CN204588901U - A kind of garbage percolation liquid treating system - Google Patents
A kind of garbage percolation liquid treating system Download PDFInfo
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- CN204588901U CN204588901U CN201520221325.2U CN201520221325U CN204588901U CN 204588901 U CN204588901 U CN 204588901U CN 201520221325 U CN201520221325 U CN 201520221325U CN 204588901 U CN204588901 U CN 204588901U
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Abstract
The utility model provides a kind of garbage percolation liquid treating system, comprises pretreatment system, MVR falling film evaporation system and advanced treatment system; Described pretreatment system comprises reaction tank, flocculation basin and settling tank, described reaction tank, flocculation basin and settling tank be inlet porting and outlet respectively, the outlet of described reaction tank is connected with the entrance of described flocculation basin, and the outlet of described flocculation basin is connected with the entrance of described settling tank; Described MVR falling film evaporation system comprises distilled water plate-type heat exchanger, concentrated solution plate-type heat exchanger, vent condenser, vaporizing body, vapour compressor and distillation water pot.The utility model carries out pre-treatment to percolate before entering MVR evaporation, the most of organism in percolate and suspended substance is removed in pre-treatment, and technology chain is simple, energy-conserving and environment-protective, can adapt to the process of different areas change of water quality.
Description
Technical field
The utility model relates to a kind of refuse disposal system, is specifically related to a kind of garbage percolation liquid treating system.
Background technology
Along with the quickening of Re-search on Urbanization process, urban population constantly increases, scale constantly expands, and the rubbish thereupon produced becomes multiple to increase.The Yi Chao U.S. of China, occupies first place in the world with annual 1200000000 tons.The urban solid garbage of China's majority adopts the method for landfill or burning to process.In garbage loading embeading stacking process, be called percolate owing to producing a kind of waste water with high-enriched organics or inorganics under the various extraneous factor effects such as extruding.Its change of water quality scope is very big, and organic pollutant category is many, concentration is high, and has multiple carcinogens, short cancer thing, epicarcinogen, prominent carcinogens and metal ion.When percolate penetrates in underground water, surface water, namely pollute surface water quality, underground water loses use value, causes direct impact to HUMAN HEALTH and industrial or agricultural water source.Due to percolate complicated component, there is higher toxicity and there is again high cod values, high ammonia-nitrogen content simultaneously, make landfill leachate treatment difficulty very big.
All there is the problem of Concentrated liquid recharge in current domestic refuse leachate treatment technology, whole refuse landfill can regard a large bio-reactor as, although leachate recirculation can temporarily make organism in concentrated solution at landfill yard internal breakup, but the salinity in percolate particularly heavy metal ion can not decompose, along with the prolongation of landfill yard landfill time, salinity in percolate will be more and more higher, and the more and more difficult steady running of percolation liquid treating system is even paralysed.Main leachate treatment technology mainly contains UASB+A/O/A/O+MBR+RO technique, DTRO technique, MVC+DI technique at present, and its technical characterstic is as follows:
UASB+A/O/A/O+MBR+RO technique, there is complex process, technique chain is long, system management difficulty is large.This technique is recharged due to its concentrated solution 25% ~ 35%, percolate salinity in field can be caused constantly to accumulate, finally cause the imbalance of its front end biochemical system bacterium dead, the blocking of rear end membranous system salt is serious, therefore there is the problems such as continuous run stability difference in it, and at northern area, during winter operation, its biochemical part and membrane portions are subject to weather effect larger.Later stage run accessory and film replacement charge higher.These problems just percolate process these years also exist the problem place of " reach product not up to standard, up to standard do not reach product " always.
DTRO technique, carry out mandatory filtration by the diaphragm of high pressure completely, running cost is high, and water outlet yields poorly, and concentrated solution is up to 45% ~ 55%, and the problems such as winter operation difficulty is large, the later stage runs accessory and membrane module rapid wear and price is high.
Domestic also have some companies to adopt evaporation technology treating refuse percolate, what it adopted is " MVC+DI " technique, percolate is under the condition of evaporation, easy degraded part COD in percolate goes out with the band of gas with the form of VFA (VOC), its ammonia nitrogen contained also can with gas overflowing simultaneously, this technique rely on ion exchange resin by containing band distilled water in COD and ammonia nitrogen exchange adsorption, although can allow standard water discharge like this, but resins exchange is limited in one's ability, treatment capacity is extremely low, can not go back unmodified resin in time after supersaturation will be breakdown, cause system and can not steady and continuous produce.And saturated after when needing regenerating resin cost high, greatest problem is in resin reduction process, produces a large amount of waste liquid containing ammonia nitrogen and COD, causes secondary pollution again.Moreover percolate before entering evaporator evaporation process without pre-treatment, cause heat transfer tube fouling serious, have a strong impact on system water production rate, the long-term stability of influential system is run.
Utility model content
In order to overcome above-mentioned prior art Problems existing, the utility model provides a kind of garbage percolation liquid treating system, and it is simple that the utility model has technology chain, and adaptive faculty is strong, system run all right and processing cost is low.
The technical solution of the utility model is: a kind of garbage percolation liquid treating system, comprises pretreatment system, MVR (mechanical bapor recompression, steam mechanical recompression) falling film evaporation system and advanced treatment system; Described pretreatment system comprises reaction tank, flocculation basin and settling tank, described reaction tank, flocculation basin and settling tank be inlet porting and outlet respectively, the outlet of described reaction tank is connected with the entrance of described flocculation basin, and the outlet of described flocculation basin is connected with the entrance of described settling tank; Described MVR falling film evaporation system comprises distilled water plate-type heat exchanger, concentrated solution plate-type heat exchanger, vent condenser, vaporizing body, vapour compressor and distillation water pot; Described distilled water plate-type heat exchanger and concentrated solution plate-type heat exchanger are for being respectively two groups of input/output structures, and wherein the input terminus of a group is connected with the output terminal of pretreatment system, and output terminal connects vent condenser; The output terminal of described vent condenser connects vaporizing body, described vaporizing body and vapour compressor with distill water pot and be connected, described vaporizing body is organized entrance by another of concentrate pump and concentrated solution plate-type heat exchanger and is connected, and exports as dope exhaust; Described distillation water pot is organized entrance by another of distilled water pump and distilled water plate-type heat exchanger and is connected, and outlet is connected with described advanced treatment system.
Further, described vaporizing body arranges hot well, heat transfer tube, liquid distributor and vapour outlet, described hot well is arranged on the below of heat transfer tube, described liquid distributor is arranged on the top of described heat transfer tube, by recycle pump, the circulation fluid in vaporizing body is delivered to liquid distributor, make circulation fluid be evenly distributed in heat exchange pipe external surface, described vapour outlet is arranged on the top of vaporizing body.
Further, described vapour outlet arranges wire mesh demister.
Further, the output terminal of described vapour compressor is connected with hot well, hot well is organized entrance by another of concentrate pump and concentrated solution plate-type heat exchanger and is connected, outlet is dope exhaust, described heat transfer tube is connected with distillation water pot, and described distillation water pot is organized entrance by another of distilled water pump and distilled water plate-type heat exchanger and is connected.
Further, described pretreatment system also comprises: intermediate pool, and the outlet of described settling tank connects intermediate pool, and described intermediate pool is connected with distilled water plate-type heat exchanger and concentrated solution plate-type heat exchanger by middle water transferpump.
Further, the outlet of described intermediate pool arranges liquid filter.
The beneficial effects of the utility model are: the utility model carries out pre-treatment to percolate before entering MVR evaporation, the most of organism in percolate and suspended substance is removed in pre-treatment, the cleaning interval of vaporizer is extended greatly; Adopt advanced treatment system to carry out advanced treatment to distilled water, solve ion-exchange and produce a large amount of regenerated water problem.The utility model technology chain is simple, and adaptive faculty is strong, system run all right and processing cost is low, energy-conserving and environment-protective, can adapt to the process of different areas change of water quality.
Accompanying drawing explanation
A kind of garbage penetrating fluid processing system structured flowchart that Fig. 1 provides for the utility model;
A kind of garbage penetrating fluid processing system structure iron that Fig. 2 provides for the utility model.
Embodiment
Below in conjunction with accompanying drawing, the utility model is described in detail.
See Fig. 1 and Fig. 2, wherein a kind of garbage penetrating fluid processing system structured flowchart of providing for the utility model of Fig. 1; A kind of garbage penetrating fluid processing system structure iron that Fig. 2 provides for the utility model.
As depicted in figs. 1 and 2, a kind of garbage percolation liquid treating system, comprises pretreatment system, MVR falling film evaporation system and advanced treatment system; Described pretreatment system comprises reaction tank 1, flocculation basin 2 and settling tank 3, described reaction tank 1, flocculation basin 2 and settling tank 3 be inlet porting and outlet respectively, the outlet of described reaction tank 1 is connected with the entrance of described flocculation basin 2, and the outlet of described flocculation basin 2 is connected with the entrance of described settling tank 3;
Described MVR falling film evaporation system comprises distilled water plate-type heat exchanger 7, concentrated solution plate-type heat exchanger 8, vent condenser 9, vaporizing body 11, vapour compressor 12 and distillation water pot 15; Described distilled water plate-type heat exchanger 7 and concentrated solution plate-type heat exchanger 8 are for being respectively two groups of input/output structures, and wherein the input terminus of a group is connected with the output terminal of pretreatment system, and output terminal connects vent condenser 9; The output terminal of described vent condenser 9 connects vaporizing body 11, described vaporizing body 11 and vapour compressor 12 and distill water pot 15 and be connected, described vaporizing body 11 is organized entrance by another of concentrate pump 13 and concentrated solution strainer 14 and concentrated solution plate-type heat exchanger 8 and is connected, and exports as dope exhaust; Described distillation water pot 15 is organized entrance by another of distilled water pump 16 and distilled water plate-type heat exchanger 7 and is connected, and exports and is connected with described advanced treatment system 17.
Described vaporizing body 11 arranges hot well 1101, heat transfer tube 1102, liquid distributor 1103 and vapour outlet 1104, described hot well 1101 is arranged on the below of heat transfer tube 1102, described liquid distributor 1103 is arranged on the top of described heat transfer tube 1102, by recycle pump 10, the circulation fluid in vaporizing body 11 is delivered to liquid distributor 1103, make circulation fluid be evenly distributed in heat transfer tube 1102 outside surface, described vapour outlet 1104 is arranged on the top of vaporizing body 11.
Described vapour outlet 1104 arranges wire mesh demister 18.
The output terminal of described vapour compressor 12 is connected with hot well 1101, hot well 1101 is organized entrance by another of concentrate pump 13 and concentrated solution plate-type heat exchanger 8 and is connected, outlet is dope exhaust, described heat transfer tube 1102 is connected with distillation water pot 15, and described distillation water pot 15 is organized entrance by another of distilled water pump 16 and distilled water plate-type heat exchanger 7 and is connected.
Described pretreatment system also comprises: intermediate pool 4, and the outlet of described settling tank 3 connects intermediate pool 4, and described intermediate pool 4 is connected with distilled water plate-type heat exchanger 7 and concentrated solution plate-type heat exchanger 8 by middle water transferpump 5.
The outlet of described intermediate pool 4 arranges liquid filter 6.
Specific implementation process of the present utility model is: after percolate enters reaction tank and coagulating agent mix and blend, suspended substance in percolate and colloidalmaterial coagulation become finely ground particle substance, after entering flocculation basin and flocculation agent mix and blend thereupon, finely ground particle substance flocculates into large particulate matter, enter settling tank precipitation, supernatant liquor enters intermediate pool thereupon, and the mud bottom settling tank is delivered to plate-and-frame filter press dehydration, filtrate is back to reaction tank and continues process, mud packing outward transport.The supernatant liquor of intermediate pool is delivered to distilled water plate-type heat exchanger, concentrated solution plate-type heat exchanger respectively, enters vent condenser later, enter vaporizing body thereupon with after noncondensable gas heat exchange with hyperthermal distilled water, the heat exchange of high temperature concentrated solution.Circulation fluid in vaporizing body is delivered to vaporizing body liquid distributor by recycle pump, circulation fluid is made to be evenly distributed in heat exchange pipe external surface, vaporize with the high-temperature steam heat exchange of heat transfer tube inside later, the secondary steam produced enters vapour compressor pressurization temperature raising and is delivered to vaporizing body heat transfer tube inside and circulation fluid heat exchange again after wire mesh demister, the concentrated solution produced after evaporation is back to hot well bottom vaporizing body, be delivered to concentrated solution plate-type heat exchanger by concentrate pump and come to drain into outside system after liquid carries out heat exchange, recharge to refuse landfill.The steam heat-exchanging of heat transfer tube inside is condensed into water later, be collected to distillation water pot, be delivered to distilled water plate-type heat exchanger through distilled water pump and carry out liquid and carry out penetration depth treatment system after heat exchange, by the ammonia nitrogen in distilled water and carry organic matter removal on a small quantity secretly and discharge later.
The utility model carries out pre-treatment to percolate before entering MVR evaporation, the most of organism in percolate and suspended substance is removed in pre-treatment, the cleaning interval of vaporizer is extended greatly; Adopt advanced treatment system to carry out advanced treatment to distilled water, solve ion-exchange and produce a large amount of regenerated water problem.The utility model technology chain is simple, and adaptive faculty is strong, system run all right and processing cost is low, energy-conserving and environment-protective, can adapt to the process of different areas change of water quality.
Above the utility model is described in detail, but the utility model is not limited to above-mentioned embodiment, in the ken that those of ordinary skill in the art possess, can also makes a variety of changes under the prerequisite not departing from the utility model aim.Do not depart from design of the present utility model and scope can make many other and change and remodeling.Should be appreciated that the utility model is not limited to specific embodiment, scope of the present utility model is defined by the following claims.
Claims (6)
1. a garbage percolation liquid treating system, is characterized in that, comprising: pretreatment system, MVR falling film evaporation system and advanced treatment system; Described pretreatment system comprises reaction tank (1), flocculation basin (2) and settling tank (3), described reaction tank (1), flocculation basin (2) and settling tank (3) be inlet porting and outlet respectively, the outlet of described reaction tank (1) is connected with the entrance of described flocculation basin (2), and the outlet of described flocculation basin (2) is connected with the entrance of described settling tank (3);
Described MVR falling film evaporation system comprises distilled water plate-type heat exchanger (7), concentrated solution plate-type heat exchanger (8), vent condenser (9), vaporizing body (11), vapour compressor (12), distillation water pot (15); Described distilled water plate-type heat exchanger (7) and concentrated solution plate-type heat exchanger (8) are for being respectively two groups of input/output structures, wherein the input terminus of a group is connected with the output terminal of pretreatment system, and output terminal connects vent condenser (9); The output terminal of described vent condenser (9) connects vaporizing body (11), described vaporizing body (11) and vapour compressor (12) and distill water pot (15) and be connected, described vaporizing body (11) is organized entrance by another of concentrate pump (13) and concentrated solution strainer (14) and concentrated solution plate-type heat exchanger (8) and is connected, and exports as dope exhaust; Described distillation water pot (15) is organized entrance by another of distilled water pump (16) and distilled water plate-type heat exchanger (7) and is connected, and outlet is connected with described advanced treatment system (17).
2. a kind of garbage percolation liquid treating system according to claim 1, it is characterized in that, described vaporizing body (11) comprises hot well (1101), heat transfer tube (1102), liquid distributor (1103) and vapour outlet (1104), described hot well (1101) is arranged on the below of heat transfer tube (1102), described liquid distributor (1103) is arranged on the top of described heat transfer tube (1102), by recycle pump (10), the circulation fluid in vaporizing body (11) is delivered to liquid distributor (1103), circulation fluid is made to be evenly distributed in heat transfer tube (1102) outside surface, described vapour outlet (1104) is arranged on the top of vaporizing body (11).
3. a kind of garbage percolation liquid treating system according to claim 2, is characterized in that, described vapour outlet (1104) is arranged wire mesh demister (18).
4. a kind of garbage percolation liquid treating system according to claim 2, it is characterized in that, the output terminal of described vapour compressor (12) is connected with hot well (1101), hot well (1101) is organized entrance by another of concentrate pump (13) and concentrated solution plate-type heat exchanger (8) and is connected, outlet is dope exhaust, described heat transfer tube (1102) is connected with distillation water pot (15), and described distillation water pot (15) is organized entrance by another of distilled water pump (16) and distilled water plate-type heat exchanger (7) and is connected.
5. a kind of garbage percolation liquid treating system according to claim 1, it is characterized in that, described pretreatment system also comprises: intermediate pool (4), the outlet of described settling tank (3) connects intermediate pool (4), and described intermediate pool (4) is connected with distilled water plate-type heat exchanger (7) and concentrated solution plate-type heat exchanger (8) by middle water transferpump (5).
6. a kind of garbage percolation liquid treating system according to claim 5, is characterized in that, the outlet of described intermediate pool (4) arranges liquid filter (6).
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CN201520221325.2U CN204588901U (en) | 2015-04-12 | 2015-04-12 | A kind of garbage percolation liquid treating system |
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CN201520221325.2U CN204588901U (en) | 2015-04-12 | 2015-04-12 | A kind of garbage percolation liquid treating system |
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Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105967255A (en) * | 2016-05-23 | 2016-09-28 | 江苏瑞升华能源科技有限公司 | Landfill leachate treatment system and technology |
CN105999742A (en) * | 2016-06-29 | 2016-10-12 | 北京伊普国际水务有限公司 | MVR evaporative combination device for percolate and treating method thereof |
CN107285545A (en) * | 2017-07-25 | 2017-10-24 | 杭州绿色环保技术开发有限公司 | A kind of cadmium ammonia waste water technique of zero discharge of thin-film solar cells production line |
CN112408532A (en) * | 2019-12-20 | 2021-02-26 | 陈俊 | Low-temperature concentration device for treating garbage leachate through sectional dehydration |
WO2022057052A1 (en) * | 2020-09-17 | 2022-03-24 | 广东闻扬环境科技有限公司 | Treatment system and treatment method for landfill leachate wastewater |
-
2015
- 2015-04-12 CN CN201520221325.2U patent/CN204588901U/en not_active Expired - Fee Related
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105967255A (en) * | 2016-05-23 | 2016-09-28 | 江苏瑞升华能源科技有限公司 | Landfill leachate treatment system and technology |
CN105999742A (en) * | 2016-06-29 | 2016-10-12 | 北京伊普国际水务有限公司 | MVR evaporative combination device for percolate and treating method thereof |
CN107285545A (en) * | 2017-07-25 | 2017-10-24 | 杭州绿色环保技术开发有限公司 | A kind of cadmium ammonia waste water technique of zero discharge of thin-film solar cells production line |
CN112408532A (en) * | 2019-12-20 | 2021-02-26 | 陈俊 | Low-temperature concentration device for treating garbage leachate through sectional dehydration |
WO2022057052A1 (en) * | 2020-09-17 | 2022-03-24 | 广东闻扬环境科技有限公司 | Treatment system and treatment method for landfill leachate wastewater |
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Granted publication date: 20150826 Termination date: 20160412 |