CN105600855B - A kind of seawater desalination system that vacuum chamber is formed using chemical reaction - Google Patents

Abstract

The invention provides a kind of seawater desalination system that vacuum chamber is formed using chemical reaction, the system includes vaporization chamber, sour gas holding vessel, alkaline solution container and seawater storage tank, the vaporization chamber includes exhaust outlet, the vaporization chamber is attached with sour gas holding vessel, alkaline solution container, the vaporization chamber bottom sets the first pipeline of connection seawater storage tank, seawater holding vessel sets the second pipeline of connection vaporization chamber, for seawater to be transported into vaporization chamber；First valve and the second valve are set on first pipeline and the second pipeline, and the vaporization chamber stores with sour gas sets the 3rd valve on tank connected pipeline, the 4th valve is set on the pipeline that the vaporization chamber is connected with alkaline solution container.The vacuum of vaporization chamber is formed this invention takes chemical mode, has saved cost, improves the performance and efficiency of desalinization.

Description

A kind of seawater desalination system that vacuum chamber is formed using chemical reaction

Technical field

The invention belongs to field of seawater desalination, more particularly to a kind of seawater using chemical reaction formation vacuum evaporation room are light Change system.

Background technology

Freshwater resources deficiency in the world, it has also become the problem of people are increasingly deeply concerned.Therefore desalinization turns into provides at present One important mode of fresh water.

As the increment technique of increasing income of water resource, desalinization has become the important way for solving global water resources crisis Footpath.By 2006, the daily output was being desalinated in individual countries and regions more than 120 using desalination technology, Global Seawater in the world About 37,750,000 tons, wherein 80% is used for drinking water, solves the water supply problem of people more than 100,000,000.

In desalination technology mature today, economy is an important factor for determining its extensive use.At home, " Cost and investment cost are too high ", it is subject matter that desalinization is difficult to courageously use to be always treated as, but actually this is one Individual " understanding " problem.

Global Seawater desalination technology is planted more than more than 20, including hyperfiltration, low multiple-effect, multistage flash evaporation, electroosmose process, pressure vapour Distillation, dew point evaporation, water-electricity cogeneration, hotting mask coproduction and utilization nuclear energy, solar energy, wind energy, tidal energy seawater desalination technology Etc., and the multinomial pretreatment such as micro-filtration, ultrafiltration, nanofiltration and aftertreatment technology.

From the point of view of big classification, the way of distillation (hot method) and the major class of embrane method two are broadly divided into, wherein low multiple-effect distillation, multistage Flash method and reverse osmosis membrane are global mainstream technologys.

But, it is necessary to keep the vacuum of vaporization chamber in multistage flash vaporization, mode universal at present is to set vavuum pump, So that vaporization chamber forms the vacuum for meeting to require.But cost increase, efficiency are caused by way of vavuum pump vacuumizes Lowly, it is therefore necessary to design a kind of mode of new formation vacuum.

The content of the invention

The present invention is intended to provide a kind of seawater desalination system of energy-conserving and environment-protective, so as to efficiently quickly make vaporization chamber be formed very Reciprocal of duty cycle, so as to improve the ability to work of desalinization.

To achieve these goals, technical scheme is as follows：A kind of seawater desalination system, the system include steaming Hair room, sour gas holding vessel, alkaline solution container and seawater storage tank, seawater evaporate in vaporization chamber, the vaporization chamber bag Exhaust outlet is included, the vaporization chamber is attached with sour gas holding vessel, alkaline solution container, and the vaporization chamber bottom, which is set, to be connected The first pipeline of seawater storage tank is connect, seawater holding vessel sets the second pipeline of connection vaporization chamber, for seawater to be transported into steaming Send out room；First valve and the second valve are set on first pipeline and the second pipeline, and the vaporization chamber stores with sour gas 3rd valve is set on tank connected pipeline, the 4th valve is set on the pipeline that the vaporization chamber is connected with alkaline solution container.

Preferably, described system includes concentrated seawater holding vessel, the vaporization chamber bottom passes through the 3rd pipeline and dense sea Water store tank connects, and the 3rd pipeline connects the second pipeline；

Triple valve is set on the 3rd pipeline, and described triple valve one end connects concentrated seawater holding vessel, the described the 3rd pipe Concentration of seawater detection means is set on road, for detecting the concentration of seawater in the 3rd pipeline.

Preferably, also include pressure gauge, for detecting the pressure in vaporization chamber, when the pressure of detection reaches the pressure of needs Power, then close the 4th valve.

Preferably, described alkaline solution sets the entrance of alkali solid or liquid, set in the alkaline solution Agitator.

Preferably, sour gas is carbon dioxide, alkaline solution is sodium hydroxide or potassium hydroxide solution.

Preferably, sour gas entrance and air-discharging outlet are same part.

Preferably, triple valve is set between the seawater holding vessel, container and vaporization chamber, for being opened and closed seawater storage The 4th pipeline and the second pipeline between tank, container.

Preferably, the system also includes solar thermal collector, the heating in the solar thermal collector and vaporization chamber Pipe is connected, and solar thermal collector absorbs solar energy, transfers heat to heating tube, heating tube after heating of seawater to being recycled to too again Positive energy heat collector；

The solar thermal collector, including thermal-collecting tube, speculum and collecting plate, pass through collection between adjacent two thermal-collecting tubes Hot plate connects, so that forming tube plate structure between multiple thermal-collecting tubes and adjacent collecting plate；The solar energy collector system Including two pieces of tube plate structures, shape is at a certain angle between two pieces of tube plate structures, the circle of the angle direction and speculum The direction of camber line structural bending is relative, and the focus of speculum is located between the angle of tube plate structure formation, described thermal-collecting tube Cross section is rectangle, the angle of described collecting plate connection square；

Inner fin is set inside the thermal-collecting tube, and the inner fin connection is rectangular diagonal, and the inner fin is by thermal-arrest It is divided into multiple passage aisles inside pipe, intercommunicating pore is set on inner fin, so that adjacent passage aisle communicates with each other.

The a length of L of square inner edge, the radius r of the intercommunicating pore, adjacent intercommunicating pore circle on the same fin The distance between heart is l, meets following relation：

L/L*10=a*ln (r/L*10)+b；

Wherein ln is logarithmic function, and a, b are parameters, 1.5<a<1.6,2.9<b<3.0；

0.34<l/L<0.38；

0.14<r/L<0.17；

30mm<L<120mm；

5mm<r<17mm。

It is a kind of seawater desalination system is formed the method for being evaporated in vacuo room, it is characterised in that to comprise the following steps：

The first step, the first valve, the 3rd valve and the 4th valve are closed, the second valve is opened, will by the second pipeline Seawater is transported to vaporization chamber from seawater holding vessel, makes to be full of seawater in vaporization chamber, is steamed so as to which air be discharged by exhaust outlet Room is sent out, closes exhaust outlet and the second valve；

Second step, open the first valve and the 3rd valve so that sour gas is filled with vaporium, and seawater is drained into seawater Holding vessel, until being full of sour gas in vaporization chamber；

3rd step, the 3rd valve and the first valve are closed, open the 4th valve so that aqueous slkali enters vaporization chamber, with steaming Sour gas in hair room is chemically reacted, so as to form certain vacuum in vaporization chamber.

Preferably, open the second valve so that the reacted liquid of vaporization chamber is in concentration of seawater detection means, threeway Circulate, heated in evaporation indoor liquid by thermal source, the vapor of evaporation passes through light between valve, the second valve and vaporization chamber Water collecting device is collected；

If the ion concentration in the liquid that concentration of seawater detection means detects is too high, now triple valve closes the 3rd pipe Connection between road and the second pipeline, the connection between the 3rd pipeline and concentrated seawater holding vessel is opened, liquid is drained into dense sea Water store tank；If the ion concentration in the liquid that concentration of seawater detection means detects is too low, now triple valve opens the 3rd Connection between pipeline and the second pipeline, the connection closed between the 3rd pipeline and concentrated seawater holding vessel so that liquid continues Circulated between concentration of seawater detection means, triple valve, the second valve and vaporization chamber；Knot is extracted in the seawater of seawater storage pot bottom Shu Hou, the second valve is closed in time.

Compared with prior art, the present invention has the advantage that：

1) chemical mode is taken to form the vacuum of vaporization chamber, has saved cost, improves the performance of desalinization And efficiency.

2) by further improving, avoid aqueous slkali and stay in vaporization chamber, avoid the corruption of pipeline and vaporization chamber Erosion.

3) loop circuit heat pipe is set by being arranged in vaporization chamber, the recycle heat of evaporation chamber can be made full use of, from And reach the purpose for saving the energy.

4) by using solar energy, there is provided new solar thermal collector, by opening up intercommunicating pore inside thermal-collecting tube, The rule change of the area of through hole in thermal-collecting tube, the Heat-collecting effect and flow resistance being optimal.

5) present invention, in the case where ensureing that heat exchange amount is maximum and flow resistance meets to require, is obtained by test of many times The solar thermal collector optimum results optimal to one, and by being verified, so as to demonstrate the accurate of result Property.

Brief description of the drawings

Fig. 1 is the schematic diagram of seawater desalination system of the present invention；

Fig. 2 illustrates the schematic diagram of improved seawater desalination system of the present invention；

Fig. 3 is the structural representation of solar thermal collector of the present invention；

Fig. 4 is thermal-collecting tube cross-sectional structure schematic diagram of the present invention；

Fig. 5 is inner fin intercommunicating pore distribution schematic diagram of the present invention；

Fig. 6 is inner fin intercommunicating pore stagger arrangement distribution schematic diagram of the present invention；

Fig. 7 is square dimensions schematic diagram in thermal-collecting tube of the present invention.

Reference is as follows：

1-10 valves, 11-13 pumps, 14 triple valves, 15 triple valves, 16 screen packs, 17, overflow valve, 18 overflow valves, 19 evaporations Room, 20 fresh water collecting devices, 21 loop circuit heat pipes, 22 sprinkling equipments, 23 fresh water collecting tanks, 24 sour gas storage tubes, 25 stirrings Device, 26 alkaline matter entrances, 27 seawater storage tanks, 28 concentrated seawater storage tanks, 29 concentration of seawater detection means, 30, solar energy collection Hot device, 31 electrical heating auxiliary equipments, 32 heat exchangers, 33 flowmeters, 34 pressure gauges, 35 power-equipments, 36 alkaline solution containers, 37 Speculum, 38 thermal-collecting tubes, 39 collecting plates, 40 inner fins, 41 intercommunicating pores, 42 passage aisles

Embodiment

The embodiment of the present invention is described in detail below in conjunction with the accompanying drawings.

A kind of seawater desalination system as shown in Figure 1, the system include vaporization chamber 19, sour gas holding vessel 24, alkali Property solution container 36 and seawater storage tank 27, seawater evaporate in vaporization chamber 19, and the vaporization chamber 19 includes exhaust outlet, the steaming Hair room 19 is attached with sour gas holding vessel 24, alkaline solution container 36, and the bottom of vaporization chamber 19 sets the first pipeline Seawater storage tank 27 is connected, first pipeline sets the first valve 6, the vaporization chamber 19 and sour gas holding vessel 24, alkali Property the connecting line of solution container 36 on the 3rd valve 2 and the 4th valve 4 are set.

Said system can form vacuum system in vaporization chamber 19, and idiographic flow is as follows：

The first step, the 3rd valve 2 and the 4th valve 4 are closed, the first valve 6 is opened, by the second pipeline by seawater from Vaporization chamber 19 is transported in seawater holding vessel 27, makes to be full of seawater in vaporization chamber 19, is steamed so as to which air be discharged by exhaust outlet Room 19 is sent out, closes exhaust outlet (preferably being closed by valve)；

Second step, open the 3rd valve 2 so that sour gas is filled with vaporium 19, and seawater is drained into seawater holding vessel 27, until being full of sour gas in vaporization chamber 19；

3rd step, the 3rd valve 2 and the first valve 6 to be closed, open the 4th valve 4 so that aqueous slkali enters vaporization chamber 19, Chemically reacted with the acid solution in vaporization chamber 19, so as to form certain vacuum in vaporization chamber.

Such a method is actually using the first pipeline as the seawaterline being discharged into and discharge acts on.

It is preferred that closing the first valve 6 after the first the end of the step, the first valve 6 is opened when second step starts.

It is as follows as improving：

Seawater holding vessel 27 sets the second pipeline to connect vaporization chamber 19, for seawater to be transported into vaporization chamber 19；Described Second valve 3 is set on two pipelines.

Said system can form vacuum system in vaporization chamber 19, and idiographic flow is as follows：

The first step, the first valve 6, the 3rd valve 2 and the 4th valve 4 are closed, the second valve 3 is opened, and passes through the first pipe Seawater is transported to vaporization chamber 19 by road from seawater holding vessel 24, makes to be full of seawater in vaporization chamber 19, so as to which air is passed through into row Gas port discharges vaporization chamber 19, closes air scoop air bleeding valve and the second valve 3；

Second step, open the first valve 6 and the 3rd valve 2 so that sour gas is filled with vaporium 19, and seawater is drained into Seawater holding vessel 27, until being full of sour gas in vaporization chamber 19；

3rd step, the 3rd valve 2 and the first valve 6 to be closed, open the 4th valve 4 so that aqueous slkali enters vaporization chamber 19, Chemically reacted with the acid solution in vaporization chamber 19, so as to form certain vacuum in vaporization chamber.

This embodiment is actually using the second pipeline as input seawaterline, and the first pipeline is as output seawaterline.No One input seawaterline is individually set in the bottom of vaporization chamber 19.

Improved as follows for this.

Seawater holding vessel 27 sets the second pipeline to connect the sprinkling equipment 22 in vaporization chamber 19, for seawater to be transported into steaming Hair room 19 is sprayed.It is preferred that the second valve 3 is set on second pipeline.

Preferably, set valve 8 on the second pipeline between the seawater holding vessel 27 and valve 3, the 3rd pipeline and The tie point of second pipeline is between valve 8 and valve 3.

It is preferred that valve 7 is set on the 3rd pipeline.It is preferred that set between the valve 7 and concentration of seawater detection means 29 Put the pump 12 and check valve 10 being mutually in parallel.

Described system includes concentrated seawater holding vessel 28, and the bottom of vaporization chamber 19 is stored up by the 3rd pipeline and concentrated seawater Deposit tank 28 to connect, the 3rd pipeline connects the second pipeline.

Triple valve 15 is set on the 3rd pipeline, and described one end of triple valve 15 connects concentrated seawater holding vessel 28, described Concentration of seawater detection means 29 is set on the 3rd pipeline, and the concentration of seawater detection means 29 is arranged on vaporization chamber 19 and triple valve Between 15, for detecting the concentration of seawater in the 3rd pipeline.

Preferably, as shown in Fig. 2 described vaporization chamber 19 can also take following method to form vacuum：

The first step, the 3rd valve 2 and the 4th valve 4 are closed, the first valve 6 is closed, and valve 7 is opened, and passes through the 3rd pipe Seawater is transported to vaporization chamber 19 by road from seawater holding vessel 27, makes to be full of seawater in vaporization chamber 19, so as to which air is passed through into row Gas port discharges vaporization chamber 19, closes exhaust outlet (preferably being closed by valve) and valve 7；

Second step, open the 3rd valve 2 and the first valve 6 so that sour gas is filled with vaporium 19, and seawater is passed through into the One pipeline is drained into seawater holding vessel 27, until being full of sour gas in vaporization chamber 19；

3rd step, the 3rd valve 2 and the first valve 6 to be closed, open the 4th valve 4 so that aqueous slkali enters vaporization chamber 19, Chemically reacted with the acid solution in vaporization chamber 19, so as to form certain vacuum in vaporization chamber.

Now it is used as equivalent to using a pipeline as discharge seawaterline, the second pipeline and is discharged into seawaterline.

As a further improvement, also include pressure gauge 34, for detecting the pressure in vaporization chamber 34.When the pressure of detection reaches To the pressure of needs, then the 4th valve 4 is closed.

The 4th valve 4 is closed after forming vacuum.

As a further improvement, also include pressure gauge 34, for detecting the pressure in vaporization chamber 34.When the pressure of detection reaches To the pressure of needs, then the 4th valve 4 is closed.

After reaction generation vacuum is carried out, it is possible that caused by input aqueous slkali is excessive in vaporization chamber 19 Aqueous slkali is still remained, so as in desalting process, cause vaporization chamber and associated pipe because of the presence of aqueous slkali Corrosion, it is therefore desirable to further improve, aqueous slkali is thoroughly excluded.

In order to thoroughly exclude aqueous slkali, in addition to following flow：

Open valve 3 so that the liquid of vaporization chamber 19 is in concentration of seawater detection means 29, triple valve 15, valve 3 and evaporation Circulated between room 19, liquid is heated by thermal source in vaporization chamber 19, and the vapor of evaporation is entered by fresh water collecting device Row is collected.If the ion concentration in the liquid that concentration of seawater detection means 29 detects is too high, now triple valve 15 closes the Connection between three pipelines and the second pipeline, the connection between the 3rd pipeline and concentrated seawater holding vessel 28 is opened, concentrated liquid is arranged Enter to concentrated seawater holding vessel.If the ion concentration in the liquid that concentration of seawater detection means 29 detects is too low, now threeway Valve 15 opens the connection between the 3rd pipeline and the second pipeline, the connection closed between the 3rd pipeline and concentrated seawater holding vessel 28, So that liquid continues to circulate between concentration of seawater detection means 29, triple valve 15, valve 3 and vaporization chamber 19.In pot bottom sea After water extraction terminates, valve 3 is closed in time.

Preferably, described seawater storage tank is connected with alkaline solution container 36.

Preferably, pump 12 is set between the vaporization chamber 19 and concentration of seawater detection means 29.

Preferably, the seawater holding vessel 27 is connected with sprinkling equipment 22 by the 3rd pipeline, the sprinkling equipment 22 It is arranged in vaporization chamber 19, for seawater to be sprayed, makes on the thermal source that seawater is more evenly distributed in vaporization chamber 19, So as to promote desalinization.

The thermal source is preferably heating tube.

Preferably, the one end of overflow valve 17 is connected by valve 9 with triple valve 15 and concentrated seawater holding vessel 28, one end connection On the second pipeline between the tie point and triple valve 15 of the second pipeline and the 3rd pipeline.Overflow valve 17 is in order to avoid Amount of liquid on two pipelines is excessive.When the hypertonia in loop, the valve of overflow valve can automatically open up, by the seawater of pipeline Holding vessel is drained back, realizes the stabilization of pressure.

Preferably, triple valve 14 is set, for being opened and closed sea between the seawater holding vessel 27, container 36 and vaporization chamber 19 Pipeline and the second pipeline between water store tank 27, container 36.

Preferably, pump 11 is set between the seawater holding vessel 27 and triple valve 14；Preferably, pump 11 and the seawater storage Deposit and screen pack 16 is set between tank 27, for the impurity in filtering sea.

It is preferred that overflow valve 18 is set between screen pack 16 and pump 11.

Preferably, described container 36 sets the entrance 26 of alkali solid or liquid, and stirring is set in the container 36 Device 25, the liquid that the agitator 25 is used in stirring container 36 so that alkaline solution is distributed more uniform in container 36.

Preferably, sour gas is carbon dioxide, preferably, the concentration of carbon dioxide is 99.9999%.

Preferably, alkaline solution is sodium hydroxide or potassium hydroxide solution.

Top in the vaporization chamber 19 sets fresh water collecting device 20, and the fresh water collecting device 20 connects fresh water collecting Tank 23, preferably, setting pump 13 and/or valve 1 between described fresh water collecting device 20 and fresh water collecting tank 23.

Preferably, sour gas entrance and exhaust outlet are same part, as shown in Figure 2.

Preferably, flowmeter 33 is set, for detecting the sea into vaporization chamber 19 between described valve 8 and valve 3 The flow of water.

Preferably, described valve 1-7 is common valve, valve 8-10 is check valve, and pump 11-13 is unidirectionally to become Pump is measured, valve 14 is two-position three-way hand change valve, and valve 15 is two-position three way magnetic valve.

Preferably, described system also includes loop circuit heat pipe 21, the evaporation ends and condensation end of the loop circuit heat pipe 21 are all It is arranged in vaporization chamber 19, the evaporation ends are arranged on the top of fresh water collecting device 20, for absorbing the heat of vapor, from And by water vapor condensation.Described condensation end is arranged on the lower end of sprinkling equipment 22, heats the seawater of spray, promotes the steaming of seawater Hair, power-equipment 35 is set between evaporation ends and condensation end.

Condensed after described condensation end heating seawater, the liquid then condensed is set by power-equipment 35 in power Enter evaporation ends in the presence of standby 35, evaporated after absorbing the heat of vapor.

Preferably, power-equipment 35 is capillary core equipment or capillary pump.

Preferably, the condensation end of heat pipe is arranged on heating tube bottom.

Preferably, the condensation end of heat pipe is positioned close to the position of heating tube.

Preferably, described thermal source is to carry out desalinization using solar energy.The system also includes solar energy collection Hot device 30, the solar thermal collector 30 are connected with the heating tube in vaporization chamber 19, and solar thermal collector 30 absorbs solar energy, will Heat transfer is to thermal-collecting tube, and seawater spraying is evaporated by the sprinkling equipment 22 to heating tube, after heating tube is to heating of seawater Solar thermal collector 30 is recycled to again.

Preferably, heat exchanger 32 and/or electrical heating auxiliary equipment 31 are set between solar thermal collector 30 and heating tube, For supplementing the situation of solar energy deficiency.

The overall operation of said system shown in Fig. 2 is as follows：

First, the preparation of vacuum environment

1. as shown in Fig. 2 in an initial condition, common valve 1,2,3,4,5,6,7 is closed, two-position three way hand Dynamic reversal valve 14 is in right position effective status, and two-position three way magnetic valve 15 is in left position (power failure state) effective status.Now, will Common valve 2,5,7 is opened, and starts one-way flow pump 11, in the presence of pump 11, the seawater warp of the inside of seawater holding vessel 27 Flowed up by screen pack 16 and pump 11, now two-position three-way hand change valve 14 is in right position effective status, and seawater can flow into Loop where check valve 8, and enter two-position three way magnetic valve 15, and then flow through concentration of seawater detection means, check valve 10, general Port valve door 7 and 5 is reached in vaporization chamber 19, and the air in vaporization chamber 19 is discharged into vaporization chamber 19 using common valve 2.In the loop Overflow valve 18 is used for the output pressure for stablizing pump, and overflow valve 17 is used for control loop pressure, plays safeguard protection effect.

2. after seawater is full of in vaporization chamber 19, common valve 5,7 and pump 11 are closed successively, is then by concentration At 99.9999% carbon dioxide storage tank access valve 2, and common valve 6 and 5 is opened successively, while carbon dioxide is stored up The valve for depositing tank is opened, and so, under carbon dioxide gas pressure effect, seawater is just flow back into seawater holding vessel from bottom. When being full of high-pureness carbon dioxide in vaporization chamber 19, pay attention to closing common valve 2,5 and 6 in time.

3. by enough alkaline matters, such as container 36 of the NaOH inputs containing appropriate bottom liquid, then by container closure and open Dynamic agitator, it is effective that two-position three-way hand change valve 14 is now placed in right position, and opens common valve 4, then start pump 11, After now seawater is via pump 11, flow into containing in the extremely supersaturated closed vessels 36 of NaOH.In the starting stage, closed container is utilized Pressure of the air transmission from seawater of 36 tops, enters the body absorption carbon dioxide of vaporization chamber 19, when vacuum is fitted by bottom hydraulic pressure After formation, 11 continuous extracting seawaters of need of pump are supplemented, until after the reading of pressure gauge meets vacuum level requirements, are closed in time Close common valve 4.Finally close common valve 4 and pump 11.

4. now opening pump 12, and common valve 5 and 7 is opened, in the presence of pump 12, absorb the vaporization chamber of high-purity 19 maritime interior waters come concentration of seawater detection means 29, now due to seawater intermediate ion concentration pole via common valve 5,7 and pump 12 Height, concentration of seawater detection means 29 can be triggered and send signal so that 15 right position of two-position three way magnetic valve effectively (pays attention to：Low concentration Kingston valve 15 be that left position is effective all the time), concentrated seawater is just smoothly flowed into concentrated seawater holding vessel 28.In the bottom seawater of vaporization chamber 19 After extraction terminates, common valve 5 and 7 is closed in time, and stop pump 12.

So, after above-mentioned steps terminate, vacuum environment is just formd.

2nd, desalinization workflow

It is effective that two-position three-way hand change valve 14 is placed in left position, now opens pump 11, and open common valve 3, seawater Just check valve 8 (another branch road is in and blocks state, and compared in the tank of vacuum environment, seawater may not flow into) is flowed through, and via general The spray equipment that port valve door 3 enters in tank, and be atomized seawater by spray equipment.

After working medium in pipeline is heated to 80 degrees centigrades by the absorption solar energy of solar thermal collector 30, high temperature refrigerant stream Cross electrical heating auxiliary equipment 31 and heat exchanger 32 enters inside vaporization chamber 19.In vaporization chamber 19, spray in solar energy heating pipe The heat of high temperature refrigerant in the moisture film absorption tube of wall and gasify, form the initial vapours of desalinization.

When initial vapours rises to 19 top of vaporization chamber, filled with the liquid inside loop circuit heat pipe 21 and/or fresh water collecting 20 carry out heat exchanges are put, it is collected after liquefying as fresh water.

It is gas to gasify after liquid absorption inside loop circuit heat pipe 21 latent heat of liquefaction of the outer steam of pipe, in power set 35 Absorption affinity effect under, be transported in the pipeline below solar energy heating tube wall, and solar energy heating tube wall is together under spray The moisture film come is evaporated, and the gas in its pipe just liquefies as liquid, is transmitted by power set 35 or another power set Recycled to top.

Preferably, power set 35 are power-equipment or capillary pump.

When there is enough liquid in the bottom set portion of vaporization chamber 19, stop pump 11, open pump 12, and open common valve 5 and 7, Now concentration of seawater is relatively low, and two-position three way magnetic valve 15 is in left position effective status, the seawater of tank bottom by common valve 5 and 7, Pump 12, magnetic valve 15, common valve 3 are recycled into spray equipment.When concentration of seawater is too high, seawater passes through Concentration Testing Information is sent after device, obtains two-position three way magnetic valve 15 electric, in right position effective status, such seawater just flows into concentrated seawater storage Deposit tank.

Preferably, when seawater is approached and drained, can return to close to step 4 state for vacuumizing link；In order to facilitate behaviour Make, also pump 11 can be made to work again, new seawater is added while extracting seawater, when concentration reduces, two-position three way Magnetic valve 15 can dead electricity to come back to left position effective, continue cycling through and utilize bottom seawater.

So, just can work the repetition period, when tank interior vacuum is undesirable accent start.

The structure of solar thermal collector 30 is adjacent as shown in figure 3, including thermal-collecting tube 38, speculum 37 and collecting plate 39 Two thermal-collecting tubes 38 between connected by collecting plate 39 so that being formed between multiple thermal-collecting tubes 38 and adjacent collecting plate 39 Tube plate structure；The solar energy collector system includes two pieces of tube plate structures, is formed necessarily between two pieces of tube plate structures Angle, the angle direction is relative with the direction of the circular arc line structural bending of speculum, and the focus D of speculum 37 is located at tube sheet knot Between the angle being configured to.

It is preferred that the thermal-collecting tube 38 connects with solar energy heating pipe.

As an improvement, the cross section of described thermal-collecting tube 38 is rectangle, described collecting plate 39 connection rectangle Angle.

Preferably, the cross section of described thermal-collecting tube 38 is square.

Traditional heat collector is all that thermal-collecting tube is set directly in focus, once position shifts, then heat is not just For meeting thermal-arrest into thermal-collecting tube, by said structure, sunshine is radiated at speculum 37, and tube sheet knot is reflexed to by speculum 37 Structure, by the thermal-collecting tube 38 in heat thermal-arrest to tube plate structure.By this structure, even if because installation or operation problem are led Cause tube plate structure position to change, then solar energy still can thermal-arrest into thermal-collecting tube 38, so as to avoid thermal loss；While because All it is that thermal-collecting tube is set directly in focus for traditional heat collector, causes thermal-collecting tube hot-spot, causes thermal-collecting tube local Lose excessive, the life-span is too short, or even causes thermal-collecting tube over-heat inside, produces superheated steam, full of whole thermal-collecting tube, causes thermal-arrest Pipe internal pressure is excessive, damages thermal-collecting tube, and takes the structure of the application, both can sufficiently absorb heat, can incite somebody to action again Heat is relative to be disperseed, and avoids heat from excessively concentrating so that overall thermal-collecting tube heat absorption is uniform, extends the service life of thermal-collecting tube.

As one preferably, the focus D of speculum 37 is on the midpoint of two pieces of tube plate structure least significant end lines.By upper State setting, it is ensured that absorb solar energy to the full extent, avoid solar energy from being lost because of focal shift, also ensure simultaneously Platy structure is likely to reduced sunlight of the irradiation blocked on speculum 37 as far as possible.It is experimentally confirmed, using said structure, too The absorbent effect of sun is best.

Preferably, the cross-sectional area of thermal-collecting tube differs.Along the middle part (i.e. extreme higher position) of tube plate structure to both sides On extreme lower position (i.e. Fig. 3 thermal-collecting tubes A to B, C direction) bearing of trend, the cross-sectional area of thermal-collecting tube is increasing.Send out in an experiment It is existing, extend from middle part to both sides, caloric receptivity gradually rises, and is because there is the stop of tube plate structure by analyzing main cause, leads Cause middle part heated minimum, and extend from middle part to both sides, absorb heat and gradually rise.Pass through the continuous change of thermal-collecting tube cross-sectional area Greatly, the water-carrying capacity of bottom can be increased, being heated evenly for whole thermal-collecting tube reclaimed water can be caused, avoid both sides temperature too high and in Between temperature it is too low.It can also so avoid the material of the thermal-collecting tube of centre from being easily damaged at high temperature, can keep whole The temperature of thermal-collecting tube is uniform, increases the service life.

Preferably, along the middle part (i.e. extreme higher position) of tube plate structure to both sides extreme lower position (i.e. Fig. 3 thermal-collecting tubes A to B, C directions) on bearing of trend, the increased amplitude of thermal-collecting tube cross-sectional area tapers into.Find in an experiment, for heat absorption Amount, along the middle part (i.e. extreme higher position) of tube plate structure to both sides extreme lower position (i.e. Fig. 2 thermal-collecting tubes A to B, C direction) extension side Upward amplification is gradually successively decreased, therefore caliber has been done into such change, to meet corresponding require.

Preferably, the ratio of maximum cross-sectional area and minimum cross-sectional area is less than 1.22.

Preferably, it is provided for the convex of augmentation of heat transfer on the lower wall surface (face relative with speculum 37) of tube plate structure Rise, to strengthen the absorption to solar energy.Along the middle part (i.e. extreme higher position) of tube plate structure to both sides extreme lower position, (i.e. Fig. 3 collects Heat pipe A is to B, C direction) on bearing of trend, the height of projection more and more higher of the lower wall surface of thermal-collecting tube 38.Find in an experiment, from Middle part extends to both sides, and caloric receptivity gradually rises, and is because there is the stop of tube plate structure by analyzing main cause, causes middle part It is heated minimum, and extend from middle part to both sides, absorb heat and gradually rise.By the continuous rise of height of projection, can make The whole reclaimed water of thermal-collecting tube 38 is heated evenly, avoid that both sides temperature is too high and medium temperature is too low.In can also so avoiding Between the material of thermal-collecting tube be easily damaged at high temperature, the temperature of whole thermal-collecting tube can be kept uniform, extension uses the longevity Life.

Preferably, along the link position (i.e. the middle part of tube plate structure) of two pieces of tube plate structures to both sides (i.e. Fig. 3 thermal-arrests Pipe A is to B, C direction) extension, the density of protrusions more and more higher of the lower wall surface of thermal-collecting tube 38.Main cause is that middle part is heated minimum, And extend from middle part to both sides, absorb heat and gradually rise.By the continuous rise of density of protrusions, whole thermal-arrest can be caused The reclaimed water of pipe 38 is heated evenly, and avoids that medium temperature is too low and both sides temperature is too high.The thermal-collecting tube of centre can also so be avoided 38 material is easily damaged at high temperature, and the temperature of whole thermal-collecting tube can be kept uniform, increased the service life.

Preferably, the outer wall of thermal-collecting tube 38 can set outer fin, such as straight fins or helical fin can be set, The outer fin heights of different thermal-collecting tubes is different, along the link position (i.e. the middle part of tube plate structure) of two pieces of tube plate structures to both sides (i.e. Fig. 3 thermal-collecting tubes A to B, C direction) extension, the height of outer fin gradually decrease.Main cause is the original with above setting projection Because identical.

Preferably, setting inner fin 40 inside the thermal-collecting tube, the inner fin 40 connects rectangular diagonal, such as figure Shown in 4.The inner fin 40 will be divided into multiple passage aisles 42 inside thermal-collecting tube 38, intercommunicating pore 41 is set on inner fin, so as to Adjacent passage aisle 42 is set to communicate with each other.

By setting inner fin 40, multiple passage aisles 42 will be divided into inside thermal-collecting tube 38, further augmentation of heat transfer, but phase The pressure increase for the flow of fluid answered.By setting intercommunicating pore 41, ensure the connection between adjacent passage aisle 42, so that Fluid in the big passage aisle of pressure can flow into the small passage aisle of neighbouring pressure, and the inside for solving condensation end is each small The pressure of runner 27 is uneven and the problem of local pressure is excessive, so as to promote abundant flowing of the fluid in heat exchanger channels, Simultaneously by the setting of intercommunicating pore 27, the pressure inside thermal-collecting tube is also reduced, improves heat exchange efficiency, while also improves collection The service life of heat pipe.

Preferably, constantly increase along the flow direction of fluid in thermal-collecting tube 38, the area of the intercommunicating pore 41.

Described intercommunicating pore 41 is circular configuration, along thermal-collecting tube 38 in fluid flow direction, the circular configuration Radius constantly increases.

Because the flow direction of fluid in along thermal-collecting tube 38, the fluid in thermal-collecting tube 38 constantly even evaporate by heat absorption, Hence in so that the pressure of thermal-collecting tube constantly increases, and because the presence of intercommunicating pore 41 so that the pressure inside thermal-collecting tube 38 Distribution is more and more uniform, therefore the area needs of intercommunicating pore are very big, constantly becomes big by setting, so that in guarantee heat pipe In the case of the uniform pressure of internal pressure, increase heat exchange area by connecting the change of hole area, so as to improve heat exchange effect Rate.

Preferably, along the flow direction of fluid in thermal-collecting tube 38, the continuous increased width of the area of the intercommunicating pore 41 Degree is continuously increased.By being arranged such, and meet the changing rule of flowing pressure, while further reducing flow resistance, Improve heat exchange efficiency.By being arranged such, by being that experiment finds that 9% or so heat exchange efficiency, while resistance base can be improved This holding is constant.

Preferably, along the flow direction of fluid in thermal-collecting tube 38, the distributed quantity of intercommunicating pore 41 is more and more, further It is preferred that constantly increased amplitude is continuously increased the connection hole number 26.

It is identical with area reduction principle by the Distribution Principle of above-mentioned quantity, compared with connection hole number is identical, lead to Distributed number is crossed to reduce circulation area.

Being found in actual experiment, the area of intercommunicating pore 41 can not be too small, and the increase of flow resistance can be caused if too small, So as to cause the decrease of heat exchange, the area of intercommunicating pore 41 can not be excessive, and area is excessive, can cause the reduction of heat exchange area, so as to Reduce heat transfer effect.Equally, the cross-sectional area of thermal-collecting tube 38 can not be excessive, excessive to cause what is be distributed in tube plate structure unit length Thermal-collecting tube is very few, again results in heat transfer effect variation, thermal-collecting tube flow area can not be too small, too small flow resistance to be caused to increase Add, so as to cause heat transfer effect to be deteriorated.Therefore between intercommunicating pore 41 and thermal-collecting tube cross-sectional area and its adjacent intercommunicating pore 41 Distance must is fulfilled for necessarily requiring.

Therefore, the present invention is the thousands of secondary numerical simulations and test data by multiple various sizes of heat collectors, Meet (below 10MPa) in the case of industrial requirements pressure-bearing, in the case where realizing maximum heat exchange amount, the optimal thermal-arrest that sums up The dimensionally-optimised relation of device.

The present invention be thermal-collecting tube cross section be carried out under square it is dimensionally-optimised.

The square interior length of side (i.e. the square outer length of side subtracts wall thickness) is L, the radius r of the intercommunicating pore, institute It is l to state the distance between intercommunicating pore adjacent on same fin, meets following relation：

L/L*10=a*ln (r/L*10)+b；

Wherein ln is logarithmic function, and a, b are parameters, 1.5<a<1.6,2.9<b<3.0；

0.34<l/L<0.38；

0.14<r/L<0.17；

30mm<L<120mm；

5mm<r<17mm。

Wherein, l is equal to the distance between adjacent center of circle of intercommunicating pore 41.Left and right as shown in Figure 4,5 is adjacent and neighbouring The distance between the intercommunicating pore center of circle.

Further preferably, 15mm<l<45mm.

Preferably, with r/L increase, described a, b increase.

Preferably, a=1.57, b=2.93.

Preferably, as shown in Figure 5,6, multiple rows of intercommunicating pore 41 is set, as shown in fig. 6, the multiple on each inner fin Intercommunicating pore 41 is wrong row's structure.By mistake, row connects structure, can further improve heat exchange, reduces pressure.

Although the present invention is disclosed as above with preferred embodiment, the present invention is not limited to this.Any art technology Personnel, without departing from the spirit and scope of the present invention, it can make various changes or modifications, therefore protection scope of the present invention should It is defined when by claim limited range.

Claims (9)

1. a kind of seawater desalination system, the system is deposited including vaporization chamber, sour gas holding vessel, alkaline solution container and seawater Storage tank, the vaporization chamber include exhaust outlet, and the vaporization chamber is attached with sour gas holding vessel, alkaline solution container, institute The first pipeline that vaporization chamber bottom sets connection seawater storage tank is stated, seawater holding vessel sets the second pipeline of connection vaporization chamber, For seawater to be transported into vaporization chamber；The first valve and the second valve, institute are set respectively on first pipeline and the second pipeline Vaporization chamber is stated with setting the 3rd valve on the tank connected pipeline of sour gas storage, the vaporization chamber is connected with alkaline solution container Pipeline on set the 4th valve.

2. seawater desalination system as claimed in claim 1, it is characterised in that described system includes concentrated seawater holding vessel, institute State vaporization chamber bottom to be connected with concentrated seawater holding vessel by the 3rd pipeline, the 3rd pipeline connects the second pipeline；

Triple valve is set on the 3rd pipeline, and described triple valve one end connects concentrated seawater holding vessel, on the 3rd described pipeline Concentration of seawater detection means is set, for detecting the concentration of seawater in the 3rd pipeline.

3. seawater desalination system as claimed in claim 1, it is characterised in that also including pressure gauge, for detecting in vaporization chamber Pressure, when the pressure of detection reaches the pressure of needs, then close the 4th valve.

4. seawater desalination system as claimed in claim 1, it is characterised in that described alkaline solution container sets alkali solid Or the entrance of liquid, the alkaline solution container is interior to set agitator.

5. seawater desalination system as claimed in claim 1, it is characterised in that sour gas is carbon dioxide, and alkaline solution is Sodium hydroxide or potassium hydroxide solution.

6. seawater desalination system as claimed in claim 1, it is characterised in that sour gas entrance and exhaust outlet are same portion Part.

7. seawater desalination system as claimed in claim 1, it is characterised in that the seawater storage tank, alkaline solution container and Triple valve is set between vaporization chamber, for being opened and closed connection seawater holding vessel and the 4th pipeline of container and the second pipeline.

8. seawater desalination system as claimed in claim 1, it is characterised in that the system also includes solar thermal collector, institute State solar thermal collector with the heating tube in vaporization chamber to be connected, solar thermal collector absorbs solar energy, transfers heat to heating Pipe, heating tube to being recycled to solar thermal collector again after heating of seawater；

The solar thermal collector includes thermal-collecting tube, speculum and collecting plate, passes through collecting plate between adjacent two thermal-collecting tubes Connection, so that forming tube plate structure between multiple thermal-collecting tubes and adjacent collecting plate；The solar energy collector system includes Two pieces of tube plate structures, shape is at a certain angle between two pieces of tube plate structures, the circular arc line of the angle direction and speculum The direction of structural bending is relative, and the focus of speculum is located between the angle of tube plate structure formation, described thermal-collecting tube it is transversal Face is square, and described collecting plate connects the angle of square；

Inner fin is set inside the thermal-collecting tube, and the inner fin connects the diagonal of square, and the inner fin is by thermal-collecting tube Part is multiple passage aisles, intercommunicating pore is set on inner fin, so that adjacent passage aisle communicates with each other；

The a length of L of square inner edge, the radius r of the intercommunicating pore, on same fin between the adjacent intercommunicating pore center of circle Distance is l, meets following relation：

L/L*10=a*ln (r/L*10)+b；

Wherein ln is logarithmic function, and a, b are parameters, 1.5<a<1.6,2.9<b<3.0；

0.34<l/L<0.38；

0.14<r/L<0.17；

30mm<L<120mm；

5mm<r<17mm。

9. a kind of seawater desalination system made described in claim 1 forms the method for being evaporated in vacuo room, it is characterised in that including such as Lower step：

The first step, the first valve, the 3rd valve and the 4th valve are closed, the second valve is opened, by the second pipeline by seawater Vaporization chamber is transported to from seawater storage tank, makes to be full of seawater in vaporization chamber, so as to which air is discharged into vaporization chamber by exhaust outlet, Close exhaust outlet and the second valve；

Second step, open the first valve and the 3rd valve so that sour gas is filled with vaporization chamber, and seawater is drained into seawater storage Tank, until being full of sour gas in vaporization chamber；

3rd step, the 3rd valve and the first valve are closed, open the 4th valve so that aqueous slkali enters vaporization chamber, with vaporization chamber In sour gas chemically reacted, so as to forming certain vacuum in vaporization chamber.