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Shale Shaker |Important Solids Control Equipment for Drilling ...

Author: becky

Aug. 26, 2024

55 0

Shale Shaker |Important Solids Control Equipment for Drilling ...

Today&#;s shale shakers must be capable of maintaining optimum fluid properties to maximize drilling efficiency.

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Joe Bacho

Define Shale Shaker

Shale shakers are components of the solids control systems. Shale shaker mainly used in the oil and gas drilling industry. Shale shaker is the first phase of a solids control system on a drilling rig, and are used to remove large solids (cuttings) from the drilling fluid (&#;mud&#;).

Shaker screen selection has the largest impact on the overall performance of the shale shaker. It is therefore important to understand the factors which may impact screen performance and how to properly select screens. Shaker screen performance is measured by:

  1. Separation Performance &#; the size of the solids removed.
  2. Liquid Throughput Performance &#; the capability of the screen to transmit fluid.
  3. Service life.
Three linear motion shale shakers

Catagory of Shaker Depends on Motion

Linear motion shale shakers use two motors vibrate in-phase for separation. The structure of this type of shaker is simple, easy to maintain, and repair. Linear motion provides superior cuttings conveyance and is able to operate at an uphill slope to provide improved liquid retention.

The abrupt changes in acceleration during the vibration cycle tends to cause screens to wear more quickly unless close attention is paid to tensioning and screen support techniques. Perforated metal backing plates and pre-tensioned screen panels have been specifically developed to address this problem.

Linear motion shakers usually operate at less than 4.0 G&#;s (normal to the screen) to balance screen life with processing capacity. Regardless, the finer screens normally run on linear motion shakers cannot be expected to outlast the coarser screens used in the past. For screens finer than 100 mesh, expect an average service life in excess of 100 hours.

Related:

https://drillingfluid.org/tag/linear-motion-shale-shaker

A balanced elliptical motion shale shaker can effectively remove solids and eliminate larger particles in drilling fluids. The relatively moderate vibration strength of balanced elliptical shale shakers can reduce screen consumption. It performs perfectly while drilling top-hole sections where heavy, high-volume solids are present.

On a balanced elliptical shale shaker, the difference in power between the two vibrating motors results in an unbalanced force.  The structure of this type of shaker is more complex than a linear motion shaker. The price is higher.

The smooth change in acceleration with respect to direction translates into longer screen life compared to other vibration patterns. However, many circular motion shakers were designed before the advent of fine mesh screens and may provide less support for the screens. This will tend to negate much of the screen life benefit associated with circular
motion.

Screen Life

The definition of &#;acceptable&#; screen life must be judged within the context of the total solids removal system economics. Besides screen replacement cost, consideration must be given to the costs of drilling mud dilution and waste disposal costs when determining whether longer screen life is warranted at the expense of solids removal efficiency. In
weighted mud applications, the economic benefits of improved solids removal efficiency usually outweigh the additional screen costs.

Effect of Screen Composition

Only very general correlations may be made between screen composition and service life. Unfortunately, features that lead to improved life are usually detrimental to flow capacity. Using heavier wires with greater tensile strength or adding supporting layers of cloth can both reduce conductance.

Increasing support through an additional bonding area (smaller plate openings) eliminates the usable screening area. Also, support techniques and screen tension can have a major effect on on-screen life. As a result, screen panels are typically designed to balance flow capacity performance with screen life.

Screen life is heavily dependent upon flow line conditions. Solids loading rate drilled cuttings abrasiveness, and shaker dynamics can easily outweigh composition effects.

Separation Performance

Grade Efficiency

The separation performance of a shale shaker screen (or any other solids control device) is commonly represented by its percent separated, or grade efficiency, curve. This curve is generated from full-scale experimental measurements and depicts the percent solids
removed as a function of particle size.

It reports the screen&#;s probability of separating any specific particle size with a given shaker under conditions specific to the test. Grade efficiency is the preferred measure of separation performance because it is independent of feed particle size distribution.

An example of a percent-separated curve is shown in Fig. 1. In this example, the median size separated by the screen was 145 microns. This means that 50% of the solids with a diameter of 145 microns were removed. A rough estimate of the median cut point (d50) can be made in the field by the wet sieve procedure (see Field Procedure to Estimate
Cut Point).

Fig. 1. Percent separated curve.

Related sources:

THE SHALE SHAKER, CLEANING ELEMENT OF THE SYSTEM OF DRILLING MUD

Shaker Screen Separation Potential

APR has developed a method to characterize the relative separation efficiency potential of shaker screens without the expense and time required for full-scale testing. The technique links the relative separation performance of screens to a volume-equivalent distribution of their opening sizes.

The screen&#;s openings are measured using PC-based image analysis technology. Each opening in the screen is then represented by a spherical diameter corresponding to an ellipsoidal volume calculated from the image analysis data.

The cumulative volume of these ellipsoids, when plotted as a function of spherical diameter, yields a curve that correlates well with the standard grade efficiency curve. This curve represents the &#;separation potential&#; of the screen. The word &#;potential&#; is used because the screen&#;s separation performance is not measured directly, but implied by the size of the screen&#;s apertures.

Note: Grade separation efficiencies as measured on the shaker are subject to specific shaker and flowline conditions. They may not always agree with separation potential values. For example, the separation potential value for a screen with rectangular openings may be
pessimistic when drilling clean sand sections producing predominantly spherical sand grains. The image analysis method assumes solids of all shapes and sizes are available to the screen. However, on average, the separation potential values have been shown to adequately represent the screen&#;s separation performance.

API Standard shaker screen

The concept of a mesh includes sorting and supporting mesh webs, supporting metal grids, frames, etc. Screens for vibrating sieves are made of different materials, as a result of which there is a big difference in both price and quality.

If you are looking for more details, kindly visit Shale Shaker Screen.

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The size of the individual mesh cells is decisive for the separation process.

Typically, the markings indicate the number of cells per linear inch (25.4 mm) and referred to as the &#;mesh&#; number. Since both square and rectangular cells are offered, the mesh count is usually specified in the x and y directions. By the number of meshes, you can determine what kind of mesh fabric we are talking about, for example

  • 30×30 mesh &#; mesh fabric with square holes. 30 holes per inch in both horizontal and vertical directions;
  • 70×30 mesh &#; mesh fabric with rectangular holes. 70 pixels per inch horizontally, and 30 pixels per inch vertically.

The full mesh description, according to the API, also contains information about the cell width in microns, the wire diameter and the total cell area in microns. In addition, by the number of mesh, you can classify the type of solid phase, for example:

  • the solid phase that cannot pass through the 200 mesh screen is designated as sand with a particle size of more than 74 microns;
  • 325 mesh mesh corresponds to the cutoff for sludge, with a particle size of more than 44 microns.

Shales and clays in solution (eg bentonite) refer to the colloidal phase with a particle size of less than 2 microns.

Square meshes are most commonly used in the reconstitution process. Rectangular meshes are used to avoid clogging. Compared to square grids, the area of &#;&#;the cells increases for rectangular grids. When the particle size coincides with the mesh size of the canvas, they are easier to sift through rectangular mesh.

The correct choice of meshes can be judged when 3/4 of the mesh on the vibrating screen is covered with drilling mud, and 1/4 is filled with separated drilled cuttings.

Webs with a small mesh size, or solutions with a high relative viscosity, cause clogging of the meshes. As a result, a liquid film forms on the cells, which impairs the free passage of the drilling fluid, which leads to a deterioration in the separation process. To reduce clogging of the cells, it is preferable to use multi-layer webs.

Please note that the API specification can only apply to single-ply mesh webs with the same wire diameter in both directions. For multi-layer canvases, this specification does not apply.

mongoose pyramid screen

Related article

Shale Shaker And How Select Proper One For Your Mud Separation Project

Liquid Throughput Performance

The liquid throughput capacity of a screen panel is primarily a function of screen conductance and usable area. Conductance describes the ease with which fluid can flow through a unit area of screen cloth. In simplistic terms, it is analogous to permeability with the length in the direction of flow (screen thickness) taken into account. Higher conductances will result in higher flow rates through the screen.

Conductance is calculated from the mesh count and wire diameters of the screen cloth by the equations given in Appendix B, Conductance Calculation. Multilayer screens can also be handled by the conductance equation. The inverse of conductance for each screen layer is summed to equal the inverse of the net overall conductance:

1/Ct=1/C1+1/C2&#;&#;&#;1/Cn

This is valid provided that the screen layers used in the composition are designed to remain in contact.

Hunter MG4 Shale Shaker

Oilfield screens are typically bonded to a perforated metal panel or plastic grid to provide extra strength and improve service life. This practice eliminates some of the usable areas through which fluid may pass. Some metal backing plate designs may reduce the effective
screening area by as much as 40 percent. Because conductance describes screen flow capacity per unit area, the usable unblocked area available for screening must also be considered when comparing the mud processing capacity of shaker screen panels.

Related

Shale shaker design

How to keep shale shaker equipment performance well

During the operation of the shale shaker, you should pay attention to the following rules:

  1. The separation equipment( shale shaker) should be installed on the most horizontal surface. Failure to comply with this requirement may result in the reduced life of the shaker screen.
  2. The power supply must be carried out in accordance with the instructions of the manufacturer.
  3. The mesh of the shaker screen must be carefully fixed. Insufficient anchorage will damage the meshes. It is recommended to check the tension of the screens and the shaker motor daily.
  4. The defective wire mesh of the shaker screen should be replaced immediately.
  5. In order not to overload the following devices(desander, desilter), it is necessary, if possible, to choose the smallest size of the mesh. It should be remembered, however, that finer meshes require a larger screening area.
  6. After stopping circulation, the screens should be rinsed with water to prevent sludge adhesion and contamination of the mesh.
  7. Vibrating screens should not be run dry.
  8. If the circulation is stopped for a long time, the shaker should be switched off.

The performance of the shaker can be optimized according to several criteria:

  • selection of the correct angle of inclination of the frame;
  • loading the solution over the entire mesh;
  • type of movement (linear or balanced elliptical);
  • type of grid (with square or rectangular cells);
  • setting the frequency and amplitude of oscillations.
Drilling Cuttings(Solids) and Gas Removal Equipment In Mud Circulating System

Shale Shaker,Vibrating Screen,Linear Motion Shakers

Description

GNZS Linear Motion Shale Shaker Features & Benefits:

  • Ajustable High G force for primary solids control or cuttings drying.
  • Heat treatment on complete shale shaker deck.
  • Vibrating Motor: IEC Ex, ATEX and UL Certified
  • Electrical components: SIEMENS, Schneider Brand
  • Shale Shaker Bottom Deck Material:Stainless Steel
  • Wedge type design for easy and quick screen replacement
  • Electric Shaker Deck angle adjustable while working

Shale Shaker is the first stage solids control equipment in drilling fluids recycling system; it is also the most important equipment. To a large extent, the performance of shale shaker decides the working efficiencies of whole solids control system. Besides single shale shaker, GN Solids America also could offer tandem shakers and triplicate shakers on single skid according to customers&#; requirements and also the connecting manifold and mud distributor. GN Solids America provides the most popular type Linear Motion shale shaker.

As the optimized design and stable performance, linear motion shale shaker now is the most popular model applied by the drilling contractors. Matching with GN own designed and manufactured shaker screen of different mesh number, GN linear motion shale shaker suites for customer&#;s various applications. Easy method to replace the screens greatly shortens the downtime. Shale shaker deck angle adjustable while running enable to achieve the proper solids conveyance and fluid end point. High G force and large screen area make sure the stable performance when treating the large flow drilling mud.

Shale Shaker for Drilling Fluids Solids Control:

Linear motion shale shaker are widely used for drilling mud solids control of oil & gas well drilling. In a complete mud recycling system, shale shaker is the first stage equipment for both solids control and mud cleaning. Shale shaker for solids control are devices that remove drill cuttings from the drilling fluid while circulating and drilling. By using different wire mesh screen, linear motion shaker could maximally remove the drilling cuttings and recover the valuable drilling mud back into the mud system for subsequent treatment. Besides Solids Control, linear motion shale shaker with High G force and large shaker screen area could be used as dryer shaker in drilling waste management project. After treated by Hi G dryer shaker, more drilling mud will be recovered and less volume solid waste discharged. The designs of drilling mud buffer box on GN shale shaker have back type and top type for option, which makes it separately suitable petroleum drilling and HDD.

GN Solids America, your reliable supplier for oilfield drilling mud Shale Shaker.

For more cost-effective Vortex Screeninformation, please contact us. We will provide professional answers.

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