Waste Oil Refinery Centrifugal Separator in Zambia

• Use: Cooking Oil
• Type:Cooking Oil Refinery Machine
• Production Capacity: 30-350KG/H
• Power: 25-30kw
• Dimension: 2100*1400*1100mm
• Voltage: 220v/380v 50HZ
• Maximum working pressure: 50MPa
• Market: Zambia

CENTRIFUGAL SEPARATORS FOR INDUSTRIAL APPLICATIONS, Pieralisi

We provide solutions for several chemical industries in the purification of intermediate or final products and even in the recovery of waste products. Our centrifugal separators are largely installed in pharmaceutical and bio-technologies industry, in production processes of minerals, metals and non-conventional fuels. (e.g. biodiesel, ethanol).

A waste oil centrifuge works by exerting gravitational forces up to 12,000 Gs to separate sediment and water from waste oil. This force separates particles as small as 1 micron from the waste oil. The centrifuge has a flow-through design that enables the continuous flow of the separated contaminants through separate outlets.

Centrifuge, 3-Phase Separating Decanters for Oil Recovery

3-Phase decanters separate both, the olive pulp or the palm oil sludge into oil, water and solids. This 3-Phase separation requires a comparably high amount of dilution water. In olive oil production GEA also offers 3-Phase decanters for treating the waste water from the olive oil recovery process. They reduce the volume of waste water and its

Two well-known and proven waste oils layouts are: Waste oil, water, and solids separation in one high performance 3-phase decanter centrifuge. Oil quality produced in such a system is usually good enough for return to the crude oil side of the refinery. Typical 3-phase decanter performance: Oil phase: 1-3% water; Below 1,000 ppm solids; Water

Centrifugal water–oil separator, Wikipedia

A centrifugal water–oil separator, centrifugal oil–water separator or centrifugal liquid–liquid separator is a device designed to separate oil and water by centrifugation. It generally contains a cylindrical container that rotates inside a larger stationary container. The denser liquid, usually water, accumulates at the periphery of the

Reducing Industrial Waste: Oil and water mixture is a byproduct in many industries. In many cases, oil recovery or disposal of waste are both expensive. This is where centrifugal separation process can help. Centrifugal separators help separate the mixture of oil and water and recover high value solids in many applications.

Oil–water separator, Wikipedia

An API oil–water separator is a device designed to separate gross amounts of oil and suspended solids from the wastewater effluents of oil refineries, petrochemical plants, chemical plants, natural gas processing plants and other industrial sources. The name is derived from the fact that such separators are designed according to API

An API oil–water separator is a device designed to separate gross amounts of oil and suspended solids from industrial wastewater produced at oil refineries, petrochemical plants, chemical plants, natural gas processing plants and other industrial oily water sources. The API separator is a gravity separation device designed by using Stokes Law

Centrifugal Separator | Centrifuges and Separators

GEA separators are designed for liquid-based applications. Using centrifugal force, they are used for separating suspensions consisting of two or more phases of different densities, i.e. they can be used for liquid-liquid separation, for liquid-liquid-solid separation or for liquid-solid separation. They are equally as effective at separating liquid mixtures at the same time as removing solids.

Industrial sectors that work with large numbers of machines will need to store, transport and dispose of large amounts of waste oil, which increases with every oil change. Disposal of this waste oil is associated with significant cost. As an alternative, waste oil can be converted into a valuable resource using GEA’s centrifuges. The treated oil can be used as a high calorific value