CN207511867U - A kind of telescopic bubbling humidification desalination plant - Google Patents

Abstract

The utility model discloses a kind of telescopic bubbling humidification desalination plants.Described device includes solar thermal collector, bubbling evaporative cylinder, bubbler, condensation tube, heat pipe, ripple heat-conducting plate, seawater cooling cylinder, fresh-water tank, concentrated seawater heat exchange slot, solar energy photovoltaic panel, accumulator, air pump, water pump and automatic water-exchanging system；The bubbling evaporative cylinder, condensation tube and seawater cooling cylinder are from the inside to the outside into tube-in-tube structure；The solar thermal collector is connected to bubbling evaporative cylinder by pipeline；The condensation tube barrel is equipped with heat pipe and ripple heat-conducting plate；The bubbler is installed on bubbling evaporative cylinder bottom.The utility model uses solar-heating and power supply, and the principle dried using bubbling humidification, apparatus structure is compact, and capacity usage ratio is high, quickly can obtain fresh water using seawater, be of great significance to the fresh water production for solving the scarcity of fresh water resources areas such as island.

Description

A kind of telescopic bubbling humidification desalination plant

Technical field

The utility model is related to field of seawater desalination technical fields, and in particular to a kind of telescopic bubbling humidification sea water desalination Device.

Background technology

With the shortage of freshwater resources, desalination technology is increasingly subject to the attention of every country.Sea water desalination is exactly will The process of salinity and moisture separation in seawater, finally obtains fresh water and concentration brine.Traditional method for desalting seawater mainly has The way of distillation, hyperfiltration, electroosmose process, freezing, hydrate and solvent extraction etc..The way of distillation has been carried out industry at present Metaplasia is produced, but traditional way of distillation high energy consumption, and economic benefit is low and complicated there are desalination plant, and operation operation is tired Difficulty, the larger problems such as low with heat exchange efficiency of seawater corrosion.Hyperfiltration is simple with its device structure, it is easy to maintain the advantages that Gradually the substitution way of distillation becomes the most widely used technology in current sea water desalination market.

Bubble type desalination with Solar Energy is using solar energy as energy, and using being humidified, dehumidification principle carries out sea water desalination A special kind of skill.Its basic thought forms bubble to be passed through in hot sea water using air, absorbs sea during bubble rises The heat of water and the vapor evaporated, as humidification process；Vapor is collected, condenses to obtain fresh water, as dehumidification process. Wet dehumidifying method for desalting seawater is the hot spot studied at present, moderate, available with scaleable, equipment investment and operating cost The advantages that Lowlevel thermal energy, the low, device of technical merit requirement are conducive to miniaturization, the technology be considered as in solar seawater desalination most The method of tool prospect.And in the industry, the research of humidification dehumidifying desalination plant is relatively fewer；Therefore, development of new is efficient Humidification dehumidifying solar energy sea water desalination apparatus mean a great.

Utility model content

The purpose of this utility model is that in order to overcome the shortcomings of above-mentioned background technology and shortcoming, propose a kind of telescopic Bubbling humidification desalination plant.

In order to achieve the above object, the utility model uses following technical scheme：

A kind of telescopic bubbling humidification desalination plant, described device include solar thermal collector, bubbling evaporative cylinder, drum Bubbler, condensation tube, heat pipe, ripple heat-conducting plate, seawater cooling cylinder, fresh-water tank, concentrated seawater heat exchange slot, solar energy photovoltaic panel, electric power storage Pond, air pump, water pump and automatic water-exchanging system；The bubbling evaporative cylinder, condensation tube and seawater cooling cylinder are from the inside to the outside into sleeve knot Structure；The solar thermal collector is connected to bubbling evaporative cylinder by pipeline；The condensation tube barrel is equipped with heat pipe and ripple heat conduction Plate；The bubbler is installed on bubbling evaporative cylinder bottom；The automatic water-exchanging system is installed on bubbling evaporation medial wall of the tube and sea In water cooling medial wall of the tube；The air pump air inlet is connected to condensation tube by guide pipeline, and gas outlet is passed through by guide pipeline Concentrated seawater heat exchange slot is connected to bubbling evaporative cylinder, and then be connected to bubbler；The pump intake is by pipeline through concentrated seawater Heat exchange slot is connected to seawater cooling cylinder, and water outlet is connected to solar thermal collector by pipeline；The fresh-water tank by pipeline with Condensation tube connects, and concentrated seawater heat exchange slot is connect by pipeline with seawater cooling cylinder；The deflection cone is fixed under condensation tube cover Portion；Mare Frigoris water inlet is provided on the seawater cooling cylinder；The solar energy photovoltaic panel is connected to accumulator by pressure regulator, gives Air pump, water pump and automatic water-exchanging system power supply.

In above device, the seawater cooling cylinder is equipped with three pieces of seawater cooling cylinder arcs vertically admittedly with bottom in condensation tube Fixed board and the vertical fixed plate of condensation tube arc, condensation tube are equipped with three pieces of condensation tube transverse gears with bubbling evaporative cylinder outer bottom edge Plate and bubbling evaporative cylinder transverse baffle, the vertical fixed plate of three blocks of seawater cooling cylinder arc and the vertical fixed plate of condensation tube arc Bottom is provided with card slot, and three pieces of condensation tube transverse baffles and bubbling evaporative cylinder transverse baffle is allowed to correspond to and be inserted into.

In above device, the vertical fixed plate of the seawater cooling cylinder arc and the vertical fixed plate of condensation tube arc are with 360 Degree is evenly distributed in corresponding cylinder, and the baffle and bubbling evaporative cylinder transverse baffle are evenly distributed on 360 degree outside corresponding cylinder Bottom edge；Condensation tube is fixed in seawater cooling cylinder by rotating clockwise, bubbling evaporative cylinder is fixed in condensation tube, The separation of cylinder can be achieved in rotation counterclockwise, and taking-up cylinder is facilitated to carry out corresponding cleaning and device maintenance.

In above device, the heat pipe is laterally distributed on condensation tube barrel, and both ends are respectively in condensation tube and seawater In cooling cylinder, the ripple heat-conducting plate is rectangle, and 1 piece of corrugated plating is mounted on 2 row heat pipes, and heat pipe both ends are respectively provided with ripple and lead Hot plate.

In above device, the solar thermal collector heat pipe has the copper vacuous solar energy thermal-arrest of corrosion-resistant coating using inside Pipe, solar thermal collector pass through seawater cooling cylinder and condensation tube to be connect with bubbling evaporative cylinder close to tube port position by pipeline.

In above device, the air pump entrance guide pipeline is connect across seawater cooling cylinder with condensation tube, exports gas-guide tube Road is connect by concentrated seawater heat exchange slot across seawater cooling cylinder and condensation tube with bubbling evaporative cylinder.The water feeding of water pump pipeline warp Overrich seawater to make heat exchange slot is connect with seawater cooling cylinder, and outlet conduit is connect with solar thermal collector.

In above device, the bubbler is several cylindrical bubbling head compositions, and bubbling head is uniformly fixed on bubbling evaporation Cylinder bottom, the gas from air pump are connected to each bubbling head in bubbling evaporative cylinder by gas-guide tube and current divider.

In above device, the solar energy photovoltaic panel using solar cell (generally semi-conducting material) photoproduction Volta effect, other component further include inverter, solar controller and accumulator, for small-power air pump and water pump and certainly Move water system and electric energy is provided.

In above device, the automatic water-exchanging system carries out intelligent control using PLC control system to the plumbing of device, The automatic water-exchanging system includes liquid level sensor in bubbling evaporative cylinder, salinity sensor, seawater cooling cylinder in bubbling evaporative cylinder Temperature sensor and solenoid valve in interior liquid level sensor, seawater cooling cylinder；Wall installation liquid level sensor is surveyed in bubbling evaporative cylinder And salinity sensor, wall installation liquid level gauge and temperature sensor are surveyed in seawater cooling cylinder, in seawater cooling cylinder inlet channel, is gone out Waterpipe, bubbling evaporative cylinder inlet channel, outlet conduit installation solenoid valve.

In above device, the deflection cone is made of heat-insulating material.

In above device, the bubbling evaporative cylinder, condensation tube, seawater cooling cylinder is using the strong PVC material system of anticorrosive property Into for the guide pipeline to there is certain rigid pipeline, the pipeline is equipped with waterproof retainer plate with cylinder coupling part, described Seawater cooling cylinder is equipped with heat insulation layer made of polystyrene material with bubbling evaporation drum outer wall, is provided on seawater cooling cylinder Seawater cooling cylinder cover；Condensation cover is provided on the condensation tube.

The utility model compared with the prior art, has the following advantages and effect：

1st, the utility model uses dismountable telescoping structure, it can be achieved that the convenient installation of cylinder and device feature, tearing open It unloads, safeguard.

2nd, the utility model using adiabatic deflection cone structure, make the vapor from bubbling evaporative cylinder along deflection cone very Enter condensation tube well.

3rd, the utility model is in condensation barrel installation heat pipe and ripple heat-conducting plate so that the vapor into condensation tube can be fast Fast high-efficiency condensation obtains fresh water, and the condensation heat of releasing passes to seawater cooling cylinder and seawater in cylinder is preheated.

4th, the utility model carries out intelligent control using automatic water-exchanging system to the plumbing of device, reduces course of work labor Power is put into.

5th, the concentrated seawater that the utility model generates by concentrated seawater heat exchange slot is discharged and is post-processed again, right in the slot that exchanges heat The gas and seawater flowed through is preheated, and improves capacity usage ratio.

Description of the drawings

Fig. 1 is the telescopic bubbling humidification desalination plant overall structure diagram of the utility model.

Fig. 2 is the telescopic bubbling humidification desalination plant sleeve part structure diagram of the utility model.

Fig. 3 is the telescopic bubbling humidification desalination plant sleeve part transverse cross-sectional view of the utility model.

Fig. 4 rotates installation diagram for the telescopic bubbling humidification desalination plant baffle of the utility model and vertical plate.

Fig. 5 is that the telescopic bubbling humidification desalination plant baffle of the utility model screws in the signal after vertical plate card slot Figure.

Fig. 6 is current divider schematic diagram in the telescopic bubbling humidification desalination plant bubbling evaporative cylinder of the utility model.

All parts are as follows in figure：

Solar thermal collector 1, bubbling evaporative cylinder 2, bubbler 201, current divider 202, bubbling evaporative cylinder transverse baffle 203, Condensation tube 3；The vertical fixed plate 303 of heat pipe 301, ripple heat-conducting plate 302, condensation tube arc, condensation tube transverse baffle 304, water conservancy diversion Cone 305, condensation cover 306, seawater cooling cylinder 4, the vertical fixed plate 401 of seawater cooling cylinder arc, seawater cooling cylinder cover 402, Fresh-water tank 5, concentrated seawater heat exchange slot 6, solar energy photovoltaic panel 7, accumulator 701, air pump 8, water pump 9, liquid level passes in bubbling evaporative cylinder Salinity sensor 1002 in sensor 1001, bubbling evaporative cylinder, liquid level sensor 1003 in seawater cooling cylinder, in seawater cooling cylinder Temperature sensor 1004, solenoid valve 1005.

Specific embodiment

For ease of it will be appreciated by those skilled in the art that being done with reference to the accompanying drawings and embodiments to the utility model further in detail Explanation.

As shown in Figures 1 to 6, a kind of telescopic bubbling humidification desalination plant, described device include solar energy heating Device 1, bubbling evaporative cylinder 2, bubbler 201, condensation tube 3, heat pipe 301, ripple heat-conducting plate 302, seawater cooling cylinder 4, fresh-water tank 5, Concentrated seawater heat exchange slot 6, solar energy photovoltaic panel 7, accumulator 701, air pump 8, water pump 9 and automatic water-exchanging system 10；The bubbling steams Cylinder 2, condensation tube 3 and seawater cooling cylinder 4 are sent out from the inside to the outside into tube-in-tube structure；The solar thermal collector 1 is connected to by pipeline Bubbling evaporative cylinder 2；3 barrel of condensation tube is equipped with heat pipe 301 and ripple heat-conducting plate 302；The bubbler 201 is installed on bubbling 2 bottom of evaporative cylinder；The automatic water-exchanging system is installed on 4 madial wall of 2 madial wall of bubbling evaporative cylinder and seawater cooling cylinder；It is described 8 air inlet of air pump is connected to condensation tube 3 by guide pipeline, and gas outlet is connected to by guide pipeline through concentrated seawater heat exchange slot 6 Bubbling evaporative cylinder 2, and then it is connected to bubbler 201；9 water inlet of water pump is connected to by pipeline through concentrated seawater heat exchange slot 6 Seawater cooling cylinder 4, water outlet are connected to solar thermal collector 1 by pipeline；The fresh-water tank 5 is connected by pipeline and condensation tube 3 It connects, concentrated seawater heat exchange slot 6 is connect by pipeline with seawater cooling cylinder 4；The deflection cone 305 is fixed on 3 cover 306 of condensation tube Lower part；Mare Frigoris water inlet is provided on the seawater cooling cylinder 4；The solar energy photovoltaic panel 7 is connected to electric power storage by pressure regulator Pond 701 powers to air pump 8, water pump 9 and automatic water-exchanging system.The seawater cooling cylinder 4 is equipped with bottom in condensation tube 3 The vertical fixed plate 401 of three pieces of seawater cooling cylinder arcs and the vertical fixed plate 303 of condensation tube arc, condensation tube 3 and bubbling evaporative cylinder 2 outer bottom edges are equipped with three pieces of condensation tube transverse baffles 304 and bubbling evaporative cylinder transverse baffle 203, and three blocks of seawater are cold But the vertical fixed plate 401 of cylinder arc and vertical 303 bottom of fixed plate of condensation tube arc are provided with card slot, allow three pieces of condensation tube transverse directions Baffle 304 and bubbling evaporative cylinder transverse baffle 203, which correspond to, to be inserted into.The vertical fixed plate 401 of the seawater cooling cylinder arc and condensation The cylinder vertical fixed plate 303 of arc is evenly distributed on 360 degree in corresponding cylinder, the baffle 304 and bubbling evaporative cylinder transverse gear Plate 203 is evenly distributed on corresponding cylinder outer bottom edge with 360 degree；By rotating clockwise, that condensation tube 3 is fixed on seawater is cold But in cylinder 4, bubbling evaporative cylinder 2 is fixed in condensation tube 3, the separation of cylinder can be achieved in rotation counterclockwise, facilitates and takes out cylinder progress Corresponding cleaning is safeguarded with device.The heat pipe 301 is laterally distributed on 3 barrel of condensation tube, and both ends are respectively in condensation tube 3 In seawater cooling cylinder 4, the ripple heat-conducting plate 302 is rectangle, and 1 piece of corrugated plating is mounted on 2 row heat pipes, heat pipe both ends It is respectively provided with ripple heat-conducting plate.1 heat pipe of solar thermal collector has the copper vacuous solar energy thermal-arrest of corrosion-resistant coating using inside Pipe, 1 device of solar thermal collector pass through seawater cooling cylinder 4 and condensation tube 3 to connect with bubbling evaporative cylinder 2 close to tube port position by pipeline It connects.The 8 entrance guide pipeline of air pump is connect across seawater cooling cylinder 4 with condensation tube 3, and outlet guide pipeline is changed by concentrated seawater Heat channel 6 is connect across seawater cooling cylinder 4 and condensation tube 3 with bubbling evaporative cylinder 2.9 inlet channel of water pump is changed by concentrated seawater Heat channel 6 is connect with seawater cooling cylinder 4, and outlet conduit is connect with solar thermal collector 1.The bubbler 201 is several cylinders Bubbling head forms, and bubbling head is uniformly fixed on 2 bottom of bubbling evaporative cylinder, and the gas from air pump 8 leads in bubbling evaporative cylinder 2 It crosses gas-guide tube and current divider 202 is connected to each bubbling head.The solar energy photovoltaic panel 7 is (general using solar cell For semi-conducting material) photovoltaic effect, other component further includes inverter, solar controller and accumulator, is small Power air pump 8 and water pump 9 and automatic water-exchanging system 10 provide electric energy.The automatic water-exchanging system uses PLC control system pair The plumbing of device carries out intelligent control, and the automatic water-exchanging system includes liquid level sensor 1001, bubbling in bubbling evaporative cylinder Salinity sensor 1002 in evaporative cylinder, liquid level sensor 1003 in seawater cooling cylinder, temperature sensor 1004 in seawater cooling cylinder With solenoid valve 1005；Wall installation liquid level sensor 1001 and salinity sensor 1002 are surveyed in bubbling evaporative cylinder 2, is cooled down in seawater Wall installation liquid level gauge 1003 and temperature sensor 1004 are surveyed in cylinder 4, in 4 inlet channel of seawater cooling cylinder, outlet conduit, bubbling steams Send out 2 inlet channel of cylinder, outlet conduit installation solenoid valve 1005.The deflection cone 305 is made of heat-insulating material.The bubbling evaporation Cylinder 2, condensation tube 3, seawater cooling cylinder 4 are made of the strong PVC material of anticorrosive property, and the guide pipeline is has certain rigidity Pipeline, the pipeline and cylinder coupling part be equipped with waterproof retainer plate, the seawater cooling cylinder 4 with outside bubbling evaporative cylinder 2 Wall is equipped with heat insulation layer made of polystyrene material, and seawater cooling cylinder cover 402 is provided on seawater cooling cylinder 4；It is described Condensation cover 306 is provided on condensation tube 3.

During work, solar thermal collector 1 provides hot sea water to bubbling evaporative cylinder 2, and air pump 8 is pumped into gas and passes through bubbler 201 carry out bubbling, and the humid air of generation enters the condensation of condensation tube 3 by deflection cone 305 and obtains fresh water, and the heat of releasing passes through heat Pipe 301 and ripple heat-conducting plate 302 pass to seawater cooling cylinder 4 and Mare Frigoris water therein are carried out being preheating to certain temperature, and fresh water passes through Pipeline flows into fresh-water tank 5, and gas passes through under the action of air pump 8 after concentrated seawater heat exchange slot 6 preheats into bubbling evaporative cylinder 2 Bubbler 201 continues bubbling, and the seawater of preheating passes through pipe after concentrated seawater exchanges heat 6 secondary preheating of slot under the action of water pump 9 Road enters solar thermal collector and is heated.The Pipe installing has a certain number of valves to be controlled for pipeline flow and be System repair.

Above-described embodiment of the utility model is only intended to clearly illustrate the utility model example, and is not Restriction to the embodiment of the utility model.For those of ordinary skill in the art, on the basis of above description On can also make other variations or changes in different ways.There is no necessity and possibility to exhaust all the enbodiments. All any modification, equivalent and improvement made within the spirit and principles of the present invention etc., should be included in this reality Within novel scope of the claims.

Claims (8)

1. a kind of telescopic bubbling humidification desalination plant, which is characterized in that described device includes solar thermal collector（1）、 Bubbling evaporative cylinder（2）, bubbler（201）, condensation tube（3）, heat pipe（301）, ripple heat-conducting plate（302）, deflection cone（305）, sea Water cooling cylinder（4）, fresh-water tank（5）, concentrated seawater heat exchange slot（6）, solar energy photovoltaic panel（7）, accumulator（701）, air pump（8）, water Pump（9）And automatic water-exchanging system（10）；The bubbling evaporative cylinder（2）, condensation tube（3）With seawater cooling cylinder（4）From the inside to the outside into Tube-in-tube structure；The solar thermal collector（1）Bubbling evaporative cylinder is connected to by pipeline（2）；The condensation tube（3）Barrel is equipped with Heat pipe（301）With ripple heat-conducting plate（302）；The bubbler（201）It is installed on bubbling evaporative cylinder（2）Bottom；It is described to move certainly Water system is installed on bubbling evaporative cylinder（2）Madial wall and seawater cooling cylinder（4）On madial wall；The air pump（8）Air inlet passes through Guide pipeline is connected to condensation tube（3）, gas outlet is by guide pipeline through concentrated seawater heat exchange slot（6）It is connected to bubbling evaporative cylinder （2）, and then it is connected to bubbler（201）；The water pump（9）Water inlet is by pipeline through concentrated seawater heat exchange slot（6）It is connected to sea Water cooling cylinder（4）, water outlet is connected to solar thermal collector by pipeline（1）；The fresh-water tank（5）Pass through pipeline and condensation tube （3）Connection, concentrated seawater heat exchange slot（6）Pass through pipeline and seawater cooling cylinder（4）Connection；The deflection cone（305）It is fixed on condensation Cylinder（3）Cover（306）Lower part；The seawater cooling cylinder（4）On be provided with Mare Frigoris water inlet；The solar energy photovoltaic panel（7）It is logical It crosses pressure regulator and is connected to accumulator（701）, to air pump（8）, water pump（9）And automatic water-exchanging system power supply.

2. telescopic bubbling humidification desalination plant according to claim 1, which is characterized in that the seawater cooling cylinder （4）With condensation tube（3）Interior bottom is equipped with three pieces of vertical fixed plates of seawater cooling cylinder arc（401）It is solid vertically with condensation tube arc Fixed board（303）, condensation tube（3）With bubbling evaporative cylinder（2）Outer bottom edge is equipped with three pieces of condensation tube transverse baffles（304）And drum Steep evaporative cylinder transverse baffle（203）, the vertical fixed plate of three blocks of seawater cooling cylinder arc（401）It is solid vertically with condensation tube arc Fixed board（303）Bottom is provided with card slot, allows three pieces of condensation tube transverse baffles（304）With bubbling evaporative cylinder transverse baffle（203）It is right It should be inserted into.

3. telescopic bubbling humidification desalination plant according to claim 2, which is characterized in that the seawater cooling cylinder arc The vertical fixed plate of shape（401）With the vertical fixed plate of condensation tube arc（303）It is evenly distributed in corresponding cylinder with 360 degree, it is described Baffle（304）With bubbling evaporative cylinder transverse baffle（203）Corresponding cylinder outer bottom edge is evenly distributed on 360 degree；By suitable Hour hands are rotated condensation tube（3）It is fixed on seawater cooling cylinder（4）It is interior, by bubbling evaporative cylinder（2）It is fixed on condensation tube（3）It is interior, it is inverse The separation of cylinder can be achieved in hour hands rotation.

4. telescopic bubbling humidification desalination plant according to claim 1, it is characterised in that the heat pipe（301）Laterally It is distributed in condensation tube（3）On barrel, both ends are respectively at condensation tube（3）Interior and seawater cooling cylinder（4）It is interior, the ripple heat-conducting plate （302）It is rectangle, 1 piece of corrugated plating is mounted on 2 row heat pipes, and heat pipe both ends are respectively provided with ripple heat-conducting plate.

5. telescopic bubbling humidification desalination plant according to claim 1, it is characterised in that the solar thermal collector （1）Heat pipe has the copper vacuum solar heat-collecting pipe of corrosion-resistant coating, solar thermal collector using inside（1）Device is passed through by pipeline Seawater cooling cylinder（4）And condensation tube（3）With bubbling evaporative cylinder（2）It is connected close to tube port position.

6. telescopic bubbling humidification desalination plant according to claim 1, which is characterized in that the bubbler（201） For several cylindrical bubbling head compositions, bubbling head is uniformly fixed on bubbling evaporative cylinder（2）Bottom, from air pump（8）Gas exist Bubbling evaporative cylinder（2）It is interior to pass through gas-guide tube and current divider（202）It is connected to each bubbling head.

7. telescopic bubbling humidification desalination plant according to claim 1, which is characterized in that the automatic water-exchanging system Intelligent control is carried out to the plumbing of device using PLC control system, the automatic water-exchanging system includes liquid in bubbling evaporative cylinder Level sensor（1001）, salinity sensor in bubbling evaporative cylinder（1002）, liquid level sensor in seawater cooling cylinder（1003）, seawater Temperature sensor in cooling cylinder（1004）And solenoid valve（1005）；In bubbling evaporative cylinder（2）Interior survey wall installation liquid level sensor （1001）And salinity sensor（1002）, in seawater cooling cylinder（4）Liquid level sensor in interior survey wall installation seawater cooling cylinder （1003）With temperature sensor in seawater cooling cylinder（1004）, in seawater cooling cylinder（4）Inlet channel, outlet conduit, bubbling steam Send out cylinder（2）Inlet channel, outlet conduit installation solenoid valve（1005）.

8. telescopic bubbling humidification desalination plant according to claim 1, which is characterized in that the bubbling evaporative cylinder （2）, condensation tube（3）, seawater cooling cylinder（4）It is made of the strong PVC material of anticorrosive property, the pipeline and cylinder coupling part It is equipped with waterproof retainer plate, the seawater cooling cylinder（4）With bubbling evaporative cylinder（2）Outer wall is equipped with made of polystyrene material and protects Warm thermal insulation layer, seawater cooling cylinder（4）On be provided with seawater cooling cylinder cover（402）；The condensation tube（3）On be provided with condensation tube Lid（306）.