mud agitator sizing made in china

JBQ series mud Agitator, Less than 5.5 kW drilling mud Agitator adopts the blender cycloid speed reducer, and it is applied to the drug liquids mixing tank. This mud agitator has the advantage of compact structure so it occupies small area. More than 7.5 kW Mud Agitator uses the turbo and worm gear speed reducer, with the large torque transmission、 the revolution is steady、it works reliablely and has great merit. Common model of mud agitator is JBQ5.5kW 、JBQ7.5kW 、JBQ11kW and JBQ15kW.The drilling mud agitator is an important components for GN Solids Control drilling fluids processing system.

GN Solids Control as a professional manufacturer for soilds control equipments, we have designed lots of high-quality products, and JBQ series Agitator is one of them. To keep both the mud uniformity and the suspension of solids, the mud agitator is used to agitate the mud consecutively and reliably.This agitator agitates the mud to make cuttings, silt and sand pass the solids control system without being precipitated onto the tank bottom. Due to the simplex turbine decelerator, this product is featured by compact construction, light weight, balanced transmission, low noise, high efficiency of transmission and strong agitating power. Therefore, it is a reliable product in the solids control system.

China manufacturer GN Solids Control offer the world with drilling mud agitator equipments.We are an exporter of drilling fluid mud agitator for Indian, Russian,middle east.etc..Our factory and company are Quality Management System ISO 9001-2000 certified.GN Solids Control operate international oil gas drilling mud separation system sales,service,manufacturing,distribution serivce.Buy drilling fluid mud agitatorfrom China manufacturer.Your best mud agitator for drilling mud circulation system.

As an SPX FLOW brand, Lightnin serves the challenging waste and water treatment sector, as well as the processing of solvents, fertilizers, food/beverages, pharmaceuticals and biofuels. The mixers and agitators, that are custom designed and fabricated, are used for equalization, neutralization, flocculation, aeration, sludge mixing, flash mixing and general blending purposes. The Lightnin industrial mixer portfolio covers both portable and larger fixed-mount units. All Lightnin equipment is designed to provide prolonged trouble-free operation regardless of the specific application demands. Through the proprietary gearbox and impeller technologies developed in recent times, we can offer the market advanced mixing solutions that are far more compact and power-efficient than ever before. They also have significantly greater operational lifespans, thanks to anti-fouling mechanisms and other state-of-the-art features. Consequently, customers are able to raise their productivity levels and avoid costly downtime issues, while also keeping the energy consumption involved to an absolute minimum.

Generally the mud agitator is a mechanical equipment used to agitate different materials widely used in engineering field. In the offshore plants, it is used to mix both drilling mud and bulk. Drilling muds are of high viscosity fluids that composed with oil or water and bulk. Therefore, it is necessary to predict and understand the stabilized mixing performance of agitator because the accurate material property maintained by agitation is essential to stabilize drilling system.

Drilling mud, which is the mixture of oil (or water) and bulk (Barite, Bentonite, Polymers etc.), is used to lubricate the drilling bit, to remove the cutting and to keep the pressure steady inside the drilling hole. Although there are many different types of facilities from which drilling operations take place, the core system of these facilities is drilling system, which is mainly composed of bulk-handling and mud-handling systems. The efficiencies of transportation, mixing in an mud agitator and separation of gas in a separator are important for the performance of these systems.

There are few of research papers for analyzing the flow field of mud agitator. Numerical simulations in regard to change torque and position of impellor with 45° pitched blades was performed by Chang and Hur. The flow patterns in agitator relating to its geometric shape and power of agitation was investigated by Kumaresan and Joshi which were made through experiments using LDV(Laser Doppler Velocimeter) and numerical method. And the performance of agitation with various size of impellor was studied by Nienow.

In this study, numerical simulation of swirling flow on a mechanical agitator is carried out to investigate the mixing performance of agitator using two commercial softwares, STAR CCM+ ver.8.04 [4] based on Eulerian approach and Particleworks ver.4.5 based on Lagrangian approach. First, for the validation, the water mixing problems by a mechanical agitator is simulated and the results of simulation are compared to those of experiments performed by Nagata et al. . Furthermore, the premixed drilling mud with a constant viscosity is considered as a mixing material, and the comparison of mixing performance with the case of water mixing is discussed.

To validate the present simulation with the experiments performed by Nagata et al. [6], the geometric shape of agitator is identical to the impellor which is one of the models used in the experiments as show in Fig. 1. The details of dimension are summarized in figure of dimention mud tanks. The impellor has 16 blades of flat plate. Impellor of agitator is rotating with 72rpm, and a linear acceleration time is adopted until 2sec.

Two commercial softwares, STAR-CCM+ and Particleworks, are used to simulate the rotatory flow around the mud agitator inside a cylindrical tank. The free-surface elevation and magnitude of velocity at specific location are validated with experimental results [6]. The location of probes for measuring magnitude of velocity is given in TABLE 3.

The magnitude of velocity probed at three locations in vertical is illustrated in Fig. 4. The peak values of velocity appear near the end of blades in the experiments, but slightly shifted inside in the simulations. The overall trends and agreements between the experiments and simulations are almost reasonable within 10% error band except for the case at prob3 for z=10cm. It means that the mixture by mud agitator cannot be well made upward in the simulations. The deviation from the experiments seems not to be related directly to the grid convergency, as shown in Fig. 5. The cases for the grid convergence test are classified in TABLE 4. Fig. 6 shows the time evolution of swirling motion due to the rotating of an mud agitator inner tank, in which the contours indicate the magnitude of velocity. As the time increases, the maximum distribution of velocity is generated in horizontal near the end of blades and developed in all directions. When the time becomes over 15sec, the quasi-steady swirling motion respect to the vertical centerline can be observed.

Next, the premixed mud which has the constant viscosity of 23CP and specific gravity of 1.3 is assumed to be fulfilled inside the tank instead of the water used in the previous study. Figs. 7~8 show the comparison of the wave height and the magnitude of velocity along the centerline with the case of the water mixing, respectively. Because the viscosity and density of mud are higher than those of water, the motion of freesurface is less dynamic in case of the mud mixing so that the change of free-surface and magnitude of velocity are relatively smaller. It causes that more time should be needed to reach the

In this study, numerical simulation of swirling flow on a mechanical mud agitator was carried out to investigate the mixing performance of agitator using both of Eulerian and Lagrangian approaches. First, the water mixing problems by a mechanical mud agitator was simulated and the results of simulation were validated with those of experiments by Nagata et al. [6]. The overall agreement was reasonable with the deviation within 10% error band. Furthermore, the premixed drilling mud with a constant viscosity was considered as a mixing material, and the comparison of mixing performance with the case of water mixing was discussed. It seems that the higher viscosity and heavier density of mud contribute to the resistance of mud mixing, compared to water mixing.

Mud Agitators is used to provide continuous and reliable agitation of drilling liquid in order to retain uniformity of drilling and keep solid particles suspending. It is compact structure, light weight, transmission balance, low noise, high efficiency and strong capability, bcz the reducer adopts turbine worm single reduction gear.

HJBL series vertical mud agitator is mainly used for deep mixing and mixing in the mixing tank. The mixing shaft is longer than 1 meter and equipped with a stainless steel base to ensure that the mixer runs stably and does not shake during the mixing process.

Vertical mud agitator can be widely used in chemical industry (fine chemicals, pharmaceutical chemicals and daily chemicals), environmental protection (sewage treatment), pharmaceuticals, cosmetics, metallurgy, food, heat treatment cooling, leather processing and other industries.

AgitatorMud agitaor also called mud mixer. It is used for drilling fluid mix to prevent the heavy drilling size subside the bottom of mud tank. RuiLin"s Mud Agitator has two types, horizontal type and vertical type. This is divided according to the motor"s type. Usually, the horizontal type is Tubrine worm reducer.

In the common design, the shaft length is more than 1700mm, there need a centering sleeve in the bottom to make sure do not break the shaft on working. The impeller"s diameter is 1/3 of the mud tank length.

RuiLin"s mud agitator is designed very humaization. The impeller is propeller type and fixed on the shaft using the screws and not welded directly. Thus convenient for replacement and remving.

Generally, there are different versions or models of mud agitators that are being offered to fulfill various customers’ needs more effectively. However, here are some of the most amazing features of these mud agitators’ range that you must know:

However, the impeller speed of these mud agitators is 60/72RPM. While, on the other hand, the shaft length of the mud agitator will depend on the size of the mud tank completely.

Excellent capacity, longer service life, and high-quality materials along with sturdy construction are making these mud agitators highly durable and reliable.

The entire range of these mud agitators is highly demanding. It is mainly because of the state of art technology and quality of basic materials that is used in these. The fabrication used on these mud agitators makes this high corrosion resistant and can help you to enjoy a longer service life of mud agitators with ease.

Do you want to know what makes these mud agitators most amazing? Let’s have a look at the key benefits below to get a better idea about the things in this regard:

A Mud Agitator is equipment that is used for a specific purpose – the mixing and agitation of mud. While doing so, it prevents the settlement of the solid phase particles in the tank, which is crucial for the recycling process. The Mud Agitator is basically a speed reducer that is combined with an explosion-proof motor. The motor is horizontally placed for a convenient installation. These elements of the Mud Agitator are basically what makes everything tick. Also, they are robust and easy to maintain, allowing the Mud Agitator to be used in harsh conditions.

The impellers in the Mud Agitator are responsible for ‘taking in’ the drilling fluid. There are single-layer and double-layer options that one can go for. A centering guide is also added if the tank depth increases to handle mixing and agitation of a high quantity of drilling fluid. This equipment also has a worm wheel and worm gear reducer drive for smooth and reliable operation. The mug agitator comes with a speed reducer and you can use it as per your needs.

And then there’s the Speed Queen Classic TC5, which we did test. This is the machine that Speed Queen is famous for: It has been in production largely unchanged since the early 1980s, and in the 2010s it took on cult status as the only old-school washer left standing, made to last for decades, often using more water per cycle than you could drink in a month, while pounding the dirt out of your clothes with a violent corkscrew agitator.