Tag Archives: Shale Shaker Design

Dual motion shale shaker is a kind of solids control drilling mud processing equipment. Shale shaker is the 1st stage solids control equipment to pre-treat drilling mud from drilling rigs.

DC dual motion shaker is DCZKS850, the treating capacity is 600 GPM. By using two vibrators, the two running type can be adjusted easily without changing the angle of the eccentric block inside these two motors. DC dual motion shaker is more cost-effective as DC only uses two motors while most of the other suppliers are using 3 motors.

dual motion shale shaker

DC also has one shale shaker with high G force which up to 8.0 G. WBM is effectively separated by DC Hi-G shaker. For the OBM, DC cuttings dryer and centrifuge is very popular. DC shakers can be used in many drilling sites. The feeder can be adjusted by using different feeding box.

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Now many shale shakers, desanders, desilters and mud cleaners are storaged in DC warehouse. DC Solids also has some decanter centrifuges, cuttings dryers as well as shaker screens in Houston. Most of the spare parts or wear parts are also storaged here. DC experienced service engineers can also be sent out for commissioning and after sales service.

 

To be as a professional manufacturer of solid control manufacturer. DC Solid control can supply all kinds equipment for Oil and gas drilling site. We got the good feedback from our user this morning which is the 3 sets of Mud system to Oman drilling site last year.

shale shaker

Shale shaker is vital to the solids control system and is considered the “first line of defense”. Shale shakers act by removing solids from drilling fluid as the mud passes over the surface of a vibrating screen. Particles smaller than the openings in the screen pass through the holes of the screen along with the liquid phase of the mud. Particles too large to pass through the screen are thereby separated from the mud for disposal. Without proper screening of the drilling fluid during this initial removal step, downstream equipment will experience reduced efficiency and effectiveness. The downstream hydrocyclones and/or centrifuges (if elected) will simply be overloaded beyond their design capacity.

shale shakers

Features& Benefit of DC shale shakers:
Adjustable 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

Our factory and company are Quality Management System ISO 9001-2000 certified. DC Solids Control operate international oil gas drilling mud separation system sales,service,manufacturing,distribution service. Buy Linear motion shale shaker from China manufacturer. Your best shale shaker deal starts here.

Most recyclers today use orbital, elliptical or linear motion shakers, and each has a place in different drilling scenarios. With that being said, linear motion shakers generate high G-Forces and are especially effective in shallow formation sections where high-volume, heavy solids are encountered, and have the ability to remove the solids quickly.

shale shaker

When choosing a linear shaker for your mud system, look for a long runway (area of length from the front of the shaker to the end where the cuttings dump off). The longer length shaker bed allows extra time for solids to separate from the liquid, and result in drier solids leaving the mud system for disposal. You can also increase the angle of the shaker bed by five degrees to further increase the travel time of the solids.

shakers

Proper shaker screen selection enhances the results of the mud recycler, and, combined with the G-Force of the shaker, works in tandem to maximize solids dryness. In the past, shaker screens were sized by mesh size.

Example: 40 mesh screen had 40 openings per square inch of screen area. As a measurement, this left room for a lot of unknown variables, including questioning what gauge wire was used in the manufacture of the screens. The wire gauge altered the size of openings on the screen surface and resulted in changing the size of the solids that the screen could pass or “cut.”