CN206705833U - A kind of preparation facilities that wetting system and condensate generation drinking water are condensed using deep low-temperature seawater air - Google Patents

Abstract

The utility model discloses a kind of preparation facilities that wetting system and condensate generation drinking water are condensed using deep low-temperature seawater air, including the agricultural protection network that pyroconductivity is high（11）, in the protection network（11）On condensation pipe unit is installed（12）, in the protection network（11）Bottom captation is installed（13）；Wherein, the condensation pipe unit（12）It is connected by induction system with below 100m seawater.Wetting system is condensed using deep low-temperature seawater air using by utility model, is capable of the fresh water of continuous production low cost.

Description

One kind condenses wetting system using deep low-temperature seawater air and condensate generation is drunk The preparation facilities of water

Technical field：

It the utility model is related to a kind of equipment using deep low-temperature seawater air condensate and a kind of generation of condensate The preparation facilities of drinking water.

Background technology：

Water is the most important material that tellurian is depended on for existence, and drinking-water is people's something essential daily, The health of human body is maintained, needs 20L clean drinking water for each person every day.

Whole world freshwater resources only account for the 2.5% of total Water, and more than 70% is frozen in the ice sheet of south and north poles, Plus alpine glacier and permafrost accumulated snow, the freshwater resources that the mankind really are able to utilize are one in rivers and lakes and underground water Point, the 1% of insufficient earth total Water, overall fresh water is insufficient, causes the population water shortage of whole world people more than 1,000,000,000 about 1/6.

China is the more plentiful country of World Freshwater Resources, and total amount is only second to Brazil, Russia and Canada, ranks generation The 4th, boundary, still, freshwater resources are but only 1/4 of the world per capita per capita, turn into one of serious country of 13, world water shortage, Fresh water is just progressively developing into a kind of rare strategic resource.Sustainable development is realized, solves the problems, such as that shortage of fresh water is carved not Rong Huan, this just forces us to have to seek a kind of new development model to go solve the problems, such as shortage of water resources, particularly full Sufficient desert, gobi and the islands and reefs sustainable development away from continent, to the great demand of fresh water.

At present, except strengthening protection to existing rivers and lakes and groundwater resources, outside using water wisely, cycling use of water, lead to The approach such as desalinization, air water-intaking are crossed, develop new freshwater resources, the water supply for solving desert, gobi, ocean islands and reefs etc. The direction given priority to as various countries, it is the Main way for solving the problems, such as freshwater resources using desalinization, but seawater is light at present Change about 5 yuan/ton or so of integrated cost price, cost is higher, produces the water quality such as fresh water mineral matter, chlorion, transparency, turbidity and refers to It is marked with and mouthfeel is not ideal enough, should not drinks for a long time.Rainwater-collecting fresh water is gathered, cost is more cheap, still, by natural ring Border restricts, and rainfall deficiency and rainfall spatial and temporal distributions inequality can all cause insufficient water, such as tropical ocean islands and reefs annual rainfall more It is plentiful, but rainy season and dry season are clearly demarcated, in the dry season for having continuous 5 months every year, can not collect enough rainwater；Moreover, rainy season is often Along with typhoon, it is mingled with seawater foam, salt content is higher compared with the rainwater of land, and is subject to collect the guano in place Just the pollution waited, collects that rainwater storage period is longer, and water quality is also not satisfactory.

Utility model content：

The purpose of this utility model is that providing a kind of air for the fresh water for being capable of continuous production low cost condenses wetting system, A kind of and preparation facilities for the condensate generation drinking water that water quality is good, cost is low.

In order to achieve the above object, the utility model is realized in：One kind is coagulated using deep low-temperature seawater air Bear water equipment, it is characterised in that：Including the high agricultural protection network of pyroconductivity, condenser pipe list is installed on the protection network Member, captation is installed in the bottom of the protection network；Wherein, the condensation pipe unit passes through induction system and below 100m Seawater connection.Using such set-up mode, air condensate can be collected using the protection network of agricultural, and use Deep sea water cools to protection network, can reduce cooling cost, and then reduces the production cost of fresh water, and using above-mentioned Equipment can continuously generate condensate, meet the needs of islands and reefs are stationed personnel.

In order to further improve the efficiency of production condensate, the condensation pipe unit is by induction system with below 200m's Seawater connects.Such setting enables to the temperature for condensing refrigerant in pipe unit lower, and then causes the temperature of protection network more Add and be less than environment temperature.

In order to be further able to more easily use deep sea water, the induction system includes the filtering being placed in seawater Net, conveyance conduit is connected with the screen pack, the conveyance conduit is connected with the water inlet of the condensation pipe unit, described Water pump is provided with conveyance conduit.

In order to further improve cooling effectiveness, heat-insulation layer is wrapped with the conveyance conduit.

In order to further improve, heat-insulation layer described in cooling effectiveness is wrapped on conveyance conduit more than sea level and part is extra large On conveyance conduit below plane.

Deep sea water can be successfully conveyed in order to be further ensured that, is set on the conveyance conduit positioned at b.s.l. There is non-return valve.

In order to be further ensured that the discharge pressure of deep sea water, the water pump is arranged on conveyance conduit more than sea level On；Filter and pressure regulator valve are also equipped with conveyance conduit on the sea level.

In order to further improve cooling effectiveness, the protection network is wire netting.Metal has high pyroconductivity, more important Be metal intensity it is high, resistance to strong winds ability is strong.

Preferably, the condensation pipe unit is made up of the condenser pipe of laterally or longitudinally laid out in parallel.Such setting structure The wind loading rating of protection network can be significantly improved, and such setting is simple to manufacture, and intensity is high, good cooling results.

Preferably, the undulate of the condenser pipe of the condensation pipe unit laterally or longitudinally is arranged to make up.Using so setting The condensation pipe unit radiating effect put is more preferable, and wind loading rating is also stronger.

In order to further improve the efficiency of production condensate, the condensation pipe unit on the protection network is multiple. Preferably, the condensation pipe unit is distributed on the protection network.Such setting can improve the formation efficiency of condensate.

In order to further improve condensation effect, the low temperature seawater of the condensation pipe unit flows from the bottom to top.

In order to ensure that each region cooling is identical with the efficiency of condensate, it is provided with the water inlet of the condensation pipe unit Pressure-regulating valve.

In order to further improve the multifunctionality of protection network, the density of the protection network is 10-50 mesh.

A kind of preparation facilities of condensate generation drinking water, including above-mentioned use deep low-temperature seawater air condensate are set It is standby, in addition to condense the filtering ponds that the captation of wetting system is connected, the water purification mistake being connected with the filtering ponds with the air Filter, the chlorination equipment being connected with the water-purifying filter., can be constant by the water vapour in air using said apparatus Ground generate condensate, and and then generate drinking water so that drinking water also can be generated continuously, and generate drinking water Quality is good, is drunk for a long time suitable for people, and cost is low.

In order to further increase the function of condensate, storage is additionally provided between the filtering ponds and the water-purifying filter Water installations.

In order to further be easy to people to drink, the chlorination equipment is also connected with filling apparatus.

A kind of preparation method of condensate generation drinking water, the preparation facilities system of drinking water is generated using above-mentioned condensate Into its technological process is：

Step 1：Preliminary filtering, the condensate that air is condensed to wetting system generation are filtered out in condensate by filtering ponds Large particulate matter；

Step 2：Further filtering, by the condensate in step 1 through the little particle in water-purifying filter removal condensate Impurity and ammonia nitrogen compound；

Step 3：Sterilization, drinking water will be generated after the sterilized device sterilization of condensate in step 2.

Further, it is put into after condensate is tentatively filtered in water-storing device, the condensation moisture in the water-storing device It is all the way further filtering, another way is industrial water for two-way.

Further, the drinking water after sterilization is carried out by filling apparatus filling.

Wetting system, condensate generation device for preparing drinking water are condensed using deep low-temperature seawater air of the present utility model And preparation method thereof, the beneficial effect that can be brought has：

1. condensate can continuously be generated using protection network, and the condensate water quality index and mouthfeel that generate are equal It is up to standard, agricultural production water can be used as, drinking water can be used as through simple process.

2. using condensed water of the deep low-temperature seawater as condensation pipe unit, energy cost can be reduced, additionally it is possible to improve Condensate formation efficiency.

3. the utility model point air, which condenses wetting system, has multifunctionality, its protection network can be kind of the anti-bird of botanical insect-proof Evil, protects the growth of facility implants, enables to protection network firmer, improves the ability for resisting high wind impact.

4. can also reduce the air humidity in protection network, improve plant growth condition, improve kind of a plant premunition growth promoting Ability.

5. using the drinking water of condensate generation, water quality is good, and mouthfeel is good, raw in particular by condensate made of air Into drinking water quality more preferably, be more suitable for people and drink, ensure human body health；Wherein, it is empty with region compared with rainwater The concentration ratio of chemical substance in the condensate that is gas-cooled is relatively low, content 1 order of magnitude lower than rainwater of most of zwitterion.If Ocean islands and reefs, because mostly away from continent, without industrial pollution, air quality is fabulous, and the condensate of production is not by season time Limitation, continuous production storage phase is short, also without strong wind rainfall when the seawater spittle pollution, the overall water quality order of magnitude improve.

6. can carry out inexpensive, extensive, continuous air cooling condensate and drinking water, the condensate of generation may also act as Production and living water；The condensate cost of air condensation wetting system generation of the present utility model is used as zero, it is new using this practicality The drinking water cost of the condensate generation device for preparing drinking water generation of type is less than 3 yuan/ton, that is to say, that in the utility model Its operating cost of drinking water is made less than 3 yuan/ton in air.

Brief description of the drawings：

Fig. 1 is the structural representation that condensate generates device for preparing drinking water in the utility model embodiment 1；

Fig. 2 is induction system structure diagram in the utility model embodiment 2；

Fig. 3 is the structure diagram that 3 hollow airsetting of the utility model embodiment bears water equipment；

Fig. 4 is the structural representation that condensate generates device for preparing drinking water in the utility model embodiment 4.

Embodiment：

Specific embodiment of the present utility model is described in further detail below in conjunction with the accompanying drawings, but the utility model These embodiments are not limited to, any improvement or replacement on the present embodiment essence spirit, still fall within the utility model Claim scope claimed.

Embodiment one：As shown in figure 1, air water, is the another important channel for producing clean fresh water.Using the Nanhai area as Example, in all summers in the four seasons, long-term 28 DEG C of samming, average annual humidity 80%, saturated air water content is 27.0 g/m³, calculated by humidity 80%, Average air water content also reaches 21.6g/m³, South Sea day and night temperature is generally 8-10 DEG C, and by 8 DEG C of calculating, i.e. nocturnal temperature is 20 DEG C when 100% saturated humidity air moisture content be 17.2g/m³, 4.4g/m is had more with regard to this³Water.

So a kind of equipment that institute's water content in air can be generated to condensate, concrete scheme are provided in the present embodiment It is as follows：

One kind condenses wetting system, including the agricultural protection network 11 that pyroconductivity is high using deep low-temperature seawater air, Condensation pipe unit 12 is installed on the protection network 11, captation 13 is installed in the bottom of the protection network 11；Wherein, The condensation pipe unit 12 is connected by induction system with below 100m seawater.

Wetting system is condensed using the deep low-temperature seawater air in the present embodiment, at night, passes through the reduction of temperature So that the air of high humidity condenses into water on the surface of protection network 11, and the dress that catchments of bottom installation is slipped down to along protection network 11 Put in 13.Also, the condensate generating surface in the present embodiment is to use agricultural protection network, that is to say, that in the protection network 11 For proportion of crop planting base, occupation of land can be saved first, it is most important that transpiration can occur for crops so that in the area Interior air humidity can reach 100%.In addition, using below 100m deep low-temperature seawater as condensation in the present embodiment Refrigerant in pipe unit 12, because the temperature of below 100m deep sea water is about 15 DEG C or so, that is to say, that the present embodiment Middle condensation pipe unit enables to drop to 15 DEG C or so at a temperature of protection network 11, compared with daytime, have dropped 10-15 DEG C, energy More condensates are enough made, improves the production efficiency of condensate, can continuously generate condensate.

In addition, the condensate being collected into through the above way can also generate device for preparing drinking water to generate by condensate Drinking water, the preparation facilities are specially：The mistake that captation 13 including condensing wetting system 1 with the air in the present embodiment is connected Filter tank 2, the water-purifying filter 4 being connected with the filtering ponds 2, the chlorination equipment 5 being connected with the water-purifying filter 4.

Use its technological process of above-mentioned preparation facilities generation drinking water for：

Step 1：Preliminary filtering, the condensate that air condensation wetting system 1 generates is filtered out into condensate by filtering ponds 2 In large particulate matter；

Step 2：Further filtering, the condensate in step 1 is removed through water-purifying filter 4 to the little particle in condensate Impurity and ammonia nitrogen compound；

Step 3：Sterilization, drinking water is generated after the sterilized device 5 of condensate in step 2 is sterilized.

Wherein, the filtering ponds 2 used in preliminary filtering can filter out the bulky grains such as branches and leaves, the grains of sand, withered grass to be existing The strainer filtering pond of impurity, the water-purifying filter 4 used in further filtering can filter for existing " screen pack+activated carbon " Device, can filter small particles impurity and absorption ammonia nitrogen compound, the chlorination equipment 5 used in sterilisation step be mainly existing purple Outside line sterilizer and/or ozone sterilizer, it is also possible to liquid chlorine or the sterilization of bleaching powder class.

Using the condensate generation device for preparing drinking water and preparation method in the present embodiment, will can be condensed by air The condensate that wetting system is collected continuously generates the drinking water that can be drunk for people.Set using above-mentioned air condensate Standby, the floor space in production estimation base is 3000 ㎡, and the area of protection network is 660 ㎡, wherein minimum windward side is 150 ㎡, when daytime temperature is 30 DEG C, saturated air water content is 30.10 g/m³, per year equal humidity 80% calculate, average air is aqueous Amount is also up to 24.08 g/m³, South Sea day and night temperature is generally 8-10 DEG C, and by 8 DEG C of calculating, i.e., 100% is full when nocturnal temperature is 22 DEG C Air moisture content with humidity is 19.3 g/m³, by 1-2 level gentle breezes, wind direction calculates when being minimum windward side, and daily night can Realize air exchange amount 72000m³/ ㎡, it is not necessary to freeze, just there is 4.78kg/m³Vapor condenses into aqueous water from air, tires out It is 10800000 m to count air exchange amount³, the condensation dew of formation is 51.62 tons, and collection rate calculates by 50%, can give birth within one day The drinking water of production is 25 tons, and the running cost of each ton of drinking water is substantially zeroed.

In addition, the drinking water quality prepared using the above method is good, its zwitterion has correlation with rainwater, and mostly It is more than the content of zwitterion 1 order of magnitude lower than rainwater.And condensate can be continuously generated, and and then generation drink With water so that drinking water also can be generated continuously.

Embodiment two：The present embodiment as shown in Figure 2 is the further improvement to induction system in embodiment one, in this implementation In example, the condensation pipe unit 12 is connected by induction system with below 200m seawater.The ocean temperature of below the 200m For 4-15 DEG C, that is to say, that the temperature of the protection network 11 at night in the present embodiment can be reduced to 4-15 DEG C, with phase on daytime Than temperature have dropped 13-24 DEG C or so, enable to the temperature of protection network 11 to be even lower, and improve the generation effect of condensed water Rate.

Also, the induction system includes the screen pack 71 being placed in below 200m seawater, connects with the screen pack 71 Conveyance conduit 72 is connected to, the conveyance conduit 72 is connected with the water inlet of the condensation pipe unit 12, in the conveyance conduit 72 On be provided with water pump 73.In addition, it is wrapped with heat-insulation layer 74 in the conveyance conduit 72.The heat-insulation layer 74 is wrapped in sea level On conveyance conduit 72 above and on the conveyance conduit 72 of part b.s.l..On undersea conveyance conduit 72 It is also equipped with non-return valve 75.

Wherein, the water pump 73 is arranged on conveyance conduit 72 more than sea；Conveyance conduit 72 on the sea On be also equipped with filter 76 and pressure regulator valve 77.

The induction system extracts deep low-temperature seawater at work, by water pump 73, and seawater passes through the first of screen pack 71 Filtering, condensation pipe unit 12 being transported to by conveyance conduit 72, non-return valve 75 can prevent seawater from flowing backwards described in course of conveying, It is transported to when more than sea and the impurity in seawater can be further filtered by filter 76, and is passing through pressure regulator valve 77 adjustment water pressure, can smooth delivery of power to condensation pipe unit 12 in.

Wetting system is condensed using the deep low-temperature seawater air of the present embodiment, it is possible to increase the formation efficiency of condensate, Such as：The floor space in production estimation base is 3000 ㎡, and the entire area of condensate generating surface is 660 ㎡, wherein most Small windward side is 150 ㎡, and daytime temperature is 30 DEG C, when air humidity reaches 80%, gram/cube km of its water content about 24.08, Night is cooled to 15 DEG C, when air humidity reaches 100% using deep low-temperature seawater, water content about 12.8kg/m², have 11.28kg/m³Vapor condenses into aqueous water from air, and with 1-2 level gentle breezes, wind direction calculates when being minimum windward side, daily Night can realize air exchange amount 72000m³/ ㎡, it is 10800000 m to add up air exchange amount³, the condensation dew of formation is 121.8 tons, collection rate calculates by 50%, and one day drinking water that can be produced is 60 tons, and the running cost of each ton of drinking water is basic For 3.0 yuan.

Embodiment three：As shown in figure 3, the present embodiment is empty to the deep low-temperature seawater system in embodiment one and embodiment two Airsetting bears water the further improvement of equipment, wherein, the protection network 11 may be selected be made up, compare of the high metal material of pyroconductivity Such as copper, aluminium, iron metal and its alloy material.Other nonmetallic but high pyroconductivity materials can certainly be used.

In addition, condensation pipe unit 12 is additionally provided with the protection network 11, for quickly reducing the temperature of Chain Link Fence Degree so that the hot-air with high humility can condense into water in metal protection net surface.In addition, can also be in the protection network 11 Refrigeration system is inside provided with, on the basis of night Chain Link Fence Temperature fall, refrigeration system is started according to the temperature difference, rationally profit With peak load shifting electric power, the renewable electric power such as wind energy that consumption night is abandoned, wave energy, Chain Link Fence is quickly cooled down, protect Hold between 0-10 DEG C, improve and condense water production efficiency, such as the floor space in production estimation base is 3000 ㎡, protection The entire area of net is 660 ㎡, wherein minimum windward side is 150 ㎡, daytime temperature is 30 DEG C, when air humidity reaches 80%, its Gram/cube the km of water content about 24.08, night are cooled to 10 DEG C, when air humidity reaches 100% using deep low-temperature seawater, contained Water about 9.4kg/m², there is 14.68kg/m³Vapor condenses into aqueous water from air, and with 1-2 level gentle breezes, wind direction is met for minimum Calculated during wind face, daily night can realize air exchange amount 72000m³/ ㎡, it is 10800000 m to add up air exchange amount³, shape Into condensation dew be 158.54 tons, collection rate calculates by 50%, and one day drinking water that can be produced is 79 tons, and each ton of drink 2.0 yuan are essentially with the running cost of water.

Wherein, the condenser pipe of the condensation pipe unit 12 is transversely arranged or longitudinal arrangement, the condenser pipe can be laterally Arranged in parallel, horizontal wavy arrangement, the arrangement of horizontal fold-line-shaped, or longitudinal arranged in parallel, the ripple of longitudinal direction Shape wave arranges or the arrangement of the fold-line-shaped of longitudinal direction.It is contemplated that manufacturing cost and cooling effectiveness, using laterally simultaneously in the present embodiment Arrange condensation pipe unit 12 made of the condenser pipe of arrangement.

And the present embodiment employs multiple condensation pipe units 12 and is arranged on the protection network 11, the plurality of condenser pipe list Member 12 disorderly can be arranged on the protection network 11, can also be in certain rule mounted thereto.In the present embodiment, In order to ensure the efficiency balance of the production condensed water of the regional of protection network 11, condensation pipe unit 12 is distributed on the protection network On 11；In addition, in order to reinforce the protection network 11, the intensity that the protection network 11 resists typhoon is improved, can be by the condensation Pipe unit 12 forms the support of protection network in being vertically arranged on the protection network 11, greatly improves the intensity of protection network； Can certainly be anti-to realize by the diameter of overstriking protection network 11, or in various ways such as 11 peripheral winding steel wires of protection network The reinforcing of protecting wire net.

Moreover, the condensed water of the condensation pipe unit 12 can flow from the bottom to top, naturally it is also possible to from top to bottom flow. It is contemplated that cooling efficiency, the condensed water of the condensation pipe unit 12 in the present embodiment is to flow from the bottom to top, and described The water inlet of condensation pipe unit 12 is provided with pressure-regulating valve 17, and the cooling and production for balanced 11 each region of protection network condense Water efficiency.The captation 13 for collecting condensate is provided with the bottom of the protection network 11, the captation 13 can Think collecting-tank, water leg, collecting conduit etc..Collecting-tank is preferably used based on cost consideration, the collecting-tank can be arranged on Protect on the ground of sieve bottom, naturally it is also possible to slotted on the ground of protection sieve bottom, the collecting-tank is placed in the groove It is interior.In order to save workload, the collecting-tank in the present embodiment is directly placed on the ground of the metal protection sieve bottom, and The collecting-tank is connected by pipeline with filtering ponds.

Wherein, the density of the protection network 11 is 10-50 mesh.The density of protection network 11 in the present embodiment may be selected but not It is limited to 10 mesh, 15 mesh, 20 mesh, 25 mesh, 30 mesh, 35 mesh, 40 mesh, 45 mesh or 50 mesh etc..Can certainly according to demand, such as Main insect or the volume size of seabird etc. select the mesh number of protection network, can also be set according to the requirement of anti-high wind anti- The mesh number of protecting wire net.

In addition, as preferably, can be made full use of in the top of the protection network 11 installation solar energy power generating plate 14 The torrid zone or the solar energy of subtropical zone so that electricity generation system and agricultural production shape system into a three-dimensional combining form, And condensate and drinking water producing system are set in agricultural production system periphery, occupation of land is cost savings, and produce Electric energy can be additionally used in the refrigeration system that air condenses wetting system, save resource.In addition, can also be in the solar panel 14 edge is provided with collection rain disk 15, and the collection rain disk 15 connects with collection rain pipeline 16, forms rain water collecting system, the rain of collection Water can be used as industrial water, for example as agricultural irrigation water, be crops in agricultural production base carry out drip irrigation or Mist fills.

Generally speaking, the protection network in the present embodiment is used not only for producing condensate, garrisons personnel for islands and reefs and provides It is pure, can be used for the fresh water drunk, the protection network 11 can also provide effective insect-pest, anti-for production estimation base The functions such as bird pest, and the air humidity in facility is reduced, deteriorate pathogenic bacteria growing environment, reduce crop disease and prevention and control are used Medicine.In addition, often meeting typhoon on islands and reefs, the protection network 11 can also reduce impulsive force of the typhoon to crops, avoid crops quilt Typhoon is encroached on.Further, since usually it is mingled with seawater in sea wind, so the 11 preferred corrosion resistant of Chain Link Fence in the present embodiment Erosion, the 316L stainless (steel) wires of Anti-Typhoon impact, condensation pipe unit 12 are also preferentially made of corrosion resistant metal tube.If give birth to The condensate of production is directly used in drink if, the protection network can use 304 food grade stainless (steel) wires.

Example IV：As shown in figure 4, the present embodiment is aquatic to the condensation in embodiment one, embodiment two and implementation three Into the improvement of device for preparing drinking water and preparation method thereof, specially described condensate generation device for preparing drinking water also includes storing Water installations 3 and filling apparatus 6, the water-storing device 3 are arranged between the filtering ponds 2 and the water-purifying filter 3, and The chlorination equipment 5 is also connected with filling apparatus 6.Wherein, the connection can be to be connected by pipeline or by appointing What it is a kind of can No leakage the mode of transfering fluid connect.The water-storing device 3 can be catch basin, cistern or water storage The devices such as tank.

Use the present embodiment condensate generate drinking water preparation facilities preparation method for：

Step 1：Preliminary filtering, the condensate that air condensation wetting system 1 generates will be used to be filtered out by filtering ponds 2 solidifying Large granular impurity in bearing water, and the condensate after filtering is stored into water-storing device 3；

Step 2：Further filtering, the condensate of water-storing device 3 is removed to the little particle of the inside by water-purifying filter 4 Impurity and ammonia nitrogen compound；

Step 3：Sterilization, drinking water is obtained by the condensate that step 2 kind obtains after chlorination equipment 5 sterilizes；

Step 4：It is filling, the drinking water obtained in step 3 is carried out by filling apparatus 6 filling.

Using above-mentioned equipment during drinking water is prepared, water-storing device 3 is as preliminary filtering and further filtering A terminal, in this process, the condensate after tentatively having filtered can be used as to other purposes, such as produce and use Water, agricultural water etc..And by the drinking water filling apparatus 6 that can be directly drunk after sterilization it is filling in bottle or other In container, what is be more convenient for people to drinks.

Claims (55)

1. one kind condenses wetting system using deep low-temperature seawater air, it is characterised in that：Used including the high agricultural of pyroconductivity Protection network（11）, in the protection network（11）On condensation pipe unit is installed（12）, in the protection network（11）Bottom installation There is captation（13）；

Wherein, the condensation pipe unit（12）It is connected by induction system with below 100m seawater.

2. wetting system is condensed using deep low-temperature seawater air as claimed in claim 1, it is characterised in that：The condenser pipe Unit（12）It is connected by induction system with below 200m seawater.

3. wetting system is condensed using deep low-temperature seawater air as claimed in claim 1 or 2, it is characterised in that：It is described defeated System is sent to include the screen pack being placed in seawater（71）, with the screen pack（71）It is connected with conveyance conduit（72）, the conveying Pipeline（72）With the condensation pipe unit（12）Water inlet be connected, in the conveyance conduit（72）On be provided with water pump（73）.

4. wetting system is condensed using deep low-temperature seawater air as claimed in claim 3, it is characterised in that：In the conveying Pipeline（72）It is wrapped with heat-insulation layer（74）.

5. wetting system is condensed using deep low-temperature seawater air as claimed in claim 4, it is characterised in that：The heat-insulation layer （74）The conveyance conduit being wrapped in more than sea level（72）Upper and part b.s.l. conveyance conduit（72）On.

6. wetting system is condensed using deep low-temperature seawater air as described in claim 4 or 5, it is characterised in that：Positioned at The conveyance conduit of b.s.l.（72）On be provided with non-return valve（75）.

7. wetting system is condensed using deep low-temperature seawater air as claimed in claim 3, it is characterised in that：Positioned at Hai Ping Conveyance conduit below face（72）On be provided with non-return valve（75）.

8. wetting system is condensed using deep low-temperature seawater air as claimed in claim 3, it is characterised in that：The water pump （73）Conveyance conduit more than sea level（72）On；Conveyance conduit on the sea level（72）On be also equipped with Filter（76）And pressure regulator valve（77）.

9. wetting system is condensed using deep low-temperature seawater air as claimed in claim 6, it is characterised in that：The water pump （73）Conveyance conduit more than sea level（72）On；Conveyance conduit on the sea level（72）On be also equipped with Filter（76）And pressure regulator valve（77）.

10. wetting system is condensed using deep low-temperature seawater air as described in claim 4,5 or 7, it is characterised in that：It is described Water pump（73）Conveyance conduit more than sea level（72）On；Conveyance conduit on the sea level（72）On also install There is filter（76）And pressure regulator valve（77）.

11. wetting system, its feature are condensed using deep low-temperature seawater air as described in claim 1,2,4,5,7,8 or 9 It is：The protection network（11）For wire netting.

12. wetting system is condensed using deep low-temperature seawater air as claimed in claim 3, it is characterised in that：The protection Net（11）For wire netting.

13. wetting system is condensed using deep low-temperature seawater air as claimed in claim 6, it is characterised in that：The protection Net（11）For wire netting.

14. wetting system is condensed using deep low-temperature seawater air as claimed in claim 10, it is characterised in that：The protection Net（11）For wire netting.

15. wetting system is condensed using deep low-temperature seawater air as claimed in claim 11, it is characterised in that：The condensation Pipe unit（12）It is made up of the condenser pipe of laterally or longitudinally laid out in parallel.

16. wetting system is condensed using deep low-temperature seawater air as described in claim 12,13 or 14, it is characterised in that： The condensation pipe unit（12）It is made up of the condenser pipe of laterally or longitudinally laid out in parallel.

17. wetting system is condensed using deep low-temperature seawater air as claimed in claim 11, it is characterised in that：The condensation Pipe unit（12）Condenser pipe undulate laterally or longitudinally be arranged to make up.

18. wetting system is condensed using deep low-temperature seawater air as described in claim 12,13 or 14, it is characterised in that： The condensation pipe unit（12）Condenser pipe undulate laterally or longitudinally be arranged to make up.

19. wetting system is condensed using deep low-temperature seawater air as described in claim 15 or 17, it is characterised in that：Installation In the protection network（11）On condensation pipe unit（12）To be multiple.

20. wetting system is condensed using deep low-temperature seawater air as claimed in claim 16, it is characterised in that：Installed in institute State protection network（11）On condensation pipe unit（12）To be multiple.

21. wetting system is condensed using deep low-temperature seawater air as claimed in claim 18, it is characterised in that：Installed in institute State protection network（11）On condensation pipe unit（12）To be multiple.

22. use deep low-temperature seawater system as described in claim 1,2,4,5,7,8,9,12,13,14,15,17,20 or 21 Air condenses wetting system, it is characterised in that：The condensation pipe unit（12）Condensed water flow from the bottom to top.

23. wetting system is condensed using deep low-temperature seawater air as claimed in claim 3, it is characterised in that：The condensation Pipe unit（12）Condensed water flow from the bottom to top.

24. wetting system is condensed using deep low-temperature seawater air as claimed in claim 6, it is characterised in that：The condensation Pipe unit（12）Condensed water flow from the bottom to top.

25. wetting system is condensed using deep low-temperature seawater air as claimed in claim 10, it is characterised in that：The condensation Pipe unit（12）Condensed water flow from the bottom to top.

26. wetting system is condensed using deep low-temperature seawater air as claimed in claim 11, it is characterised in that：The condensation Pipe unit（12）Condensed water flow from the bottom to top.

27. wetting system is condensed using deep low-temperature seawater air as claimed in claim 16, it is characterised in that：The condensation Pipe unit（12）Condensed water flow from the bottom to top.

28. wetting system is condensed using deep low-temperature seawater air as claimed in claim 18, it is characterised in that：The condensation Pipe unit（12）Condensed water flow from the bottom to top.

29. wetting system is condensed using deep low-temperature seawater air as claimed in claim 19, it is characterised in that：The condensation Pipe unit（12）Condensed water flow from the bottom to top.

30. wetting system is condensed using deep low-temperature seawater air as claimed in claim 22, it is characterised in that：Described cold Solidifying pipe unit（12）Water inlet be provided with pressure-regulating valve（17）.

31. wetting system is condensed using deep low-temperature seawater air as described in claim 23,24,25,26,27,28 or 29, It is characterized in that：In the condensation pipe unit（12）Water inlet be provided with pressure-regulating valve（17）.

32. such as claim 1,2,4,5,7,8,9,12,13,14,15,17,20,21,23,24,25,26,27,28,29 or 30 Described condenses wetting system using deep low-temperature seawater air, it is characterised in that：The protection network（11）Density be 10-50 Mesh.

33. wetting system is condensed using deep low-temperature seawater air as claimed in claim 3, it is characterised in that：The protection Net（11）Density be 10-50 mesh.

34. wetting system is condensed using deep low-temperature seawater air as claimed in claim 6, it is characterised in that：The protection Net（11）Density be 10-50 mesh.

35. wetting system is condensed using deep low-temperature seawater air as claimed in claim 10, it is characterised in that：The protection Net（11）Density be 10-50 mesh.

36. wetting system is condensed using deep low-temperature seawater air as claimed in claim 11, it is characterised in that：The protection Net（11）Density be 10-50 mesh.

37. wetting system is condensed using deep low-temperature seawater air as claimed in claim 16, it is characterised in that：The protection Net（11）Density be 10-50 mesh.

38. wetting system is condensed using deep low-temperature seawater air as claimed in claim 18, it is characterised in that：The protection Net（11）Density be 10-50 mesh.

39. wetting system is condensed using deep low-temperature seawater air as claimed in claim 19, it is characterised in that：The protection Net（11）Density be 10-50 mesh.

40. wetting system is condensed using deep low-temperature seawater air as claimed in claim 22, it is characterised in that：The protection Net（11）Density be 10-50 mesh.

41. wetting system is condensed using deep low-temperature seawater air as claimed in claim 31, it is characterised in that：The protection Net（11）Density be 10-50 mesh.

42. as claim 1,2,4,5,7,8,9,12,13,14,15,17,20,21,23,24,25,26,27,28,29,30, 33rd, wetting system is condensed using deep low-temperature seawater air described in 34,35,36,37,38,39,40 or 41, it is characterised in that： In the protection network（11）Inside it is provided with refrigeration system.

43. wetting system is condensed using deep low-temperature seawater air as claimed in claim 3, it is characterised in that：Described anti- Protecting wire net（11）Inside it is provided with refrigeration system.

44. wetting system is condensed using deep low-temperature seawater air as claimed in claim 6, it is characterised in that：Described anti- Protecting wire net（11）Inside it is provided with refrigeration system.

45. wetting system is condensed using deep low-temperature seawater air as claimed in claim 10, it is characterised in that：Described anti- Protecting wire net（11）Inside it is provided with refrigeration system.

46. wetting system is condensed using deep low-temperature seawater air as claimed in claim 11, it is characterised in that：Described anti- Protecting wire net（11）Inside it is provided with refrigeration system.

47. wetting system is condensed using deep low-temperature seawater air as claimed in claim 16, it is characterised in that：Described anti- Protecting wire net（11）Inside it is provided with refrigeration system.

48. wetting system is condensed using deep low-temperature seawater air as claimed in claim 18, it is characterised in that：Described anti- Protecting wire net（11）Inside it is provided with refrigeration system.

49. wetting system is condensed using deep low-temperature seawater air as claimed in claim 19, it is characterised in that：Described anti- Protecting wire net（11）Inside it is provided with refrigeration system.

50. wetting system is condensed using deep low-temperature seawater air as claimed in claim 22, it is characterised in that：Described anti- Protecting wire net（11）Inside it is provided with refrigeration system.

51. wetting system is condensed using deep low-temperature seawater air as claimed in claim 31, it is characterised in that：Described anti- Protecting wire net（11）Inside it is provided with refrigeration system.

52. wetting system is condensed using deep low-temperature seawater air as claimed in claim 32, it is characterised in that：Described anti- Protecting wire net（11）Inside it is provided with refrigeration system.

53. a kind of preparation facilities of condensate generation drinking water, including the air condensation described in above-mentioned any one claim Wetting system, it is characterised in that：Also include condensing wetting system with the air（1）Captation（13）Connected filtering ponds（2）、 With the filtering ponds（2）The water-purifying filter of connection（4）And the water-purifying filter（4）The chlorination equipment of connection（5）.

54. the preparation facilities of condensate generation drinking water as claimed in claim 53, it is characterised in that：In the filtering ponds （2）With the water-purifying filter（4）Between be additionally provided with water-storing device（3）.

55. the preparation facilities of condensate generation drinking water as claimed in claim 53, it is characterised in that：The chlorination equipment （5）Also with filling apparatus（6）It is connected.