Abstract: An insulating coating is applied to the metallic components in a nuclear reactor water environment to decrease and/or mitigate general corrosion and erosion-corrosion of the reactor component's metallic surfaces. Preferably, the coating is a 0.1 micron to 0.3 mm thin layer of an oxide coating such as titania (TiO2), zirconia (ZrO2), tantala (Ta2O5), Al2O3, CeO2 or similar oxides; or a thin layer of the metal, such as Ti, Zr, Ta, Hf, Ce, Al, which will oxidize in the reactor water environment. The applied coating provides a protective layer between the component surfaces and the reactor water environment. By reducing and/or eliminating the potential for corrosion on reactor metallic components, the coating eliminates or minimizes the potential for activated corrosion products to contaminate the reactor water. The coating is especially beneficial for nickel-alloy based metals that contribute significant cobalt-related corrosion products, and will also be effective on austenitic stainless steel components.

Abstract: A jet pump for a nuclear reactor includes a riser and an inlet mixer having a set of nozzles and a mixing section for receiving coolant flow from the nozzles and suction flow from an annular space between the reactor vessel and the shroud core. To minimize or eliminate electrostatic deposition of charged particulates carried by the coolant on interior wall surface of the inlet-mixer of the jet pump, and also to inhibit stress corrosion cracking, the interior wall surfaces of the nozzles and mixing section are coated with a ceramic oxide such as TiO2 and Ta2O5 to thicknesses of about 0.5-1.5 microns.

Abstract: Method for fabricating a vessel, comprising the steps of arranging at least two components of the vessel in a generally vertical disposition and welding the components together essentially simultaneously. The method is particularly suitable for fabrication on site of large pressure vessels used in nuclear reactors.

Abstract: A jet pump for a nuclear reactor includes a riser and an inlet mixer having a set of nozzles and a mixing section for receiving coolant flow from the nozzles and suction flow from an annular space between the reactor vessel and the shroud core. To minimize or eliminate electrostatic deposition of charged particulates carried by the coolant on interior wall surface of the inlet-mixer of the jet pump, and also to inhibit stress corrosion cracking, the interior wall surfaces of the nozzles and mixing section are coated with a ceramic oxide such as TiO2 and Ta2O5 to thicknesses of about 0.5-1.5 microns.

Abstract: Method for fabricating a vessel, comprising the steps of arranging at least two components of the vessel in a generally vertical disposition and welding the components together essentially simultaneously. The method is particularly suitable for fabrication on site of large pressure vessels used in nuclear reactors.

Abstract: The weld reinforcement includes a generally dogbone-shaped pocket having laterally enlarged end portions and a reduced intermediate portion spanning a weld seam. A complementary-shaped reinforcing element is received in the pocket. The pocket includes a projection which is received in an opening in the overlying reinforcing element. A wedge-type clamp retainer is received about the projection within the opening to secure the element within the pocket.

Abstract: A chromium-nickel austenitic stainless steel alloy composition, including specific proportions of carbon with a combination of niobium and tantalum.

Abstract: A diffusion tube hydrogen meter for improving the sensitivity and response time for the measurement of hydrogen in liquid sodium. The improved hydrogen meter has a composite membrane composed of pure nickel sleeve fitted, for example, over a 2 1/4 Cr-1 Mo steel or niobium diffusion tube. Since the hydrogen permeation rate through 2 1/4 Cr-1 Mo steels is a factor of four higher than pure nickel, and the permeation rate of hydrogen through niobium is two orders of magnitude greater than the 2 1/4 Cr-1 Mo steel, this results in a decrease in response time and an increase in the sensitivity.