Improved Plug Valve

Field of the Invention

The present invention relates to plug valves, and in particular to a plug valve having a safe operating pressure of up to 15000 psi depending on the fluid passing through the valve.

Background of the Invention

Plug valves are typically used in the oil industry for the purpose of controlling flow. Plug valves are required to operate under different conditions of pressure. Typically, the greater the safe operating pressure, the heavier is the construction of the plug valve. For example, a plug valve made of cast or forged steel for example, for operation up to 6000ρsi would typically weigh less than 25kgs, whereas a plug valve made from the same material for operation at pressures up to lOOOOpsi would typically weigh between 40 and 50kgs.

A number of countries have either recently introduced, or intend to introduce legislation relating to health and safety in the work place which prescribes a limit on the weight of an ob _j ect that a person is permitted to lift, this limit varying slightly from country to country, but generally being not more than 25 kgs.

Whilst plug valves weighing more than 25 kgs may be lifted by more than one person, such that each person lifts not more than 25kgs, this is generally undesirable, as two people are required when otherwise one person would be able to complete the task, and further additional equipment may be required to facilitate two people lifting such an object.

It is therefore desirable that a plug valve should be of such a weight that it may be lifted by a single person.

As mentioned above, some plug valves do weigh less than 25 kgs. Such a plug valve is shown in cross-section in Figure 1. However, such a plug valve only has a safe operating pressure of up to 6000 psi. There is a need for a plug valve which weighs not more than 25kgs and is capable of operating at pressures greater than 6000 psi. In particular, there is a need for a plug valve which weighs not more than 25 kgs and is capable of operating at pressures exceeding 6000 psi, for example a plug valve weighing not more than 25 kgs which is capable of operating at pressures in the region of 15000 psi, depending on the fluid being transported through the plug valve.

Other examples of plug valves known in the art are described in the US patent application published under number 2003/0151016 and US patent no 2986374.

A plug valve which may be operated by a low turning torque is described in the UK patent application published under number 2298024.

The present invention seeks to provide a plug valve of relatively low weight compared to existing plug valves which is capable of operating safely at high pressures.

Summary of the Invention

According to one aspect of the invention there is provided a plug valve as specified in Claim 1.

According to another aspect of the invention there is provided a method of controlling the flow of fluid in a pipe line as specified in Claim 10.

The plug valve of the invention has a safe operating pressure of 15000 psi, yet does not weigh more than 25 kgs. The ability of the plug valve of the invention to withstand pressures significantly greater than that which the plug valve illustrated in Figure 1 may withstand is derived

from the provision of the ring in the housing forging. In addition to strengthening the housing forging the ring prevents upward movement of the seals.

Where the plug valve is deployed in a pipeline which is used to transport sour crude oil or sour gas, i.e. crude oil and gas containing hydrogen sulphide (H2S) the pressure rating of the whole pipeline is reduced due to the tendency of hydrogen sulphide to induce stress cracking in steel. Hence, a plug valve having a pressure rating of 15000 psi for fluids which are not regarded as capable of producing hydrogen sulphide conditions, might have a pressure rating of only 10000 psi in a pipeline operating in hydrogen sulphide conditions.

Brief Description of the Drawings:

In the drawings, which illustrate plug valves of both the prior art and the present invention, and are by way of example:

Figure 1 is a cross-sectional elevation of a plug valve of the prior art having a safe operating pressure of 6000 psi and weight of not more than 25kgs;

Figure 2 is a cross-sectional elevation of a plug valve of the prior art having a safe operating pressure of 15000 psi and a weight of 41.5kgs; and

Figure 3 is a cross-sectional elevation of a plug valve according to the present invention having a safe operating pressure of 15000 psi and a weight of not more than 25kgs.

Detailed Description of the Drawings

Referring now to Figure 1, there is shown a plug valve of the prior art having a maximum safe operating pressure of 6000ρsi. The plug valve comprises a housing 1 having a through bore Ia, and mounted in the housing a plug 2 having an orifice 2a extending therethrough. The plug 2 includes a shaft 2b which extends through a aperture 3a in a cap 3. The cap 3 is secured to the

housing 1 by screw threads and serves to hold the plug 2 and hence seals 7 in place. Using the handle 4, which is removably attachable to the shaft 2b, the plug 2 is turned through 90 degrees to either align axially the bore Ia with the orifice 2a, thereby permitting flow of fluid through the valve, or to position the axis of the orifice 2a perpendicular to the bore Ia of the housing, preventing flow of fluid through the valve.

The housing 1 is forged in a closed die from steel, although other materials, such as metal alloys could be used. Further, the housing may be cast rather than forged.

Using the same materials, by increasing the physical size and hence the weight of a plug valve of the configuration shown in Figure 1, a safe operating pressure greater than 6000ρsi can be achieved.

To assemble the plug valve illustrated in Figure 1 the plug 2, seals 7 associated therewith and the cap 3 are inserted into the cavity 5 of housing 1 as a single unit. The seals 7 are held in place by pins 10 which are located in holes 11 in the housing 1. The holes 11, in the present example, are formed in the housing 1 by drilling, although they may be formed by any suitable method. The components of the plug valve are retained in place in the housing 1 by the screw thread on the cap 3. With the cap 3 in place, the handle 4 is attached to the shaft 2b and held in place by a stop nut 13. The plug valve 1 is lubricated by attaching a grease gun to a grease fitting 12, grease so introduced passing through a bore 14.

Referring now to Figure 3, the plug valve of the invention is made of the same material as that illustrated in Figure 1. The plug valve comprises a housing 1 having a through bore Ia, and mounted in the housing a plug 2 also having a through bore 2a. The plug 2 includes a shaft 2b which extends through a aperture 3a in a cap 3. The cap 3 is secured to the housing 1 by screw threads. Using the handle 4, which is removably attachable to the shaft 2b, the plug 2 is turned through 90 degrees to either align axially the bores Ia and 2a or to position the axis of the bore 2a perpendicular

to the bore Ia of the housing using the handle 4. The improvement arises from the inclusion of a collar 6 extending around the inner surface of the cavity 5 in which the plug is located.

To assemble the plug valve illustrated in Figure 2 pins 10 are inserted into holes 11, which are formed in the housing at an angle to the axis of the plug 2 either by drilling or another alternative manufacturing method. The seals 7 are then inserted into the part 5a of the cavity 5 such that the top of each seal 7 sits under the collar 6. The plug 2, the cap 3 are inserted into the cavity 5 of housing 1 and the cap 3 turned to screw it into a position in which it prevents upward movement of the plug 2 in the cavity 5. With the cap 3 in place, the handle 4 is attached to the shaft 2b and held in place by a stop nut 13. The plug valve 1 is lubricated by attaching a grease gun to a grease fitting 12, grease so introduced passing through a bore 14.

The inclusion of the collar 6 provides a number of means of strengthening the housing 1. The collar itself, by virtue of its shape and the increased amount of material in that part of the housing, increases the strength of the housing. By including the collar 6 it is not possible to insert the plug, seals associated therewith, the cap and its associated handle into the housing as a single unit. Instead, the seals 7 must first be placed in the housing, followed by the plug 2 and cap 3. The seals 7 are held in place by the combination of the lower surface of the collar 6 and the outer surface of the plug 2, whereas in the prior art the seals are held in place by a combination of the outer surface of the plug and the lower surface of the cap 3, the plug being held in position by the cap 3 and the screw thread between the cap 3 and the housing 1. Further, the requirement to the amount of material in the region of the housing marked 8 is increased compared to the same region of the housing illustrated in Figure 1, further strengthening the housing.

Whilst it is known to strengthen the housing of plug valve of the type illustrated in Figure 1 with an external reinforcement, such an amendment in configuration increases the weight of the whole assembly above that which is acceptable.

Also, it is known to fabricate a plug valve the housing of which includes a lip projecting inwardly of the housing, as exemplified in the patent application published under number GB2298024. However, in this patent application relates to a tapered plug and the seals are held in place by locking members in the form of depressions machined into the inner surface of the cavity in which the plug sits.

The housing of the plug valve of the invention and illustrated in Figure 2 is formed from forging and uses the same material as used in the plug valve illustrated in Figure 1. The increased strength of the plug valve of the invention over that illustrated in Figure 1 stems from its shape and configuration. The inclusion of the collar, in addition to increasing the strength of the housing removes the need for the retaining member to engage with the upper surfaces of the seals, and therefore the thickness of the housing where the retaining member attaches thereto can be increased again increasing the strength of the housing. Still further, the configuration of the invention provides for the retaining member to contact the plug at two spaced apart locations, those being around the perimeter of the plug and around the perimeter of the shaft extending from the plug, whereas in the prior art the retaining member contacts the plug only around the perimeter of the shaft.

Providing a plug valve with little increase in weight (weighing not more than 25 kgs), yet having double the safe operating pressure capability (up to 15000 psi for the configuration illustrated when transporting a fluid which does not produce hydrogen sulphide conditions) represents a major advance in the field of plug valves.

The invention provides a plug valve which is weight for weight stronger than plug valves of the prior art. Hence the principle of shape and configuration of the invention may be applied to provide a larger bore for the same operating pressure as a plug valve of the prior art. Further, the shape and configuration may be scaled up or down to provide larger and heavier, or smaller and lighter plug valves having commensurately greater or smaller safe operating pressures.

Figure 2 illustrates another plug valve of the prior art which has a safe operating pressure equal to that provided by the plug valve of the invention. This plug valve weighs 41.5 kgs rather than 25 kgs. One skilled in the art will readily comprehend the relative massive construction of the plug valve of Figure 2 compared to that of the invention.