CN103112987B - Electrochemical self-purifying system for rainwater quality and method thereof - Google Patents

Abstract

The invention discloses an electrochemical self-purifying system for rainwater quality and a method thereof. The system comprises a rainwater pipe network, a water storage tank, a water wheel generator, a reaction pool, a rainwater electrochemical reaction device, an electric separator, a washing storage tank, an electromagnetic field absorbing device, a strong electric field absorbing device and a purified water storage tank. The electrochemical self-purifying method comprises the following steps of: first, performing rainwater electrochemical reaction for collected rainwater to separate out pollutants in rainwater; and then, removing the pollutants out of rainwater through four steps: electric separation, electromagnetic field absorption, strong electric field absorption and washing and removing dirt. The rainwater electrochemical reaction device, the electric separator, the electromagnetic field absorbing device and the strong electric field absorbing device are supplied with power by electric energy converted by rain energy, and the shortage is supplemented by an external power supply, so that electrochemical self-purifying treatment of rainwater quality is realized. The system provided by the invention has the advantages of environmental-friendliness, simple structure, investment saving, remarkable economic and social benefits and the like, and has the high researching and popularizing values under the ground of energy conservation and emission reduction and crisis of water resources.

Description

Rainwater Quality electrification self-cleaning system and method thereof

Technical field

The invention belongs to unconventional Water resources development and field of renewable energy resource utilization, particularly a kind of Rainwater Quality electrification self-cleaning system and method thereof.

Background technology

Water is the basic substance that on the mankind and the earth, all other biologicals are depended on for existence.In Freshwater resources, with human being's production life closely and be only 104.6 tcms compared with fresh water reserves such as the lake of easy exploiting utilization, river, shallow ground waters, only take up an area respectively ball water total reserves 0.0091% and fresh water total amount 2.99%, as populous nation, China per capita Freshwater resources is deficient, but China's rainwater resource is abundant, and mean annual precipitation is 61,900 hundred million m ³, what can develop has a high potential.Therefore China's water resources crisis can be effectively alleviated in the collection utilization of carrying out rainwater.

Since 1980, European Countries waited and has started the research to rainwater catchment system with Japan.At present, more to rainwater harvesting technology research, and on Rainwater Quality is processed, study less, the Rainwater Quality electrification self-cleaning technology that more rainwater-collecting, Rainwater Quality processing and rain can not generated electricity and combine, in the urgent need to breaking through in this respect, thereby reduce the cost of rainwater utilization, improve the potentiality to be exploited of rainwater resource.Under the overall background highlighting at energy shortage, environmental pollution and water resources problems; carry out rainwater-collecting; utilize the green energy resource generatings such as rain energy, wind energy, sun power; and utilize the electric power sending to process Rainwater Quality; realizing water power " certainly originates from and disappears "; for to protect mankind living environment, the alleviation energy and water resources crisis, there is the sustainable development of socio-economy of very important theoretical and practical significance ，Dui green city's construction and lack of water power-shortage area also to have huge practical value.

Summary of the invention

The object of the invention is to overcome the deficiencies in the prior art, a kind of Rainwater Quality electrification self-cleaning system and method thereof are provided.

Rainwater Quality electrification self-cleaning system comprises the roofing that catchments, Storm Sewer Network, U-shaped pipe, the first mudhole, rinse aqueduct, tank, overflow weir, the first mudhole control valve, the second mudhole, water turbine diversion control valve, the first support, generating aqueduct, hydrogenerator, draft tube, the rain outlet line that can generate electricity, reaction tank water inlet pipe control valve, reaction tank water inlet pipe, reaction tank, rainwater electrochemical reaction equipment, the 3rd mudhole, the second mudhole control valve, the second support, reaction tank rising pipe control valve, reaction tank rising pipe, electronic separating machine, the first blow-off pipe, the first hydraulic pipe control valve, rinse aqueduct control valve, rinse water tank, wash tub pipe control valve, wash tub pipe, electromagnetic field adsorption unit, the first hydraulic pipe, highfield adsorption unit, store battery, supply line, external power source line attachment, unnecessary electric energy outlet line, the second hydraulic pipe, blow-off pipe control valve, the second blow-off pipe, the second hydraulic pipe control valve, water purification bin, the 3rd support, intake pipe control valve, intake pipe, the 3rd hydraulic pipe, a plurality of roofings that catchment are connected with Storm Sewer Network, Storm Sewer Network is connected with tank by the U-shaped pipe with the first mudhole, tank bottom is provided with the second mudhole of the first mudhole control valve with the generating aqueduct of water turbine diversion control valve, tank top is provided with overflow weir and with the reaction tank water inlet pipe of reaction tank water inlet pipe control valve, reaction tank water inlet pipe is connected with reaction tank, reaction tank bottom is provided with the 3rd mudhole with the second mudhole control valve, reaction tank inside is provided with rainwater electrochemical reaction equipment, reaction tank is connected with the electronic separating machine with the first blow-off pipe by the reaction tank rising pipe with reaction tank rising pipe control valve, electronic separating machine is connected with electromagnetic field adsorption unit by the 3rd hydraulic pipe with the first hydraulic pipe control valve, electromagnetic field adsorption unit is connected with highfield adsorption unit by the first hydraulic pipe, highfield adsorption unit is connected with water purification bin by the second hydraulic pipe with the second blow-off pipe and the second hydraulic pipe control valve, the second blow-off pipe is provided with blow-off pipe control valve, water purification bin bottom is provided with the intake pipe with intake pipe control valve, store battery by supply line respectively with rainwater electrochemical reaction equipment, electronic separating machine, electromagnetic field adsorption unit is connected with highfield adsorption unit, external power source line attachment is connected with store battery respectively with unnecessary electric energy outlet line, U-shaped pipe is connected with flushing water tank by the flushing aqueduct with rinsing aqueduct control valve, rinsing water tank is connected with the 3rd hydraulic pipe by the wash tub pipe with wash tub pipe control valve, tank is connected with hydrogenerator by generating aqueduct, hydrogenerator is provided with draft tube, and store battery is connected with hydrogenerator by the rain outlet line that can generate electricity.

Rainwater Quality electrification self-cleaning method is: during rainfall, utilize Storm Sewer Network that the difference roofing that catchments is interconnected to collection rainwater, expand rainwater-collecting amount, rainwater passes through U-shaped manifold by Storm Sewer Network and enters in tank, open reaction tank water inlet pipe control valve, rainwater flows into reaction tank through reaction tank water inlet pipe, off-response pond water inlet pipe control valve after reaction tank holds completely, rainwater electrochemical reaction equipment is processed the Rainwater Quality in reaction tank, open reaction tank rising pipe control valve, the first hydraulic pipe control valve and the second hydraulic pipe control valve, rainwater after processing enters electronic separating machine through reaction tank rising pipe, under the effect of centrifugal force, the dirty generating portion of water is separated, sewage is discharged by the first blow-off pipe, rainwater after electronic separating treatment enters electromagnetic field adsorption unit through the 3rd hydraulic pipe, rainwater after adsorption treatment enters highfield adsorption unit through the first hydraulic pipe, rainwater after purification completes enters water purification bin through the second hydraulic pipe and stores, opening when needed intake pipe control valve supplies water by intake pipe, in tank, rainwater reaches after working water level, the turbine diversion control valve of fetching boiling water, rainwater promotes hydrogenerator generating through generating aqueduct, the tail water forming is drained by draft tube, in tank, rainwater does not reach and when working water level or hydrogenerator shut down, closes water turbine diversion control valve, after tank holds completely, unnecessary rainwater overflows by overflow weir, the electricity that hydrogenerator sends is stored in store battery by the rain outlet line that can generate electricity, store battery is respectively rainwater electrochemical reaction equipment by supply line, electronic separating machine, electromagnetic field adsorption unit and the power supply of highfield adsorption unit, can be by solar electrical energy generation during power shortage, wind power generation external power source is by external power source line attachment access store battery, unnecessary electric energy is confessed by unnecessary electric energy outlet line, throw out in tank can be opened the first mudhole control valve and be discharged by the second mudhole, throw out in U-shaped pipe is discharged by mudhole, throw out in reaction tank can be opened the second mudhole control valve and be discharged by the 3rd mudhole, by closing the first hydraulic pipe control valve and the second hydraulic pipe control valve, open wash tub pipe control valve and blow-off pipe control valve simultaneously, with the rainwater rinsing in water tank, through wash tub pipe, the impurity of electromagnetic field adsorption unit and the absorption of highfield adsorption unit is rinsed to removal, the sewage flushing out is discharged by the second blow-off pipe, after flushing, close blow-off pipe control valve, close wash tub pipe control valve, open simultaneously and rinse aqueduct control valve, the rainwater of being introduced U-shaped pipe 3 collections by flushing aqueduct holds flushing water tank full, after holding completely, close and rinse aqueduct control valve.

The present invention has the advantages such as environmental friendliness, simple in structure, investment is saved, easy to operate, economic and social benefit is remarkable; under the background of energy-saving and emission-reduction and water resources crisis, having research promotion is worth; it can alleviate the water electrical problem of the outstanding water problems in city and remote districts effectively; clean Freshwater resources are provided; and reduce environmental pollution, promote clean development of resources, low-carbon emission; promote Rainwater Resources, have the benefit of preventing and reducing natural disasters concurrently.

Accompanying drawing explanation

Fig. 1 is the composition schematic diagram of Rainwater Quality electrification self-cleaning system.

Embodiment

As shown in Figure 1, Rainwater Quality electrification self-cleaning system comprises the roofing 1 that catchments, Storm Sewer Network 2, U-shaped pipe 3, the first mudhole 4, rinse aqueduct 5, tank 6, overflow weir 7, the first mudhole control valve 8, the second mudhole 9, water turbine diversion control valve 10, the first support 11, generating aqueduct 12, hydrogenerator 13, draft tube 14, the rain outlet line 15 that can generate electricity, reaction tank water inlet pipe control valve 16, reaction tank water inlet pipe 17, reaction tank 18, rainwater electrochemical reaction equipment 19, the 3rd mudhole 20, the second mudhole control valve 21, the second support 22, reaction tank rising pipe control valve 23, reaction tank rising pipe 24, electronic separating machine 25, the first blow-off pipe 26, the first hydraulic pipe control valve 27, rinse aqueduct control valve 28, rinse water tank 29, wash tub pipe control valve 30, wash tub pipe 31, electromagnetic field adsorption unit 32, the first hydraulic pipe 33, highfield adsorption unit 34, store battery 35, supply line 36, external power source line attachment 37, unnecessary electric energy outlet line 38, the second hydraulic pipe 39, blow-off pipe control valve 40, the second blow-off pipe 41, the second hydraulic pipe control valve 42, water purification bin 43, the 3rd support 44, intake pipe control valve 45, intake pipe 46, the 3rd hydraulic pipe 47, a plurality of roofings 1 that catchment are connected with Storm Sewer Network 2, Storm Sewer Network 2 is connected with tank 6 by the U-shaped pipe 3 with the first mudhole 4, tank 6 bottoms are provided with the second mudhole 9 of the first mudhole control valve 8 with the generating aqueduct 12 of water turbine diversion control valve 10, tank 6 tops are provided with overflow weir 7 and with the reaction tank water inlet pipe 17 of reaction tank water inlet pipe control valve 16, reaction tank water inlet pipe 17 is connected with reaction tank 18, reaction tank 18 bottoms are provided with the 3rd mudhole 20 with the second mudhole control valve 21, reaction tank 18 inside are provided with rainwater electrochemical reaction equipment 19, reaction tank 18 is connected with the electronic separating machine 25 with the first blow-off pipe 26 by the reaction tank rising pipe 24 with reaction tank rising pipe control valve 23, electronic separating machine 25 is connected with electromagnetic field adsorption unit 32 by the 3rd hydraulic pipe 47 with the first hydraulic pipe control valve 27, electromagnetic field adsorption unit 32 is connected with highfield adsorption unit 34 by the first hydraulic pipe 33, highfield adsorption unit 34 is connected with water purification bin 43 by the second hydraulic pipe 39 with the second blow-off pipe 41 and the second hydraulic pipe control valve 42, the second blow-off pipe 41 is provided with blow-off pipe control valve 40, water purification bin 43 bottoms are provided with the intake pipe 46 with intake pipe control valve 45, store battery 35 by supply line 36 respectively with rainwater electrochemical reaction equipment 19, electronic separating machine 25, electromagnetic field adsorption unit 32 is connected with highfield adsorption unit 34, external power source line attachment 37 is connected with store battery 35 respectively with unnecessary electric energy outlet line 38, U-shaped pipe 3 is connected with flushing water tank 29 by the flushing aqueduct 5 with rinsing aqueduct control valve 28, rinsing water tank 29 is connected with the 3rd hydraulic pipe 47 by the wash tub pipe 31 with wash tub pipe control valve 30, tank 6 is connected with hydrogenerator 13 by generating aqueduct 12, hydrogenerator 13 is provided with draft tube 14, and store battery 35 is connected with hydrogenerator 13 by the rain outlet line 15 that can generate electricity.

?rainwater Quality electrification self-cleaning method is: during rainfall, utilize Storm Sewer Network 2 that the difference roofing 1 that catchments is interconnected to collection rainwater, expand rainwater-collecting amount, rainwater imports in tank 6 through U-shaped pipe 3 by Storm Sewer Network 2, open reaction tank water inlet pipe control valve 16, rainwater flows into reaction tank 18 through reaction tank water inlet pipe 17, off-response pond water inlet pipe control valve 16 after reaction tank 18 holds completely, Rainwater Quality in 19 pairs of reaction tanks 18 of rainwater electrochemical reaction equipment is processed, open reaction tank rising pipe control valve 23, the first hydraulic pipe control valve 27 and the second hydraulic pipe control valve 42, rainwater after processing enters electronic separating machine 25 through reaction tank rising pipe 24, under the effect of centrifugal force, the dirty generating portion of water is separated, sewage is discharged by the first blow-off pipe 26, rainwater after electronic separating treatment enters electromagnetic field adsorption unit 32 through the 3rd hydraulic pipe 47, rainwater after adsorption treatment enters highfield adsorption unit 34 through the first hydraulic pipe 33, rainwater after purification completes enters water purification bin 43 through the second hydraulic pipe 39 and stores, opening when needed intake pipe control valve 45 supplies water by intake pipe 46, in tank 6, rainwater reaches after working water level, the turbine diversion control valve 10 of fetching boiling water, rainwater promotes hydrogenerator 13 generatings through generating aqueduct 12, the tail water forming is drained by draft tube 14, in tank 6, rainwater does not reach and when working water level or hydrogenerator 13 shut down, closes water turbine diversion control valve 10, after tank 6 holds completely, unnecessary rainwater overflows by overflow weir 7, the electricity that hydrogenerator 13 sends is stored in store battery 35 by the rain outlet line 15 that can generate electricity, store battery 35 is respectively rainwater electrochemical reaction equipment 19 by supply line 36, electronic separating machine 25, electromagnetic field adsorption unit 32 and 34 power supplies of highfield adsorption unit, can be by solar electrical energy generation during power shortage, the external power sources such as wind power generation are by external power source line attachment 37 access store batteries 35, unnecessary electric energy is confessed by unnecessary electric energy outlet line 38, throw out in tank 6 can be opened the first mudhole control valve 8 and be discharged by the second mudhole 9, throw out in U-shaped pipe 3 is discharged by mudhole 4, throw out in reaction tank 18 can be opened the second mudhole control valve 21 and be discharged by the 3rd mudhole 20, by closing the first hydraulic pipe control valve 27 and the second hydraulic pipe control valve 42, open wash tub pipe control valve 30 and blow-off pipe control valve 40 simultaneously, with the impurity of the rainwater process 31 pairs of electromagnetic field adsorption units 32 of wash tub pipe in flushing water tank 29 and 34 absorption of highfield adsorption unit, rinse removal, the sewage flushing out is discharged by the second blow-off pipe 41, after flushing, close blow-off pipe control valve 40, close wash tub pipe control valve 30, open simultaneously and rinse aqueduct control valve 28, by the rainwater that rinses U-shaped pipe 3 collections of aqueduct 5 introducing, flushing water tank 29 is held full, after holding completely, close and rinse aqueduct control valve 28.

The present invention selects rainfall compared with the area of horn of plenty, first transform building storm drain, form aerial Storm Sewer Network, build support setting tank, reaction tank and water purification bin, and hydrogenerator, rainwater electrochemical reaction equipment, electronic separating machine, flushing water tank, electromagnetic field adsorption unit, highfield adsorption unit and store battery are installed, control valve, pipeline and circuit are connected accordingly.When rainfall comes interim, utilize tank to collect rainwater, and reaction tank and the storage of flushing water tank is full, when tank water level reaches certain value, just the turbine diversion control valve of can fetching boiling water promotes hydrogenerator and generates electricity, by generate electricity and can be stored in store battery, while not raining, electric energy in store battery is offered to rainwater electrochemical reaction equipment, electronic separating machine, electromagnetic field adsorption unit and highfield adsorption unit carry out Rainwater Quality purifying treatment, rainwater storage after processing in water purification bin for user, use the rainwater that rinses water tank to rinse decontamination to electromagnetic field adsorption unit and highfield adsorption unit.So, can realize the self-cleaning of Rainwater Quality electrification and process, promote Rainwater Resources exploitation.

The present invention had both been applicable to community, was also applicable to independent building; Both be applicable to mountain area, be applicable to again plains region; Both be applicable to rural area, be applicable to again city; Be specially adapted to remote Island, can combine formation independently " green water and electricity supply system " with sea energy exploitation.The present invention can reduce runoff pollution, reduces rainwater ground and corrodes, and can improve again urban flood defence mitigation ability, improves local water resources carrying capacity, and makes up the deficiency of region clean Freshwater resources, has cut down CO ₂discharge.

Claims (2)

1. a Rainwater Quality electrification self-cleaning system, is characterized in that comprising the roofing (1) that catchments, Storm Sewer Network (2), U-shaped pipe (3), the first mudhole (4), rinse aqueduct (5), tank (6), overflow weir (7), the first mudhole control valve (8), the second mudhole (9), water turbine diversion control valve (10), the first support (11), generating aqueduct (12), hydrogenerator (13), draft tube (14), the rain outlet line (15) that can generate electricity, reaction tank water inlet pipe control valve (16), reaction tank water inlet pipe (17), reaction tank (18), rainwater electrochemical reaction equipment (19), the 3rd mudhole (20), the second mudhole control valve (21), the second support (22), reaction tank rising pipe control valve (23), reaction tank rising pipe (24), electronic separating machine (25), the first blow-off pipe (26), the first hydraulic pipe control valve (27), rinse aqueduct control valve (28), rinse water tank (29), wash tub pipe control valve (30), wash tub pipe (31), electromagnetic field adsorption unit (32), the first hydraulic pipe (33), highfield adsorption unit (34), store battery (35), supply line (36), external power source line attachment (37), unnecessary electric energy outlet line (38), the second hydraulic pipe (39), blow-off pipe control valve (40), the second blow-off pipe (41), the second hydraulic pipe control valve (42), water purification bin (43), the 3rd support (44), intake pipe control valve (45), intake pipe (46), the 3rd hydraulic pipe (47), a plurality of roofings that catchment (1) are connected with Storm Sewer Network (2), Storm Sewer Network (2) is connected with tank (6) by the U-shaped pipe (3) with the first mudhole (4), tank (6) bottom is provided with second mudhole (9) of the first mudhole control valve (8) with the generating aqueduct (12) of water turbine diversion control valve (10), tank (6) top is provided with overflow weir (7) and with the reaction tank water inlet pipe (17) of reaction tank water inlet pipe control valve (16), reaction tank water inlet pipe (17) is connected with reaction tank (18), reaction tank (18) bottom is provided with the 3rd mudhole (20) with the second mudhole control valve (21), reaction tank (18) inside is provided with rainwater electrochemical reaction equipment (19), reaction tank (18) is by being connected with the electronic separating machine (25) with the first blow-off pipe (26) with the reaction tank rising pipe (24) of reaction tank rising pipe control valve (23), electronic separating machine (25) is connected with electromagnetic field adsorption unit (32) by the 3rd hydraulic pipe (47) with the first hydraulic pipe control valve (27), electromagnetic field adsorption unit (32) is connected with highfield adsorption unit (34) by the first hydraulic pipe (33), highfield adsorption unit (34) is connected with water purification bin (43) by the second hydraulic pipe (39) with the second blow-off pipe (41) and the second hydraulic pipe control valve (42), the second blow-off pipe (41) is provided with blow-off pipe control valve (40), water purification bin (43) bottom is provided with the intake pipe (46) with intake pipe control valve (45), store battery (35) by supply line (36) respectively with rainwater electrochemical reaction equipment (19), electronic separating machine (25), electromagnetic field adsorption unit (32) is connected with highfield adsorption unit (34), external power source line attachment (37) is connected with store battery (35) respectively with unnecessary electric energy outlet line (38), U-shaped pipe (3) is connected with flushing water tank (29) by the flushing aqueduct (5) with rinsing aqueduct control valve (28), rinsing water tank (29) is connected with the 3rd hydraulic pipe (47) by the wash tub pipe (31) with wash tub pipe control valve (30), tank (6) is connected with hydrogenerator (13) by generating aqueduct (12), hydrogenerator (13) is provided with draft tube (14), store battery (35) is connected with hydrogenerator (13) by the rain outlet line (15) that can generate electricity.

2. the Rainwater Quality of system electrification self-cleaning method according to claim 1, while it is characterized in that rainfall, utilize Storm Sewer Network (2) that the difference roofing (1) that catchments is interconnected to collection rainwater, expand rainwater-collecting amount, rainwater imports in tank (6) through U-shaped pipe (3) by Storm Sewer Network (2), open reaction tank water inlet pipe control valve (16), rainwater flows into reaction tank (18) through reaction tank water inlet pipe (17), off-response pond water inlet pipe control valve (16) after reaction tank (18) holds completely, rainwater electrochemical reaction equipment (19) is processed the Rainwater Quality in reaction tank (18), open reaction tank rising pipe control valve (23), the first hydraulic pipe control valve (27) and the second hydraulic pipe control valve (42), rainwater after processing enters electronic separating machine (25) through reaction tank rising pipe (24), under the effect of centrifugal force, the dirty generating portion of water is separated, sewage is discharged by the first blow-off pipe (26), rainwater after electronic separating treatment enters electromagnetic field adsorption unit (32) through the 3rd hydraulic pipe (47), rainwater after adsorption treatment enters highfield adsorption unit (34) through the first hydraulic pipe (33), rainwater after purification completes enters water purification bin (43) through the second hydraulic pipe (39) and stores, opening when needed intake pipe control valve (45) supplies water by intake pipe (46), in tank (6), rainwater reaches after working water level, the turbine diversion control valve (10) of fetching boiling water, rainwater promotes hydrogenerator (13) generating through generating aqueduct (12), the tail water forming is drained by draft tube (14), rainwater does not reach and when working water level or hydrogenerator (13) shut down, closes water turbine diversion control valve (10) in the tank (6), after tank (6) holds completely, unnecessary rainwater overflows by overflow weir (7), the electricity that hydrogenerator (13) sends is stored in store battery (35) by the rain outlet line (15) that can generate electricity, store battery (35) is respectively rainwater electrochemical reaction equipment (19) by supply line (36), electronic separating machine (25), electromagnetic field adsorption unit (32) and highfield adsorption unit (34) power supply, during power shortage by solar electrical energy generation, wind power generation external power source is by external power source line attachment (37) access store battery (35), unnecessary electric energy is confessed by unnecessary electric energy outlet line (38), throw out in tank (6) is discharged by the second mudhole (9) by opening the first mudhole control valve (8), throw out in U-shaped pipe (3) is discharged by the first mudhole (4), throw out in reaction tank (18) is discharged by the 3rd mudhole (20) by opening the second mudhole control valve (21), by closing the first hydraulic pipe control valve (27) and the second hydraulic pipe control valve (42), open wash tub pipe control valve (30) and blow-off pipe control valve (40) simultaneously, with the rainwater rinsing in water tank (29), through wash tub pipe (31), the impurity of electromagnetic field adsorption unit (32) and highfield adsorption unit (34) absorption is rinsed to removal, the sewage flushing out is discharged by the second blow-off pipe (41), after flushing, close blow-off pipe control valve (40), close wash tub pipe control valve (30), open simultaneously and rinse aqueduct control valve (28), by rinsing aqueduct (5), introduce rainwater that U-shaped pipe (3) collects and will rinse water tank (29) and hold and expire, after holding completely, close and rinse aqueduct control valve (28).

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