Facilitating fluid level sensing

What is claimed is: 1. An apparatus comprising: a proximity sensor; a plug configured to couple to a wall of a fluid system within an opening in the wall to seal the opening, without contacting an inner surface of the wall of the fluid system, the plug being hollow and including a fluid sense window which projects through the wall into the fluid system substantially transverse to the opening in the wall when the plug is coupled to the wall within the opening; and wherein the plug comprises a fluid-sensor-receiving space continuously extending within the plug from one side of the wall, through the opening in the wall and into the fluid sense window within the fluid system on another side of the wall, the fluid-sensor-receiving opening being open at the one side of the wall, and the fluid-sensor-receiving space being configured to at least partially receive therein the proximity sensor and, when the plug is coupled to the wall and seals the opening, with the proximity sensor within the fluid-sensor-receiving space of the fluid sense window, the proximity sensor extends within the plug from the one side of the wall, through the wall into the fluid sense window within the fluid system on the another side of the wall to sense across the fluid sense window presence of fluid within the fluid system by emitting an electric field through the fluid sense window into the fluid system, and sensing a disruption in the electric field due to the presence of the fluid within the fluid system, the fluid sense window comprising a non-conductive material which allows the electric field to pass therethrough, and wherein the proximity sensor is removable from the fluid-sensor-receiving space of the fluid sense window without requiring uncoupling of the plug from the wall or unsealing of the opening in the wall. 2. The apparatus of claim 1 , wherein the plug threadably seals to the wall within the opening therein. 3. The apparatus of claim 2 , further comprising a threaded insert affixed to the wall at the opening, wherein the plug threadably seals to the wall by threadably engaging the threaded insert, and wherein the threaded insert comprises a conductive material. 4. A system comprising: a coolant-based cooling apparatus to facilitate removal of heat generated by one or more electronic components, the coolant-based cooling apparatus comprising a coolant loop containing coolant of the coolant-based cooling apparatus; and a fluid sense apparatus facilitating sensing of coolant within the coolant loop, the fluid sense apparatus comprising: a proximity sensor; a plug coupled to a wall of the coolant loop within an opening in the wall and sealing the opening, without contacting an inner surface of the wall of the coolant loop, the plug being hollow and including a fluid sense window which projects through the wall into the coolant loop substantially transverse to the opening in the wall; and wherein the plug comprises a fluid-sensor-receiving space continuously extending within the plug from one side of the wall, through the opening in the wall and into the fluid sense window within the coolant loop on another side of the wall, the fluid-sensor-receiving space being open at the one side of the wall, and the fluid-sensor-receiving space being configured to at least partially receive therein the proximity sensor and to position the proximity sensor within the coolant loop to sense presence of coolant within the coolant loop by emitting an electric field through the fluid sense window into the coolant loop, and sensing disruption in the electric field due to the presence of the coolant within the coolant loop, the fluid sense window comprising a non-conductive material which allows the electric field to pass therethrough, and wherein the proximity sensor extends within the plug from the one side of the wall, through the wall, and into the fluid sense window on the another side of the wall, and is removable from the fluid-sensor-receiving space of the fluid sense window without requiring uncoupling of the plug from the wall of the coolant loop or unsealing of the opening in the wall. 5. The system of claim 4 , wherein the coolant loop comprises a coolant reservoir and the wall with the opening is a wall of the coolant reservoir of the coolant loop, and wherein the proximity sensor disposed within the fluid sense window senses for presence of coolant at the level of the opening in the wall of the coolant reservoir. 6. The system of claim 4 , wherein the fluid sense window is a rectangular-shaped fluid sense window that extends into the coolant reservoir. 7. The system of claim 5 , wherein the plug threadably seals to the wall at the opening therein, and wherein the coolant reservoir comprises a conductive material. 8. A method comprising: obtaining a coolant-based cooling apparatus to facilitate removal of heat generated by one or more electronic components, the coolant-based cooling apparatus comprising a coolant loop containing coolant of the coolant-based cooling apparatus; and providing a fluid sense apparatus facilitating sensing for coolant within the coolant loop, the fluid sense apparatus comprising: a proximity sensor; a plug coupled to a wall of the coolant loop within an opening in the wall and sealing the opening, without contacting an inner surface of the wall of the coolant loop, the plug being hollow and including a fluid sense window which projects through the wall into the coolant loop substantially transverse to the opening in the wall; and wherein the plug comprises a fluid-sensor-receiving space continuously extending within the plug from one side of the wall, through the opening in the wall and into the fluid sense window within the coolant loop on another side of the wall, the fluid-sensor-receiving opening being open at the one side of the wall, and the fluid-sensor-receiving space being configured to at least partially receive therein the proximity sensor and to position the proximity sensor within the coolant loop to sense presence of coolant within the coolant loop by emitting an electric field through the fluid sense window into the coolant loop, and sensing disruption in the electric field due to the presence of the coolant within the coolant loop, the fluid sense window comprising a non-conductive material which allows the electric field to pass therethrough, and wherein the proximity sensor extends within the plug from the one side of the wall, through the wall, and into the fluid sense window on the another side of the wall, and is removable from the fluid-sensor-receiving space of the fluid sense window without requiring uncoupling of the plug from the wall of the coolant loop or unsealing of the opening in the wall. 9. The method of claim 8 , wherein the obtaining comprises obtaining the coolant loop with a coolant reservoir, the opening being in a wall of the coolant reservoir of the coolant loop, and wherein the proximity sensor is disposed within the fluid sense window to sense for presence of coolant at the level of the opening in the wall of the coolant reservoir. 10. The apparatus of claim 1 , wherein the proximity sensor is a planar-shaped proximity sensor, the planar-shaped proximity sensor comprising a planar electrode which resides within the fluid-sensor-receiving space of the fluid sense window when the proximity sensor is operatively disposed within the plug. 11. The apparatus of claim 10 , wherein the proximity sensor further comprises a coil electrode, the coil electrode encircling, at least in part, the planar electrode. 12. The apparatus of claim 1 , wherein the fluid sense window of the plug comprises a tongue-shaped fluid sense window which extends into the