KOSUN R&D team has considered application conditions on drilling sites worldwide and improved various functions for this upgraded and updated KOSUN LS584-D Hi-G Dryer based on the original product. It further meets ergonomic design principles and various operation requirements on drilling waste management site, and the product wins customers’ praise for its greatly upgraded practicability.
The Hi-G Dryer (also referred to as dryer shaker) is used to recover drilling cuttings from water-based or oil-based mud, for the purpose of reducing the hydraulic proportion contained in drilling mud to less than 10% and greatly reducing the cost on waste discharge. The Hi-G Dryer has been proved to be extremely effective in recovering the oil-based mud cuttings. It is a kind of shale shaker mainly used for drying the drilled solids. The feeder installed on such hi-g dryer is a little different from normal shale shaker, so as to achieve the best efficiency.
Hi-G dryer shaker and vertical centrifuge can be introduced as drill cuttings usually take away much drilling mud and thus raise drilling cost. Hi-G dryer manages oil content and water content down to 10% from 30% while vertical cutting dryer lowers oil on cuttings below 5%, to the greatest degree, with small rotary speed and centrifugal filtration. Either of them is effective to recover drilling mud and shrink drilling cost.
Actually, High–G Dryer shares the same construction with shale shaker except its base height. The base of High-G Dryer is bigger than shale shaker. The difference between the shaker screen http://www.kosungroup.com/products/product-accessories/screen.html and Hi-G Dryer focuses their processing materials shale shaker processes the drilling mud and the High-G dryer deals with discharged drilling waste separated by solids control equipment. The following description will focus on the basic construction and spare parts of the Hi-G Dryer. It consists of shaker base, shaker frame, electric panel, shaker basket, shaker feeders, electric motors as well as shaker screens. When the shaker starts, under the driver of the motors, the vibration beam vibrates in certain rate and the beam then brings the shale frame vibration, which finally generates the whole shaker moving.