CN216837440U - Integrated water plant - Google Patents

Abstract

The utility model provides an integrated water plant, which comprises a raw water lifting system, a water purification system, a clear water storage system and a solar power generation system; the water inlet of the water purification system is communicated with the water outlet of the raw water lifting system, the water outlet of the water purification system is communicated with the water inlet of the clear water storage system, and the solar power generation system is electrically connected with at least one of the raw water lifting system, the water purification system and the clear water storage system. The utility model provides an integrated water works can reduce external electric wire netting power consumption, effectively reduces the power supply cost of water works to the low carbon environmental protection.

Description

Integrated water plant

Technical Field

The utility model relates to a water purification water supply field especially relates to an integrated water factory.

Background

The water plant refers to a complex of water storage, water pump, pipeline and other projects which supply water to water-using departments according to certain quality, and the water supply of the water plant should meet the requirements of urban life and industrial production on water quality, water quantity and water pressure, and also needs to meet the demand of emergency water supply in local areas.

In order to facilitate the construction and management of water plants, integrated water plants are gradually developed. The integrated water plant comprises a plurality of functional modules such as a raw water lifting module, a filtering module and a clear water storage module, wherein the modules are connected through a water conveying pipeline, raw water is sequentially treated and lifted through the modules, and finally purified water supplied to a user is formed. Wherein, all functional modules all adopt external electric wire netting power supply.

However, the power supply cost of the power supply system of the existing water plant is high.

SUMMERY OF THE UTILITY MODEL

The utility model provides an integrated water plant for solve the problem that the power supply cost of the power supply system of current water plant is high.

The utility model provides an integrated water plant, which comprises a raw water lifting system, a water purification system, a clear water storage system and a solar power generation system;

the water inlet of the water purification system is communicated with the water outlet of the raw water lifting system, the water outlet of the water purification system is communicated with the water inlet of the clear water storage system, and the solar power generation system is electrically connected with at least one of the raw water lifting system, the water purification system and the clear water storage system.

The utility model provides an integrated water factory, including raw water hoist system, water purification system, clear water retaining system, raw water hoist system carries untreated sewage to water purification system, and sewage can become the clear water that accords with the water supply standard after water purification system handles, and at last, the clear water can be carried and stored to the clear water retaining system in to unify and carry in the water supply pipe network. Set up solar energy power generation system in integrated water works, accessible solar energy power generation system is the power supply of at least one among raw water lift system, water purification module and the clear water retaining system to reduce external electric wire netting power consumption, and, solar energy power generation system need not the fuel, and the running cost is low, does not have the moving part, and is not fragile, and the maintenance cost is low, sees for a long time, can effectively reduce the power supply cost. In addition, the solar power generation system also has the advantages of no pollution, no noise, low carbon and environmental protection.

In one implementation, the water purification system includes a plurality of processing modules, and the solar power generation system is electrically connected to at least one of the plurality of processing modules.

In one implementation, the plurality of treatment modules comprises a dosing module, a flocculation module, a sedimentation module, a filtration module, and a disinfection module;

the flocculation module is provided with a feed port, the dosing module is connected with the feed port, and a flocculating agent is arranged in the dosing module; the water inlet of the flocculation module is connected with the raw water lifting system, and the sedimentation module, the filtration module and the disinfection module are sequentially connected between the water outlet of the flocculation module and the water inlet of the clear water storage system;

wherein, solar electric system is connected with medicine module and disinfection module electricity at least.

In one implementation, the plurality of treatment modules further comprises a pressurized backwashing module and a sludge treatment module;

the water inlet of the pressurizing backwashing module is communicated with the first water outlet of the clear water storage system, the first water outlet and the second water outlet of the pressurizing backwashing module are respectively communicated with the precipitation module and the filtering module, and the sewage outlet of the precipitation module and the sewage outlet of the filtering module are both communicated with the inlet of the sludge treatment module;

the pressurizing backwashing module is internally provided with a pressurizing pump, and the solar power generation system is electrically connected with the pressurizing pump.

In one implementation mode, the fresh water storage system further comprises a pressurization system, and the pressurization system is connected with the second water outlet of the fresh water storage system.

In one implementation, the solar power generation system is electrically connected with the lighting system.

In one implementation mode, the solar power generation system further comprises an emergency power supply system, and the solar power generation system is electrically connected with the emergency power supply system.

In one implementation, a solar power system includes at least one solar power module mounted on top of a housing of a fresh water storage system.

In one implementation, the solar power generation system comprises at least two solar power generation assemblies, and the solar power generation assemblies are arranged at intervals along the same direction.

In one implementation, a solar power module includes a support, a solar panel, and a battery;

the support mounting is at the top of clear water retaining system's shell, and solar cell panel and battery are all installed on the support, and solar cell panel and battery electricity are connected.

The structure of the present invention and other objects and advantages thereof will be more apparent from the description of the preferred embodiments taken in conjunction with the accompanying drawings.

Drawings

The above and other objects, features and advantages of the embodiments of the present invention will become more readily understood from the following detailed description with reference to the accompanying drawings. Embodiments of the invention will be described, by way of example and not by way of limitation, in the accompanying drawings, in which:

fig. 1 is a perspective view of an integrated water plant provided in an embodiment of the present invention;

fig. 2 is a partially enlarged view of a portion a in fig. 1.

Reference numerals are as follows:

100-a solar power generation system; 110-a solar power generation assembly; 111-a scaffold; 112-solar panels;

200-raw water lifting system;

300-a water purification system; 310-a dosing module; 320-a flocculation module; 330-precipitation module; 340-a filtration module; 350-a disinfection module; 360-supercharging backwashing module; 370-sludge treatment module;

400-a clear water storage system;

500-pressurized system.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

In order to facilitate the construction and management of water plants, integrated water plants are gradually developed. The integrated water plant is mostly a small and miniature water plant, comprises a plurality of functional modules, is convenient for extension, transformation, removal and easy reuse, and has the advantages of short project construction period, small occupied area, low investment cost, low operation and management cost and the like compared with the conventional civil water plant.

The integrated water plant usually comprises a plurality of functional modules such as a raw water lifting module, a filtering module and a clear water storage module, the modules are connected through a water conveying pipeline, raw water is sequentially treated and lifted through the modules, and finally purified water supplied to users is formed.

However, in the existing integrated water plant, all the functional modules are powered by an external power grid, which results in higher power supply cost of the power supply system of the existing water plant. In addition, the integrated water plant is usually built in remote areas such as suburbs and mountainous areas, and if extreme weather occurs, the power supply in the power plant is easy to cause problems.

In view of this, the utility model provides an integrated water plant, this integrated water plant include raw water hoisting system, water purification system, clear water retaining system and solar electric system, and solar electric system is connected with at least one electricity in raw water hoisting system, water purification system and the clear water retaining system, can reduce external electric wire netting power consumption, effectively reduces the power supply cost.

The integrated water plant provided by the embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Fig. 1 is a perspective view of an integrated water plant provided by an embodiment of the present invention. As shown in fig. 1, the present invention provides an integrated water plant, which comprises a raw water lifting system 200, a water purification system 300, a clean water storage system 400 and a solar power generation system 100.

The water inlet of the water purification system 300 is communicated with the water outlet of the raw water lifting system 200, the water outlet of the water purification system 300 is communicated with the water inlet of the clean water storage system 400, the raw water lifting system 200 conveys untreated raw water to the water purification system 300, the water quality of the raw water can reach the water supply standard after the raw water is treated by the water purification system 300, the treated water is called clean water, and finally the clean water is conveyed to the clean water storage system 400 to be stored so as to be conveyed to a water supply pipe network uniformly.

The solar power generation system 100 is electrically connected with at least one of the raw water lifting system 200, the water purification system 300 and the clear water storage system 400, and the solar power generation system 100 supplies power to at least one of the raw water lifting system 200, the water purification system 300 and the clear water storage system 400, so that the power consumption of an external power grid can be reduced, and the power consumption cost can be reduced. Moreover, the solar power generation system 100 does not use fuel, has low operation cost, no moving parts, low damage possibility and low maintenance cost, and can effectively reduce the power supply cost in a long term. In addition, the solar power generation system 100 has the advantages of no pollution, no noise, low carbon and environmental protection.

In practical applications, the water purification system 300 generally includes a plurality of processing modules, and the solar power generation system 100 can be electrically connected to at least one of the plurality of processing modules to reduce electricity consumption and power supply cost, and in addition, the solar power generation system 100 also has the advantages of low carbon and environmental protection.

In some embodiments, the plurality of treatment modules of the water purification system 300 may include a medicated module 310, a flocculation module 320, a sedimentation module 330, a filtration module 340, and a disinfection module 350.

Wherein, the water inlet of flocculation module 320 is connected with raw water lift system 200, and flocculation module 320 still is equipped with the feed inlet, and medicine module 310 is connected with the feed inlet of flocculation module 320. Raw water among the raw water lift system 200 passes through the water inlet of flocculation module 320 and gets into in the flocculation module 320, is equipped with the flocculating agent in the medicine module 310, and the flocculating agent accessible in the medicine module 310 on the feed inlet of flocculation module 320 gets into the flocculation module 320, and flocculating agent and raw water produce the flocculation reaction in the flocculation module 320 to purify the raw water.

In addition, can also set up the stirring structure in the flocculation module 320, through the stirring structure with higher speed the mixture of flocculating agent and raw water for the flocculating agent carries out uniformly mixing together with the raw water, in order to accelerate flocculation reaction, promotes water purification efficiency.

The precipitation module 330, the filtration module 340 and the disinfection module 350 are sequentially connected between the water outlet of the flocculation module 320 and the water inlet of the fresh water storage system 400, and the disinfection module 350 can be specifically disinfected by ultraviolet rays or chloride. The raw water sequentially passes through the flocculation module 320, the sedimentation module 330, the filtration module 340 and the disinfection module 350, is purified into clean water with a composite water supply standard after flocculation, sedimentation, filtration and disinfection, and finally the purified clean water is stored in the clean water storage system 400.

In other embodiments, the plurality of treatment modules may further include a pressurized backwash module 360 and a sludge treatment module 370. Wherein, the sewage draining exit of the precipitation module 330 and the sewage draining exit of the filtration module 340 are both communicated with the inlet of the sludge treatment module 370, raw water is treated by the precipitation module 330 and the filtration module 340, the sludge left in the raw water can be discharged to the sludge treatment module 370 through the sewage draining exit, and the sludge treatment module 370 can periodically clear the sludge to avoid the sludge overflow.

To ensure the sewage draining effect, the water inlet of the pressurized backwashing module 360 may be communicated with the first water outlet of the clean water storage system 400, the first water outlet and the second water outlet of the pressurized backwashing module 360 may be communicated with the precipitation module 330 and the filtration module 340, respectively, and the pressurized backwashing module 360 may flush the sludge in the precipitation module 330 and the filtration module 340 with the clean water in the clean water storage system 400 to flush the precipitate into the sludge treatment module 370.

The booster pump is arranged in the booster backwashing module 360, the power of the booster pump is small and generally not more than 1kw, and under the condition that the power of the solar power generation system 100 is enough, the solar power generation system 100 can be electrically connected with the booster pump to supply power to the booster pump, so that the power consumption cost can be reduced, and the power supply cost can be reduced, and in addition, the solar power generation system 100 also has the advantages of low carbon and environmental protection.

Since the power of the medicated module 310 and the power of the sterilization module 350 are small, for example, the power of the medicated module 310 may be 1.2kw and the power of the sterilization module 350 may be 1.5kw, the solar power generation system 100 may be electrically connected only to the medicated module 310 and the sterilization module 350 when the power of the solar power generation system 100 is small.

When the power of the solar power generation system 100 is large, the solar power generation system 100 may be electrically connected to other process modules such as the flocculation module 320 in addition to the medicated module 310 and the sterilization module 350. The processing modules to which the solar power generation system 100 supplies power can be determined according to actual conditions.

Illustratively, the embodiment of the present invention provides an integrated water plant, which may further include a pressurization system 500, wherein the pressurization system 500 is connected to the second water outlet of the clean water storage system 400, so as to transport the clean water in the clean water storage system 400 to the water supply network for the users with higher terrain or higher floors.

Moreover, the integrated water plant may further include a lighting system (not shown in the figure), the power of the lighting system is relatively low, for example, the power of the lighting system may be 1.2kw, and the solar power generation system 100 may be electrically connected to the lighting system to supply power to the lighting system, so as to reduce the electricity consumption, reduce the power supply cost, and also be low-carbon and environment-friendly.

In regions with cold climate, such as northern regions of China, the temperature in winter is below zero, water in the water plant is easy to freeze, and the normal operation of the water plant is affected. If the power generation power of the solar power generation system 100 is sufficient, the solar power generation system 100 can also be electrically connected with a heat preservation system to supply power to the heat preservation system, so that the power consumption cost is reduced, the power supply cost is reduced, and the low-carbon environment-friendly effect is achieved.

In addition, the integrated water plant of the present embodiment further includes an emergency power supply system (not shown in the figure), and the solar power generation system 100 is electrically connected to the emergency power supply system. The power supply main system comprises a power grid power supply system and a solar power supply system emergency power supply system, the integrated water plant is generally located in remote places such as suburbs and mountainous areas, cables are erected outdoors, and the power grid power supply system of the integrated water plant is easily affected in extreme weather. The solar power supply system is provided with a storage battery, and the storage battery in the solar power supply system can be used as a power supply of the emergency power supply system to supply power for the lighting system and the like, so that the influence of extreme weather on the total power supply system is reduced.

Fig. 2 is a partially enlarged view of a portion a in fig. 1. As shown in fig. 2, the solar power system 100 includes a solar power module 110. by way of example, the solar power module 110 may be mounted on top of a housing of a fresh water impoundment system 400. The clear water storage system 400 has a large volume, the top area of the shell is large, the solar power generation assembly 110 is convenient to install, and the top of the shell of the clear water storage system 400 is free of shielding, so that the solar power generation assembly 110 can absorb solar energy. Moreover, by installing the solar power generation assembly 110 on the top of the housing of the fresh water storage system 400, the solar power generation assembly 110 does not occupy additional floor space and does not affect the design layout of the integrated water plant.

In practical application, only one solar power generation assembly 110 can be arranged at the top of the shell of the clean water storage system 400, and the power generation power of the solar power generation assembly 110 can meet the power supply requirements of part of low-power modules in the raw water lifting system 200, the water purification system 300 and the clean water storage system 400.

Alternatively, more than two solar power generation assemblies 110 may be disposed on top of the housing of the fresh water impoundment system 400 to increase the generated power of the solar power generation system 100. Wherein, each solar energy power generation subassembly 110 sets up along same direction interval to guarantee that every group solar energy power generation subassembly 110 homoenergetic contacts sunshine fully. The solar power generation system 100 has a short construction period, is convenient and flexible, and can flexibly add or reduce the number of the solar power generation assemblies 110 according to the increase and decrease of the load, thereby avoiding waste.

Specifically, the solar power generation assembly 110 may include a bracket 111, a solar panel 112, and a storage battery. The bracket 111 is installed on top of the housing of the fresh water storage system 400, the solar panel 112 and the storage battery are both installed on the bracket 111, and the solar panel 112 is electrically connected with the storage battery. The solar power generation system 100 has intermittence and randomness, the power generation quantity is related to the climate condition, the weather is good, when the sunlight is sufficient, the power generation quantity of the solar panel 112 is large, at the moment, the power generation quantity of the solar panel 112 is larger than the power consumption quantity of the load connected to the solar power generation system 100, and the solar panel 112 can store the redundant electric energy in the storage battery. When the solar power generation is insufficient in cloudy days or at night, the electric energy stored in the storage battery can be used by a load connected with the storage battery.

Illustratively, the solar panel 112 may be a single crystalline silicon solar panel, a polycrystalline silicon solar panel, an amorphous silicon solar panel, or a multi-compound solar panel. The photoelectric conversion efficiency of the monocrystalline silicon solar panel is 15% -24%, but the cost is high; the photoelectric conversion efficiency of the amorphous silicon solar panel is the lowest and is only about 10%, but the amorphous silicon solar panel is simple in process, low in cost and capable of generating power under the condition of weak light.

The power of the solar power generation system 100 is related to the area of the solar panel 112, and the intensity of the solar radiation received on the ground is 1kW/m under the standard condition²On the other hand, the power generation amount per square meter of the solar cell panel 112 is about 0.1kW in terms of 10% photoelectric conversion efficiency. In this embodiment, the top of the housing of the clean water storage system 400 has a length of about 40m and a width of about 8m, and 320m can be disposed on the top of the housing of the clean water storage system 400²The power generated by the solar power generation system 100 can reach 32kW due to the left and right solar panels 112.

In addition, the total power of the booster pump, the illumination system and the emergency system in the medicated module 310, the disinfection module 350 and the pressurized backwash module 360 of the embodiment is only about 5 kW. It can be seen that, in practical use, 50m is set on the clean water storage system 400²The solar power system 100 is completely sufficient to power the chemical dosing module 310, the disinfection module 350, the booster pump in the booster backwash module 360, the lighting system and the emergency system simultaneously by the left and right solar panels 112.

If the capital budget in the early period is large, a larger area of the solar panel 112, specifically 100m, can be arranged on the clean water storage system 400²Or 200m²The solar panels 112 have the same size to increase the power generated by the solar power system 100 and supply power to more systems or treatment modules in the water purification system 300, for example, the solar power system 100 can also supply power to the flocculation module 320 in the heat preservation system and the water purification system 300. The service life of the solar panel 112 is 15-25 years, the water plant is a disposable device which can be continuously used for many years, and the larger the generating power of the solar power generation system 100 is, the more the electricity cost is saved, and the lower the power supply cost is.

The shells of the systems or modules can be made of stainless steel profiles and stainless steel plates, and the bracket 111 of the solar power generation system 100 can also be made of stainless steel, so that the corrosion is avoided, and the service life of the integrated water plant is prolonged. Moreover, each system or module in the integrated water plant can be assembled together according to different use requirements, the design and installation are convenient and fast, and the construction time of the water plant is favorably reduced.

It can be understood that the structure illustrated in the embodiments of the present invention does not constitute a specific limitation to the integrated water plant. In other embodiments of the present invention, a integrated water plant may include more or fewer systems or modules than those shown, or some modules may be combined, some modules may be split, or a different arrangement of modules. For example, the integrated water plant may further include a control system and the like.

In the present application, unless expressly stated or limited otherwise, the first feature may be directly on or directly under the second feature or indirectly via intermediate members. Also, a first feature "on," "over," and "above" a second feature may be directly or diagonally above the second feature, or may simply indicate that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature may be directly under or obliquely under the first feature, or may simply mean that the first feature is at a lesser elevation than the second feature.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the embodiments of the present invention.

Claims (10)

1. An integrated water plant is characterized by comprising a raw water lifting system, a water purification system, a clear water storage system and a solar power generation system;

the water inlet of the water purification system is communicated with the water outlet of the raw water lifting system, the water outlet of the water purification system is communicated with the water inlet of the clear water storage system, and the solar power generation system is electrically connected with at least one of the raw water lifting system, the water purification system and the clear water storage system.

2. The integrated water plant according to claim 1, wherein the water purification system comprises a plurality of treatment modules, and the solar power generation system is electrically connected to at least one of the plurality of treatment modules.

3. The integrated water plant according to claim 2, wherein the plurality of treatment modules comprises a dosing module, a flocculation module, a sedimentation module, a filtration module, and a disinfection module;

the flocculation module is provided with a feed port, the dosing module is connected with the feed port, and a flocculating agent is arranged in the dosing module; the water inlet of the flocculation module is connected with the raw water lifting system, and the sedimentation module, the filtration module and the disinfection module are sequentially connected between the water outlet of the flocculation module and the water inlet of the clean water storage system;

wherein, solar electric system is at least with add medicine module and disinfection module electricity is connected.

4. The integrated water plant according to claim 3, wherein the plurality of treatment modules further comprises a pressurized backwash module and a sludge treatment module;

the water inlet of the pressurized backwashing module is communicated with the first water outlet of the clear water storage system, the first water outlet and the second water outlet of the pressurized backwashing module are respectively communicated with the precipitation module and the filtering module, and the sewage outlet of the precipitation module and the sewage outlet of the filtering module are both communicated with the inlet of the sludge treatment module;

and a booster pump is arranged in the boosting backwashing module, and the solar power generation system is electrically connected with the booster pump.

5. The integrated water plant according to any one of claims 1 to 4, further comprising a pressurization system connected to the second water outlet of the fresh water storage system.

6. The integrated water plant according to any one of claims 1 to 4, further comprising a lighting system, wherein the solar power generation system is electrically connected to the lighting system.

7. The integrated water plant according to any one of claims 1 to 4, further comprising an emergency power supply system, wherein the solar power generation system is electrically connected to the emergency power supply system.

8. The integrated water plant according to any one of claims 1 to 4, wherein the solar power system comprises at least one solar power module mounted on top of a housing of the fresh water storage system.

9. The integrated water plant according to claim 8, wherein the solar power system comprises at least two solar power modules, each solar power module being spaced apart in the same direction.

10. The integrated water plant according to claim 8, wherein the solar power assembly comprises a rack, a solar panel and a battery;

the bracket is arranged at the top of the shell of the clear water storage system, the solar panel and the storage battery are arranged on the bracket, and the solar panel is electrically connected with the storage battery.

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