centerline mud pump free sample

Centerline Manufacturing is committed to the highest level of customer service quality.  Every Centerline pump is comprehensively and repeatedly tested at diverse pressure levels to assure that it goes to our customer in perfect operational order. Centerline technicians work to ensure that our customers fully understand the operation of the model being delivered.  If a customer"s pump is down, we understand the importance of timely response and parts availability.  Centerline technicians will assess the problem and make repairs to bring the pump back into new specification. The Centerline mud pump technicians are well versed and qualified to operate and repair any product that is provided to the customer.

It’s time for piston mud pumps to enter the 21st century. Centerline Mud Pumps utilize common, industry-proven, and easily obtained fluid end parts. Designed to give you better flow capacity, pressure, size and weight advantages, that you won’t find anywhere else. Centerline Mud Pumps are built to exceed the most demanding specifications in the industry. These pumps are built to last.

Centerline Manufacturing is pleased to introduce their line of hydraulic drive mud pumps. Since 1983, Centerline Manufacturing has been involved in the design, manufacture, and production of drilling equipment, support equipment, and tooling for the water well industry. Our line of mud pumps include several new milestone technologies not found anywhere else in the industry.

Provides 150-180* GPM (Gallon Per Minute) of standard mud flow at 350 psi continuous. The 180 GPM is a provisional condition that requires the mud pressure to be below 275 psi and the hydraulic oil temperature below 165 degrees F.

Provides 300-360* GPM (Gallon Per Minute) of standard mud flow at 350 psi Continuous.  The 360 GPM is a provisional condition that requires the mud pressure to be below 275 psi and the hydraulic oil temperature below 165 degrees F.

Provides 450-540* GPM (Gallon per Minute) of standard mud flow ar 350 psi Continuous.  The 540 GPM is a provisional condition that requires the mud pressure to be below 275 psi and the hydraulic oil temperature below 165 degrees F.

Centerline Manufacturing has been involved in the design, manufacture and production of drilling equipment and tooling for the water well industry. I have had the pleasure of knowing and working with Cory Miller of Centerline Manufacturing over the past 15 years. As the Senior Design Engineer for Ingersoll-Rand’s Deephole Drilling Business Unit, I had the distinct pleasure to work with Cory and integrate his Centerline Mud Pump into our drilling rig platforms. I am recommending Cory for this award and recognition because after decades in this business, I have not seen such an innovative design become a reality and commercialized such as the Centerline Mud Pump.

The true innovation is providing well drillers a size and weight solution for their mud pump requirements. Centerline Mud Pumps integrate into both existing and new drilling rigs. Regardless of drill rig manufacture and hydraulic system design, Centerline provides mud pump integration on hundreds of customer’s drilling rigs. Both Mono Cylinder and Duplex Cylinder Pumps can fit nicely on the deck, across the frame or even under deck mounting configurations. This would not be possible with conventional mud pump designs.

The design features of the Centerline Mud Pump include a matched displacement ratio between the mud pump cylinder and the hydraulic drive cylinder. This is critical to the constant and smooth transition of movement back and forth.  It provides a steady discharge flow of mud.

What I dignifies Cory Miller and points to his character? It is how Centerline stuck with their original design through all of the typical trials and tribulations that come with a new product integration. The first several years were challenging. Cory found out that even the best quality hydraulic cylinders and valves and seals were not good enough quality. He then set off on an endeavor to bring everything in house. He began manufacturing all of his own components including hydraulic valves. This gave him complete control over the quality of very component that goes into the Centerline Mud Pump and the finished product.

By the late 90’s, Ingersoll-Rand had tried several times to develop a hydraulic driven mud pump. The goal was to create a mud pump that would last an acceptable life and duty cycle for well drilling contractors. With all of our resources and design wisdom, we were unable to solve this problem. Not only did Cory Miller provide a solution, thus saving the size and weight of a typical gear driven mud pump, he also provided a new offering of a mono cylinder mud pump. This double acting piston pump provided as much mud flow and pressure as a standard 5 X 6 duplex pump. It also came with an incredible size and weight savings.

The second generation design for the Centerline Mud Pump is coming out later in 2018. It will be a true game changer for this industry. It also will open up the application into many other industries that require a heavier duty cycle for a piston pump application.

Discharge Head: This is the vertical distance that you are able to pump liquid. For example, if your pump is rated for a maximum head of 18 feet, this does not mean that you are restricted to 18 feet of pipe. You can use 300 feet, so long as the final discharge point is not higher than 18 feet above the liquid being pumped.

Suction Lift: This is the vertical distance that the pump can be above the liquid source. Typically, atmospheric pressure limits vertical suction lift of pumps to 25 feet at sea level. This does not mean that you are limited to 25 feet of pipe. You could use upwards of 300 feet of suction pipe, so long as the liquid source is not lower than 25 feet below the pump center line.

Save time and effort swiftly sliding the innovative centerline head side shift into position for rotary, automatic drop hammer, event CPT or direct push. No need to move the geotechnical drill or drill mast on the compact, off road drill rig.

With the necessary tophead rotation speed, head feed speed, and plenty of mud pump options to get the job done, complete your water well drilling, geothermal drilling, and cathodic protection drilling jobs with a single, compact water well drill.

Outfit as down the hole drill or mud drill with the power of 28.5-foot stroke, 40,000 lb pullback, and 8,000 ft-lb torque to handle deeper wells along with weight of steel casing.

The 2,200-hp mud pump for offshore applications is a single-acting reciprocating triplex mud pump designed for high fluid flow rates, even at low operating speeds, and with a long stroke design. These features reduce the number of load reversals in critical components and increase the life of fluid end parts.

The pump’s critical components are strategically placed to make maintenance and inspection far easier and safer. The two-piece, quick-release piston rod lets you remove the piston without disturbing the liner, minimizing downtime when you’re replacing fluid parts.

But if you’re not testing for plumbness and alignment—and you’re installing municipal, industrial, or irrigation wells with lineshaft turbine pumps—you’re making a big mistake.

If you’re primarily drilling domestic wells or other small-diameter, shallow wells, it’s not likely a small deviation in plumbness or alignment will cause problems. However, on deep wells or wells to be equipped with lineshaft turbine pumps, the plumbness, straightness, and alignment of the well is extremely important to the operation of the pumping equipment.

Plumbness is the horizontal deviation of the well centerline from a true vertical centerline. A well can be straight and not plumb. Alignment refers to horizontal deviation between the actual well centerline and a straight line.

“If a lineshaft turbine pump is out of alignment, it will start to vibrate; the bushings will start to wear,” Hix says. “Then, once they wear too much, the drive shaft starts to wobble and shake. It wears out the pumping equipment too fast.”

Plumbness and alignment may be less of an issue with submersible pumps, but misalignment can cause the pump to lie against one side of the casing, resulting in excessive wear. If the casing is in contact with a hot motor, it can also cause PVC casing to melt or become deformed.

“The pump always goes in easier than it will come out,” Hix says. “When you’re lowering it down, it will glide and follow the casing. But then you lift it up, it will want to go in a straight line. Now, you’re really dragging through the misalignment areas.”

For wells greater than 10 inches in nominal diameter and/or equipped with a lineshaft turbine pump, the National Ground Water Association’s NGWA-01-14 Water Well Construction Standard recommends the maximum allowable horizontal deviation of the well from the vertical not exceed two-thirds times the smaller inside diameter per 100 feet, tested to the depth of the expected pump installation.

Alignment—according to NGWA’s standard—should be such that a 40-foot-long dummy pipe can pass freely through the casing to the depth of the expected pump installation.

Maximum allowable horizontal distance between the actual well centerline and a straight line representing the proposed pump centerline shall not exceed one-half of the difference between the inside diameter of the casing and the desired maximum outside diameter of the proposed pump to be installed.

One simple way to test for alignment is to complete a dummy test. Lower a 40-foot-long pipe into the hole to where the pump is going to be set. If it freely goes to that point and you can pull it back out again, the well passes.

The results will tell you how large the diameter of the pump can be and how deep you can set the pump without bending. So, if the well owner would want to install a larger-diameter pump or set the pump deeper, the information will be available.

“What if in 10 to 20 years they want to set the pump lower?” Renner says. “If the bottom of the well is crooked, they’ll have a problem. You’d have to tell the owner the pump they just spent $50,000 for can’t go in the hole.”

That’s why Hix recommends contractors complete plumbness and alignment tests—particularly for wells with lineshaft turbine pumps—even if it’s not required for acceptance. He compares it to doing a video log of a well to preserve what it looked like at completion. You’ll always have the plumbness and verification results in your files in case something comes up down the road.

I’ve run into several instances of insufficient suction stabilization on rigs where a “standpipe” is installed off the suction manifold. The thought behind this design was to create a gas-over-fluid column for the reciprocating pump and eliminate cavitation.

When the standpipe is installed on the suction manifold’s deadhead side, there’s little opportunity to get fluid into all the cylinders to prevent cavitation. Also, the reciprocating pump and charge pump are not isolated.

The suction stabilizer’s compressible feature is designed to absorb the negative energies and promote smooth fluid flow. As a result, pump isolation is achieved between the charge pump and the reciprocating pump.

The isolation eliminates pump chatter, and because the reciprocating pump’s negative energies never reach the charge pump, the pump’s expendable life is extended.

Investing in suction stabilizers will ensure your pumps operate consistently and efficiently. They can also prevent most challenges related to pressure surges or pulsations in the most difficult piping environments.

Created specifically for drilling equipment inspectors and others in the oil and gas industry, the Oil Rig Mud Pump Inspection app allows you to easily document the status and safety of your oil rigs using just a mobile device. Quickly resolve any damage or needed maintenance with photos and GPS locations and sync to the cloud for easy access. The app is completely customizable to fit your inspection needs and works even without an internet signal.Try Template