EP1795583A2 - Oil recovery - Google Patents

Abstract

The invention relates to the petroleum industry. The petroleum regeneration method according to the present invention is that a raw material is taken in a raw material receiving station, that this raw material is set to remove water and mechanical impurities, that the raw material thus deposited is transported to a chemical treatment and coagulation unit a certain amount of aqueous solution of coagulants and chemical reagents are added that a mixture of waste oil and coagulant is mixed with air, that this mixture is allowed to settle until the compressed, so purified oil by gravity flow according to its degree of quality to an intermediate station and thereafter to a vacuum drying unit or a raw material preparation station for vacuum distillation, the dried oil is added to a contact treatment unit for absorption refining and filtration that the refined oil is transported to a refined oil station, that waste water from the chemical treatment and coagulation station is removed into an oil collecting vessel, that the mixture of waste oils, whether coagulated or not, is chemically treated whether or not they are vacuum-dried or not, are transported to the raw material preparation station for the vacuum distillation, this mixture is mixed to obtain a uniform raw material of constant quality, and brought to vacuum distillation with light fractions for the use in a furnace are separated in the form of fuel and fuel gases are used for the evaporation of alkali flows, that the bottoms residue is withdrawn, that target oil fractions are pumped into a vacuum distillation station, then these fractions are released to give them a contact treatment and F iltration that the finished oil fractions are collected in a station for purified oil and that these fractions are subjected to a mixing process with additives according to a special formulation.

Description

This invention relates to the petroleum industry and may find application in the petroleum refining and petroleum chemistry industries, particularly in processes for the purification and regeneration of oils, including waste oils.

Regeneration is a very flexible process. It consists of independent blocks that can be easily varied according to the specific case. A different allocation of the stages of the regeneration processes makes it possible to exploit the combinations of these blocks depending on the origin of the waste oil, the content of water and the mechanical and other admixtures.

A method for the purification of waste oils by means of coagulation is through the WO 8704455, 30.07.1987 , SJU, M (C10M), 175/02. The disadvantage of this invention This is because in this procedure, only the process of coagulation has been treated. The solutions regarding other purification stages of waste oils are missing.

Another method for the purification of waste oils is through the EP 0618952, 12.10.1994 , C10M, 175/00, known. The disadvantage of this method is the lack of sorting of used oils or raw materials. It also lacks the utilization of the alkaline effluents, there is no preparation of the raw material for the vacuum column, whereby the quality of the rectification of the oils is reduced, and it also lacks the purification of the final oil fractions.

The closest to the subject of the application is a process for the purification of industrial oils and an apparatus for carrying out this process (C2 290614, Nov. 9, 2002, C10M 175/00), wherein a vacuum acceleration is used. However, this method does not sufficiently clean the oil (after the acceleration in the vacuum column, no good color is ensured, the stages of the post-purification of the oils are absent, thus, no quality products can be produced, and the issue of the utilization of the alkaline outflows is not solved , and it is not solved the question of the use of light hydrocarbon reactions). Moreover, the process of coagulation is not included in the technological scheme.

The object of the present invention is the regeneration of oils, in the recovery of environmentally harmful waste and in the recovery of purified base oils of appropriate quality and in the simplification of the technological process and hardware equipment, in the use of existing equipment, in the possibility of revising a wide Range of oils including waste oils (automotive, industrial, diesel, energy oils, etc.), in ecological safety and in achieving a high yield of the target products. In the application of this method, base oils are obtained in which virtually metals, water and mechanical impurities are missing. The oils have a high viscosity index and a higher oxidation stability compared to those made from petroleum Oils according to the standard technologies. In addition, this method uses inexpensive reagents without the use of high pressure equipment.

To achieve these results, the following complex is used in the oil regeneration process: a group (1) for taking over the raw material, a block (2) for chemical processing and coagulation, an intermediate group (3), a group (7) for Preparation of the raw material for vacuum acceleration, a block (4) for vacuum drying, a block (10) for evaporating the outflows, a block (8) for vacuum acceleration with a furnace (9), a petroleum collecting device (11), a block (5) for contact cleaning and filtration, a group (6) for the vacuum drains, a group (12) for purified oil, a block (13) for mixing and dispensing finished oils. The acquisition of the raw material in the group takes place to take over the raw material. There is the possibility of the shared takeover of the raw material of different quality. The raw material is forwarded to the chemical processing and coagulation block after removal of a primary sediment of water and mechanical admixtures. Therein, a design amount of the water solution is passed by coagulant and chemical reagents. The mixture of the used oil and the solution of the coagulant is mixed with air and clarified until stratification. Then, depending on the quality, the cleaned oil is forwarded to the intermediate group in the self-run and then to the vacuum drying block or to the group preparing the raw material for the vacuum acceleration. The dried oil is added to the block

Contact cleaning for cleaning with an absorber and with filtering supplied. Thereafter, the purified oil is fed to the group of purified oil. The effluents from the chemical processing and coagulation block are directed to the oil recovery device. The mixture of waste oils subjected to coagulation or not subjected to the chemical treatment or not and subjected to vacuum drying or not is sent to the group for preparing the raw material for the vacuum acceleration. There is the necessary mixing for the production of a similar raw material of constant quality. Then there is a vacuum acceleration, in which the light fractions (B) are separated, which are used as fuel in the furnace. The fuel gases (A) are used for evaporating the alkaline effluents (E). It is also a bubble residue (┌) singled out. The target oil fractions are drawn off into the group of vacuum fractions with a subsequent contact cleaning and filtering. The finished oil fractions are collected in the purified oil group and then passed to a required recipe for mixing with additives.

The takeover of the used raw material takes place in railway and motor vehicle cisterns and in 200-liter-tons. The takeover of the raw material from the car cisterns takes place by means of the process of different quality oils in a 3-section container with recess. At the same time, the extracted oil is analyzed. The criterion for deciding the direction of pumping out is the similarity of the new oil batch with the previously accepted batches according to physicochemical characteristics, as the properties of the oils change when petroleum oils are used in engines, machinery and other equipment. The character and size of these changes depend on the working conditions. The processes of decomposition, polymerization and condensation of hydrocarbons as well as dilution with fuel, contamination with foreign matter and flooding cause in the waste oils asphalts, coke and carbon black in the colloid state, various salts, acids and metallic dust, metallic Accumulate chips, etc.

• (1) Gruppe zur Übernahme des Rohstoffs und des primären Bodensatzes,
• (2) Blöcke zur chemischen Bearbeitung der Gerinnung,
• (3) Zwischengruppe,
• (4) Block zur Vakuumtrocknung,
• (5) Block zur Kontaktreinigung und Filterung,
• (6) Gruppe für die Vakuumfraktionen,
• (7) Gruppe zur Vorbereitung des Rohstoffs für die Vakuumbeschleunigung,
• (8) Vakuumbeschleunigung,
• (9) Ofen,
• (10) Eindampfen der Abflüsse,
• (11) Erdölauffangvorrichtung,
• (12) Gruppe für gereinigtes Öl,
• (13) Vermischungen und Ausgabe der fertigen Öle,
• (A) Brennstoffgase,
• (5) alkalische Abflüsse,
• (B) leichte Fraktionen, 7
• (r) Restöl.

The drawing shows a structural diagram for implementing the method for oil regeneration:

• (1) group to take over the raw material and the primary sediment,
• (2) blocks for chemical processing of coagulation,
• (3) intermediate group,
• (4) block for vacuum drying,
• (5) block for contact cleaning and filtering,
• (6) group for the vacuum fractions,
• (7) group for preparing the raw material for the vacuum acceleration,
• (8) vacuum acceleration,
• (9) oven,
• (10) evaporation of the effluents,
• (11) petroleum catcher,
• (12) purified oil group,
• (13) mixing and dispensing of finished oils,
• (A) fuel gases,
• (5) alkaline drains,
• (B) light fractions, 7
• (r) residual oil.

Based on the determined laboratory data, the technological process for the industrial regeneration of the oils is described.

The first stage of regeneration of the waste oils begins in the course of settling in the raw material containers equipped with a heating system in which the precipitation of the weighed mechanical particles from the oil and the micro-water droplets takes place under the action of gravitational forces. The effluents produced in the course of settling with admixtures of petroleum products reach the oil collecting device.

Further purification of waste oils takes place in the block for chemical processing and coagulation. The process of enlarging the particles of dirt in the colloidal state or in the finely dispersed state takes place with the aid of special reagents and depends on the quantity and composition of the substances to be introduced, the duration of contact of these substances with the oil, the temperature and the Effectiveness of the mixing of substances and oil.

To the chemical processing and coagulation block is added a quantity of the water solution of the coagulant and the chemical reagents.

The mixture of the waste oil and the solution of the coagulant are mixed with air, which in the lower part of the coagulation device from a fan over a special nozzle comes at a temperature of 80 - 85 ° C within 0.5 - 1.5 hours.

After the specified time, mixing stops and the mixture is kept at the temperature of 80-85 ° C for 12-24 hours. In the course of settling, the solution in the coagulation device is stratified into two layers. The lower layer consists mainly of water and waste from the coagulation process, while the upper layer consists mainly of oil with a small amount (up to 5%) of water. The purified oil from the coagulation device is routed in the self-run in the intermediate group or in the product group.

The raw material passes directly to the block for vacuum drying from the intermediate group. Under vacuum, the separation of water vapor at elevated temperature takes place.

The dried oil passing through the coagulation device is passed, depending on the quality of the product, for vacuum rectification (group for preparing the raw material for the vacuum acceleration) and / or for the subsequent contact cleaning by means of a bleaching clay. The main factors on which the effectiveness of the process of adsorption depends are the temperature and the contact time. The process of mixing the oil with the bleaching clay takes place at a temperature of 60-150 ° C with a subsequent filtration through a frame filter. After cleaning, the products meet the quality requirements of the base oils and can be used for the further preparation of the product oils.

For the recovery of the oil components, a rectification of the oil in a vacuum column (acceleration, rectification) is provided. As a raw material for the vacuum acceleration can serve both the purified oil, as well as the base oils, which come from the group to take over the raw material. From the lower part of the vacuum column separate the heavy oil fractions with which resinous compounds, overoxidized products and decomposition products of the additives depart. In the construction of the vacuum column become a Wärmestoffaustauschaufsatz new generation and two stripping columns used, whereby a maximum yield of the oil fractions with predetermined parameters (fractions, viscosity, ignition temperature, etc.) is ensured.

All base oils obtained are analyzed according to the main values of quality: density, color, kinematic viscosity, conventional viscosity, ignition temperature, water and mechanical admixtures, acidity and alkalinity, pour point, ash value, sulfur content, etc.

This method is successfully used by the "Rjasansky ecological Combine GmbH".

Claims (1)

Oil regeneration process using the following complex: - a group to take over the raw material, a block for chemical processing and coagulation, - an intermediate group, a group preparing the raw material for the vacuum acceleration, a block for vacuum drying, a block for evaporating drains, a block for vacuum acceleration with a furnace, a petroleum catcher, a block for contact cleaning and filtering, a group for vacuum processes, a group for purified oil, a block for mixing and dispensing finished oils,
the following method steps are used: - the takeover of the raw material takes place in the group for the takeover of the raw material, whereby the possibility of the divided takeover of the raw material of different quality exists, the raw material is passed on to the chemical processing and coagulation block after the primary sediment has been settled by water and mechanical admixtures, a design quantity of a water solution of a coagulant and chemical reagents is passed there, the mixture of the used oil and the solution of the coagulant is mixed with air and clarified until stratification, - After that, the purified oil is forwarded depending on the quality in the self-run to the intermediate group and then to the block for vacuum drying or to the group for preparing the raw material for the vacuum acceleration, the dried oil is sent to the contact cleaning block for cleaning with an absorber and filtering, - then the purified oil is taken to the purified oil group, the effluents from the chemical processing and coagulation block are sent to the oil collecting device, the mixture of waste oils subjected to coagulation or not subjected to the chemical treatment and not subjected to the vacuum drying or not are sent to the group for preparing the raw material for the vacuum acceleration, the necessary mixing takes place for the production of a homogeneous raw material of constant quality, - then there is a vacuum acceleration, in which the light fractions (B) are separated out, which are used as fuel in the furnace, - the fuel gases are used to evaporate the alkaline effluents (B), - the bladder residue is also separated out, the target oil fractions are drawn off into the group for the vacuum fractions with a subsequent contact cleaning and filtering, - The finished oil fractions are collected in the purified oil group and then passed to a blending with additives according to a required recipe.

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