Germany
Manufacturer/ Producer
Germany
Segment Quick Closure, type VSV special equipment for horizontal filters and separators FEATURES short maintanance time for cartridge replacement reduced personnel deployment fast opening and closing procedure safety device for decommissioning and commissioning segment closure design combined with davit or lifting device suitable for extreme weather conditions (ice, sand …) additional equipment: weather protection hood (rain cap) SAFETY DEVICE Our safety device forces a so-called forced ventilation to open the device. The lid can only be opened in the following step if the appliance is depressurised. When the apparatus is in operation and pressurized, the safety device ensures that the shutter can not be opened during operation. DELIVERY We reserve the right to equip only vessels designed by us with our quick closure (Q/C). Our Q/C can not be purchased as a purchased part. Accessories, Special Equipment DAVIT (SWIVEL AID)
Request for a quoteGermany
CHARACTERISTICS high operating safety robust, compact design pressure resistant up to 350 bar easy maintenance flow direction selectable drag indicator as standard Dual scale bar / psi or mbar / kPa universally applicable selectable display indicating range OPTIONS helium application on demand plastic housing stainless steel housing static pressure max. 450 bar GENERAL The differential pressure gauge DP 900 serves to monitor the differential pressure of filter systems, measuring systems, valves, coolers, heat exchangers, in petrochemical, as well as in gas and air systems. Preferably, the DP 900 is applicable for air and gas technical systems. The gauge housing made from aluminum is designed compact and robust. It is pressure-resistant up to 350 bar. FUNCTION A determined path of a freely movable piston measures the differential pressure. The piston retains against a compression spring. The magnetic spool-measuring device unit is been installed to the main housing.
Request for a quoteGermany
Hydro cyclone units are applied in order to separate coarse and fine solid particles from liquids . These type of separators are particularly capable of separating sand, starch, and other finely distributed materials. With hydro cyclones it is possible to separate fine particles online during the process. Hydro cyclone units are used to separate, classify, and to thicken suspensions. Also, these units are used to purify ores and minerals. Also, in fibre technique and paper industry they are applied in purification processes to separate dirt. Hydro cyclones are frequently run in parallel mode. The lay out and design of hydro cyclones are performed empirically similar to the duct cyclones. In the lower flow region of a hydro cyclone an air swirl forms during the separation process, which is not substantially influencing the cyclone flow. Because of the large dimension of the cyclone, wall friction has much more influence on the flow.
Request for a quoteGermany
The gas cyclone belongs to the mostly applied technical separators, because it has applicationwise some fundamental advantages. One of them is certainly the fact that its construction does not show any movable components. For the large variety of different kinds of dispersed (particulate) phases (for example dust particles, metal chips, wooden waste, liquid droplets) and different gas conditions (pressure, temperature) the lay out and computation of a cyclone is still a complex task. Suvis has specialised in the development and lay out of cyclone separators and can offer professional solutions and consulting in the area of gas cyclones. Many years of experience gained through numerous cyclone development projects results in optimal solutions for our customers. A cyclone separator applies centrifugal forces and represents an effective apparatus for separating gas, liquid or solid particles from a continuous phase in chemical, process or environmental engineering.
Request for a quoteGermany
The Suvis GmbH also deals with the application of modern numerical methods for the lay out and optimisation of various separator types like cyclones. A typical application of these computation methods is the computer aided investigation of particle separation from gases in cyclones. The prediction of the separation efficiency allows the reliable optimisation of conventional cyclones and the development of completely novel high efficiency cyclones. With that, very often expensive filter units, wet cleaner, or costly electro filters can be replaced or completed. When applying numerical methods (CFD simulations) to cyclones one encounters the problem of strong curvature of the stream lines because of the resulting strong swirl flow and the abrupt change of flow direction towards the outlet tube. This means that the assumption of isotropic turbulence is not useful anymore.
Request for a quoteCreate one request and get multiple quotes form verified suppliers.