The use and principle of Mongoose Shaker Screens
Mongoose Shaker Screens can help operators surpass their opponents in terms of drilling costs and environmental performance. Its extraordinary processing capacity can cope with the large amount of rock cutting generated at high drilling speeds, saving drilling rig time and chemical consumption. The traditional mode is used to recover a large amount of drilling fluid while separating the dry cuttings. While reducing the processing cost, it can also extend the service life of the vibrating screen. Compared with the traditional vibrating screen, the mongoose vibrating screen processes the debris more thoroughly, so the diluent consumption required to process the debris is lower, which also means that less waste liquid is produced.
Mongoose Shaker Screens has two working modes: regular processing power and high processing power. One-key switching can easily cope with different working conditions, and can also be used in combination in double, triple and other forms. Mongoose Shaker Screens can effectively handle variable solid loads during well construction, while ensuring that the drill cuttings separated meet the most stringent environmental protection requirements.
In the high-throughput mode, Mongoose Shaker Screens are used to process a large amount of drill cuttings brought back during drilling. With the gradual progress of the drilling work, when the working conditions change, the operator only needs to switch the Mongoose Shaker Screens to switch it to the normal mode. In this mode, the debris stays longer in the drying area of the vibrating screen, and the separated debris is effectively dried and is free of contaminants. Although 100% meets environmental protection requirements, it also reduces processing time and disposal costs.
Mongoose Shaker Screens can also recover large amounts of reusable drilling fluid. In addition, in drilling operations with more challenging working conditions, up to four Mongoose Shaker Screens can be installed together on the skid to further improve efficiency.