Patent Number: 052971872
Section: description

DESCRIPTION OF THE PREFERRED EMBODIMENT Turning now to the drawings, there is shown in FIG. 1 a pressurizer 10 for a nuclear steam supply system comprising a carbon steel pressure vessel 1 having, at its upper end, a manway 3 and a spray system 5. A surge outlet 7 and a plurality of electric immersion heaters 9 are disposed at the lower end of pressure vessel 1. Immersion heaters 9 are supported within tubular nickel alloy heater sleeves 11 which penetrate pressure vessel 1 and are sealed thereto. An annular bushing 13 is welded to the outside of each heater sleeve 11 and threadedly engages a locking collar 15 which serves to retain the associated heater 9 against the internal pressure of pressurizer 10. The sealing device of the present invention includes a hollow carbon steel cylinder 17 best seen in FIG. 3. Cylinder 17 has an external diameter substantially equal to the internal diameter of heater sleeves 11 and a length exceeding the length thereof. A tapered nose portion 17a of cylinder 17 is divided, by axially extending slots 19, into a number of radially displaceable segments 21 each of which includes an outwardly extending flange 21a proximate its distal end. An annular band 23 of a soft nickel alloy is formed on the external surface of cylinder 17. In the event that a leak develops in one of heaters 9 or heater sleeves 11, the affected heater 9 is removed and replaced with a cylinder 17. It will be appreciated that, as cylinder 17 is inserted into heater sleeve 11, engagement between the inner surface of heater sleeve 11 and tapered nose portion 17a of cylinder 17 results in a radially inward displacement of segments 21 such that nose portion 17a is enabled to pass therethrough. As nose portion 17a emerges from heater sleeve 11 into the interior of pressure vessel 1, segments 21 reassume their unstressed positions whereat outwardly extending flanges 21a engage heater sleeve 11 as seen in FIG. 2. This engagement restrains cylinder 17 against ejection by the steam pressure within pressure vessel 1. With cylinder 17 in position, a solid, nickel alloy, cylindrical rod 25 is inserted into the interior thereof. Rod 25 has a smooth diameter substantially equal to the internal diameter of cylinder 17 and a length exceeding the length thereof. A slightly tapered nose portion 25a is provided to facilitate insertion into cylinder 17. Rod 25 serves to seal the passage through cylinder 17 and to lock segments 21 into their sleeve-engaging position. It will, further, be appreciated that rod 25 urges cylinder 17 against heater sleeve 11 to provide an interference seal therebetween. In particular, soft nickel band 23 is compressed between heater sleeve 11 and cylinder 17 to comprise a further seal therebetween. Advantageously, band 23 is disposed at the point where cylinder 17 passes through pressure vessel 1, whereby the pressure vessel wall provides additional stiffening and support to heater sleeve 11. Before replacement of locking collar 15, which is removed to provide access to heater 9, cylinder 17 is welded to heater sleeve 11 and rod 25 is welded to cylinder 17. It is to be noted that the present sealing device will resist being ejected and will maintain an effective seal even in the event of a full circumferential failure of the portion of the heater sleeve 11 external to the pressure vessel 1.