Patent Number: 
Section: claims

1. A method for minimizing or eliminating deposition of charged particulates on interior metal wall surfaces defining a coolant flow passage in a jet pump for a nuclear reactor, comprising the steps of: depositing one of a titanium oxide, tantalum oxide and zirconium oxide dielectric material on the interior metal wall surfaces of one of a nozzle and a mixing section forming part of an inlet-mixer of the jet pump for disposition in the radioactive environment of the nuclear reactor to reduce or eliminate any electric potential between the metal wall surfaces and the charged particulates. 2. A method according to  claim 1  wherein said material is applied by chemical vapor deposition. claim 1 3. A method according to  claim 1  wherein the step of depositing includes heating said one of said nozzle and said mixing section in a vacuum chamber. claim 1 4. A method according to  claim 3  wherein the vacuum chamber is heated to about 400xc2x0 C.-500xc2x0 C. claim 3 5. A method according to  claim 1  wherein the step of depositing includes flowing a precursor material through said reactor and allowing a coating to form on said one of said nozzle and said mixing section. claim 1 6. A method according to  claim 1  including depositing the material to a thickness of about 0.5-3 microns. claim 1 7. A method according to  claim 1  wherein the step of depositing includes coating said one nozzle and said mixing section with Ta 2 O 5 . claim 1 8. A method according to  claim 1  wherein the step of depositing includes coating said one nozzle and said mixing section with TiO 2 . claim 1 9. A method according to  claim 1  wherein the step of depositing includes coating said one nozzle and said mixing section with ZrO 2 . claim 1 10. A method for protecting interior metal wall surfaces defining a coolant flow passage in a jet pump, comprising the steps of: minimizing or eliminating deposition of charged particulates in the coolant flowing through the jet pump on the metal wall surfaces by depositing a ceramic oxide dielectric material selected from the group consisting of titanium oxide, tantalum oxide, and zirconium oxide on the interior metal wall surfaces of one of a nozzle and a mixing section forming part of an inlet mixer of the jet pump and thereby to reduce or eliminate any electric potential between the metal wall surfaces and the charged particulates. 11. A method of protecting interior metal wall surfaces defining a coolant flow passage in a jet pump, comprising the steps of: (a) depositing a ceramic oxide dielectric material selected from the group consisting of titanium oxide, tantalum oxide and zirconium oxide on the interior metal wall surfaces of one a nozzle and a mixing section forming part of an inlet mixer of the jet pump;  (b) flowing a fluid coolant having charged particulates therein through the jet pump; and  (c) wherein step (a) reduces or eliminates any electric potential between the metal wall surfaces and the charged particulates of the fluid coolant flowing through the jet pump to minimize or eliminate deposition of the charged particulates on the interior metal wall surfaces.