Patent Number: 
Section: claims

1. A system for determining the radiological composition of material layers within a conduit, the system comprising:a collimator-probe comprising a probe contained within a collimator;a spectrometer operatively connected to the probe;a phantom setup comprising a vessel containing a reactor water test standard, a plurality of removable plates, a removable nuclear insulation layer, and a collimator probe attachment point; anda semi-logarithmic plot of spectrometer readings taken with various geometries of removable plates. 2. The system of claim 1, wherein the probe is a cadmium zinc telluride probe. 3. The system of claim 1, wherein the collimator comprises a generally cylindrical shield made from a high density material that surrounds the probe. 4. The system of claim 3, further comprising a grid attached to an opening in the collimator. 5. The system of claim 4, wherein the grid comprises a matrix of lead plates aligned to create a plurality of openings. 6. The system of claim 3, wherein the generally cylindrical shield comprises a first half and a second half. 7. The system of claim 3, wherein the high density material is selected from the group consisting of lead, tungsten, and depleted uranium. 8. The system of claim 1, further comprising a computer having a processor, memory and computer readable media, the computer configured to compare the semi-logarithmic plot of spectrometer readings stored on the computer readable media with spectrometer field readings stored on the computer readable media. 9. The system of claim 1, wherein the collimator is made from a high density material and covered with a layer of copper. 10. The system of claim 9, further comprising a layer of cadmium between the high density material and the layer of copper. 11. The system of claim 10, wherein the layer of cadmium is placed between the high density material and the layer of copper on the inner surface of the collimator. 12. The system for determining the radiological composition of material layers within a conduit of claim 1, wherein the collimator-probe comprises:a generally cylindrical shield comprising a high density material to contain the probe;the probe having a sensing face and placed within the generally cylindrical shield;an opening within a face of the generally cylindrical shield containing a grid of high density material to prevent low energy lateral photons from hitting the sensing face of the probe; anda removable cover comprising a high density material that is removably attached to the generally cylindrical shield to allow placement of the probe within the generally cylindrical shield. 13. The collimator-probe of claim 12, further comprising a spacer fitted to the shielded housing to keep the probe contained within the shielded housing a constant distance front the opening. 14. The collimator-probe of claim 12, further comprising a probe retainer placed between the probe and an interior wall of the generally cylindrical shield. 15. The system for determining the radiological composition of material layers within a conduit of claim 1, wherein the collimator-probe comprises:a generally cylindrical shield comprising a first half made from a high density material and a second half made from a high density material wherein the first half has protrusions that mate with channels of the second half;the probe having a sensing face and placed within the generally cylindrical shield; andan opening within a face of the generally cylindrical shield containing a grid of high density material to prevent low energy lateral photons from hitting the sensing face of the probe. 16. The collimator-probe of claim 15, further comprising a spacer fitted to the shielded housing to keep the probe contained within the shielded housing a constant distance from the opening. 17. A method of determining the radiological composition of a corrosion layer within a pipe using a system including a collimator-probe comprising a probe contained within a collimator; a spectrometer operatively connected to the probe; a phantom setup comprising a vessel containing a reactor water test standard, a plurality of removable plates, a removable nuclear insulation layer, and a collimator probe attachment point; and a semi-logarithmic plot of spectrometer readings taken with various geometries of removable plates, the method comprising the steps of:providing the wall thickness of a pipe being tested;taking readings of the pipe being tested with said collimator-probe;comparing the readings of the pipe being tested to said semi-logarithmic plot; andproviding sediment layer values. 18. The method of claim 17, further comprising the step of determining the detriment of corrosion layer. 19. The method of claim 18, further comprising the step of determining the source of the detriment.