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Embodiments of systems and methods for providing cathodic protection to a fluid-containing vessel include measuring two distinct voltages at a junction box exterior to the fluid-containing vessel. The first voltage is measured across a shunt in the junction box such that a current magnitude through

Embodiments of systems and methods for providing cathodic protection to a fluid-containing vessel include measuring two distinct voltages at a junction box exterior to the fluid-containing vessel. The first voltage is measured across a shunt in the junction box such that a current magnitude through the shunt can be determined using Ohm's Law that is representative of a current output of one or more sacrificial anodes disposed within the fluid-containing vessel. The second voltage is measured by depressing a pushbutton of a momentary switch to open the switch and interrupt current flow through the shunt. The second voltage is representative of a voltage difference between the one or more sacrificial anodes and the a wall of the fluid-containing vessel.

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1. A cathodic protection system comprising: a fluid-containing vessel having a wall defining an interior surface;a fluid disposed within the fluid-containing vessel and contacting the interior surface;a plurality of protecting anodes disposed within the fluid-containing vessel and spaced apart from

1. A cathodic protection system comprising: a fluid-containing vessel having a wall defining an interior surface;a fluid disposed within the fluid-containing vessel and contacting the interior surface;a plurality of protecting anodes disposed within the fluid-containing vessel and spaced apart from one another, each of the plurality of protecting anodes contacting the fluid and being directly connected to the interior surface of the wall through an electrical conduit isolated from the fluid;a monitoring anode assembly comprising: one or more monitoring anodes disposed within the fluid-containing vessel, wherein the one or more monitoring anodes comprises a galvanic anode, wherein the one or more monitoring anodes is mounted on an anode mount positioned through an orifice defined through the wall of the fluid-containing vessel; anda flange constructed on an outer surface of the fluid-containing vessel surrounding the orifice, wherein the one or more monitoring anodes is electrically isolated from the vessel by mechanically connecting the anode mount to the flange of the vessel using a non-conductive mount or by positioning an insulator between the anode mount and the flange of the vessel; anda junction box disposed on an exterior of the fluid-containing vessel, the junction box comprising: a shunt coupled between an anode electrical line and a vessel electrical line, wherein the anode electrical line extends from the one or more monitoring anodes through the wall of the fluid-containing vessel to the shunt, wherein the vessel electrical line extends from the wall of the fluid-containing vessel to the shunt, and wherein the shunt has a known electrical resistance such that a current through the shunt is calculable from a measurement of a voltage across the shunt; anda momentary switch disposed in one of the anode electrical line and the vessel electrical line, the momentary switch having a normally closed configuration to permit current flow therethrough, and operable to be momentarily opened to inhibit current flow through the shunt and thereby permit a voltage measurement between the anode electrical line and the vessel electrical line that is representative of a voltage difference between the one or more monitoring anodes and the wall of the fluid-containing vessel. 2. The cathodic protection system according to claim 1, further comprising one or more anode mounts coupled to the interior surface, wherein one or more protecting anodes of the plurality of protecting anodes are mounted on the one or more anode mounts, and wherein the one or more anode mounts provide the electrical conduit isolated from the fluid. 3. The cathodic protection system according to claim 2, wherein a respective electrical conduit that is isolated from the fluid extends through the anode mount to which a respective one of the protecting anodes of the plurality of protecting anodes is mounted. 4. The cathodic protection system according to claim 1, wherein one or more of the protecting anodes of the plurality of protecting anodes are mounted directly to the interior surface. 5. The cathodic protection system according to claim 1, further comprising an impressed current source electrically connected to one or more of the plurality of protecting anodes and to the wall of the fluid-containing vessel such that the fluid-containing vessel serves as a cathode when current is applied from the impressed current source. 6. The cathodic protection system according to claim 1, wherein the junction box further comprises a first pair of potential knobs protruding from a surface thereof and disposed on opposite sides of the shunt to facilitate the measurement of the voltage across the shunt. 7. The cathodic protection system according to claim 6, wherein the junction box further comprises a second pair of potential knobs to facilitate the voltage measurement between the anode electrical line and the vessel electrical line while the momentary switch is momentarily opened, a first one of the second pair of potential knobs in electrical communication with the anode electrical line and a second one of the second pair of potential knobs in electrical communication with the vessel electrical line. 8. The cathodic protection system according to claim 7, further comprising a portable, hand-held voltage meter operable to make voltage measurements between the first pair of potential knobs and between the second pair of potential knobs. 9. A method of monitoring the one or monitoring anodes of the cathodic protection system according to claim 8, the method comprising the steps of: (a) engaging a pair of leads of the portable, hand-held voltage meter with the first pair of potential knobs and recording a first indicated voltage;(b) engaging the momentary switch to momentarily open the momentary switch and interrupt current through the shunt;(c) engaging the pair of leads of the portable, hand-held voltage meter with the second pair of potential knobs while current is interrupted through the shunt and recording a second voltage; and(d) disengaging the momentary switch to restore current through the shunt. 10. A cathodic protection system for providing corrosion protection to a fluid-containing vessel, the cathodic protection system comprising: a fluid-containing vessel defining an interior chamber for containing a fluid therein;one or more sacrificial anodes disposed within the interior chamber;a shunt disposed on an exterior of the fluid-containing vessel, the shunt having a known electrical resistance such that a current through the shunt is calculable from a measurement of a voltage across the shunt;an anode electrical line extending through a wall of the fluid-containing vessel from one or more monitoring anodes to a first end of the shunt, wherein the one or more monitoring anodes comprises a galvanic anode, wherein the one or more monitoring anodes is mounted on an anode mount positioned through an orifice defined through the wall of the fluid-containing vessel;a flange constructed on an outer surface of the fluid-containing vessel surrounding the orifice, wherein the one or more monitoring anodes is electrically isolated from the vessel by mechanically connecting the anode mount to the flange of the vessel using a non-conductive mount or by positioning an insulator between the anode mount and the flange of the vessel;a vessel electrical line extending from the fluid-containing vessel to a second end of the shunt such that the shunt is connected in series between the anode electrical line and the vessel electrical line; anda momentary switch disposed in one of the anode electrical line and the vessel electrical line, the momentary switch having a normally closed configuration to permit current flow therethrough, and operable to be momentarily opened to interrupt current flow through the shunt and thereby permit a voltage measurement between the anode electrical line and the vessel electrical line that is representative of a voltage difference between the one or more sacrificial anodes and a wall of the fluid-containing vessel. 11. The cathodic protection system according to claim 10, wherein the shunt and the momentary switch are disposed within a junction box disposed on the exterior of the fluid-containing vessel. 12. The cathodic protection system according to claim 11, further comprising a first pair of potential knobs disposed within the junction box on opposite sides of the shunt to facilitate the measurement of the voltage across the shunt. 13. The cathodic protection system according to claim 12, further comprising a second pair of potential knobs to facilitate the voltage measurement between the anode electrical line and the vessel electrical line while the momentary switch is momentarily opened, a first one of the second pair of potential knobs in electrical communication with the anode electrical line and a second one of the second pair of potential knobs in electrical communication with the vessel electrical line. 14. The cathodic protection system according to claim 10, wherein the fluid-containing vessel comprises a dehydrator for handling wet crude, and wherein the one or more sacrificial anodes are disposed along a lower interior surface of the fluid-containing vessel within the interior chamber thereof. 15. The cathodic protection system according to claim 10, wherein the one or more sacrificial anodes disposed within the interior chamber includes one or more monitoring anodes electrically coupled directly to the anode electrical line and one or more protecting anodes electrically isolated from the anode electrical line except through the fluid-containing vessel or the fluid contained therein. 16. The cathodic protection system according to claim 10, wherein the one or more sacrificial anodes comprises at least one high temperature zinc anode.