Filter system for coolant

What is claimed is: 1. A reservoir system for a liquid cooling system, the reservoir system comprising: an inner surface to contain liquid and define an inner volume, wherein the inner volume comprises a de-aeration volume separated into a plurality of adjacent regions by a plurality of baffles; an inlet port to receive a flow of a coolant; an outlet port to deliver the flow of the coolant, wherein the reservoir system is configured to cause the coolant to flow from the inlet port to the outlet port; an opening arranged at a top of the reservoir system; a cap to cover and uncover the opening; a filter element contacting and seated against an annular feature of the inner surface to seal a closed end of the filter element against the inner surface, wherein the coolant flows through the filter element, and wherein the filter element is removable through the opening; and a by-pass passage, arranged below a portion of the inner surface where the closed end of the filter element is sealed against the inner surface, to route a portion of the flow of the coolant to the outlet port without flowing through the filter element. 2. The reservoir system of claim 1 , wherein the by-pass passage comprises a molded passage along the inner surface. 3. The reservoir system of claim 1 , wherein the by-pass passage comprises a molded passage along an outer surface. 4. The reservoir system of claim 1 , wherein one or more baffles of the plurality of baffles is configured to reduce a velocity of the flow of the coolant. 5. The reservoir system of claim 1 , wherein an upper portion of the inner volume comprises a freeboard region comprising a gas phase. 6. The reservoir system of claim 1 , wherein the filter element comprises a particulate filter. 7. The reservoir system of claim 1 , wherein the filter element comprises a cylindrical element. 8. The reservoir system of claim 7 , wherein the cylindrical element comprises: an open end to receive a first portion of the coolant; a radially inner surface, wherein the coolant flows from the open end to the radially inner surface; and a radially outer surface, wherein the coolant flows from the radially inner surface to the radially outer surface. 9. The reservoir system of claim 8 , wherein the closed end of the filter element is impermeable to flow of the coolant. 10. The reservoir system of claim 8 , wherein the closed end of the filter element is permeable to flow of the coolant. 11. The reservoir system of claim 8 , wherein the annular feature comprises an annular recess that seats the closed end of the cylindrical element. 12. The reservoir system of claim 8 , wherein: the reservoir system further comprises a circular opening; and the cylindrical element further comprises an annular gasket proximate to the open end to provide a seal between the filter element and the circular opening. 13. The reservoir system of claim 1 , wherein the inlet port is positioned above a top of the filter element. 14. The reservoir system of claim 1 , wherein: the inlet port is positioned below a top of the filter element; and the reservoir system further comprises a passageway between the inlet port and the top of the filter element. 15. A reservoir system for a liquid cooling system, the reservoir system comprising: an inner surface to contain liquid and define an inner volume; at least one inlet port to receive a flow of a coolant; an outlet port to deliver the flow of the coolant, wherein the reservoir system is configured to cause the coolant to flow from the at least one inlet port to the outlet port; a filter element contacting and seated against an annular feature of the inner surface to seal a closed end of the filter element against the inner surface, wherein: a first portion of flow of the coolant flows through the filter element, and the filter element is removable through an opening arranged at a top of the inner volume; a plurality of baffles that separates a de-aeration volume of the inner volume into a plurality of adjacent regions, wherein the plurality of baffles is arranged to: direct the first portion of the flow of the coolant to a first region of the inner volume, wherein the first portion of the flow of the coolant crosses the filter element contacting and sealed against the inner surface, and direct a second portion of the flow of the coolant to a second region of the inner volume, wherein the second region is configured to de-gas the second portion of the flow of the coolant, and wherein the second portion of the flow of the coolant does not cross the filter element; and a by-pass passage, arranged below a portion of the inner surface where the closed end of the filter element is sealed against the inner surface, to route a portion of the flow of the coolant to the outlet port without flowing through the filter element. 16. The reservoir system of claim 15 , wherein at least one baffle of the plurality of baffles is further configured to house the filter element. 17. The reservoir system of claim 15 , wherein at least one baffle of the plurality of baffles comprises: a solid wall that is impermeable to the coolant, and at least one opening that is permeable to the coolant, wherein the second portion of the flow of the coolant flows through the at least one opening. 18. The reservoir system of claim 15 , further comprising a cap to cover and uncover the opening, wherein the filter element is removable through the opening when the cap is removed.