RU2013375C1 - Apparatus for cleaning sewage water from oil products - Google Patents

Abstract

FIELD: cleaning of sewage water. SUBSTANCE: apparatus has housing with processing pipelines. Preliminary settler with heating collector, thin-layer inclined corrugated plate module, and two filtering chambers are located within apparatus housing. One filtering chamber is filled with charge from coalescent material, for example from granular polyamide or polyethylene. Other filtering chamber is filled with adsorbing material, for example heat-resistant quartz fiber having high porosity. Filtering chambers are connected by perforated collector and disposed behind thin-layer module in the direction of water flow. Oil discharge pipelines are provided with sleeves for regulating discharge flow rate. Sleeves may be screwed onto pipelines. EFFECT: efficient removal of oil products and suspension from sewage water. 2 cl, 1 dwg

Description

 The invention relates to a device for wastewater treatment containing oil products and suspended solids.

 A device for cleaning oily wastewater containing a cylindrical body, mounted one above the other along the axis of the device, a funnel, a thin-layer module and a cylinder-conical partition, mounted coaxially above the thin-layer module and dividing the upper part of the body to the collection chamber for oil products and clarified water. The thin-layer module is made in the form of truncated conical shelves mounted one above the other. The device contains pipelines for supplying wastewater, drainage of purified water, oil products and purified water and a scraper for removing oil products. The clarified water collection chamber is equipped with replaceable sorbent cassette filters installed between the clarified water trays. The oil collection chamber is equipped with a coalescing filter. The scraper for removing petroleum products is made in the form of a logarithmic spiral. Sipron and vasopron are used as sorbent material in cassette filters.

 This device has low wastewater treatment efficiency and low productivity.

A prototype of the invention is a CP1 type oil trap, comprising a housing, a pre-sump, a chamber with a polyurethane foam filter, a distribution grid that connects the latter with a thin-layer module made in the form of corrugated shelves mounted one above the other, located in the direction of wastewater flow at an angle of 45 ^degrees to the horizontal ending with vertical channels connecting the module to the chambers of purified water and separated oil products, as well as pipelines for the supply of wastewater, the removal of purified water, efteproduktov and sediment.

 The device has low efficiency of wastewater treatment due to inefficient sedimentation of suspended particles in the pre-sump, rapid contamination of the polyurethane filter, since the water enters it without sufficient pre-treatment, in addition, the movement of the cleaned stream in it from top to bottom contributes to blockage by entrained air, which contributes to uneven filter operation. The location of the thin-layer module makes it difficult to clean it when clogging the inter-plate gaps, which affects the cleaning parameters. The collection system for separated oil products is ineffective. In addition, the layout of the device makes it difficult to maintain.

 The purpose of the invention is to increase the efficiency and compactness of the device, simplifying its maintenance.

 This goal is achieved in that the installation of wastewater treatment from oil products includes a housing, a flat thin-layer module of corrugated shelves located one above the other, installed obliquely to the horizon, two chambers located above the last one, one of which is equipped with a filter, a preliminary settler, and also sewage pipelines water, purified water, petroleum products and sludge. The chambers are interconnected by a perforated collector and equipped with removable cassette filters, one of which is adsorbed with a load of heat-resistant quartz fiber with high porosity, and the second is coalescing with a granular load of synthetic hydrophobic material, for example polyamide or polyethylene. A chamber with the last filter is located at the outlet of a removable thin-layer module blocking the body cavity, under which there is a preliminary settler, a baffle plate is installed in front of the inlet pipe, and screw-on nozzles are installed at the ends of the oil discharge pipelines to control the drain level. The housing is equipped with a heating manifold.

 The drawing shows a diagram of the installation of wastewater treatment from petroleum products.

 The installation includes a housing 1, which houses a removable thin-layer inclined module 2 of corrugated shelves mounted one above the other, dividing the cavity of the housing 1 into a preliminary settler 3 and chambers 4 and 5. The preliminary settler 3 is equipped with an inlet pipe 6 having a baffle plate 7 and a pipe 8 for removal of the most coarse fractions of petroleum products. For periodic cleaning of the bottom of the sump 3, a manhole 9 and a pipe 10 are provided for removal of sediment of mechanical impurities. Module 2 is removable for ease of cleaning and is equipped with a lid 11, and a pipe 12 is installed to drain the oil fractions separated therein. A coalescing filter 13 is installed in chamber 4 with a granular charge made of synthetic hydrophobic material, such as polyamide or polyethylene. An outlet 14 for removing the oil emulsion and a collector 15 from the perforated pipes are connected to the chamber cover 4 and connected to the supply collector 16 of the chamber cover 5, which includes an adsorption filter 17 loaded with a heat-resistant quartz fiber with high porosity and easily regenerated by burning the adsorbate. For the removal of light fractions of petroleum products in the lid of the chamber 5 is built-in pipe 18. At the ends of the oil pipelines of chambers 4 and 5, screw-on nozzles are installed to regulate the level of selection of petroleum products.

 Filters 13 and 17 are removable for washing, regenerating or replacing the load. The chamber 5 is equipped with a pipe 19 for the removal of purified water. For the discharge of petroleum products is a capacity of 20.

 For operation of the installation in open areas, a heating collector (not shown) is installed, which is built into the preliminary sump and ensures reliable operation while lowering the temperature of wastewater in the winter.

 The installation works as follows.

 Wastewater under pressure is supplied through the inlet pipe 6 to the baffle plate 7 (I stage of cleaning) of the preliminary settler 3, where mechanical impurities precipitate and the coarsest fractions of petroleum products are removed through pipes 10 and 8, respectively. The presence of a sufficiently voluminous pre-sump 3 with a baffle plate 7 and a slope of the bottom provides an effective pre-treatment of wastewater, thereby preparing the reliable operation of the remaining stages.

 The purified water, leaving the preliminary sump 3, enters the thin-layer module 2 (II stage of cleaning). Oil products float under the lower surface of the shelves of module 2, enter the pipeline 12 and then into the tank for collecting them. The sediment slides along the upper surface of the shelves of module 2 and enters the lower part of the installation. The countercurrent movement of the cleaned stream and the sliding sludge in the inclined thin-layer module 2 allows to achieve a high separation effect of the components, complete cleaning of solids. The presence of the cover 11 and the removable design of the module 2 simplifies its cleaning.

 Next, the water enters the coalescing filter 13 of the chamber 4 (III stage of purification). The coalescing particles of the oil emulsion are removed through the outlet 14, and water is collected in the collector 15 from perforated pipes connected to the supply manifold 16, through which water enters the adsorption filter 17 of the chamber 5 (IV cleaning stage). The adsorption of fine particles of oil products on the filter 17 ensures their content in purified water within the limits of the MPC. The separation of the separated light fractions of petroleum products takes place through pipeline 18. The arrangement of the coalescing filter 13 with a synthetic hydrophobic charge above the thin-layer module 2 with the complete absence of mechanical impurities at the inlet and the movement of the flow from the bottom up makes it virtually uninterrupted. A removable cassette design facilitates maintenance when flushing the filter 13 is necessary.

 The collectors 15 and 16, which are made in the form of perforated pipes and discharge from the coalescing filter 13 and feed into the adsorption filter 17, ensure uniform operation of the filters. The execution of the collectors 15 and 16 built into the lids of the chambers 4 and 5 provides ease of operation and repair (loading regeneration).

 A tank 20 for collecting separated petroleum products built into the housing 1 and connected to pipelines discharging from each cleaning stage simplifies the collection of petroleum products entering there by gravity under the influence of the difference in hydrostatic pressures. This simplifies maintenance and improves installation reliability.

 The installation is highly efficient due to the optimal combination of four methods (steps) of cleaning and the use of heat-resistant porous adsorbent that is easily regenerated and gives a fine cleaning of oil products.

 The installation is compact with the location of all stages of cleaning in a single housing, characterized by the simplicity of the device and maintenance, reliability and a long working life.

Claims (2)

 1. INSTALLATION FOR WASTE WATER TREATMENT FROM OIL PRODUCTS, including a housing with a preliminary settler placed in it, a thin-layer module from inclined corrugated shelves, a filter chamber with coalescing loading, sewage pipelines, oil products discharge, sludge and purified water, characterized in that in order to increase operational efficiency, compactness and simplify maintenance, the installation is equipped with a filter chamber with an adsorbent charge and a perforated collector connecting both filters The chambers located in their upper parts and the oil product discharge pipelines are equipped with screw cups that control the level of the drain, and the filter chambers are installed along the liquid behind the thin-layer module, the coalescing charge is made of granular hydrophobic material, for example, polyamide or polyethylene, and the adsorbing load is made of heat-resistant quartz fiber with high porosity.  2. Installation according to claim 1, characterized in that the preliminary sump is equipped with a heating collector.

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