CN101092810A - Experimental apparatus for simulating water quality of river based on continuous agitating reaction pond - Google Patents
Experimental apparatus for simulating water quality of river based on continuous agitating reaction pond Download PDFInfo
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- CN101092810A CN101092810A CN 200710012056 CN200710012056A CN101092810A CN 101092810 A CN101092810 A CN 101092810A CN 200710012056 CN200710012056 CN 200710012056 CN 200710012056 A CN200710012056 A CN 200710012056A CN 101092810 A CN101092810 A CN 101092810A
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Abstract
This invention relates to a water quality simulation experimental device in an environmental project, which applies 9 cascade aerobic reactors to simulate rivers and uses 9 hatched aerobic reactors to simulate rivers based on a river quality simulation experiment device with continuously mixed reaction pool, each reactor has a set of exposing device and each exposing pump is set independently, so it can operate synchronously or separately, the initial end of the cascade reactor is mounted with a remote flow meter to realize online monitor and timely control to form natural grads of the cascade reactor by the ladder frame and realize timely control to water flow and air exposing volume by the PLC control system.
Description
Technical field
The present invention relates to a kind of Environmental Engineering, particularly relate to experimental apparatus for simulating water quality in a kind of Environmental Engineering.Be applicable to the simulated experiment of processes such as water treatment and control, biochemical reaction, basin water environmental forecasting and monitoring.
Background technology
The quickening of process of industrialization and explosive growth of population cause the water pollution to be on the rise.Improve the water body quality, the protection water ecological environment becomes the emphasis that urban environment is administered.As the final receptor of municipal sewage, the water quality in river is subjected to directly influencing of urban wastewater discharge and discharge quality.
Desirable urban river should possess multi-functionals such as transportation, fishery, drinking water production, irrigation, aquatile inhabitation, but these functions must just can be kept satisfying under two kinds of factor conditions of water quality and quantity, have only when the sufficient water yield possesses suitable water quality, these functions in river just can be utilized.The river is physics, chemistry and the biochemical system of a complexity, water quality of river depends on that not only its source comes the water inlet of water and tributary, and depends on physical transfer and exchange process and various processes such as biology, biochemistry or physics conversion process that river is taken place in flowing.Microorganism plays an important role in the water quality of river conversion process.
The content of dissolved oxygen is an important indicator of reaction water body pollution state in the river, and the change procedure of polluted water body dissolved oxygen concentration has reacted the self purification process in river.When having dissolved oxygen in the water body, aerobic bacteria decomposes the organic matter in the river, and oxygen in water content is descended, and concentration is lower than saturated dissolved oxygen, and the oxygen in the water surface atmosphere just is dissolved in the river, the oxygen that supplement consumed is fallen.If content of organics is higher, dissolved oxygen depletion is too fast, and the oxygen in the atmosphere has little time to replenish the consumption of water oxygen, and the dissolved oxygen in the water body will descend gradually, and even approach exhaustion.After river is in the severe depletion of oxygen state, the aquatic organism mortality, the organic matter decomposition becomes anaerobic fermentation from aerobic decomposition, and the stench phenomenon appears in the water quality severe exacerbation.Aquatic ecosystem in this case is seriously damaged, can't recover voluntarily.
Dissolved oxygen in the river is mainly derived from the photosynthesis of air reaeration and water plant, and wherein air reaeration is the main source of water body dissolved oxygen.Clean atmosphere reoxygenation mechanism is very slow, when the river is subjected to severe contamination, relies on air reaeration to be difficult to realize stream self-purification merely.
Fully understanding river hydraulic characteristic(s) and change of water quality characteristic, is the necessary condition of protection water quality of river.The chamber dry run is verified the various monitoring strategies of being constructed by experiment, is to realize that water quality of river monitors in real time and then reach the only stage which must be passed by of improving the quality of water environment target.
Because actual river system is intricate, the laboratory is set up accurate analogue means and is had very big difficulty.The hydraulic characteristic(s) of considering the cascade pond is close with the hydraulic characteristic(s) of the open-type channel with uncertain flow, so adopt cascade pond simulation river hydraulic characteristic(s) and change of water quality process.
Summary of the invention
The object of the present invention is to provide a kind of effective ways with cascade reactor simulation river.Fully studying on river hydraulic characteristic(s) and the biochemical reaction characteristic basis, adopting cascade CSTR (continuous agitating reaction pond) simulation river, realizing simulation water quality of river and waterpower operation conditions.
The objective of the invention is to be achieved through the following technical solutions:
Experimental apparatus for simulating water quality of river based on continuous agitating reaction pond, adopt nine cascade aerobic reactor simulation rivers, with nine opening aerobic reactor simulation rivers, each reactor has a cover aerator, each aeration pump is relatively independent, but both synchronous operation, also can control it respectively, cascade reactor top, be that initial water inlet end is installed remote control liquid flowmeter, realize on-line monitoring and control in real time, by the natural gradient of trapezoid support formation cascade reactor, by the real-time control of PLC control system realization to discharge and aeration rate.
Aforesaid experimental apparatus for simulating water quality of river based on continuous agitating reaction pond, the communicating pipe between its adjacent reactor is installed control valve, the flow of control sewage; The variable frequency regulating speed control that adopts each aeration pump realizes the aeration rate adjusting.
Advantage of the present invention and effect are:
The river is an open system, because the photosynthesis of air reaeration and water plant, the concentration of dissolved oxygen can access certain oneself and replenishes in the river, under pollution-free situation, sufficient oxygen is arranged.Therefore, adopt simulation river, cascade aerobic reaction pond.
For the ease of realizing automatic control, the present invention has been equipped with remote control liquid flowmeter at the water inlet end of reactor, the monitor signal of flow meter collects the plc data input by data wire, shown at terminal display on the one hand, constitute closed-loop control by control program on the other hand, realize real-time control flow of inlet water in the analogue means.Simultaneously, each reactor aeration pump adopts frequency control to realize aeration rate control.
Description of drawings
Accompanying drawing of the present invention is based on the experimental apparatus for simulating water quality of river of pipe die formula and the experimental apparatus for simulating water quality of river schematic diagram based on CSTR designed according to this invention.
The specific embodiment
The present invention is described in detail with reference to the accompanying drawings.
Among the figure: 1. pipe die formula experimental apparatus for simulating water quality of river 2. teletransmission water ga(u)ges 3. aerobic reaction ponds 4. throughput meters, 5. aeration heads, 6. control valves, 7. trapezoid supports 8. aeration pumps
Suppose that reaction tank mixes fully.The variation of component i can be expressed as in each reaction tank:
Wherein, Q
In-reaction tank flow of inlet water (m
3/ s);
V-reaction tank volume (m
3);
C
I, in-component i influent concentration (g/m
3);
C
i-component i goes out water concentration (g/m
3).
Reaction rate r
iCan obtain by the water quality of river model, the calibration of whole model is still needed and is determined appropriate C STR number.Solve complicated mechanism model modeling and the required professional software of emulation owing to lack, the present invention adopts the l-G simulation test method to determine accurately to simulate the suitable cascade pond number of institute modeling section.At first the waterpower of the pipe network of institute's modeling is dynamically described with single reaction tank,, increased the number in cascade pond then gradually, the repetition dry run by analogue simulation pipe network operation state.Number is increased to after 9 when the cascade pond, and the dynamic changing curve of river key component overlaps substantially, and the above arithmetic speed in 9 ponds obviously slows down.So, take all factors into consideration the degree of accuracy and the arithmetic speed of simplified model, it is dynamically proper to select for use 9 cascade ponds to describe the waterpower of institute modeling section.
Adopt the hydraulic characteristic(s) and the biochemical reaction process in nine classes connection reaction tank simulation river.Simulate aerobic condition under the open river cleaning situation with aerobic reactor.Change dissolved oxygen concentration in the reaction tank by regulating aeration rate, simulate the river under the different degree of contamination.Adopt nine cylindrical aerobic reactors of cascade open type, aeration head is installed in each reactor, by aeration pump input oxygen.For making things convenient for flowing naturally of water, 9 reactors are pressed differing heights by trapezoid support to be settled, the water inlet of each reactor is flowed into by the contiguous reactor in its upper end, and its water outlet flows into the contiguous reactor in its downstream, establish electromagnetic valve between adjacent two reactors, be used to regulate the discharge in upstream to downstream.The beginning water inlet end of cascade reactor is provided with the teletransmission water ga(u)ge, and the aeration air inlet pipe is established teletransmission throughput meter, and two kinds of remote transfer signals all are connected with PLC, realizes control automatically.
Claims (2)
1. based on the experimental apparatus for simulating water quality of river of continuous agitating reaction pond, it is characterized in that adopting nine cascade aerobic reactor simulation rivers, with nine opening aerobic reactor simulation rivers, each reactor has a cover aerator, each aeration pump is relatively independent, but both synchronous operation, also can control it respectively, cascade reactor top, be that initial water inlet end is installed remote control liquid flowmeter, realize on-line monitoring and control in real time, by the natural gradient of trapezoid support formation cascade reactor, by the real-time control of PLC control system realization to discharge and aeration rate.
2. the experimental apparatus for simulating water quality of river based on continuous agitating reaction pond according to claim 1 is characterized in that the communicating pipe between the adjacent reactor is installed control valve, the flow of control sewage; The variable frequency regulating speed control that adopts each aeration pump realizes the aeration rate adjusting.
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CNB2007100120569A CN100501009C (en) | 2007-07-12 | 2007-07-12 | Experimental apparatus for simulating water quality of river based on continuous agitating reaction pond |
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CNB2007100120569A CN100501009C (en) | 2007-07-12 | 2007-07-12 | Experimental apparatus for simulating water quality of river based on continuous agitating reaction pond |
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CN101092810A true CN101092810A (en) | 2007-12-26 |
CN100501009C CN100501009C (en) | 2009-06-17 |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102296561A (en) * | 2011-06-10 | 2011-12-28 | 三峡大学 | Demonstration table for evolution of natural channel |
CN102392430A (en) * | 2011-09-05 | 2012-03-28 | 青岛理工大学 | Water quality simulation device used in long-distance water delivery process |
CN104594283A (en) * | 2014-12-31 | 2015-05-06 | 河海大学 | Multi-functional system for simulating long-distance water diversion project and method for simulating long-distance water diversion project |
-
2007
- 2007-07-12 CN CNB2007100120569A patent/CN100501009C/en not_active Expired - Fee Related
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102296561A (en) * | 2011-06-10 | 2011-12-28 | 三峡大学 | Demonstration table for evolution of natural channel |
CN102296561B (en) * | 2011-06-10 | 2013-05-22 | 三峡大学 | Demonstration table for evolution of natural channel |
CN102392430A (en) * | 2011-09-05 | 2012-03-28 | 青岛理工大学 | Water quality simulation device used in long-distance water delivery process |
CN104594283A (en) * | 2014-12-31 | 2015-05-06 | 河海大学 | Multi-functional system for simulating long-distance water diversion project and method for simulating long-distance water diversion project |
CN104594283B (en) * | 2014-12-31 | 2016-02-10 | 河海大学 | A kind of long distance water diversion project Multi-functional analog system and analogy method |
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CN100501009C (en) | 2009-06-17 |
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