Oily Sludge Separation Iran|ORIGINAL RESEARCH PAPER : exporting Management of toxic and hazardous contents of oil sludge in Siri Island M. Pazoki*, B. Hasanidarabadi Department of Environmental Engineering, Graduate Faculty of Environment, … $30.99
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Used Flottweg model Z4E-4/401 stainless steel horizontal decanter centrifuge. Bowl made of stainless steel has inside diameter 420mm. Maximum rotation speed 4000 rpm, maximum sediment density 1.5 kg/dm3, maximum working temperature 0-100 deg.c. Screw speed 1-20 rpm. Scroll protection - helix - cobal
The present study aimed to determine the physical and chemical properties of sludges from oil-water separator (OWS) and dissolved air flotation (DAF) clarifier of a refinery plant in Iran. The exploitation of novel synthetic bacterial consortia for the treatment of oily sludge has gained significant attention in recent years. This article explores the characteristics and disposal options of sludges from the oil industry, focusing on the mechanism and characteristics of oil recovery from oily sludge, as well as materials and energy recovery from oily sludges removed from industrial processes.
South Pars Gas Refineries (SPGRs) in south of Iran produces monthly 30 tons of oily sludge buried into artificial pools. Also, Shiraz Oil Refinery’s (SOR) oily sludge contributes to different environmental pollutions. The most fractions of SOR’s oily sludge consist of
Exploitation of Novel Synthetic Bacterial Consortia for Oily Sludge Treatment
The exploitation of novel synthetic bacterial consortia for the treatment of oily sludge offers a promising solution to the environmental challenges posed by sludge disposal. These bacterial consortia are engineered to efficiently degrade hydrocarbons present in oily sludge, leading to the reduction of sludge volume and the recovery of valuable resources.
Characteristics and Disposal Options of Sludges from the Oil Industry
Sludges generated from oil-water separators and DAF clarifiers in refinery plants exhibit complex physical and chemical properties. Understanding these characteristics is crucial for determining appropriate disposal options, which may include treatment through biological, physical, or chemical processes.
Mechanism and Characteristics of Oil Recovery from Oily Sludge
The mechanism of oil recovery from oily sludge involves the separation of oil, water, and solids present in the sludge. Various techniques, such as centrifugation, flotation, and solvent extraction, are employed to recover oil from sludges efficiently. Understanding the characteristics of oily sludge is essential for optimizing the oil recovery process.
Materials and Energy Recovery from Oily Sludges Removed from Industrial Processes
Oily sludges removed from industrial processes contain valuable materials and energy that can be recovered through appropriate treatment methods. Technologies such as thermal desorption, pyrolysis, and solvent extraction are utilized to recover hydrocarbons and other resources from oily sludges, contributing to resource conservation and sustainability.
GN Separation Oily Sludge Treatment System for Efficient Sludge Separation
Several studies promoted that the reuse of sludge in concrete can be an ideal solution to get rid of its negative effects, especially the hazardous ones, as it is an effective alternative to...
The kelp and water mix goes through a macerator-type pump which shreds the kelp releasing the nutrients into the water. The dryness of the separated biomass is adjustable with the decanter centrifuge. Also, the stainless steel construction of the decanter allows the use of salt-water kelp through the same equipment. Municipal Waste WaterPower your bioprocessing workflows with stainless steel centrifuges designed for versatility, .
Oily Sludge Separation Iran|ORIGINAL RESEARCH PAPER