receprecating mud pump in portuguese pricelist
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There are three types of mud pumps, depending on the type of client and the size they want. For general, mud pumps, there are three basic types of mud pumps, depending on the type of client and budget. The piston pump is another compressed mud pump, which is a pushed electric compressor mud pumps and by compressed air.@@@@@
Electric mud pumps are largely divided into three categories, among them the electric mud pumps and the semi-trash mud pumps. The piston inflated mud pumps are also classified in terms of the type of mud pumps, among them are electric mud pumps and semi-trash mud pumps. In addition, the piston inflates mud and mud pumps will be inflated by the piston, which is inflated mud pumps.
Ramnath Industrial Park, Rajkot Ramnath Industrial Park, Kothariya Ring Road, Beside Murlidhar Way Bridge Aaji dem, Near Ramvan, Ramnath Industrial Park, Rajkot - 360002, Dist. Rajkot, Gujarat
Amraiwadi, Ahmedabad No. 16, Bankar Estate, Near Anup Estate, Behind Bharat Party Plot National Highway No. 8, Amraiwadi, Amraiwadi, Ahmedabad - 380026, Dist. Ahmedabad, Gujarat
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Duplex mud pumps (two piston/plungers) have generally been replaced by the triplex pump, but are still common in developing countries.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.
The NOV FC-1600 Triplex Mud Pump is made of rugged Fabriform construction and designed for optimum performance under extreme drilling conditions. It is compact and occupies less space, yet delivers unequaled performance. The pumps are backed by several decades of design and manufacturing experience, and are considered leaders in the field.
NOV FC-1600 Triplex Mud Pump is conservatively rated at relatively low rpm. This reduces the number of load reversals in heavily stressed components and increases the life of the fluid end parts through conservative speeds and valve operation.
The NOV FC-1600 Triplex Mud Pump design provides an inherently balanced assembly. No additional counterbalancing is required for smooth operation. No inertia forces are transmitted to the pumps’ mountings.
A Triplex Mud Pump sometimes referred to as a drilling mud pump or mud drilling pump. NOV FC-1600 Triplex Mud Pump is a reciprocating piston/plunger pump designed to circulate drilling fluid under high pressure (up to 7,500 psi) down the drill string and back up the annulus. A mud pump is an important part of the equipment used for oil well drilling.
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.
We have designed affordable annual subscription plans which would help you get leads for your business. You can have a look at our pricing chart by clicking on this link: https://www.energydais.com/pricing/ . These plans are customized according to the specific needs and requirements of your business.
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.
Yes. We use third-party companies to provide best quotations for your shipment and inspection of manufactured goods. We make sure that you get quality products from the manufacturer at the best price.
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.
A mud pump (sometimes referred to as a mud drilling pump or drilling mud pump), is a reciprocating piston/plunger pump designed to circulate drilling fluid under high pressure (up to 7,500 psi or 52,000 kPa) down the drill string and back up the annulus. A mud pump is an important part of the equipment used for oil well drilling and manufactured according to API specification 7K.
The advantages of the drilling mud pump include the ability to move high-solids-content fluids laden with abrasives, the ability to pump large particles, ease of operation and maintenance, reliability, and the ability to operate over a wide range of pressures and flow rates by changing the diameter of pump liners and pistons.
The fluid end includes cylinders (module), valve assembly, cylinder liners, piston assembly, suction manifold, discharge manifold, piston rod, pulsation dampener assembly, etc.
As an important equipment for oilfield drilling operation, a drilling mud pump delivers circulating high-pressure drilling fluid or drilling mud to the bottom of the oil well, flushes the bottom of the well, breaks the rock, cools, lubricates and clean the drill bit, and carries the cuttings back to the ground.
The drilling mud is also used to suspend and carry out drill cuttings from the drill bits as it is brought in and out of the hole. This ensures that the drill bit does not clog and overheat, and makes the entire drilling operation smooth and safe.
Rotational power is supplied to the mud pump through an external power source like a diesel engine or electric motor. The power end of the mud pump converts the rotational energy through a crankshaft to a reciprocating motion of pistons.
The pistons move back and forth in mud pump liners, exerting a force on the cylinder chamber. During the retraction of the piston, valves open to allow the fluid to be drawn into the cylinder. Once the piston has fully retracted, it is pushed back into the cylinder.
At this time the intake valves are closed and the exhaust valves open, allowing the piston to force the fluid out of the cylinder under pressure. Once the piston reaches its maximum depth into the cylinder, the exhaust valves close and the process repeats.
For Fluid End: piston rod clamp, piston rod, piston assembly, cylinder cover, liner, liner flange, wear plate, cylinder, valve assembly, valve cover, valve guide, flashboard assy., cylinder cover flange, cylinder head, gaskets, studs, nuts, seal rings, pulsation dampener, bladder, discharge manifold, suction manifold, etc.
Crosshead: A system which creates linear reciprocating motion derived from the crankshaft’s rotary motion through the connecting rod. The reciprocating motion of the crosshead is applied to the piston via the extension rod.
A crosshead is a mechanism used in large reciprocating engines to eliminate sideways pressure on the piston. The crosshead of mud pump produced by our company is made of high quality wear resistant with special techniques. It features little deformation, higher precision and very little tolerance.
The crosshead is the critical part on the power end of the mud pump. It slides in the upper and lower guide plates, motivating the intermediate draw bar to deliver driving force to the hydraulic end. One of its ends fixes the intermediate draw bar. The cavity connects the small end of the connecting rod through cross head pin.
The material of the crosshead is nodular cast iron with the strength of extension of more than 600MPa, which ensures high intensity and abrasive resistance.
Crosshead has high accuracy and precious dimension and no deformation. Besides F-500 mud pump that is cylindrical structure, upper and lower guide structures are used for other mud pumps, so that the concentricity can be adjusted by adding space under the lower guide. Flange-bolts with pinhole fit are used for connecting crosshead to extension rod.
A: First we discuss order details, production details. Then we issue you an PI for your confirmation. You will be requested to do pr-e paid full payment or deposit before we go into production. After we get the deposit, we start to process the order. We usually need 15-25 days if we don"t have the items in stock. Before production has been finished, we will contact you for shipment details, and the balance payment. After payment has been settled, we start to prepare the shipment for you.
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3NB Triplex and quintuplex piston reciprocating pump are mainly used in oil delivery, oil receiving, circulation mud, slim hole shallow well drilling, etc. This series of mud pumps is easy in operation and maintenance and reliable with the good absorbing property. It can directly absorb from the ground and pools (like mud pool and pool) below 2 meters with absorbing pipe below 4M under the elevation of 1000 meters without poured into, with natural absorption efficiency >95%.
It can also apply to other high-pressure liquid transportation with self-absorb. Cylinder material: alloy steel, stainless steel, duplex steel or aluminum bronze; cylinder liner material: bi-metal or ceramic; piston material: rubber or polyurethane; suction /discharge valve adopt API standard valve, ball valve, plate valve, cone valve, etc.
The pump can be reversed, and the liquid flow direction is changed by the rotation direction of the pump, which is suitable for the occasion where the pipeline needs to be reversely flushed.
3NB500 Series Mud Pumps are mainly used for oil, water well, geothermy, CBM, shale gas, coalfield exploration, freezing well as well as well other drilling ,well cementation, work-over and other operations in industrial and mining enterprises. It is used for transferring mud, clay gum, mortar and other medium to the borehole. The pump adopts international advanced technology. It is characterized by advanced structure, reliable operation, good suction performance, long service life of wearing parts, easy for maintenance and repairing and so on.
Using a total scientific good quality management process, superior high quality and excellent faith, we get great name and occupied this field for Crosshead For Mud Pump, mounted Ball Valve, Brass Female Medical Gas Ball Valve, Air Pressure Reducing Valve,Small Brass Piston Ring. We sincerely welcome pals to negotiate enterprise and start cooperation. We hope to join hands with pals in different industries to produce a outstanding foreseeable future. The product will supply to all over the world, such as Europe, America, Australia,Macedonia, Munich,Southampton, Niger.We have the best products and professional sales and technical team.With the development of our company, we are able to provide customers best products, good technical support, perfect after-sales service.
A mud pump is a reciprocating piston or plunger device designed to pump drilling fluid under high pressures and volumes down the drill string of a drilling rig. The main functions of drilling fluid are to provide hydrostatic pressure to prevent formation fluids from entering and to stabilize the bore, to keep the drill bit cool and clean, to carry drill cuttings back out to the surface, and to suspend the drill cuttings while drilling is paused or during the pullback process.
Mud pumps consist of two main sub-assemblies- the fluid end and the power end. The fluid end performs the pumping process with valves, pistons, and liners, or plungers and stuffing boxes- depending upon the type used. These components are considered expendables, and are designed to be easily replaced in the field. The power end contains the eccentric or crankshaft, along with the connecting rods, and cross heads/slides.
Tulsa Triplex is a Tulsa Rig Iron company. We manufacture pumps from 100 to 600 horsepower that are designed to be easily maintained and are capable of being completely rebuilt. Our pumps feature a smaller footprint and lighter weight than competing models, making them completely legal load size and weight in most instances. They are available as a bare pump, with chainbox, or a complete skidded package.
There are a lot of people who use the terms piston and plunger pump interchangeably. Granted, they are both positive displacement pumps and there are similarities, but their subtle differences are kind of a big deal when it comes to an operator’s desired performance, price, and pump longevity.
Plunger pumps have a reciprocating plunger (a type of rod). When it moves back and forth, it sucks liquid in through an inlet valve and forces it out the outlet valve. Plunger pumps have a stationary, high-pressure seal that is attached to the cylinder housing of the pump.
Piston pumps also have a reciprocating rod called a piston that moves back and forth to force liquid through a set of valves. Unlike a plunger pump, however, a piston pump’s seal is connected to the piston, meaning it moves in unison with the piston inside the cylinder housing.
From an engineering standpoint, it’s easy to understand that the main difference between piston and plunger pumps is the placement of the seals or O-rings. Again, the plunger pump’s seal is stationary while the piston pump’s seal moves with the piston.
When a reciprocating rod goes back and forth within either a piston or plunger pump, you have to seal it against the cavity wall so that it doesn’t lose compression. Because the seals of a plunger pump are not attached to a rod, it allows for less friction and higher pressure output. When the seal is connected to the moving part, as with a piston pump, the dynamic sliding action occurs along the walls of the housing, resulting in less pressure.
Here’s why. When a piston pump pushes a rod with an attached seal forward, you get friction that pushes back against the seal. Friction makes the seal want to react in the opposite direction of the motion, making the pump have to work harder to achieve more pressure.
A plunger pump has a smoother sliding action. Translation: less friction. In a plunger pump where the reciprocating rod doesn’t have an attached seal, the friction is in the same direction as the movement of the plunger. But the pressure is in the opposite direction, meaning they help to cancel each other out to some degree. Reduced friction means the motor doesn’t need to work as hard to achieve higher pressures.
Design for Manufacturability (DfM) comes into play when determining the durability of a pump’s design, especially in regards to which materials can be used where.
The material makeup of a pump’s housing and the reciprocating plunger or piston will have the greatest impact. In general, you want the component that has the greatest potential for wear to be as hard as possible to avoid scratches and a broken seal.
Common materials used in the pump industry include anodized aluminum, stainless steel, and brass. But the hardest available material used in some pump designs is ceramic. It doesn’t wear out over time like most metals, plus it has great chemical compatibility. It can be polished to a very consistent and smooth surface finish which is perfect for creating a tight seal.
The only problem is that ceramic has very strong compression strength and poor tensile strength. Strong compression will resist being pushed against whereas strong tensile properties resist being pulled apart or bent. It’s similar to concrete which is extremely strong, but try to bend it and it will crack.
Why does this matter? In a plunger pump, it’s the plunger that needs to seal against the cavity wall, meaning it should be the hardest material possible. In a piston pump, it’s the cavity walls that need to seal against the rod with the O-ring, meaning the cavity wall needs to be as strong as possible.
However, engineering and fabricating a thin, tube-like cavity wall out of ceramic or other material and making the inside of it perfectly smooth and consistent is a much greater challenge than fabricating the exterior of a perfectly smooth plunger out of those same materials. Even if it were possible to make the internal housing walls out of ceramic, its poor tensile strength would quickly lead to cracking and pump failure.
In other words, it’s much easier to make the plunger out of hard materials than it is to make the housing out of those same materials. As a result, plunger pumps can be engineered to be much more durable than piston pumps.
Many piston pumps require an oil bath. Some versions also have a second oil reservoir or oil pan with a wick to lubricate the backside of the piston seal. These reservoirs need to be refilled and maintained if you want to keep the pump operating as it should.
Many plunger pumps, like those manufactured by Pumptec, have oil that is contained in a sealed chamber and do not require draining or refilling of any oil reservoirs.
The more parts you have, the more maintenance is required. Plunger pumps have a relatively simple design, fewer parts, and require much less maintenance than piston pumps. Simply put, there’s less that can go wrong with a plunger pump.
What else results from fewer parts and a simpler design? Lower cost. Plunger pumps, in general, can have considerably lower up-front costs than piston pumps when comparing similar performance. Their total cost of ownership is typically less, too, especially when you factor in maintenance, repairs, or replacement over time.
If you haven’t guessed by now, we’re a bit biased toward plunger pumps. Many of the reasons stated here are why our company ventured into the industry in the first place: we saw the need for better durability and performance at a fair price point.
If you’re in the market for high-performance, high-pressure electric commercial pumps for your industry application, get in touch with our team of pump experts. We’re happy to talk through your needs and challenges to determine a solution.
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