Electrochemical sensor for monitoring under-deposit corrosion

What is claimed is: 1. An under-deposit corrosion sensor comprising: a probe body; a curved concave probe surface of constant radius comprising: at least one reference electrode surface; at least one working electrode surface; and at least one counter electrode surface, where the respective electrode surfaces are electrically insulated one from each other; a porous, electrically insulating layer over the at least one reference electrode surface and the at least one counter electrode surface, which porous, electrically insulating layer conducts ions therethrough, where there is no porous, electrically insulating layer over the at least one working electrode surface; and an electrically conductive lead electrically attached to each respective electrode surface. 2. The under-deposit corrosion sensor of claim 1 where the at least one working electrode surface has a deposit thereon, where the deposit is selected from the group consisting of ferrous sulfide, ferrous oxide, ferrous carbonate, silicate, and combinations thereof. 3. The under-deposit corrosion sensor of claim 2 where the deposit additionally comprises an organic material selected from the group consisting of asphaltenes, paraffins, biofilms, and combinations thereof. 4. The under-deposit corrosion sensor of claim 2 where the deposit has a thickness ranging from about 0.01 mm to about 1 cm. 5. The under-deposit corrosion sensor of claim 1 where the curved concave probe surface has a shape selected from the group consisting of a partial cylinder and a partial sphere. 6. The under-deposit corrosion sensor of claim 1 where the porous, electrically insulating layer is selected from the group consisting of a glass frit, an ionically conductive polymer, ionic crystals, solid electrolytes, and combinations thereof. 7. The under-deposit corrosion sensor of claim 1 where the working electrode surface and the counter electrode surface each have greater area than the reference electrode surface. 8. A system for monitoring under-deposit corrosion in real time comprising: a structure having a bottom with a shape selected from the group consisting of a flat surface, a concave, curved bottom surface of radius R, and combinations thereof, where the structure is selected from the group consisting of a pipeline, a tubing, a conduit, a vessel, a tank, a container, and combinations thereof; an under-deposit corrosion sensor mounted in the bottom of the structure so that the curved concave probe surface is flush with the concave, curved bottom surface of the structure, where the under-deposit corrosion sensor comprises: a probe body; a curved concave probe surface of constant radius R comprising: at least one reference electrode surface; at least one working electrode surface; and at least one counter electrode surface, where the respective electrode surfaces are electrically insulated one from each other; a porous, electrically insulating layer over the at least one reference electrode surface and the at least one counter electrode surface, which porous, electrically insulating layer conducts ions therethrough, where there is no porous, electrically insulating layer over the at least one working electrode surface; and an electrically conductive lead electrically attached to each respective electrode surface, and a machine electrically connected to and configured to receive measurements from the electrically conductive leads, and further configured to measure and/or analyze the measurements for data selected from the group consisting of changes in electrical potential, linear polarization resistance, localized corrosion rate, electrical resistance, electrical charge and combinations thereof. 9. The system of claim 8 where at least the at least one working electrode surface of the under-deposit corrosion sensor has a deposit thereon, where the deposit is selected from the group consisting of ferrous sulfide, ferrous oxide, ferrous carbonate, silicate, and combinations thereof. 10. The system of claim 9 where the deposit on the under-deposit corrosion sensor additionally comprises an organic material selected from the group consisting of asphaltenes, paraffins, biofilms, and combinations thereof. 11. The system of claim 9 where the deposit has a thickness ranging from about 0.01 mm to about 1 cm. 12. The system of claim 8 where the curved concave probe surface of the under-deposit corrosion sensor has a shape selected from the group consisting of a partial cylinder and a partial sphere. 13. The system of claim 8 where in the under-deposit corrosion sensor the porous, electrically insulating layer is selected from the group consisting of a glass frit, an ionically conductive polymer, ionic crystals, solid electrolytes, and combinations thereof. 14. The system of claim 8 where in the under-deposit corrosion sensor the working electrode surface and the counter electrode surface each have greater area than the reference electrode surface. 15. A method of measuring under-deposit corrosion, the method comprising utilizing a system for monitoring under-deposit corrosion in real time comprising: a structure having a bottom with a shape selected from the group consisting of a flat surface, a concave, curved bottom surface of radius R, and combinations thereof, where the structure is selected from the group consisting of a pipeline, a tubing, a conduit, a vessel, a tank, a container, and combinations thereof; an under-deposit corrosion sensor mounted in the bottom of the structure so that the curved concave probe surface is flush with the concave, curved bottom surface of the structure, where the under-deposit corrosion sensor comprises: a probe body; a curved concave probe surface of constant radius R comprising: at least one reference electrode surface; at least one working electrode surface; and at least one counter electrode surface, where the respective electrode surfaces are electrically insulated one from each other; a porous, electrically insulating layer over the at least one reference electrode surface and the at least one counter electrode surface, which porous, electrically insulating layer conducts ions therethrough, where there is no porous, electrically insulating layer over the at least one working electrode surface; and an electrically conductive lead electrically attached to each respective electrode surface, and a machine electrically connected to and configured to receive measurements from the electrically conductive leads, and further configured to measure and/or analyze the measurements for data selected from the group consisting of changes in electrical potential, linear polarization resistance, localized corrosion rate, electrical resistance, electrical charge and combinations thereof; where the method further comprises measuring and/or analyzing the measurements for data selected from the group consisting of changes in electrical potential, linear polarization resistance, localized corrosion rate, electrical charge and combinations thereof. 16. The method of claim 15 where method additionally comprises forming on the curved concave probe surface of the under-deposit corrosion sensor a deposit selected from the group consisting of ferrous sulfide, ferrous oxide, ferrous carbonate, silicate, and combinations thereof. 17. The method of claim 16 where the deposit on the under-deposit corrosion sensor additionally comprises an organic material selected from the group consisting of asphaltenes, paraffins, biofilms, and combinations thereof. 18. The method of cl