Patent Number: 051788225
Section: claims

1. In combination with a steam generator having a plurality of generator tube support plates, each said generator tube support plate having a plurality of openings, and a plurality of generator tubes, each said generator tube passing through aligned said openings in said support plates, a corrosion monitoring system including a mockup probe, comprising: a. a probe tube support plate having an upper side and a lower side and having substantially the same thickness and being constructed of substantially the same material as said generator tube support plate, having at least one opening of substantially the same size and shape as said openings of said generator tube support plates;  b. at least one probe tube having a sidewall, an upper end and a lower end, having substantially the same diameter as said generator tubes and being constructed of substantially the same material as said generator tubes, said probe tube passing through said opening of said probe tube support plate; and wherein said mockup probe is positioned within said steam generator such that said mockup probe is exposed to chemical cleaning fluids within said steam generator during chemical cleaning operations.  c. a means for electronically determining corrosion within said steam generator;  inserting into said steam generator a mockup probe such that said mockup probe is exposed to chemical cleaning fluids within said steam generator during chemical cleaning operations, said mockup probe including:  at least one probe tube having substantially the same diameter as said generator tubes and being constructed of substantially the same material as said generator tubes, said probe tube passing through said opening of said probe tube support plate;  conducting chemical cleaning operations;  removing said mockup probe; and  observing actual corrosion of said mockup probe.  prior to said step of conducting chemical cleaning operations, inserting into said steam generator a means for electronically determining corrosion of said tube support plates such that said means is exposed to chemical cleaning fluids within said steam generator during chemical cleaning operations, said means being electronically connected to a data acquisition means; and  monitoring said data acquisition means during said step of conducting chemical cleaning operations.  c. an insulating sleeve having a sidewall said probe tube above said upper side of said probe tube support plate and below said lower side of said probe tube support plate.  d. a protective sleeve, having a sidewall surrounding said insulating sleeve.  c. an upper insulating sleeve having a sidewall surrounding said probe tube above said upper side of said probe tube support plate; and  d. a lower insulating sleeve having a sidewall surrounding said probe tube below said lower side of said probe tube support plate.  e. an upper protective sleeve, having a sidewall surrounding said upper insulating sleeve; and  f. a lower protective sleeve, having a sidewall surrounding said lower insulating sleeve. 2. A combination according to claim 1, further comprising: 3. A combination according to claim 2, wherein said means for electronically determining corrosion within said steam generator includes a zero resistance ammetry probe, having an anode constructed of substantially the same material as said generator tube support plates, and a cathode constructed of substantially the same material as said generator tubes; wherein said zero resistance ammetry probe is positioned within said steam generator such that said zero resistance ammetry probe is exposed to chemical cleaning fluids within said steam generator during chemical cleaning operations; and wherein said zero resistance ammetry probe is electronically connected to a data acquisition means. 4. A combination according to claim 3, wherein said means for electronically determining corrosion within said steam generator includes a linear polarization probe, having an electrode constructed of substantially the same material as said generator tube support plates; wherein said linear polarization probe is positioned within said steam generator such that said linear polarization probe is exposed so chemical cleaning fluids within said steam generator during chemical cleaning operations; and wherein said linear polarization probe is electronically connected to a data acquisition means. 5. A combination according to claim 4, wherein said steam generator includes interior components connected by welds and wherein said linear polarization probe includes an electrode constructed of substantially the same material as said welds. 6. In a steam generator having a plurality of generator tube support plates, each said generator tube support plate having a plurality of openings, and a plurality of generator tubes, each said generator tube passing through aligned said openings in said support plates, a method for monitoring corrosion, comprising the steps of: 7. A method for monitoring corrosion according to claim 6, further comprising the steps of: 8. A. corrosion monitoring system according to claim wherein said sidewall of said probe tube is provided with at least one opening therein. 9. A corrosion monitoring system according to claim 1, wherein a plurality of said openings are provided in said probe tube support plate; wherein a plurality of said probe tubes are provided, each said probe tube passing through one said opening of said probe tube support plate; and wherein said probe tubes are of such length that the galvanic corrosion of said probe tube support plate during exposure to a chemical cleaning solvent approximates that of said generator tube support plates. 10. A corrosion monitoring system according to claim 1, wherein said mockup probe further comprises: 11. A corrosion monitoring system according to claim 10, wherein said mockup probe further comprises: 12. A corrosion monitoring system according to claim 1, wherein said mockup probe further comprises: 13. A corrosion monitoring system according to claim 12, wherein said upper insulating sleeve extends upward at least to said upper end of said probe tube and wherein said lower insulating sleeve extends downward at least to said lower end of said probe tube, and wherein said mockup probe further comprises: 14. A corrosion monitoring system according to claim 10, wherein said sidewall of said insulating sleeve is provided with a least one opening therein. 15. A corrosion monitoring system according to claim 11, wherein said sidewall of said insulating sleeve is provided with a least one opening therein, and said sidewall of said protective sleeve is provided with at least one opening therein aligned with said opening in said sidewall of said insulating sleeve. 16. A corrosion monitoring system according to claim 12, wherein said sidewall of said upper insulating sleeve is provided with a least one opening therein and said sidewall of said lower insulating sleeve is provided with a least one opening therein. 17. A corrosion monitoring system according to claim 13, wherein said sidewall of said upper insulating sleeve is provided with a least one opening therein, said sidewall of said lower insulating sleeve is provided with a least one opening therein, said sidewall of said upper protective sleeve is provided with at least one opening therein aligned with said opening in said sidewall of said upper insulating sleeve, and said sidewall of said lower protective sleeve is provided with at least one opening therein aligned with said opening in said sidewall of said lower insulating sleeve.