API Plan 31 Description Product recirculation from discharge through a cyclone separator which directs clean fluid to the seal and solids back to pump suction... As a leading global manufacturer of crushing equipment, milling equipment,dressing equipment,drying equipment and briquette equipment etc. we offer advanced, rational solutions for any size-reduction requirements, including quarry, aggregate, grinding production and complete plant plan.
Basalt is the best material for repairing roads, railways and airfield runways. It has the advantages of abrasion resistance, less water consumption, poor conductivity, strong compressive strength, low crushing value, strong corrosion resistance and asp
For Ilmenite beneficiation, a combined beneficiation method is often better than a single beneficiation method, which can better improve the ore grade and recovery rate. At present, the combined separation method for ilmenite can be divided into four kind
Gold ore whose types of deposits are diverse and complex is the mineral assemblage of gold. With features of chalcophile affinity and high melting point, the gold ore includes conglomerate type, porphyry type, quartz vein type and volcanic rock type, etc.
Limestone is mainly composed of calcium carbonate (CaCO3), MO's Hardness 3 degrees. The limestone particles or powders can be used in building materials, road construction, metallurgy, chemical and other industries after crushing or grinding.
Equipped with vibrator feeder, jaw crusher, sand maker (vertical shaft impact crusher), vibrating screen, sand washer, belt conveyor and central electronic control, sand making plant can process the granite, limestone, basalt, cobble and other materials t
Gravity separation is the main beneficiation method of chrome ore, and the equipment is jigger, shaking table, spiral classifier, centrifugal concentrator and spiral chute, etc. Sometimes it will also use weak magnetic separation or strong magnetic separa
API Plan 31 is used to remove solids from the flush stream by incorporating a cyclone separator into the flush tubing Flow is routed from the discharge side of the pump through the cyclone separator Clean flush fluid leaving the separator is routed to the seal chamber while fluid containing the solids is routed back into the suction side of the pump
API Plan 31 Recirculation from the pump discharge through a cyclone separator delivering the clean fluid to the seal chamber The solids are delivered to the pump suction line A Cyclone separator B Contaminated liquid IN C Clean liquid OUT D Separated liquid OUT
API Plan 41 Recirculation from the pump discharge through a cyclone separator delivering the clean fluid to a cooler and then to the seal chamber The solids are delivered to the pump suction line A Cyclone separator B Cooler C Temperature indicator D Contaminated liquid IN E Clean liquid OUT F Separated liquid OUT
API Plan 31 is used to remove solids from the flush stream by incorporating a cyclone separator into the flush tubing Flow is routed from the discharge side of the pump through the cyclone separator Clean flush fluid leaving the separator is routed to the seal chamber while fluid containing the solids is routed back into the suction side of the pump
In Plan 31 the pumped dirty product flows to a cyclone separator from the discharge of the pump The cyclone separator uh separates the pumpage into clean and dirty streams by using centrifugal force The clean fluid stream is routed out the top of the separator and into the seal chamber while the now concentrated dirty fluid stream is routed back to pump suction
API Plan 41 Recirculation from the pump discharge through a cyclone separator delivering the clean fluid to a cooler and then to the seal chamber The solids are delivered to the pump suction line A Cyclone separator B Cooler C Temperature indicator D Contaminated liquid IN E Clean liquid OUT F Separated liquid OUT
The Cyclone Seperator is designed to separate heavy particles from the product liquid The clean fluid is ideal for use as flush liquid improving conditions at the seal faces The separated particles drain back into the sealed product The benefit is a reliable and lowcost sealing system for heavy product particle applications that do not require an independent flush supply
API Plan 41 is a cooled version of Plan 31 Solids are removed from the flush fluid by incorporating a cyclone separator Flow is routed from the discharge side of the pump through the cyclone separator Clean flush fluid leaving the separator is routed through
Circulation in accordance with API 682 ISO 21049 Plan 31 Plan 41 The CS range is available in varied versions ie cyclone separator with replaceable insert made of ceramic or cast version of the cyclone separator or cyclone separator for high flow rates and high pressures