CN102190340A

CN102190340A - Multistage double effect distillation seawater desalination technology with heating seawater by solar energy

Info

Publication number: CN102190340A
Application number: CN2010101157702A
Authority: CN
Inventors: 孙元新; 王汝敬
Original assignee: Individual
Current assignee: Individual
Priority date: 2010-03-02
Filing date: 2010-03-02
Publication date: 2011-09-21

Abstract

The invention relates to a multistage double effect distillation seawater desalination technology with heating seawater by solar energy. The technology comprises the following steps: seawater is delivered to a high cistern by a seawater pump; the seawater in the high cistern is delivered to a system for water supply through a water supply tube and a condenser inlet tube; the seawater is heated to a certain temperature by adsorbing latent heat of steam in an evaporator through all condensers of the system, and enters the evaporator after being heated to a designed temperature by a rapid heater with solar energy; the seawater enters the evaporator, becomes superheated water and is gasified rapidly and partially because a pressure in the evaporator is controlled to be lower than a saturation vapor pressure corresponding to a temperature of hot seawater; and a part of ungasified hot seawater enters a next stage evaporator and a part enters heat-collecting tubes at two sides of the evaporator. The heat-collecting tubes are provided with annular imbibition films, and the hot seawater flows from top to bottom after entering the heat-collecting tubes. In a flow process, the hot seawater is delivered to upper half parts of inner cavities of the heat-collecting tubes because of capillary imbibition actions of the imbibition films. The hot seawater is evaporated to steam because the heat-collecting tubes have a high temperature under the sunlight, the steam rises along the inner cavities of the heat-collecting tubes and enters the condenser to obtain fresh water which flows into a fresh water tank and then is output by a fresh water tube. Unevaporated concentrated seawater enters a concentrated water tank and is ouput by an inlet/outlet tube.

Description

The multistage economic benefits and social benefits distillation seawater desalination of solar energy sea water heating-type technology

One technical field

The invention provides a kind of sun power direct heating seawater, multistage double-effect evaporator low pressure, low-flash and multistage economic benefits and social benefits desalination process of solar energy heat collection pipe distillatory of utilizing, belong to solar energy utilization and desalination technology.

Two technical backgrounds

At present, conventional sea water desaltination has distillation method, ion exchange method, dialysis, reverse osmosis membrane etc., and these methods all will consume a large amount of fuel or electric power.As the multistage flash evaporation sea water desalting equipment in the distillation method, use the steam heating seawater, make hot sea water flash distillation in vaporizer, condensation, output fresh water, one ton of fresh water of every product need consume the steam heat of 40,000 much cards.All power consumption sea water desalting equipment years are consumed 3 to 400,000,000 tons of crude oil in the world at present, and it is big to consume energy.

Three summary of the invention

At above-mentioned condition, the invention provides a kind of sun power direct heating seawater that utilizes, the multistage economic benefits and social benefits desalination process of multistage double-effect evaporator low pressure, low-flash and solar energy heat collection pipe distillatory, its technical scheme is as follows:

This technology is that seawater is delivered to elevated tank by sea-water pump, by recycle pump the seawater in the elevated tank is passed through filling pipe, the condenser water inlet pipe is to system water supply, seawater is heated to certain temperature after absorbing the interior steam latent heat of evaporator rooms at different levels through system's condensers at different levels, enter the sun power rapid heater then, after being heated to design temperature once more, solar energy heating pipe enters in the evaporator room of double-effect evaporator, because the pressure in the evaporator room is controlled under the condition that is lower than the pairing saturated vapor pressure of hot sea water temperature by vacuum pump and extraction pipe, hot sea water enters promptly becomes superheated water in the evaporator room, so the portion of hot seawater gasifies rapidly, Qi Hua hot sea water not, a part enters the next stage double-effect evaporator, and a part enters the thermal-collecting tube of evaporator room both sides.Thermal-collecting tube adopts through tubulose double-layer vacuum clear bulb to guarantee temperature, and interior dress has the metal tube thermal-arrest of selective heat-absorbing film, adopts the negative and positive two sides to arrange.Because thermal-collecting tube axially has certain angle, the feed-water end height, collector tube inner wall is provided with ring-type and has the temperature-resistant material imbibition film that capillary is relied on oneself, hot sea water flows from top to bottom along lower part of thermal-collecting tube internal diameter, in the flow process, because the capillary effect of relying on oneself of imbibition film, the imbibition film is transported to hot sea water the first half of thermal-collecting tube internal diameter, thermal-collecting tube temperature under solar radiation is very high, and the hot sea water that is sucted evaporates thereupon, and steam rises to condensing chamber along the thermal-collecting tube inner chamber, it in the condenser tube water at low temperature, be condensed water at low temperature in the device of the gasification latent heat of steam absorbs the back temperature and raises, and steam is condensed into water thereupon and flows into fresh-water tank, exports by fresh water pipe.The evaporator room internal pressure is low more, and gasification temperature is low more, and the hot sea water amount of vaporization is big more.Illumination is strong more, and the thermal-collecting tube steam output is big more.Because the evaporator room internal pressure is lower than the pairing saturated vapour pressure of hot sea water temperature, the hot sea water vaporization temperature that enters thermal-collecting tube also decreases, so the also corresponding increase of steam output in the thermal-collecting tube, thereby effectively improved fresh water yield.Because hot sea water is through multistage double-effect evaporator gasification, the hot sea water temperature decreases, through the concentrated seawater after gasification and the thermal-collecting tube steaming slide, a part enters circulation tube by dense water pipe, a part enters circulation tube by dense water tank, under the effect of recycle pump with filling pipe in the make up water hybrid cooling, the seawater part after the cooling is sent elevated tank back to by return water pipe, ejector, a part enter systemic circulation by the condenser water inlet pipe.Send the water of elevated tank back to by return water pipe, ejector, under the effect of pressure and flow, make the bypass pipe of ejector produce negative pressure, this negative pressure is used for extracting the noncondensable gas in the first step or preceding what double-effect evaporator, reduces pressure and vaporization temperature in the evaporator room, improves fresh water yield.So circulation, the concentration of seawater of elevated tank (saltiness) is more and more higher, and when concentration rose to set(ting)value, motorized valve was opened automatically, flow back to the part concentrated seawater marine, water level in the drainage procedure in the elevated tank descends, and reduces under the water level and prescribes a time limit, and motorized valve cuts out automatically, sea-water pump starts additional former seawater in elevated tank automatically, prescribe a time limit when water level rises on the water level, sea-water pump cuts out automatically, thereby the assurance total system is successively moved.When night or cloudy illumination were weak, the power supply that can utilize photovoltaic generation or wind generator system to store under the condition that guarantees the power-equipment running, started electrothermal tube and adds hot sea water, and system moves round the clock with assurance.The present invention utilizes former seawater to make water coolant, in condensed steam, absorbs its gasification latent heat, makes full use of the energy.Sun power, wind energies are all adopted in heating in the system, distillation, power supply, and are energy-efficient, be beneficial to environmental protection.Adopt modular designs, changeable, can be according to the big or small arbitrary combination of water consumption, simple in structure, easy for installation.Thermal-collecting tube adopts the negative and positive two sides to arrange, the daylighting of back thermal-collecting tube is by the reflective protective system or the reflector reflection of back arranging device and get, under the preceding topic of a small amount of floor space of increase, has effectively increased collector area and evaporation area, has improved water production rate greatly.Adopt through tubulose double-layer vacuum clear bulb to guarantee temperature, interior dress has the metal tube thermal-arrest of selective heat-absorbing film, and good heat insulation, heat absorption are soon, heat-collecting capacity is big, temperature is high, floor space is little.Adopt ring-type to have the temperature-resistant material imbibition film conveying seawater that capillary is relied on oneself, quick heating, easily evaporation in the thermal-collecting tube.

Four description of drawings

Fig. 1 is a system diagram of the present invention.

Fig. 2 is the front view of vaporizer in the system diagram 1 (4).

Fig. 3 is the A-A sectional view of vaporizer Fig. 2.

Fig. 4 is the B-B sectional view of Fig. 3.

Fig. 5 is the A portion enlarged view of Fig. 4.

Fig. 6 is that system is the front view of sun power rapid heater (18) among Fig. 1.

Fig. 7 is the C-C sectional view of Fig. 6.

Fig. 8 is the D-D sectional view of Fig. 6.

Fig. 9 is the D portion enlarged view of Fig. 8.

Figure 10 is the B portion enlarged view of Fig. 7.

Figure 11 is the C portion enlarged view of Fig. 7.

Fig. 1 wherein

1. sea-water pump, 2. elevated tank, 3. condenser water inlet pipe, 4. double-effect evaporator, 5. condensing chamber, 6. condenser, 7. fresh-water tank, 8. evaporator room, 9. thermal-collecting tube, 10. dense water tank, 11. circulation tubes, 12. recycle pumps, 13. return water pipes, 14. extraction pipes, 15. ejectors, 16. filling pipes, 17. fresh water pipes, 18. sun power rapid heaters, 19. sun power rapid heating pipes, 20. electrothermal tubes, 21. vacuum pumps, 22. dense water pipe 23. motorized valves, 24. photovoltaic wind power generation systems.

Fig. 2～Fig. 5

1. double-effect evaporator, 2. extraction pipe, 3. condenser, 4. condensing chamber, 5. fresh-water tank, 6. endothermic tube, 7. packing gland, 8. hot sea water water inlet pipe and water outlet pipe, 9. fresh water rising pipe, 10. vacuum glass heat-insulating pipe, 11. imbibition films, 12. dense water tanks, 13. water inlet pipe and water outlet pipes, 14. supports, 15. condenser water inlet pipe and water outlet pipes, 16. evaporator rooms.

Fig. 6～Figure 11

1. pipe connecting, 2. water tank, 3. gland, 4. filler storehouse, 5. support, 6. vacuum glass heat-insulating pipe, 7. endothermic tube, 8. heat pipe, 9. thermal-collecting tube, 10. heat pipe heat-absorbing section, 11. inlet chests, 12. water inlet pipes, 13. backing rings, 14. thermal-arrest pipe supports.

Five embodiments

Embodiment 1

Fig. 1 is a system diagram of the present invention, it is the specific embodiment of this technology, its technological process is: seawater is delivered to elevated tank (2) by sea-water pump (1), by recycle pump (12) seawater in the elevated tank (2) is passed through filling pipe (16), condenser water inlet pipe (3) is to system water supply, seawater is heated to certain temperature after absorbing the interior steam latent heat of double-effect evaporators at different levels (4) by system's condensers at different levels (6), enter sun power rapid heater (18) then, after being heated to design temperature once more, solar energy heating pipe (19) enters in the evaporator room (8) of double-effect evaporator (4), because the pressure in the evaporator room (8) is controlled under the condition that is lower than the pairing saturated vapor pressure of hot sea water temperature by vacuum pump (21) and extraction pipe (14), hot sea water promptly becomes superheated water after entering evaporator room (8), so the portion of hot seawater gasifies rapidly, Qi Hua hot sea water not, a part enters next stage double-effect evaporator (4), and a part enters the thermal-collecting tube (9) of evaporator room (8) both sides.Thermal-collecting tube (9) adopts through tubulose double-layer vacuum clear bulb to guarantee temperature, and interior dress has the metal tube thermal-arrest of selective heat-absorbing film, adopts the negative and positive two sides to arrange.Because thermal-collecting tube (9) axially has certain angle, the feed-water end height, thermal-collecting tube (9) inwall is provided with ring-type and has the temperature-resistant material imbibition film that capillary is relied on oneself, hot sea water flows from top to bottom along lower part of thermal-collecting tube (9) internal diameter, in the flow process, because the capillary effect of relying on oneself of imbibition film, the imbibition film is transported to hot sea water the first half of thermal-collecting tube (9) internal diameter, thermal-collecting tube (9) temperature under solar radiation is very high, the hot sea water that is sucted evaporates thereupon, steam rises to condensing chamber (5) along thermal-collecting tube (9) inner chamber, in condenser (6) pipe is water at low temperature, be condensed water at low temperature in the device (6) of the gasification latent heat of steam absorbs the back temperature and raises, and steam is condensed into water thereupon and flows into fresh-water tank (7), exports by fresh water pipe (17).Evaporator room (8) internal pressure is low more, and gasification temperature is low more, and the hot sea water amount of vaporization is big more.Illumination is strong more, and thermal-collecting tube (9) steam output is big more.Because evaporator room (8) internal pressure is lower than the pairing saturated vapour pressure of hot sea water temperature, the hot sea water vaporization temperature that enters thermal-collecting tube (9) also decreases, so the also corresponding increase of steam output in the thermal-collecting tube, thereby effectively improved fresh water yield.Because hot sea water is through multistage double-effect evaporator (4) gasification, the hot sea water temperature decreases, through the concentrated seawater after gasification and thermal-collecting tube (9) the steaming slide, a part enters circulation tube (11) by dense water pipe (22), a part enters circulation tube (11) by dense water tank (10), under the effect of recycle pump (12) with filling pipe (16) in the make up water hybrid cooling, seawater part after the cooling is sent elevated tank (2) back to by return water pipe (13), ejector (15), and a part enters systemic circulation by condenser water inlet pipe (3).The seawater of sending elevated tank (2) back to by return water pipe (13), ejector (15), under the effect of pressure and flow, make the bypass pipe of ejector (15) produce negative pressure, this negative pressure is used for extracting the noncondensable gas in the first step or preceding what double-effect evaporator (4), reduce pressure and vaporization temperature in the evaporator room (8), improve fresh water yield.So circulation, the concentration of seawater (saltiness) of elevated tank (2) is more and more higher, and when concentration rose to set(ting)value, motorized valve (23) was opened automatically, flow back to the part concentrated seawater marine, water level in the elevated tank in the drainage procedure (2) descends, and reduces under the water level and prescribes a time limit, and motorized valve (23) cuts out automatically, sea-water pump (1) starts additional former seawater in elevated tank (2) automatically, prescribe a time limit when water level rises on the water level, sea-water pump (1) cuts out automatically, thereby the assurance total system is successively moved.When night or cloudy illumination were weak, the power supply that can utilize photovoltaic generation or wind generator system (24) to store under the condition that guarantees the power-equipment running, started electrothermal tube (20) and adds hot sea water, and system moves round the clock with assurance.

Embodiment 2

Fig. 2 to Fig. 5 is the structure iron of double-effect evaporator in the system diagram 1 (4), it is a kind of specific embodiment of the present invention, its technological process is: seawater enters from condenser water inlet pipe (15) under the effect of recycle pump, after in condenser (3), absorbing the steam latent heat in the evaporator room (16), enter the next stage double-effect evaporator through the other end rising pipe of condenser (3).Continue heating through entering the sun power rapid heater behind the multistage double-effect evaporator absorption latent heat, be heated to the hot sea water of design temperature, enter evaporator room (16) by double-effect evaporator water inlet pipe (8), because the pressure-controlling in the evaporator room (16) is under the condition that is lower than the pairing saturated vapor pressure of hot sea water temperature, hot sea water promptly becomes superheated water after entering evaporator room (16), so the portion of hot seawater gasifies rapidly, steam rises to condensing chamber (4) back that is condensed and flows into fresh-water tank (5) and export through fresh water pipe (9).Qi Hua a hot sea water part does not enter the next stage double-effect evaporator, a part enters the endothermic tube (6) of evaporator room (16) both sides, flow from top to bottom along endothermic tube (6) internal diameter Lower Half, endothermic tube (6) inwall is provided with ring-type and has the temperature-resistant material imbibition film (11) that capillary is relied on oneself, in the marine stream process, because the capillary effect of relying on oneself of imbibition film (11), hot sea water is transported to the first half of endothermic tube (6) internal diameter, because solar radiation, endothermic tube (6) temperature is very high, the seawater that is sucted evaporates thereupon, and steam rises to condensing chamber (4) along the inner chamber of endothermic tube (6), after the low temperature seawater in the condenser (3) absorbs steam latent heat, vapor condensation Cheng Shui enters fresh-water tank (5), through output tube (9) output, unevaporated concentrated seawater enters dense water tank (12), exports through water inlet pipe and water outlet pipe (13).

Embodiment 3

Fig. 6 to Figure 11 is the structure iron of sun power rapid heater (18) in the system diagram 1, it is a kind of specific embodiment of the present invention, its technological process is as follows: absorb the seawater that gasification latent heat is heated to certain temperature through the multi-stage condensing device, entering sun power rapid heater inlet chest (11) by water inlet pipe (12), flows to water tank (2) in the gap between endothermic tube (7) and heat pipe (8).Endothermic tube (7) is by the corrosion-resistant metal materials manufacturing, and the surface is coated with the selective heat-absorbing film, and insulating pipe (6) adopts through tubulose double-layer vacuum clear bulb pipe, and endothermic tube (7) is sleeved in the insulating pipe (6), and is sealed at both ends.Heat pipe (8) be one sealed at both ends, in liquid thermal conductivity media and the very high tubulose encloses container of vacuum tightness are housed, the high end of one end is low during use, belongs to gravity type heat pipe.The part that is enclosed within the thermal-collecting tube (9) is endotherm section (10), the part that is enclosed within the endothermic tube (7) is a heat release section, solar radiation, pass to the endotherm section (10) of heat pipe (8) behind thermal-collecting tube (9) the absorption heat, heat-conducting medium in the endotherm section (10) is evaporation rapidly under vacuum condition, steam carries heat and rises to heat release section, latent heat is discharged to being condensed into liquid behind the seawater outside the pipe, at the dirty resorption hot arc of the effect of gravity (10), go round and begin again, the heat release section of heat pipe (8) remains certain temperature.Endothermic tube (7) absorbs solar energy under the tight insulation of vacuum glass heat-insulating pipe (6), temperature is very high.Because the gap between endothermic tube (7) and the heat pipe (8) is very little, and two pipes are heated through the seawater of two ligaments, according to the design temperature and the flow of seawater very soon all in heat release, the quantity of parallel connection or series-connected solar rapid heater can obtain to design the hot sea water that needs.

Claims

1. the multistage economic benefits and social benefits distillation seawater desalination of solar energy sea water heating-type technology, its working process is: seawater is delivered to elevated tank (2) by sea-water pump (1), by recycle pump (12) seawater in the elevated tank (2) is passed through filling pipe (16), condenser water inlet pipe (3) is to system water supply, seawater is heated to certain temperature after absorbing the interior steam latent heat of vaporizers at different levels (4) by system's condensers at different levels (6), enter sun power rapid heater (18) then, after being heated to design temperature once more, sun power rapid heating pipe (19) enters the evaporator room (8) in the double-effect evaporator (4), because the pressure in the evaporator room (8) is by vacuum pump (21), and extraction pipe (14) is controlled under the condition that is lower than the pairing saturated vapor pressure of hot sea water temperature, hot sea water promptly becomes superheated water after entering evaporator room (8), so the portion of hot seawater gasifies rapidly, Qi Hua hot sea water not, a part enters next stage double-effect evaporator (4), a part enters the thermal-collecting tube (9) of evaporator room (8) both sides, thermal-collecting tube (9) adopts through tubulose double-layer vacuum clear bulb to guarantee temperature, interior dress has the metal tube thermal-arrest of selective heat-absorbing film, adopt the negative and positive two sides to arrange, because thermal-collecting tube (9) axially has certain angle, the feed-water end height, thermal-collecting tube (9) inwall is provided with ring-type and has the temperature-resistant material imbibition film that capillary is relied on oneself, hot sea water flows from top to bottom along lower part of thermal-collecting tube (9) internal diameter, in the flow process, because the capillary effect of relying on oneself of imbibition film, the imbibition film is transported to hot sea water the first half of thermal-collecting tube (9) internal diameter, thermal-collecting tube (9) temperature under solar radiation is very high, the hot sea water that is sucted evaporates thereupon, steam rises to condensing chamber (5) along thermal-collecting tube (9) inner chamber, in condenser (6) pipe is low temperature seawater, be condensed low temperature seawater in the device (6) of the gasification latent heat of steam absorbs the back temperature and raises, and steam is condensed into water inflow fresh-water tank (7) thereupon, export by fresh water pipe (17), through the concentrated seawater after gasification and thermal-collecting tube (9) the steaming slide, a part enters circulation tube (11) by dense water pipe (22), a part enters circulation tube (11) by dense water tank (10), under the effect of recycle pump (12) with filling pipe (16) in the make up water hybrid cooling, seawater part after the cooling is by return water pipe (13), ejector (15) is sent elevated tank (2) back to, a part enters systemic circulation by condenser water inlet pipe (3), by return water pipe (13), the seawater that ejector (15) is sent elevated tank (2) back to, under the effect of pressure and flow, make the bypass pipe of ejector (15) produce negative pressure, this negative pressure is used for extracting the noncondensable gas in the first step or preceding what double-effect evaporator (4), reduce pressure and vaporization temperature in the evaporator room (8), improve fresh water yield, so circulation, the concentration of seawater (saltiness) of elevated tank (2) is more and more higher, when concentration rises to set(ting)value, motorized valve (23) is opened automatically, flow back to the part concentrated seawater marine, water level in the elevated tank in the drainage procedure (2) descends, reduce under the water level and prescribe a time limit, motorized valve (23) cuts out automatically, sea-water pump (1) starts additional former seawater in elevated tank (2) automatically, when rising on the water level, water level prescribes a time limit, sea-water pump (1) cuts out automatically, thereby the assurance total system is successively moved, when night or cloudy illumination are weak, the power supply that can utilize photovoltaic generation or wind generator system (24) to store, under the condition that guarantees the power-equipment running, start electrothermal tube (20) and add hot sea water, system moves round the clock with assurance.

2. double-effect evaporator technological process: seawater is under the effect of recycle pump, enter from condenser water inlet pipe and water outlet pipe (15), after in condenser (3), absorbing the steam latent heat in the evaporator room (16), the other end rising pipe through condenser (3) enters the next stage double-effect evaporator, continue heating through entering the sun power rapid heater behind the multistage double-effect evaporator absorption latent heat, be heated to the hot sea water of design temperature, enter evaporator room (16) by vaporizer water inlet pipe (8), because the pressure-controlling in the evaporator room (16) is under the condition that is lower than the pairing saturated vapor pressure of hot sea water temperature, hot sea water promptly becomes superheated water after entering evaporator room (16), so the portion of hot seawater gasifies rapidly, steam rises to condensing chamber (4) back that is condensed and flows into fresh-water tank (5) and export through fresh water pipe (9), Qi Hua hot sea water not, a part enters the next stage double-effect evaporator, a part enters the endothermic tube (6) of evaporator room (16) both sides, flow from top to bottom along endothermic tube (6) internal diameter Lower Half, endothermic tube (6) inwall is provided with ring-type and has the temperature-resistant material imbibition film (11) that capillary is relied on oneself, in the marine stream process, because the capillary effect of relying on oneself of imbibition film (11), hot sea water is transported to the first half of endothermic tube (6) internal diameter, because solar radiation, endothermic tube (6) temperature is very high, the hot sea water that is sucted evaporates thereupon, steam rises to condensing chamber (4) along the inner chamber of endothermic tube (6), after low temperature seawater in the condenser (3) absorbs steam latent heat, vapor condensation Cheng Shui enters fresh-water tank (5), export through output tube (9), unevaporated concentrated seawater enters dense water tank (12), exports through water inlet pipe and water outlet pipe (13).

3. sun power rapid heater technological process: absorb the seawater that gasification latent heat is heated to certain temperature through the multi-stage condensing device, enter sun power rapid heater inlet chest (11) by water inlet pipe (12), flow to water tank (2) in gap between endothermic tube (7) and heat pipe (8), endothermic tube (7) is by the corrosion-resistant metal materials manufacturing, the surface is coated with the selective heat-absorbing film, insulating pipe (6) adopts through tubulose double-layer vacuum clear bulb pipe, endothermic tube (7) is sleeved in the insulating pipe (6), sealed at both ends, heat pipe (8) be one sealed at both ends, in liquid thermal conductivity media and the very high tubulose encloses container of vacuum tightness are housed, the high end of one end is low during use, belong to gravity type heat pipe, the part that is enclosed within the thermal-collecting tube (9) is endotherm section (10), the part that is enclosed within the endothermic tube (7) is a heat release section, solar radiation, pass to the endotherm section (10) of heat pipe (8) behind thermal-collecting tube (9) the absorption heat, heat-conducting medium in the endotherm section (10) is evaporation rapidly under vacuum condition, steam carries heat and rises to heat release section, latent heat is discharged to being condensed into liquid behind the seawater outside the pipe, at the dirty resorption hot arc of the effect of gravity (10), go round and begin again, the heat release section of heat pipe (8) remains certain temperature, endothermic tube (7) absorbs solar energy under the tight insulation of vacuum glass heat-insulating pipe (6), temperature is very high, because the gap between endothermic tube (7) and the heat pipe (8) is very little, and two pipes are all in heat release, seawater through two ligaments is heated very soon, design temperature and flow according to seawater, the quantity of parallel connection or series-connected solar rapid heater can obtain to design the hot sea water that needs.

4. described as claim 1: the multistage economic benefits and social benefits distillation seawater desalination of solar energy sea water heating-type technology is characterized in that vaporizer low pressure, low-flash and solar energy heat collection pipe distillatory double-effect evaporation technology are adopted in the hot sea water evaporation.

5. described as claim 1: the multistage economic benefits and social benefits distillation seawater desalination of solar energy sea water heating-type technology is characterized in that system adopts elevated tank as the concentration of seawater scale tank.

6. described as claim 2: the double-effect evaporator technological process is characterized in that thermal-collecting tube adopts through double-layer vacuum clear bulb to guarantee temperature, adopts the metal tube heat absorption that has the selective heat-absorbing film.

7. described as claim 2: the double-effect evaporator technological process, it is characterized in that, carry seawater to the thermal-collecting tube internal diameter first half, be to adopt ring-type to have the temperature-resistant material imbibition film that capillary is relied on oneself.

8. described as claim 2: the double-effect evaporator technological process, it is characterized in that thermal-collecting tube adopts the negative and positive two sides to arrange, back daylighting adopts the reflective coating of back arranging device or reflector to reflect and get.

9. described as claim 1: the multistage economic benefits and social benefits distillation seawater desalination of solar energy sea water heating-type technology is characterized in that seawater adds thermal recovery sun power rapid heater.

10. described as claim 3: the sun power rapid heater is characterized in that the seawater rapid heating adopts solar energy heat collection pipe and the two-sided heating process of solar heat pipe.