mud pump stroke counter free sample

Our pump stroke counter systems (CPS101 Series) measure the stroke rate and number of strokes on mud pumps. The oilfield pump stroke system is user-friendly and reliable and is configurable to measure up to three mud pumps at once. Our digital pump stroke counter systems are manufactured here in the U.S. by Crown Oilfield Instrumentation, and Crown’s Pump Stroke Counter provides easy monitoring of strokes per minute on multiple mud pumps. Each mud pumps’s stroke rate can be selected individually and the display is updated regularly for accurate monitoring. LCD displays indicate both pumps strokes per minute and the total number of strokes. Located at the bottom of the panel, push buttons provide easy operation and reseting of each pump. When you need to accurately monitor and maintain the amount of mud being pumped, you can trust Crown’s oilfield stroke counters.

Crown"s One Pump Stroke Counter System monitors and displays strokes per minute and total stokes and has everything you need to monitor one mud pump. Encased in a stainless steel box, the LCD screens are easy to view at a distance, and with buttons mounted on the face place, this system is easy to reset as needed. With a low power, low voltage lithium battery, this system is self-contained and intrinsically safe, with a operational life of 5 years. The Crown One Pump Stroke Counter system is designed to work in the harshest industry conditions and is waterproof and resistant to excessive rig vibrations. With everything ready-to-use right out of the box, this system will get you counting mud pump flow rate quickly and efficiently. Here"s what you"ll get in the one pump stroke counter system:

Made in the US, the Crown One Pump Stroke Counter system is powered by a 3.6 Type D lithium battery, with no external power supply needed. Because it is a self-contained system, the CPS101-2 is intrinsically safe. When the system is not in use it will go into a null state, saving battery power and the life of the LCD screens. Each Screen displays either strokes per minute (0-240 SPM) or total strokes (0-9999).

Crown"s limit switch assembly can be mounted near the mud pump piston with the easy-to-use c-clamp. The stainless steel rod can be bent to reach the piston easily,  making the CPS101-2 one pump stroke counter system mountable in optimal proximity to the pump piston. The cable connecting the limit switch assembly to the stroke counter is made of the most durable materials to give you the best possible stroke counter on the market.

Need more information about our stroke counter systems? Check out our Stroke Counter Page or our Blog. And, if you only need one of the components in this system, give us a call. We"re more than happy to get you exactly what you need.

Explore a wide variety of mud pump stroke counter on Alibaba.com and enjoy exquisite deals. The machines help maintain drilling mud circulation throughout the project. There are many models and brands available, each with outstanding value. These mud pump stroke counter are efficient, durable, and completely waterproof. They are designed to lift water and mud with efficiency without using much energy or taking a lot of space.

The primary advantage of these mud pump stroke counter is that they can raise water from greater depths. With the fast-changing technology, purchase machines that come with the best technology for optimum results. They should be well adapted to the overall configuration of the installation to perform various operations. Hence, quality products are needed for more efficiency and enjoyment of the machines" full life expectancy.

Alibaba.com offers a wide selection of products with innovative features. The products are designed for a wide range of flow rates that differ by brand. They provide cost-effective options catering to different consumer needs. When choosing the right mud pump stroke counter for the drilling project, consider factors such as size, shape, and machine cost. More powerful tools are needed when dealing with large projects such as agriculture or irrigation.

Alibaba.com provides a wide range of mud pump stroke counter to suit different tastes and budgets. The site has a large assortment of products from major suppliers on the market. The products are made of durable materials to avoid corrosion and premature wear during operations. The range of products and brands on the site assures quality and good value for money.

Rig pump output, normally in volume per stroke, of mud pumps on the rig is  one of important figures that we really need to know because we will use pump out put figures to calculate many parameters such as bottom up strokes,  wash out depth, tracking drilling fluid, etc. In this post, you will learn how to calculate pump out put for triplex pump and duplex pump in bothOilfield and Metric Unit.

Uses the real-life example of a highway system to introduce valves and manifolds on a drilling rig. Walks through the definition, function, and importance of the pump, standpipe, and choke manifolds through vibrant animations. Introduces the adjustable choke and briefly goes into its importance in well control operations.

Introduces friction and examines how frictional losses act against any movement along a surface. Identifies Pump Pressure as the pressure needed to overcome the frictional losses throughout the entire system. Lastly, explains how Annular Friction Loss can contribute to bottomhole pressure.

Explains the importance of fluid measurement in detecting problems in the wellbore. Introduces the Pit Level Indicator, used to measure the amount of fluid returning to the mud tanks, the Mud Return Indicator, used to measure the speed of fluid returning to the mud tanks, and the Mud Pump Stroke counter, used to count how many strokes of fluid have been pumped into the well.

Explains the three most important parameters that need to be recorded after shut-in: Shut in Tubing Pressure (SITP), Shut in Casing Pressure (SICP), and Estimated Pit Gain. Walks through the importance of SITP and SICP in understanding Formation Pressure and explains why SITP is generally lower than SICP. Also introduces the procedure involved in recording slow pump rates or slow circulating rates.

The HDI 2100 Pump Stroke Counter is an intrinsically safe, certified, solid-state electronic stroke counter primarily used for monitoring mud pumps. Found most commonly within the HDI 9000 Choke Console System, the HDI 2100 monitors and displays the total accumulated mud pump strokes and the stroke rate of up to 4 individual mud pumps simultaneously. The stroke rate for each mud pump can be individually selected for display and is updated every second. Once installed, there is virtually no maintenance or calibration required. The quartz crystal oscillator provides high precision counts with no drift. The stainless steel case is completely sealed and features stainless steel piezo switches for long life. The entire package is constructed to operate in harsh environments and high vibration conditions encountered in land and offshore drilling. All HDI Gauges provide safety, accuracy, reliability, and low maintenance for the user.

The type of material flowing over the shaker and the timing of its arrival are fundamental to the mud logging process. To characterize the lithology and fluid content of a particular interval, the mud logger must account for the transport velocity of the cuttings to determine the time it takes cuttings to travel from the bit to the shaker. This lag time increases as depth increases, taking just a few minutes while the upper section of a well is drilled but extending to several hours in deeper sections. Lag time, a function of depth and mud pump rate, is usually measured in terms of pump strokes, which are counted by a pump stroke counter at the mud logger"s console.

Inside the logging unit, the mud logger rinses and dries cuttings samples before examining them under a binocular microscope. The mud logger describes each sample in terms of lithology, color, grain size, shape, sorting, porosity, texture and other characteristics relevant to rock type. This information is plotted in the lithology column of the mud log, which displays an estimate of gross lithology as a percentage of cuttings, reported in 10% increments. Because the presence of hydrocarbons may not be obvious—even under a microscope—each sample is examined for fluorescence under ultraviolet (UV) light.

To measure gas, the mud logger relies on an automated gas detection system. Suction lines transport a constant stream of air and gas from the gas trap, located at the shale shaker, to the logging unit. There, sensitive instruments process the gas samples extracted from the drilling mud. The primary gas measurement tool is a flame ionization detector (FID), which can sense hydrocarbon gas concentrations as low as 5 parts per million. From FID measurements, a total gas curve can be plotted on the mud log. Background gas—a more or less constant, minimum level of gas—establishes a baseline on the total gas plot. A gas show is any significant increase in detected gas, which is usually associated with a zone of increased porosity or permeability.

For more detailed hydrocarbon analysis during shows, the mud logger employs a gas chromatograph. The chromatograph separates the gas stream into fractions according to molecular weight. Commonly detected components fall within the alkane group: methane [CH4]—denoted as C1—as well as the following constituents: ethane [C2H6] or C2, propane [C3H8] or C3, the normal and isopolymers of butane [C4H10] or nC4 and iC4 and pentane [C5H12] or nC5 and iC5. The measurement of these light hydrocarbons helps geologists characterize reservoir fluid composition while drilling. The quantity of gas recovered and the ratios of the various gases are useful in identifying zones of producible oil or gas.

Gas monitoring is also important to the driller and company representative. Mud gas trends that develop while drilling are integral to the evaluation of mud balance and identification of potentially overpressured formations. By carefully tracking gas and drilling parameters, the mud logger can recognize deviations from normal trends and give advanced warning so the driller can mitigate impending problems. Thus, the success of a well and the safety of the drilling operation may hinge on how quickly a mud logger can synthesize and interpret myriad pieces of data.

A sensor mounted on the drawworks tracks the drill rate, or rate of penetration (ROP), to determine the amount of time spent drilling each meter or foot of depth. The mud logger"s role takes on added importance when a drilling break, or significant increase in ROP, is encountered. Then the mud logger alerts the company representative to request that drilling be stopped until mud and cuttings from the bit face can be circulated to the surface. If these cuttings are accompanied by an increase in gas, or if sample analysis reveals the presence of oil, the mud logger notifies the company representative and geologist of a show of gas or oil. The operator then has the option to further evaluate the potential pay zone through coring or testing.

The mud log serves a variety of functions (Figure 2). The ROP curve is plotted as a step chart or a continuous line, increasing from right to left. When displayed in this manner, the ROP curve responds to changes in rock type or porosity in a manner similar to that of a spontaneous potential or gamma ray curve, making for easy correlation between LWD or wireline curves. As a correlation tool, the mud log"s ROP and total gas curves often exhibit a remark-able correspondence to gamma ray and resistivity curves, respectively. Throughout the drilling process, mud logs provide real-time correlations with logs from offset wells and help the operator track the bit"s position in relation to target formations. Because the mud log is based on physical samples, it can provide a direct, positive identification of lithology and indication of hydrocarbon content. This information can be especially useful when formation characteristics make wireline or LWD log interpretation complicated or ambiguous. The mud log provides independent evidence for a more comprehensive understanding of reservoir conditions and geology.