Patent Number: 
Section: claims

1. A method of inspecting nuclear fuel comprising:providing a nuclear fuel rod to an inspection area, the nuclear fuel rod comprising nuclear fuel pellets disposed within the nuclear fuel rod along a long axis;irradiating the nuclear fuel rod with X-ray radiation to generate a series of angularly displaced images of the nuclear fuel rod via direct radiography, such that the circumference of the nuclear fuel pellets is substantially imaged;inspecting the series of angularly displaced images to detect nuclear fuel pellet defects;irradiating the nuclear fuel rod with additional X-ray radiation having a different energy to generate one or more additional images; andinspecting the one or more additional images to detect different nuclear fuel pellet defects. 2. The method of claim 1, wherein the X-ray radiation used to generate the series of angularly displaced images has a lower energy than the additional X-ray radiation. 3. The method of claim 1, wherein the series of angularly displaced images are inspected to detect tangential nuclear fuel pellet defects and the one or more additional images are inspected to detect internal nuclear fuel pellet defects. 4. The method of claim 1, wherein inspecting the series of angularly displaced images comprises executing one or more comparison and/or detection algorithms using one or more algorithms to facilitate the detection of nuclear fuel pellet defects, wherein irradiation and inspection occur in less than about 30 seconds. 5. The method of claim 1, comprising reducing unattenuated X-rays incident at a detector used to generate the series of angularly displaced images by positioning a masking fixture proximate the nuclear fuel rod. 6. The method of claim 1, wherein a rod positioning mechanism is used to rotate the nucelar fuel rod to produce the series of angularly displaced images. 7. The method of claim 1, wherein a detector comprising a scintillator and a diode array is used to generate the series of angularly displaced images of the nuclear fuel rod, the images comprising digital X-ray images. 8. A method of inspecting nuclear fuel comprising:providing a nuclear fuel rod to an inspection area, the nuclear fuel rod comprising nuclear fuel pellets disposed within the nuclear fuel rod along a long axis;irradiating the nuclear fuel rod with X-ray radiation to generate a series of angularly displaced images of the nuclear fuel rod via direct radiography, such that the circumference of the nuclear fuel pellets is substantially imaged;inspecting the series of angularly displaced images to detect nuclear fuel pellet defects;translating and/or rotating the nuclear fuel rod using a nuclear fuel rod positioning mechanism after producing the series of angularly displaced images;irradiating the nuclear fuel rod with an additional portion of X-ray radiation to produce a second set of angularly displaced images;dividing, using one or more algorithms executed by a processing circuit, each image of the set of angularly displaced images by the corresponding image of the second set to produce a digital representation of the quotient;inspecting the digital representation for any areas comprising a value less than or greater than one;wherein the nuclear fuel rod is translated between about 1 micron and about 1 centimeter, and/or the nuclear fuel rod is rotated less than about 3 degrees.