SE536403C2 - Wastewater treatment plant and method for reducing high levels of harmful fluids in wastewater - Google Patents

Abstract

According to a first aspect, the present invention relates to a waste water plant for reducing high levels of harmful fluids in waste water, comprising a single container (2) of waste water and an outlet opening (8) with an inlet opening (7) for incoming outgoing waste water, inlet opening (7) in vertical direction arranged at a level above said outlet opening (8). that the same (ll) and vertically arranged at a level above said outlet opening (8), (ll) (12) arranged to receive and disperse from the inlet opening (7) (13) According to a second aspect the wastewater treatment plant is characterized by, further comprising a stationary spreader plate as arranged directly below said inlet opening (7), said spreader plate having an upper surface incoming waste water and a peripheral edge over which the waste water is arranged to flow. The present invention relates to a method for reducing high levels of harmful fluids in liquids. Publication image: Figure l

Description

This means that further decomposition of organic material in the wastewater will take place anaerobically, ie. without the supply of oxygen, whereby hydrogen sulphide sums up all the oxygen present in the pipelines.

(H25) will be developed. The hydrogen sulphide accompanies the wastewater, dissolved in the wastewater and / or in gaseous form, to the pumping station and causes several problems there.

A major problem for the residents in the area is that hydrogen sulphide creates a very unpleasant odor that is easily spread in the residential area as a result of pumping stations not being completely airtight. A major problem for the pumping station as such is that the hydrogen sulphide causes corrosion on both metal components and concrete components. The group of metal components includes, for example, pumps, electronics, sensors, struts, etc., and the group of concrete components includes, for example, pump sumps, large pipelines, etc.

In addition, hydrogen sulphide, when present in high concentrations in the air, is very harmful by inhalation. The hydrogen sulphide can lead to paralysis of the respiratory system, with subsequent unconsciousness, in those who inhale air with a high concentration of hydrogen sulphide. This can cause problems for service personnel.

Known ways of trying to solve the above problems are, for example, adding oxygen-containing chemicals to the wastewater, minimizing the residence time in the pipelines by pumping the wastewater from the respective households to the pumping station, etc.

Brief Description of the Objects of the Invention The present invention aims to provide an improved wastewater treatment plant and method for reducing high levels of harmful gases in wastewater.

A basic object of the invention is to provide an improved wastewater treatment plant of the initially defined type, which is easy to install and requires little or no maintenance. A further object of the present invention is to provide a waste water plant which prevents various components present in the pump station from being subjected to corrosion.

It is another object of the present invention to provide a waste water plant which does not emit any unpleasant odor.

Brief description of the features of the invention According to the invention, at least the basic object is achieved by means of the initially defined wastewater treatment plant and the method, which have the features defined in the independent claims. Preferred embodiments of the present invention are further defined in the dependent claims.

According to a first aspect of the present invention, there is provided a wastewater treatment plant of the initially defined type, which is characterized in that the diffuser plate comprises at least one diffuser plate which is connected to and which projects upwards at an angle to the upper surface of the diffuser plate.

According to a second aspect of the present invention there is provided a method comprising the steps of receiving in a container a mixture of a flow of incoming wastewater and a flow of noxious gases via an inlet opening, directing the incoming wastewater flow towards an upper surface of a spreader plate disposed in the container, which comprises at least one spreader plate connected to and projecting upwardly at an angle to the upper surface of the spreader plate, spreading the waste water flow over the upper surface of the spreading plate, and dissolved in the effluent, and the effluent flows out of the container via an outlet opening.

Thus, the present invention is based on the insight that by increasing the contact area between the wastewater and a volume of air present in the container, when the wastewater enters the container, the harmful fluid will be more easily released from the wastewater and react with the oxygen in the container and then dissolve as a harmless fluid in the wastewater.

According to a preferred embodiment of the present invention, the spreading plate is connected to and projects at an angle from an inner surface of the container. This means above all that the spreading plate and the container can be manufactured in one piece, which simplifies handling and installation.

According to a preferred embodiment, the upper surface of the spreading plate is flat and has an inclination relative to a horizontal plane, the inclination angle being more than 30 degrees and less than 60 degrees. A flatter slope means that solid material in the wastewater risks accumulating on the spreading plate and a steeper slope means that the incoming flow of wastewater does not spread sufficiently and thus there is a risk that the contact surface between the wastewater and the container's air volume is not increased to the desired extent.

Preferably, the spreading plate further comprises a rim surrounding at least a part of the upper surface of the spreading plate, said peripheral edge of the spreading plate being constituted by the upper edge of the rim. The edging means that the wastewater is dammed up and thus a greater distribution of the incoming wastewater is obtained.

It is also preferred that the waste water system comprises an aerator unit arranged on a bottom of the container, the aerator unit being arranged to supply oxygen to the waste water which the container is intended to accommodate and to the air space in the container. The aerator unit provides an additional supply of oxygen to assist in reducing the harmful fluid in the wastewater.

Additional advantages and features of the invention will be apparent from the other dependent claims and from the following detailed description of preferred embodiments.

Brief Description of the Drawings A more complete understanding of the above and other features and advantages of the present invention will become apparent from the following detailed description of preferred embodiments with reference to the accompanying drawings, in which: Fig. 1 is a schematic, sectional perspective view of a wastewater treatment plant according to the preamble of claim 1, Pig. Fig. 2 is a schematic, sectional side view of a wastewater treatment plant according to an invention according to an embodiment, Fig. 3 is a schematic top view of the wastewater treatment plant according to Fig. 2, and Fig. 4 is a schematic, sectional perspective view of the wastewater treatment plant according to Figs. and 3.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS The present invention relates generally to the management of wastewater, for example in connection with a pumping station (not shown). Wastewater refers in particular to wastewater from households, which wastewater includes solid material in the form of organic material.

Reference is initially made to Figure 1, in which a waste water plant, generally designated 1, is shown according to the preamble of claim 1. The waste water plant 1, in practice constitutes a well to a pumping station shown), (not where harmful substances such as hydrogen sulphide can be neutralized / reduced by react with oxygen and dissolve in the wastewater, thus preventing entry into the pumping station in the form of a harmful fluid. re-develops during transfer to the pumping station, which transfer takes place by default, but the distance must be long enough to ensure that the neutralized hydrogen sulphide which has been converted to sulfuric acid is dissolved in the waste water.A suitable distance is about 20 meters. downstream of the wastewater treatment plant , for example in said pumping station, will move upstream into the wastewater treatment plant and thereby supply oxygen to the wastewater housed in the wastewater treatment plant.

The waste water system 1 comprises a container 2 for temporarily housing waste water, the container 2 comprising a bottom 3, a circumferential wall shell 4 extending from said bottom 3 with an inner surface 5 and a free upper edge 6. Furthermore, the container comprises an inlet opening 7 for incoming flow and an outlet opening 8 for outgoing flow. Said inlet opening 7 and said outlet opening 8 are preferably arranged in the wall shell 4 of the container 2, however, it is conceivable that said outlet opening 8 is arranged in the bottom 3 of the container 2. In case the outlet opening 8 is arranged in the wall shell 4, the outlet opening 8 as close as possible to the bottom 3 of the container 2 in order to prevent the accumulation of solid material in the container 2.

Furthermore, the bottom 3 of the container 2 can be arranged inclined in the direction of the outlet opening 8 to further counteract accumulation of solid material in the container 2. Furthermore, said inlet opening 7 must be arranged at a level above said outlet opening 8. Preferably the container 2 is made of fiberglass, plastic, or other such material which is not prone to corrosion.

The inlet opening 7 is intended to be connected to an incoming pipeline 9, a mixture of a flow of incoming wastewater and a flow of harmful fluids being led into the container 2, furthermore the outlet opening 8 is intended to be connected to an outgoing pipeline 10 to allow outflow of outgoing wastewater. The harmful fluids can be dissolved in the wastewater or be in gaseous form.

The waste water plant 1 according to the invention further comprises a stationary spreading plate 11 which is arranged directly below said inlet opening 7 and arranged in a vertical direction at a level above said outlet opening 8. The spreading plate 11 has an upper surface 12 arranged to receive and spread it from the inlet 7. the waste water and a peripheral edge 13 over which the waste water is arranged to flow. During operation, the incoming flow of wastewater will leave the inlet opening 7 and flow / splash down on the upper surface 12 of the spreading plate 11, whereupon the flow will be spread over said upper surface 12. By harmful fluid is meant primarily (H25) be synonymous terms in this context. hydrogen sulphide which is to be considered in the gas phase or in the liquid phase.

When the wastewater flows / splashes down on the upper surface 12 of the spreading plate 11, and then flows over the peripheral edge 13 of the spreading plate 11 and further down towards the bottom 3 of the container 2, the contact surface / interface between the wastewater and the air space in the container 2 increases.

This in turn means that the hydrogen sulphide contained in the liquid is spread out over the said upper surface 12, phase in the wastewater will more easily be transferred to the gas phase in the air space above the wastewater.

In the moist air layer above the wastewater in the container 2, the hydrogen sulphide will react / oxidize with the oxygen available and form sulfuric acid, according to the formula H25 + 202 -> H2SO4, where the sulfuric acid condenses on the inner surface 5 of the container 2, flows down and dissolves in the wastewater. the water. Thus, the content of harmful fluids in the container 2 has been reduced and instead wastewater with a low concentration (H 2 SO 4) has been obtained.

Preferably, the spreading plate 11 is connected to and projects at an angle from the inner surface 5 of the container 2, as shown in Figure 1. According to an alternative embodiment (not shown), the spreading plate 11 may be a plate with a circumferential peripheral edge spaced from the inner surface of the container. surface, for example the spreading plate 11 in this embodiment not shown can be conical with a cone angle between 60 and 120 degrees. In the embodiment shown in Figure 1, the upper surface 12 of the diffuser plate 11 is flat and has a slope relative to a horizontal plane, which angle of inclination is preferably more than 30 degrees and less than 60 degrees. In an alternative embodiment not shown, the peripheral edge of the spreader plate 11 may be upwardly arcuate. Reference will now be made in particular to Figures 2-4, which jointly show a wastewater treatment plant 1 according to the invention according to a preferred embodiment.

According to this embodiment, the spreading plate 11 comprises a rim 14 which surrounds at least a part of the upper surface 12 of the spreading plate 11. peripheral edge 13. The purpose of the rim 14 is to temporarily dam the waste water flow hitting the upper surface 12 of the spreading plate 11, so that it is ensured that the waste water flow flows over as long a part as possible of the peripheral edge 13 of the spreading plate 11. 14 upper edge sawtooth-shaped, however, the upper edge of the rim 14 may have other shapes, such as straight, wavy, upwardly arcuate, etc.

Furthermore, the diffuser plate 11 comprises at least one diffuser plate 15 which is connected to and which projects upwards at an angle to the upper surface 12 of the diffuser plate 11. In the embodiment shown, there are two separate spreading plates 15, each directed downwards-outwards on each side of a center line of the spreading plate 11.

In the embodiment shown, a pipe bend 16 is arranged in connection with the inlet opening 7, in order to direct the incoming wastewater flow towards the upper surface 12 of the spreading plate 11. In the embodiment shown, the pipe bend 16 is a 90 degree pipe bend facing downwards. However, it is also conceivable that said pipe bend is turned upwards to obtain greater dispersion when the wastewater leaves the pipe bend and more splashing effect when the wastewater hits the diffuser plate 11 over surface 12. The presence of a pipe bend is preferred when the incoming sewage flow is pressurized.

The wastewater system 1 preferably comprises a removable lid 17, see figure 2, which in the assembled condition is tightly closed against the container 2 in the area of the upper edge 6 of the container 2. The lid 17 should, during normal operation, except during service, 10 15 20 25 30 35 be connected to the container 2 to prevent the spread of foul-smelling gas.

In the embodiment shown in Figures 2-4, the waste water system 1 preferably also comprises an aerator assembly 18 arranged on the bottom 3 of the container 2. The aerator assembly 18 is arranged to supply air bubbles to the waste water which the container 2 is intended to accommodate, in order to supply oxygen to the air space above the wastewater. The aerator assembly 18 can be operated continuously or intermittently, depending on the supply of oxygen in the container 2. An air line (not shown) supplies the aerator assembly 18 with pressurized air from a compressed air source. a plurality of holes / slots through which the pressurized air is forced to form small air bubbles. aerator units can be used. for example, an external compressor.

However, it should be mentioned that also other types of Preferably, aerator assembly 18 is arranged vertically at a level below the outlet opening 8, in order to ensure that waste water covers the aerator assembly 18.

Possible modifications of the invention The invention is not limited only to the embodiments described above and shown in the drawings, which have only illustrative and exemplary purposes. This patent application is intended to cover all adaptations and variants of the preferred embodiments described herein, and accordingly, the present invention is defined by the wording of the appended claims and thus the equipment may be modified in any conceivable manner within the scope of the appended claims.

It should also be pointed out that all information about / concerning must be interpreted / read with the equipment oriented in accordance with the figures, with the drawings oriented in such a way that the male reference designations can be read correctly.

Thus, such terms only indicate mutual relations in the embodiments shown, terms such as above, below, upper, lower, etc., which conditions can be changed if the inventive equipment is provided with a different construction / design.

It should be pointed out that even if it is not explicitly stated that features from a specific design can be combined with the features in another design, obviously when possible.

Throughout this specification and the appended claims, unless the context otherwise requires, it is to be understood that the word "include", and variants such as "include" or "include", means include specified unit or step or group of units or steps but not excluding other devices or steps or groups of devices or steps.

Claims (10)

10 15 20 25 30 35 536 4Ü3 11 Patent claim A waste water plant for reducing high levels of harmful fluids in waste water, comprising a container (2) with an inlet opening (7) for incoming waste water and an outlet opening (8) for outgoing waste water, said inlet opening (7) being arranged in vertical direction a (8) arranged just below said inlet level above said outlet opening spreading plate (11) opening (7) and vertically arranged at a level above said outlet opening (11) arranged to receive and spread and a stationary (8) , said spreading plate (12) from the inlet opening (7) (13) over which the waste water is arranged to be characterized by, (11) which is connected to and which (11) has a waste water entering an upper surface and a peripheral edge flow, at least one spreading plate that the spreading plate comprises (15) projects upwards at an angle to the spreading plate (12). upper surface Wastewater system according to claim 1, characterized in that the spreading plate (11) from an inner surface (5) is connected to and projects at an angle to the container (2). Wastewater treatment plant according to claim 1 or 2, characterized in that the spreading plate (11) (12) is flat and has a slope relative to a horizontal plane, the angle of inclination being more than 30 degrees and less than 60 degrees. upper surface Wastewater system according to one of the preceding claims, characterized in that the spreader plate (II) further comprises a rim (14) surrounding at least a part of the upper surface (12) of the spreader (II) peripheral edge of the plate (12), (13) wherein at least a part of it consists of the upper edge of the rim (14). Sewage system according to one of the preceding claims, characterized in that (13) the peripheral of the spreading plate (11) is sawtooth-shaped. 10 15 20 ZS 30 35 536 1103 12 Wastewater system according to one of the preceding claims, characterized in that it further comprises an aerator unit (18) arranged on a bottom (3) (18) of oxygen for the wastewater which the container (2) houses. of the container (2), the aerator unit being arranged to supply is intended to Wastewater system according to Claim 6, characterized in that, (18) below the outlet opening, aerator units are arranged vertically at a level (8). Wastewater system according to one of the preceding claims, characterized by a lid (17), of an upper edge (6), the same further comprising one which is tightly closed against the container (2) of the container (2). in the area A method for reducing high levels of harmful fluids in wastewater, the method comprising the steps of: - in a container (2) receiving a mixture of a flow of incoming wastewater and a flow of harmful fluids via (7), - directing the incoming the waste water flow towards an upper surface (12) an inlet opening of a spreading plate (11) arranged in the container (2), which comprises at least one spreading plate (15) which is connected to and which projects upwards at an angle to the upper surface (11) of the spreading plate (11). 12), - spreading the waste water flow over the upper surface (12) of the spreading plate (11), - flowing the spread waste water flow over a peripheral edge (13) of the spreading plate (11) whereupon the harmful fluids react with oxygen and dissolve in the waste water, and - flow waste water out of the container (2) opening (8). via an outlet The method of claim 9, further comprising the step of supplying air bubbles to the water in the container (2) by means of an aerator assembly (18) (3) of the container (2). housing drainage arranged on a bottom