vent hole is formed to allow air to enter into the outer chamber and exit from the outer chamber to prevent over pressurization of the outer chamber; wherein the fluid displacement component extends though the spacer and is configured to reciprocate within the cylindrical interior of the spacer; and wherein a circumferential edge of the first portion seals within the housing such that the first portion at least partially defines the internal pressure chamber and a circumferential edge of the second portion seals within the cylindrical interior of the spacer such that the second portion at least partially defines the process fluid flowpath. 2. The pump of claim 1 , wherein the reciprocating member is a piston. 3. The pump of claim 1 , further comprising: an electric motor; and a drive system connecting the electric motor and the reciprocating member; wherein the electric motor reciprocates the reciprocating member via the drive system. 4. The pump of claim 1 , wherein the fluid displacement component comprises a diaphragm forming the first portion and that defines the first surface. 5. The pump of claim 4 , wherein the fluid displacement component further comprises a plunger forming the second portion and attached to the diaphragm, the plunger defining the second surface. 6. The pump of claim 5 , wherein a circumferential edge of the diaphragm is retained between the first end of the housing and the fluid cover, and wherein the circumferential edge of the diaphragm is the circumferential edge of the first portion; wherein the plunger extends through the fluid cover and into the end cover. 7. The pump of claim 6 , wherein: the spacer is mounted on the fluid cover and the end cover; and the plunger extends through the cylindrical interior of the spacer and is configured to reciprocate within the cylindrical interior. 8. The pump of claim 1 , wherein: the reciprocating member includes a pull chamber; the pull includes a pull shaft extending out of the pull chamber and connected to the fluid displacement component, and a flange disposed at a first end of the pull shaft within the pull chamber; and the flange retains the first end of the pull shaft within the pull chamber. 9. The pump of claim 1 , wherein the pull is a flexible member configured to transfer tensile forces but bend in response to compressive forces. 10. The pump of claim 1 , further comprising: a solenoid disposed within housing; wherein the reciprocating member comprises an armature disposed within the solenoid; and wherein the solenoid is a double-acting solenoid. 11. The pump of claim 1 , wherein the first portion of the fluid displacement component comprises a piston defining the first surface. 12. The pump of claim 11 , wherein the second portion of the fluid displacement component further comprises a plunger connected to and extending from the piston, wherein the plunger defines the second surface. 13. The pump of claim 12 , wherein the piston has a first diameter and the second piston plunger has a second diameter, the first diameter being larger than the second diameter. 14. The pump of claim 13 , further comprising: a first cylinder extending between the fluid cover and the housing, wherein the piston is disposed within the first cylinder; and wherein the spacer extends between the end cover and the fluid cover, wherein the plunger is disposed within the cylindrical interior of the spacer. 15. A pump for pumping a process fluid, the pump comprising: a housing defining an internal pressure chamber, the internal pressure chamber configured to contain a working fluid; a reciprocating member configured to reciprocate on an axis; a fluid displacement component having a first member defining a first surface and a second member defining a second surface, the first surface configured to contact the working fluid and the second surface configured to contact the process fluid, wherein the fluid displacement component is configured such that pressure exerted on the first surface by the working fluid moves the second surface in a first axial direction to expel the process fluid, and wherein an area of the first surface is greater than an area of the second surface; and a pull that links the reciprocating member to the fluid displacement component, the pull mechanically transferring a pulling force from the reciprocating member to the fluid displacement component to move the fluid displacement component in a second direction; and an attachment member extending from the second member, through the first member, and into the pull to connect the second member to the pull; wherein a first seal is formed between a circumferential edge of the first member and the housing to at least partially define the internal pressure chamber; wherein the first member is disposed axially between the reciprocating member and the second member; and wherein the first member is isolated from the process fluid such that the first member does not contact the process fluid. 16. The pump of claim 15 , wherein: the first member comprises a diaphragm that is configured to be moved by the working fluid, wherein the diaphragm defines the first surface; the second member comprises a plunger that is attached to the diaphragm to move with the diaphragm as the diaphragm is moved by the working fluid, wherein the plunger defines the second surface and movement of the plunger drives the process fluid.