Method of using a bonnet and stuffing box assembly

That which is claimed is: 1. A method of using a bonnet and stuffing box assembly comprising: providing a stuffing box, a bonnet, a bushing assembly, and a stem, the stuffing box and the bonnet defining an assembly bore, the bushing assembly received in the assembly bore, the bushing assembly defining a bushing bore, and the stem received through the bushing bore; sealing the stem relative to the bushing assembly to prohibit fluid flow through the bushing bore; sealing the bushing assembly relative to the bonnet to prohibit fluid flow through the assembly bore; pressing a stem flange of the stem against the bushing assembly to seat the bushing assembly in the assembly bore; and turning the stem relative to the bushing assembly, bonnet, and stuffing box to actuate a valve; wherein: the bushing assembly comprises a bonnet bushing disposed at least partially within the bonnet and a stuffing box bushing disposed at least partially within the stuffing box; at least a portion of the stuffing box bushing extends beyond a top end of the bonnet; the bonnet bushing defines a first annular indentation at a top end thereof and the stuffing box bushing defines a second annular indentation at a bottom end thereof; the first annular indentation and the second annular indentation together define an annular flange channel extending radially outward from the bushing bore; the stem flange engages the annular flange channel; and turning the stem relative to the bushing assembly comprises rotating the stem flange within the annular flange channel. 2. The method of claim 1 , wherein turning the stem relative to the bushing assembly, bonnet, and stuffing box to actuate the valve comprises engaging an operating nut with a tool and rotating the operating nut with the tool, the operating nut mounted on the stem. 3. The method of claim 1 , wherein the stuffing box bushing defines a stuffing box bushing bore wall, the bonnet bushing defines a bonnet bushing bore wall, and the bonnet bushing bore wall and the stuffing box bushing bore wall together defines the bushing bore. 4. The method of claim 3 , wherein the stuffing box bushing and the bonnet bushing are substantially identical in size and shape. 5. The method of claim 3 , wherein an outer bonnet bushing surface of the bonnet bushing defines a circumferential bonnet bushing groove, a packing received in the bonnet bushing groove, and wherein sealing the bushing assembly relative to the bonnet comprises engaging the packing with a bonnet bore wall of the bonnet. 6. The method of claim 3 , wherein the stem defines a stem groove, a packing received in the stem groove, and wherein sealing the stem relative to the bushing assembly comprises engaging the packing with one of the stuffing box bushing bore wall and the bonnet bushing bore wall. 7. The method of claim 3 , wherein each of the stuffing box bushing bore wall and the bonnet bushing bore wall are precision-machined. 8. The method of claim 1 , further comprising securing the stuffing box to the bonnet with a fastener to retain the bushing assembly within the assembly bore. 9. The method of claim 1 , wherein a lower portion of the stem external to the bushing bore defines threading configured to threadably engage the valve. 10. The method of claim 1 , wherein: the bonnet bushing is at least partially received in a substantially conical bonnet bore portion of the bonnet; and the stuffing box bushing is at least partially received in a substantially conical stuffing box bore portion of the stuffing box. 11. A method of manufacturing a bonnet and stuffing box assembly comprising: casting a bonnet and a stuffing box from a corrosion-resistant material, the bonnet defining a substantially conical bonnet bore portion and the stuffing box defining a substantially conical stuffing box bore portion, the substantially conical bonnet bore portion and the substantially conical stuffing box bore portion together defining an assembly bore; precision-machining a stuffing box bushing bore wall of a stuffing box bushing; precision-machining a bonnet bushing bore wall of a bonnet bushing, the bonnet bushing and stuffing box bushing together defining a bushing assembly, the bonnet bushing bore wall and the stuffing box bushing bore wall together defining a bushing bore; and positioning the bushing assembly within the assembly bore; and securing the stuffing box to the bonnet with a fastener to retain the bushing assembly within the assembly bore; wherein: securing the stuffing box to the bonnet with the fastener comprises tightening the fastener to press a stem flange of a stem down upon the bushing assembly to seat the bushing assembly in the assembly bore; precision-machining the stuffing box bushing bore wall comprises precision-machining a first annular indentation in the stuffing box bushing bore wall; precision-machining the bonnet bushing bore wall comprises precision-machining a second annular indentation in the bonnet bushing bore wall; the first annular indentation and the second annular indentation together define an annular flange channel; and the stem flange engages the annular flange channel. 12. The method of claim 11 , further comprising extending the stem through the bushing bore of the bushing assembly. 13. The method of claim 11 , further comprising positioning a first packing between the bushing assembly and the bonnet to create a seal therebetween. 14. The method of claim 13 , further comprising positioning a second packing between the stem and the bushing assembly to create a seal therebetween. 15. The method of claim 14 , wherein each of the first packing and the second packing is an O-ring. 16. The method of claim 11 , further comprising precision-machining an outer bonnet bushing surface of the bonnet bushing and precision-machining an outer stuffing box bushing surface of the stuffing box bushing. 17. A method of using a bonnet and stuffing box assembly comprising: providing a stuffing box, a bonnet, a bushing assembly, and a stem, the stuffing box and the bonnet defining an assembly bore, the bushing assembly received in the assembly bore, the bushing assembly defining a bushing bore, and the stem received through the bushing bore; sealing the stem relative to the bushing assembly to prohibit fluid flow through the bushing bore; sealing the bushing assembly relative to the bonnet to prohibit fluid flow through the assembly bore; and turning the stem relative to the bushing assembly, bonnet, and stuffing box to actuate a valve; wherein: the bushing assembly comprises a bonnet bushing disposed at least partially within the bonnet and a stuffing box bushing disposed at least partially within the stuffing box; at least a portion of the stuffing box bushing extends beyond a top end of the bonnet; the stuffing box bushing defines a stuffing box bushing bore wall; the bonnet bushing defines a bonnet bushing bore wall; the bonnet bushing bore wall and the stuffing box bushing bore wall together defines the bushing bore; an outer bonnet bushing surface of the bonnet bushing defines a circumferential bonnet bushing groove; a packing received in the bonnet bushing groove; and sealing the bushing assembly relative to the bonnet comprises engaging the packing with a bonnet bore wall of the bonnet. 18. A method of using a bonnet and stuffing box assembly comprising: providing a stuffing box, a bonnet, a bushing assembly, and a stem, the stuffing box and the bonnet defining an assembly bore, the bushing assembly received in the assembly