mud pump valve body quotes quotation

Delian valve and seat are made of forged alloy steel with deep carburized wear surface. We offer a full range of valves and seats which include full open valve and seat, 3 web / 4 web design valve and seat.

The valve comes with full open seat features four guide wings. They are either inertia welded to the valve body or uniformly forged with valve body. The urethane insert can be easily snapped on.

Mud Pump Valve & Seat are made of premium alloy steel through one-piece forging and carburizing treatment processes, thereby ensuring high intensity. In addition, the precise calculation is performed and CNC machining is conducted for the dimensional matching of the valve seat and valve body working angles to enhance the service life of the valve body and valve seat. Our valve products are able to work smoothly in normal mining and digging conditions for over 400 hours.

Also known as Nova Tech Valve or Roughneck Valve or High Pressure Valve. Full open Seat & wing guided Valve design features a large metal-to-metal bearing area for long life, directly casted urethane insert on valve body results in a perfect round shape that prevents premature failures of the insert. The insert is casted around the serrations, thus failure due to tears from the serrations are eliminated Most importantly the insert is not stretched over the valve during installation; there are no residual stresses left, to shorten insert life.

Mystique Mud pump Coolant and Lubricant extends mud pump liner and piston life and provides internal lubrication and extra cooling to the coolant system of mud pumps. It extends the life of all liners, even ceramic. Mystique will not cause corrosion or rusting of iron, and is safe with all alloys. Recommened dilution rate of 12.5%. (25 gallons will treat a 200-gallon system.) For use on closed systems.

Mud pump valve seats are used in on-shore and offshore oil and gas drilling operations and in pumps used in land-based fracking operations. Valves used in these types of pumping equipment operate at a very high frequency – up to one hertz (one cycle per second) – and are prone to high wear and degradation from hysteresis. Parker’s premium grade valve seats feature our Resilon® Polyurethane which has a high modulus of elasticity to successfully withstand high frequency operation and resist hysteresis.

Where typical urethane valves may last up to 400 hours, our proven valve seat designs with Resilon Polyurethane have lasted up to 800 hours (400 hours longer) – greatly improving drilling productivity through longer life. Longer valve seat life means maintenance intervals can be extended and production jobs can be completed before service is required.

For the successful execution of your projects, it is important to find an appropriate company with a good track record. We help you in connecting with the top mud pump manufacturers and companies and get the best quotation.

The most widely used mud pumps across the industry are Triplex Reciprocating Pumps. Their application has gained immense popularity with time because they are 30% lighter than duplex reciprocating pumps with relatively less operational cost. Moreover, through these pumps the discharge of mud is smooth and they are capable of moving large volume of mud at higher pressure.

Yes. We help you find the best mud pumps irrespective of your location. We simplify your search by connecting you with top mud pump manufacturers and mud pump companies in your location, according to your budget and business requirement.

The most widely used mud pumps across the industry are Triplex Reciprocating Pumps. Their application has gained immense popularity with time because they are 30% lighter than duplex reciprocating pumps with relatively less operational cost. Moreover, through these pumps the discharge of mud is smooth and they are capable of moving large volume of mud at higher pressure.

The different parts of a mud pump are Housing itself, Liner with packing, Cover plus packing, Piston and piston rod, Suction valve and discharge valve with their seats, Stuffing box (only in double-acting pumps), Gland (only in double-acting pumps), and Pulsation dampener. A mud pump also includes mud pump liner, mud pump piston, modules, hydraulic seat pullers along with other parts.

The wearing parts of a mud pump should be checked frequently for repairing needs or replacement. The wearing parts include pump casing, bearings, impeller, piston, liner, etc. Advanced anti-wear measures should be taken up to enhance the service life of the wearing parts. This can effectively bring down the project costs and improve production efficiency.

The oil and gas industry is cyclical, dependent on the stock market’s energy, natural resources and oil barrel trading and pricing. However, the COVID-19 pandemic caught the industry by surprise, creating new challenges. The emphasis on the importance of total cost of ownership has come into scrutiny with more glaring awareness when selecting valves for oil and gas projects, as well as for maintenance replacement in plant facilities.

End users frequently make the mistake of focusing solely on the current product’s price without planning for the potential loss of maintenance programs or lack of funding for frequent replacement of leaking valves due to misapplication in the field.

The following are some of the questions that should be answered first in the critical-thinking stages for long-term project management planning when deciding between a two-piece or three-piece ball valve at a chemical processing facility:

Next, weigh the pros and cons of each design using the current budget versus the long-term estimated costs of maintenance when deciding on whether a two-piece or three-piece design is the right choice for the application. To equate the TCO, determine what the true costs would be for a potential emergency versus scheduled shutdowns to replace leaking valves. Taking into account the pros and cons of each design by comparison (Image 1) will provide further insight into the TCO in valve selection and what will be the right choice to reduce operation, maintenance and sustainability costs.

As the valve quotation process plays one of the biggest roles in valve selection, thus affecting TCO, the best course of action the end user can take is to provide the distributor and/or manufacturer with accurate, detailed technical data. The technical data is crucial for accurate valve quoting and should include the type of valve, pressure class, size, type of ends, material for the body, trim, ball, seat, seals of the valve, the bore-port and the valve design.

An example of an outdated technical data sheet influencing the valve quoting process is an inquiry for a “fire safe ball valve that is fire tested to API 607 (no graphite allowed).” Without graphite, the ball valve cannot pass a fire test, nor can the valve be considered fire safe. Upon review of the submitted technical data sheets, last revised in 1964, the discrepancy was highlighted for the end user.

Another quoting tip is to ensure valve inquiries being quoted through various distribution channels are equivalent to one another in construction of materials and body design. As a 15-year veteran valve specialist in project management advised: “Make sure you are quoting apples to apples.”

When reviewing valve inquiry bids, each valve quotation should include the manufacturer’s part, with a detailed description of the valve, valve pricing and delivery, along with the valve cut sheets for ease of comparison.

When submitting a valve replacement inquiry, especially in an emergency situation, technical information can be gathered from the inline valve, through observance and knowing where to locate the technical data tags and inscriptions on the valve.

The identification tag found on the back of the valve body will provide the needed, in-depth valve specifications for accurate quoting, while confirming the type of valve, temperature and pressure range from observation—as well as the information provided on the front of the valve. For smaller-sized valves, the identification tag can be found on the neck of the valve or flange, dependent on the type of valve end.

Although many valves appear to look alike on the outside, the insides are not. Pay particular attention to the small components of the valve to ensure it will perform well in the application.

There is no such thing as providing too much data. The more data received will culminate in accurate valve quoting. Open communication between the end user, distribution channel and manufacturer will reduce the risk for misquoting, thus decreasing cost of ownership for future production.

Home / PUMP PARTS & KITS / Diaphragm Pump Parts / Sandpiper® 476.314.000 Driller"s Mud Series, HDB 1 1/2,2", HDF 2,3,4", CD 1 1/2", RHDB, RHDF 2" Pump Air Wear Kit

A mud pump is a reciprocating piston/plunger pump designed to circulate drilling fluid under high pressure (up to 7,500 psi (52,000 kPa)) down the drill string and back up the annulus. A duplex mud pump is an important part of the equipment used for oil well drilling.

Duplex mud pumps (two piston/plungers) have generally been replaced by the triplex pump, but are still common in developing countries. Two later developments are the hex pump with six vertical pistons/plungers, and various quintuplex’s with five horizontal piston/plungers. The advantages that Duplex mud pumps have over convention triplex pumps is a lower mud noise which assists with better Measurement while drilling and Logging while drilling decoding.

Use duplex mud pumps to make sure that the circulation of the mud being drilled or the supply of liquid reaches the bottom of the well from the mud cleaning system. Despite being older technology than the triplex mud pump, the duplex mud pumps can use either electricity or diesel, and maintenance is easy due to their binocular floating seals and safety valves.

A mud pump is composed of many parts including mud pump liner, mud pump piston, modules, hydraulic seat pullers, and other parts. Parts of a mud pump:housing itself

Duplex pumps are used to provide a secondary means of fuel transfer in the event of a failure of the primary pump. Each pump in a duplex set is sized to meet the full flow requirements of the system. Pump controllers can be set for any of the following common operating modes:Lead / Lag (Primary / Secondary): The lead (primary) pump is selected by the user and the lag (secondary pump operates when a failure of the primary pump is detected.

Alternating: Operates per Lead / Lag (Primary / Secondary) except that the operating pump and lead / lag status alternate on consecutive starts. A variation is to alternate the pumps based on the operating time (hour meter) of the lead pump.