Patent Number: 044252978
Section: claims

1. A device for measuring local power generation within a fuel assembly of a nuclear reactor comprising: a gamma radiation absorbing body elongated along a longitudinal axis and made of heat conductive and electrically conductive material;  elongated thermocouple means mounted within said body for establishing axially spaced differential temperature sensing junctions therein at each of a plurality of local measuring zones;  coolant in external contact with said body throughout for establishing a uniform heat sink temperature extenally of said elongated body for producing radial heat flow paths from said junctions of said thermocouple means;  reduced diameter portions of said elongated body at each of said local measuring zones for establishing thermal and electrical deviations in resistance of the elongated body producing a differential temperature signal across said junctions of said thermocouple means; and strengthening fins made of high thermally conductive material extending radially from said reduced diameter portion of said elongated body.  a gamma radiation absorbing body elongated along a longitudinal axis having an external heat sink surface to which radial heat flow paths are established at axially spaced locations along the longitudinal axis by a reduced cross-sectional area portion thereof, and having a central bore within which is mounted  a thermocouple having a cold junction at one of said spaced locations alligned with said reduced cross-sectional area portion and hot junction closely spaced therefrom;  means for maintaining coolant in contact with said external heat sink surface; and  strengthening fins made of high thermally conductive material extending radially from the reduced cross-sectional area portion. 2. A device for measuring local power generation within a nuclear reactor comprising: 3. In a method of calibrating a gamma sensor having an elongated monolithic body of electrically conductive material within which heat flow paths are established from axial spaced internal points between which a temperature differential is produced by a reduction in cross-sectional area of a portion of the body, the steps of: adding an electrically conductive filler to the reduced cross-sectional area portion of the body prior to conducting heating current through the body to render the voltage drop per length uniform; conducting electrical heating current longitudinally through the body for internal heating thereof; measuring the temperature differential across said axially spaced points; varying the heating current to determine the relationship between heat generated within the body and the measured temperature differential; and removing the filler from the body upon completion of calibration. 4. The method of claim 3 wherein said filler is made of a low melting temperature material to effect said removal thereof by melting.