CN214115260U - Processing system based on high salt waste water - Google Patents

Abstract

The utility model belongs to the technical field of high salt waste water is used, specifically disclose a processing system based on high salt waste water, by waste water adjusting part, and the evaporation aeration subassembly that cooperatees and use with waste water adjusting part, and the suction retrieval and utilization subassembly that cooperatees and use constitutes with evaporation aeration subassembly. The utility model discloses a processing system based on high salt waste water's beneficial effect lies in: the high-salinity wastewater biochemical treatment device is reasonable in design structure, and the wastewater adjusting assembly, the evaporation aeration assembly, the suction recycling assembly and the like which are matched for use can complete efficient, stable and safe biochemical treatment of high-salinity wastewater, improve the water treatment efficiency of a sewage station, and meet the water treatment requirements of energy conservation and environmental protection.

Description

Processing system based on high salt waste water

Technical Field

The utility model belongs to the technical field of high salt waste water is used, concretely relates to processing system based on high salt waste water for carry out high efficiency and stable processing to the high salt waste water sewage of sewage station.

Background

The sewage pump generally refers to a sewage pump station, and the sewage pump station is an engineering facility for pumping and conveying sewage in urban drainage engineering. When sewage in a sewage pipeline cannot be conveyed or discharged by gravity, or construction is difficult due to the fact that the sewage is buried too deeply in a common channel, or the sewage enters a sewage treatment plant after being positioned at a main pipe terminal and needing to be pumped up, a sewage pump station is required to be arranged.

The sewage pumping station is an important component of a sewage system and is characterized by continuous water flow, small water flow, large variation range and high pollutant content in water, so that the water collecting tank has enough regulation volume during design, a standby pump needs to be considered, in addition, the pollution to the environment is reduced as much as possible during design, and better management and maintenance conditions are provided in the station.

The high-salinity wastewater refers to wastewater with the total salt mass fraction of at least 1%, which is mainly from chemical plants, petroleum and natural gas collection and processing and the like. The production route of the salt-containing wastewater is wide, and the water quantity is increased year by year. The removal of organic pollutants in saline sewage is of great importance to the environmental impact.

In the water treatment process of the sewage station, the high-salinity wastewater needs to be subjected to biochemical treatment so as to meet the environment-friendly discharge requirement of sewage treatment.

Therefore, based on the above problems, the present invention provides a treatment system based on high salinity wastewater.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: the utility model aims at providing a processing system based on high salt waste water, its project organization is reasonable, and the waste water adjusting part, evaporation aeration subassembly and suction retrieval and utilization subassembly isotructure that cooperate and use, it can accomplish high salt waste water high efficiency, stable and safe biochemical treatment, improves sewage station water treatment efficiency, and realizes the water treatment requirement of energy-conservation, environmental protection.

The technical scheme is as follows: the utility model provides a high-salinity wastewater-based treatment system, which consists of a wastewater adjusting component, an evaporation aeration component matched with the wastewater adjusting component, and a suction recycling component matched with the evaporation aeration component; the wastewater adjusting component comprises an adjusting tank, a stirrer arranged in the adjusting tank, an adjusting tank water pipe connected with the adjusting tank, and a first manual butterfly valve, a first centrifugal pump, a first manual ball valve, a second manual butterfly valve and a third manual butterfly valve which are arranged on the adjusting tank water pipe; the evaporation aeration component comprises a three-effect evaporator, an aeration biological filter, a first water pipe, a fourth manual butterfly valve, a second centrifugal pump, a second manual ball valve, a fifth manual butterfly valve, an aeration fan guide pipe, a sixth manual butterfly valve, an auxiliary aeration fan guide pipe and a seventh manual butterfly valve, wherein the two ends of the first water pipe are respectively connected with the three-effect evaporator and the aeration biological filter; the suction recycling component comprises a first suction tank, a recycling water tank, a second suction tank, a constant pressure tank, a second water pipe, an eighth manual butterfly valve, a ninth manual butterfly valve, a third manual ball valve and a BAF back flushing pump, wherein two ends of the second water pipe are respectively connected with the biological aerated filter and the first suction tank, the eighth manual butterfly valve is arranged on the second water pipe, the ninth manual butterfly valve is arranged on the second water pipe, the third manual ball valve is arranged on the BAF back flushing pump, a first recycling water pipe, two ends of the first recycling water pipe are respectively connected with the first suction tank and the recycling water tank, a second recycling water pipe, two ends of the second recycling water pipe are respectively connected with the recycling water tank and the second suction tank, an auxiliary water guide pipe, a tenth manual butterfly valve, an eleventh manual butterfly valve, a fourth manual ball valve and a constant pressure pump are arranged on the auxiliary water guide pipe.

This technical scheme, processing system based on high salt waste water still includes the carbon dioxide generator, and the factory that is connected with the carbon dioxide generator is responsible for to water, and set up and be responsible for a set of fifth manual ball valve of one end at the factory to water, and both ends respectively with the pipe that reuse water pond, carbon dioxide generator are connected, and both ends respectively with the factory to water be responsible for, the first spinal branch pipe that reuse water pond is connected, and both ends respectively with first spinal branch pipe, the second spinal branch pipe that first suction tank is connected, and both ends respectively with the third spinal branch pipe that first spinal branch pipe, second suction tank are connected.

This technical scheme, processing system based on high salt waste water still includes first flowmeter, the second flowmeter of setting on equalizing basin, reuse water pool respectively, and sets up on supplementary aqueduct and be located the signal transmission manometer, the on-the-spot display manometer of constant pressure jar one side.

Compared with the prior art, the utility model discloses a processing system based on high salt waste water's beneficial effect lies in: the high-salinity wastewater biochemical treatment device is reasonable in design structure, and the wastewater adjusting assembly, the evaporation aeration assembly, the suction recycling assembly and the like which are matched for use can complete efficient, stable and safe biochemical treatment of high-salinity wastewater, improve the water treatment efficiency of a sewage station, and meet the water treatment requirements of energy conservation and environmental protection.

Drawings

Fig. 1 is a schematic structural diagram of the high-salinity wastewater-based treatment system of the present invention.

Detailed Description

The invention will be further elucidated with reference to the drawings and the specific embodiments.

Examples

The high-salinity wastewater-based treatment system shown in fig. 1 comprises a wastewater regulating component, an evaporation aeration component matched with the wastewater regulating component, and a suction recycling component matched with the evaporation aeration component; the wastewater adjusting component comprises an adjusting tank 1, a stirrer 35 arranged in the adjusting tank 1, an adjusting tank water pipe 3 connected with the adjusting tank 1, and a first manual butterfly valve 4, a first centrifugal pump 6, a first manual ball valve 7, a second manual butterfly valve 8 and a third manual butterfly valve 5 which are arranged on the adjusting tank water pipe 3; the evaporation aeration component comprises a three-effect evaporator 2, a biological aerated filter 9, a first water pipe 10, a fourth manual butterfly valve 11, a second centrifugal pump 12, a second manual ball valve 14, a fifth manual butterfly valve 15, an aeration fan guide pipe 43, a sixth manual butterfly valve 45, an auxiliary aeration fan guide pipe 44 and a seventh manual butterfly valve 46, wherein the two ends of the first water pipe 10 are respectively connected with the three-effect evaporator 2 and the biological aerated filter 9, the fourth manual butterfly valve 11, the second centrifugal pump 12, the second manual ball valve 14 and the fifth manual butterfly valve 15 are arranged on the first water pipe 10, the aeration fan guide pipe 43 is connected with the biological aerated filter 9, the sixth manual butterfly valve 45 is arranged on the aeration fan guide pipe 43, the auxiliary aeration fan guide pipe 44 is connected with the biological aerated filter 9, and the seventh manual butterfly valve 46 is arranged on the auxiliary aeration fan guide pipe 44; the pumping and recycling assembly comprises a first pumping tank 17, a recycling water tank 24, a second pumping tank 26, a constant pressure tank 32, a second water pipe 18 with two ends respectively connected with the biological aerated filter 9 and the first pumping tank 17, an eighth manual butterfly valve 19, a ninth manual butterfly valve 22, a third manual ball valve 20 and a BAF backwashing pump 21 which are arranged on the second water pipe 18, a first recycling water pipe 23 with two ends respectively connected with the first pumping tank 17 and the recycling water tank 24, a second recycling water pipe 36 with two ends respectively connected with the recycling water tank 24 and the second pumping tank 26, an auxiliary water guide pipe 27 with two ends respectively connected with the second pumping tank 26 and the constant pressure tank 32, and a tenth manual butterfly valve 28, an eleventh manual butterfly valve 31, a fourth manual ball valve 30 and a pressure pump 29 which are arranged on the auxiliary water guide pipe 27.

Further preferably, the high-salinity wastewater-based treatment system further comprises a carbon dioxide generator 37, a plant area water supply main pipe 40 connected with the carbon dioxide generator 37, a group of fifth manual ball valves 47 arranged at one end of the plant area water supply main pipe 40, a conduit 38 with two ends respectively connected with the reuse water tank 24 and the carbon dioxide generator 37, a first branch conduit 39 with two ends respectively connected with the plant area water supply main pipe 40 and the reuse water tank 24, a second branch conduit 41 with two ends respectively connected with the first branch conduit 39 and the first suction tank 17, and a third branch conduit 42 with two ends respectively connected with the first branch conduit 39 and the second suction tank 26; and the high-salinity wastewater-based treatment system also comprises a first flowmeter 13 and a second flowmeter 25 which are respectively arranged on the regulating tank 1 and the reuse water tank 24, and a signal transmission pressure gauge 33 and a field display pressure gauge 34 which are arranged on the auxiliary water guide pipe 27 and are positioned on one side of the constant pressure tank 32.

The high-salinity wastewater-based treatment system is reasonable in design structure, and the wastewater adjusting assembly, the evaporation aeration assembly, the suction recycling assembly and the like which are matched for use can complete efficient, stable and safe biochemical treatment of high-salinity wastewater, improve the water treatment efficiency of a sewage station and meet the water treatment requirements of energy conservation and environmental protection.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications can be made without departing from the principle of the present invention, and these modifications should also be regarded as the protection scope of the present invention.

Claims (3)

1. Processing system based on high salt waste water, its characterized in that: the device consists of a wastewater adjusting component, an evaporation aeration component matched with the wastewater adjusting component, and a suction recycling component matched with the evaporation aeration component; the wastewater adjusting component comprises an adjusting tank (1), a stirrer (35) arranged in the adjusting tank (1), an adjusting tank water pipe (3) connected with the adjusting tank (1), and a first manual butterfly valve (4), a first centrifugal pump (6), a first manual ball valve (7), a second manual butterfly valve (8) and a third manual butterfly valve (5) which are arranged on the adjusting tank water pipe (3); the evaporation aeration component comprises a three-effect evaporator (2), a biological aerated filter (9), a first water pipe (10) with two ends respectively connected with the three-effect evaporator (2) and the biological aerated filter (9), a fourth manual butterfly valve (11), a second centrifugal pump (12), a second manual ball valve (14) and a fifth manual butterfly valve (15) which are arranged on the first water pipe (10), an aeration fan guide pipe (43) connected with the biological aerated filter (9), a sixth manual butterfly valve (45) arranged on the aeration fan guide pipe (43), an auxiliary aeration fan guide pipe (44) with two ends respectively connected with the aeration fan guide pipe (43) and the biological aerated filter (9), and a seventh manual butterfly valve (46) arranged on the auxiliary aeration fan guide pipe (44); the suction recycling assembly comprises a first suction tank (17), a recycling water tank (24), a second suction tank (26), a constant pressure tank (32), a second water conveying pipe (18) with two ends respectively connected with the biological aerated filter (9) and the first suction tank (17), an eighth manual butterfly valve (19) arranged on the second water conveying pipe (18), a ninth manual butterfly valve (22), a third manual ball valve (20) and a BAF (BAF) backwashing pump (21), a first recycling water pipe (23) with two ends respectively connected with the first suction tank (17) and the recycling water tank (24), a second recycling water pipe (36) with two ends respectively connected with the recycling water tank (24) and the second suction tank (26), an auxiliary water guide pipe (27) with two ends respectively connected with the second suction tank (26) and the constant pressure tank (32), and a tenth manual butterfly valve (28) arranged on the auxiliary water guide pipe (27), An eleventh manual butterfly valve (31), a fourth manual ball valve (30) and a constant pressure pump (29).

2. The high salinity-based wastewater treatment system according to claim 1, characterized in that: the high-salinity wastewater treatment system further comprises a carbon dioxide generator (37), a plant water supply main pipe (40) connected with the carbon dioxide generator (37), a group of fifth manual ball valves (47) arranged at one end of the plant water supply main pipe (40), a guide pipe (38) with two ends respectively connected with the reuse water tank (24) and the carbon dioxide generator (37), a first guide pipe (39) with two ends respectively connected with the plant water supply main pipe (40) and the reuse water tank (24), a second guide pipe (41) with two ends respectively connected with the first guide pipe (39) and the first suction tank (17), and a third guide pipe (42) with two ends respectively connected with the first guide pipe (39) and the second suction tank (26).

3. The high salinity-based wastewater treatment system according to claim 1 or 2, characterized in that: the high-salinity wastewater-based treatment system further comprises a first flowmeter (13) and a second flowmeter (25) which are respectively arranged on the regulating pond (1) and the reuse water pond (24), and a signal transmission pressure gauge (33) and a field display pressure gauge (34) which are arranged on the auxiliary water guide pipe (27) and are positioned on one side of the constant pressure tank (32).

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