CN104831780B - A kind of high efficiency condensation and dewfall formula air water-intaking system - Google Patents

A kind of high efficiency condensation and dewfall formula air water-intaking system Download PDF

Info

Publication number
CN104831780B
CN104831780B CN201510242034.6A CN201510242034A CN104831780B CN 104831780 B CN104831780 B CN 104831780B CN 201510242034 A CN201510242034 A CN 201510242034A CN 104831780 B CN104831780 B CN 104831780B
Authority
CN
China
Prior art keywords
condensation
water
air
heat
intaking
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Active
Application number
CN201510242034.6A
Other languages
Chinese (zh)
Other versions
CN104831780A (en
Inventor
李青云
王振华
李凌霄
林莉
曹慧群
沈晓莹
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Changjiang River Scientific Research Institute Changjiang Water Resources Commission
Original Assignee
Changjiang River Scientific Research Institute Changjiang Water Resources Commission
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Changjiang River Scientific Research Institute Changjiang Water Resources Commission filed Critical Changjiang River Scientific Research Institute Changjiang Water Resources Commission
Priority to CN201510242034.6A priority Critical patent/CN104831780B/en
Publication of CN104831780A publication Critical patent/CN104831780A/en
Application granted granted Critical
Publication of CN104831780B publication Critical patent/CN104831780B/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Classifications

    • EFIXED CONSTRUCTIONS
    • E03WATER SUPPLY; SEWERAGE
    • E03BINSTALLATIONS OR METHODS FOR OBTAINING, COLLECTING, OR DISTRIBUTING WATER
    • E03B3/00Methods or installations for obtaining or collecting drinking water or tap water
    • E03B3/28Methods or installations for obtaining or collecting drinking water or tap water from humid air

Abstract

A kind of high efficiency condensation and dewfall formula air water-intaking system, belongs to air setting controlling the water circulation field, and it includes casing and is placed in and adds hot cell, condensation chamber, the purifying box that catchments, compression refrigerating system, system control device in casing. Adding hot cell and condensation chamber is connected by airway, condensation chamber and the purifying box that catchments are connected by mozzle. Described compression refrigerating system includes compressor, radiator, heat extractor, reducer. Radiator is arranged at heating indoor, for the humid air that heat external is sent into, the vertical inwall of condensation chamber to center, room be sequentially arranged thermal insulation layer, heat extractor, heat-conducting layer, inversed umbrella type condensation web-roll core, described inversed umbrella type condensation web-roll core by multiple monolayer inversed umbrella types condensation net stacked, be formed by connecting by stainless steel is vertical. The present invention is applicable to some deficient island of fresh water, high mountain, frontier sentry, disaster area and the area such as arid, desert, can effectively solve local domestic water difficult problem, have huge application value.

Description

A kind of high efficiency condensation and dewfall formula air water-intaking system
Technical field
The present invention relates to air setting controlling the water circulation field, specifically a kind of high efficiency condensation and dewfall formula air water-intaking system.
Background technology
China's water resource spatial and temporal distributions is uneven, and water is seriously polluted, and fresh water imbalance between supply and demand increasingly sharpens, and especially the water supply anxiety problem in some islands, high mountain, frontier sentry, disaster area and the area such as arid, desert is very prominent. The traditional approach solving above-mentioned area water supply problem includes strange land fresh water transport, desalinization, exploiting groundwater, builds collection rain-water pit etc. Due to some area traffic inconvenience, fresh water cost of transportation is higher. Desalinization is only applicable to coastal area, and owing to its technology and cost limit, is not suitable for generally applicable. Some area mining of groundwater work are extremely difficult, and quantity is also rather limited. The collection rain-water pit of Drought Mountain Area, because of water storage cycle length, shortage disinfectant measure, easily causes water pollution, it is difficult to ensure people and animals' water safety. The problem obtaining difficulty for thoroughly solving fresh water under above-mentioned specific region, specific application environment, in the urgent need to develop simple, practical, cost is low, the water supply technology that is broadly applicable.
Due in air rich in fresh water, and without geographical restrictions, especially on island, coastal, alpine region, air humidity is higher, obtains liquid fresh water (abbreviation air water-intaking) for solving the problems referred to above and provide new approaches from air. At present, domestic and international scientific research personnel has been for air water-intaking technology and has carried out a large amount of research work, and the method for employing mainly has condensation and dewfall water-fetching method, moisture absorption/desorbing water-fetching method, fog water collection method, utilizes temp-difference condensing water-fetching method etc.Condensation and dewfall water-fetching method is to utilize aerial condenser that humid air temperature is dropped to below dew point so that it is middle water vapor condensation condenses and obtains aqueous water. Moisture absorption/desorbing water-fetching method is to utilize adsorbent by water vapor adsorption in humid air, then passes through solar energy or other energy warms adsorbents make moisture be evaporated, then allow water vapor condensation obtain aqueous water. Fog water collection method is usually the jumbo nylon barrier of employing, droplet in absorption fog, and so as to polymerization is grown up, big water droplet is along the nylon wire stream tilted in water collector. Utilizing temp-difference condensing water-fetching method is the action of thermal difference utilizing natural air with underground, makes natural air constantly condense into water in entering underground metalliferous pipe process, provides water source for crop irrigation.
Domestic and international scientific research personnel develops various air water fetching device according to above-mentioned four kinds of main method for fetching water. these water fetching devices have bigger practical value at the special area lacking fresh water. but, present stage air water fetching device still suffers from the problem that efficiency of producing drinking water is relatively low. as adopted the Chinese patent " a kind of air water fetching device " (CN103806499A) of condensation and dewfall water-fetching method application, " drinking device fetched water from air and purify " (CN1215989C), " vortex air water fetching device " (CN202530502U), " a kind of movable continuous solar energy device for fetching water from air " (CN100572695C) and " a kind of portable air water fetching device " (CN202401518U) etc., provide various aerial condenser or condensing unit, but the cold plate that these condensers are mainly conventional, condenser coil or fin condenser, its solidifying water surface is generally common metal (such as copper, rustless steel etc.), condensed water is made to be easily formed moisture film, cause heat transfer deterioration, thus droplets form efficiency reduces. tabular, coil pipe or fin condensing unit and air to contact surface limited, efficiency of producing drinking water is not high. the waste heat of refrigeration system radiating end is not yet made full use of by existing condensation and dewfall water intaking patented technology, causes that efficiency of energy utilization is low. the Chinese patent that publication number is CN2637565Y discloses a kind of air Water-intaking purifier, this equipment utilization intelligent control unit is by receiving the water level bound signal that water storage tank level sensor sends, intake equipment start and stop state is achieved Automated condtrol, but when aerial temperature and humidity is changed greatly, this intelligent control unit does not still possess and water intaking process is carried out the function of Automated condtrol by regulating and controlling refrigeration system heat absorbing end temperature and air inflow, it is impossible to realizes efficiency of producing drinking water under different temperature and humidity conditions and maximizes.
Summary of the invention
It is an object of the invention to the deficiency for existing condensation and dewfall air water-intaking technology, a kind of high efficiency condensation and dewfall formula air water-intaking system is provided, this water intake system can solve the problem that prior art efficiency of producing drinking water is low, make full use of waste heat in compression process of refrigerastion simultaneously, efficiency of energy utilization can be effectively improved.
A kind of high efficiency condensation and dewfall formula air water-intaking system, including casing be placed in and add hot cell in casing, condensation chamber, catchment purifying box, compression refrigerating system, system control device, adds hot cell in described casing, condensation chamber, the purifying box that catchments is arranged from top to bottom, adds hot cell and condensation chamber is connected by guide duct, and condensation chamber and the purifying box that catchments are connected by mozzle, and described compression refrigerating system includes compressor, radiator, heat extractor, reducer, radiator is arranged at heating indoor, and for the humid air that heat external is sent into, the vertical inwall of condensation chamber is sequentially arranged thermal insulation layer to center, room, heat extractor, heat-conducting layer, inversed umbrella type condensation web-roll core, described inversed umbrella type condensation web-roll core is stacked by multiple monolayer inversed umbrella types condensation net, being formed by connecting by stainless steel is vertical, described system control device includes electric supply installation, it is placed in the aerial temperature and humidity meter in guide duct and mass air flow sensor, it is placed in the level sensor of purifying box inwall side of catchmenting, with electric supply installation, aerial temperature and humidity meter, mass air flow sensor, level sensor, the control system that heat extractor connects.
Further, described heating chamber shape is cylindrical shape, interior sky, horizontal positioned, horizontal two ends are respectively provided with the air cleaning entrance and pressure fan that purify humid air, and centre arranges the wind deflector guiding damp-heat air to carry downwards, wind deflector is arranged below guide duct, and pressure fan is connected with controlling system.
Further, described condensation chamber is shaped as cylindrical shape, interior sky, vertical placement, described condensation chamber top arranges the air inlet pipe being connected with guide duct of multiple input damp-heat air, and multiple air inlet pipe are laid in umbrella, arranges the infundibulate water collection sheet collecting condensed water bottom condensation chamber, low side both sides arrange the exhaustor and exhaust blower of discharging cold dry air, and exhaust blower is connected with controlling system.
Further, the described purifying box that catchments is shaped as barrel-shaped, vertical placement, catchment and between purifying box and room condensing above, be provided with the dividing plate of mesopore, dividing plate mesopore place arranges connection mozzle, mozzle is installed can the active carbon net of purification filtering condensed water, the side micro-current electroanalysis device killing condensed water pathogenic microorganism installed above in the purifying box that catchments, side is arranged below treated water outlet, and micro-current electroanalysis device is connected with controlling system.
Further, the radiator of described compression refrigerating system is flat spin structure, is placed in heating indoor, for heating the humid air of pressure fan conveying.
Further, the perpendicular helical structure of heat extractor of described compression refrigerating system, it is placed in condensation chamber, the damp-heat air condensation for entering condensation chamber produces water provides low-temperature receiver.
Further, the low-pressure inlet of compressor connects heat extractor, and the high-pressure outlet of compressor connects with radiator, and radiator is connected with heat extractor by reducer.
Further, condensation net is formed by hydrophobicity knit-mesh, and the diameter 0.2-0.5mm of hydrophobicity twine, gap 0.5-1.0mm, hydrophobicity twine is made up of the hydrophobic coating of tinsel and wire surface.
It is an advantage of the current invention that: 1. adopt the condensation web-roll core that multiple monolayer inversed umbrella type condensation net is stacked, its specific surface area is the decades of times of conventional condensation plate, condenser coil or fin condenser, is remarkably improved the contact area that humid air is netted in transmitting procedure with condensation; 2. hydrophobicity twine (wire surface scribbles hydrophobic coating) can overcome the common metal surface inefficient problem of droplets form, and inversed umbrella type condensation web frame can make the little water droplet of condensation accelerate to aggregate into big water droplet and come off along tilting twine; 3. utilize radiators heat humid air in compression refrigerative circle system, increase the temperature difference of humid air and condensation net, efficiency of producing drinking water can be effectively improved, simultaneously because make full use of waste heat in compression process of refrigerastion, efficiency of energy utilization can be effectively improved; 4. control system is utilized automatically to adjust condensation chamber temperature, air inflow and intake velocity, it is achieved when different aerial temperature and humidity, efficiency of producing drinking water maximizes; 5. adopt activated carbon and micro-current electroanalysis device condensed water to be purified, sterilizes, can effectively remove various impurity and pathogenic microorganism in condensed water.
Accompanying drawing explanation
Fig. 1 is the stereochemical structure perspective diagram of high efficiency condensation and dewfall formula air water-intaking system of the present invention;
Fig. 2 is the perspective view of monolayer inversed umbrella type condensation net in the present invention;
Fig. 3 is the cross-sectional view of the condensation web-roll core that multiple monolayer inversed umbrella types condensation net is stacked in the present invention;
Fig. 4 is the top view of monolayer inversed umbrella type condensation net in the present invention.
In figure: 1 casing, 2 add hot cell, 3 condensation chambers, 4 catchment purifying box, 5 air cleaning entrances, 6 pressure fan, 7 wind deflectors, 8 guide ducts, 9 air inlet pipe, 10 inversed umbrella type condensation web-roll cores, 11 heat-conducting layers, 12 thermal insulation layers, 13 exhaustors, 14 exhaust blowers, 15 infundibulate water collection sheets, 16 mozzles, 17 active carbon filter screens, 18 micro-current electroanalysis devices, 19 treated water outlets, 20 compressors, 21 radiators, 22 heat extractors, 23 reducers, 24 electric supply installations, 25 aerial temperature and humidity meters, 26 mass air flow sensor, 27 level sensors, 28 control system, 29 dividing plates, 101 monolayer inversed umbrella type condensation nets, 102 hydrophobicity twines, 103 stainless steels.
Detailed description of the invention
Below in conjunction with the accompanying drawing in the present invention, the technical scheme in the present invention is clearly and completely described.
Fig. 1 show the stereochemical structure perspective diagram of high efficiency condensation and dewfall formula air water-intaking system of the present invention, this system include casing 1 and be placed in casing 1 add hot cell 2, condensation chamber 3, catchment purifying box 4, compression refrigerating system, system control device, in described casing 1 add hot cell 2, condensation chamber 3, the purifying box 4 that catchments is arranged from top to bottom, adding hot cell 2 and condensation chamber 3 to connect with detachable guide duct 8, condensation chamber 3 and the purifying box 4 that catchments connect with detachable mozzle 16.
The described hot cell 2 that adds is shaped as cylindrical shape, interior sky, horizontal positioned, add the radiator 21 laying compression refrigerating system in hot cell 2, horizontal two ends are respectively provided with the air cleaning entrance 5 and pressure fan 6 that purify humid air, centre arranges the wind deflector 7 guiding damp-heat air (see solid arrow in Fig. 1) conveying downwards, and wind deflector 7 is arranged below connecting the detachable guide duct 8 adding hot cell 2 and condensation chamber 3.
Described condensation chamber 3 is shaped as cylindrical shape, interior sky, vertical placement, thermal insulation layer 12, the heat extractor 22 of compression refrigerating system, heat-conducting layer 11, inversed umbrella type condensation web-roll core 10 it is sequentially arranged along the vertical inwall of condensation chamber 3 to center, room, condensation chamber 3 top arranges the air inlet pipe 9 of multiple input damp-heat air, bottom arranges the infundibulate water collection sheet 15 collecting condensed water, and low side both sides arrange the exhaustor 13 and exhaust blower 14 of discharging cold dry air (see dotted arrow in Fig. 1). Multiple air inlet pipe 9 of described condensation chamber 3 are laid in umbrella, and the guide duct 8 adding hot cell 2 with top is connected.
With reference to Fig. 2, Fig. 3 and Fig. 4, net 101 is stacked, be formed by connecting by stainless steel 103 is vertical by the condensation of multiple monolayer inversed umbrella types for described inversed umbrella type condensation web-roll core 10, condensation net 101 is formed by hydrophobicity twine 102 braiding, the diameter 0.2-0.5mm of hydrophobicity twine 102, gap 0.5-1.0mm, hydrophobicity twine 102 is made up of the hydrophobic coating of tinsel and wire surface. Tinsel adopts the material such as copper, rustless steel, hydrophobic coating adopts low-surface-energy material (such as organic polymers such as organic-silicon-modified resins) by vapour deposition process, wire surface to be modified, form hydrophobic surface, hydrophobic surface to the contact angle of water at about 120 °. Described inversed umbrella type condensation web-roll core 10 is detachable, and the quantity of inversed umbrella type condensation net 101 can be increased and decreased according to actual needs, less for aquifer yield demand, a small amount of condensation net can be adopted stacked, bigger for aquifer yield demand, by stacked for multiple condensation nets, to increase the contact area of damp-heat air and condensation net, efficiency of producing drinking water can be improved.
The described purifying box 4 that catchments is for barrel-shaped, vertical placement, catchment and between purifying box 4 and room condensing above 3, be provided with the dividing plate 29 of mesopore, dividing plate 29 mesopore place arranges the detachable mozzle 16 connecting catchment purifying box 4 and condensation chamber 3, installing in mozzle 16 can the active carbon net 17 of purification filtering condensed water, catchment the side micro-current electroanalysis device 18 killing condensed water pathogenic microorganism installed above in purifying box 4, and side is arranged below treated water outlet 19.
The radiator 21 of described compression refrigerating system, in flat spin structure, is placed in and adds in the middle part of hot cell, and for heating the humid air of pressure fan conveying, heated rear humid air temperature is up to 25 DEG C-38 DEG C. The perpendicular helical structure of heat extractor 22 of described compression refrigerating system, is placed in the middle part of condensation chamber, and the damp-heat air condensation for entering condensation chamber produces water provides low-temperature receiver, and the temperature of inversed umbrella type condensation web-roll core 10 can be made to control at 0 DEG C-5 DEG C.
Described system control device, including electric supply installation 24, aerial temperature and humidity meter 25, mass air flow sensor 26, level sensor 27, control system 28. Described electric supply installation 24 is placed in casing 1 upper inside wall side, provides power supply for whole air water-intaking system. Described aerial temperature and humidity meter 25, mass air flow sensor 26 are placed in guide duct 8, for obtaining temperature and the flow of the damp-heat air entering condensation chamber. Described level sensor 27 is placed in purifying box 4 inwall side of catchmenting, and is used for obtaining the information such as aquifer yield, prompting water level change. Described control system 28 is placed in above electric supply installation 24, control system 28 is the control panel device with display screen, it controls end or signal input part is connected with electric supply installation 24, aerial temperature and humidity meter 25, mass air flow sensor 26, level sensor 27, heat extractor 22, pressure fan 6, micro-current electroanalysis device 18, it may be achieved following functions: 1. show temperature and flow, condensation chamber 3 temperature, the aquifer yield of damp-heat air; 2. by the artificial power setting heat extractor 22 and pressure fan 6, condensation chamber 3 temperature and air inlet pipe 9 air mass flow can automatically be adjusted, it is achieved when different aerial temperature and humidity, efficiency of producing drinking water maximizes; 3. air water-intaking system operation time is set; 4. micro-current electroanalysis device 18 is set and runs the time; 5., when purifying box 4 middle water level of catchmenting reaches maximum, it is automatically turned off water intake system and prevents spilling water.

Claims (8)

1. a high efficiency condensation and dewfall formula air water-intaking system, it is characterised in that: include casing (1) and be placed in and add hot cell (2) in casing (1), condensation chamber (3), catchment purifying box (4), compression refrigerating system, system control device, adds hot cell (2) in described casing (1), condensation chamber (3), the purifying box (4) that catchments is arranged from top to bottom, add hot cell (2) and condensation chamber (3) to be connected by guide duct (8), condensation chamber (3) and the purifying box that catchments (34) are connected by mozzle (16), and described compression refrigerating system includes compressor (20), radiator (21), heat extractor (22), reducer (23), radiator (21) is arranged at and adds in hot cell (2), and for the humid air that heat external is sent into, condensation chamber (3) vertical inwall to center, room is sequentially arranged thermal insulation layer (12), heat extractor (22), heat-conducting layer (11), inversed umbrella type condensation web-roll core (10), it is stacked that described inversed umbrella type condensation web-roll core (10) is condensed net (101) by multiple monolayer inversed umbrella types, being formed by connecting by stainless steel (103) is vertical, described system control device includes electric supply installation (24), it is placed in the aerial temperature and humidity meter (25) in guide duct (8) and mass air flow sensor (26), it is placed in the level sensor (27) of the purifying box that catchments (4) inwall side, with electric supply installation (24), aerial temperature and humidity meter (25), mass air flow sensor (26), level sensor (27), the control system (28) that heat extractor (22) connects.
2. high efficiency condensation and dewfall formula air water-intaking system as claimed in claim 1, it is characterized in that: described in add hot cell (2) and be shaped as cylindrical shape, interior sky, horizontal positioned, horizontal two ends are respectively provided with the air cleaning entrance (5) and pressure fan (6) that purify humid air, centre arranges the wind deflector (7) guiding damp-heat air to carry downwards, wind deflector (7) is arranged below guide duct (8), and pressure fan (6) is connected with controlling system (28).
3. high efficiency condensation and dewfall formula air water-intaking system as claimed in claim 1, it is characterized in that: described condensation chamber (3) is shaped as cylindrical shape, interior sky, vertical placement, described condensation chamber (3) top arranges the air inlet pipe (39) being connected with guide duct (8) of multiple input damp-heat air, multiple air inlet pipe (9) are laid in umbrella, condensation chamber (3) bottom arranges the infundibulate water collection sheet (15) collecting condensed water, low side both sides arrange the exhaustor (13) and exhaust blower (14) of discharging cold dry air, exhaust blower (14) is connected with controlling system (28).
4. high efficiency condensation and dewfall formula air water-intaking system as claimed in claim 1, it is characterized in that: described in the purifying box (4) that catchments be shaped as barrel-shaped, vertical placement, catchment and between purifying box (4) and room condensing above (3), be provided with the dividing plate (29) of mesopore, dividing plate (29) mesopore place arranges connection mozzle (16), installing in mozzle (16) can the active carbon net (17) of purification filtering condensed water, catchment purifying box (4) the interior side micro-current electroanalysis device (18) killing condensed water pathogenic microorganism installed above, side is arranged below treated water outlet (19), micro-current electroanalysis device (18) is connected with controlling system (28).
5. high efficiency condensation and dewfall formula air water-intaking system as claimed in claim 1, it is characterized in that: the radiator (21) of described compression refrigerating system is in flat spin structure, it is placed in and adds in hot cell (2), be used for heating the humid air that pressure fan (6) is carried.
6. high efficiency condensation and dewfall formula air water-intaking system as claimed in claim 1, it is characterized in that: heat extractor (22) the perpendicular helical structure of described compression refrigerating system, being placed in condensation chamber (3), the damp-heat air condensation for entering condensation chamber (3) produces water provides low-temperature receiver.
7. high efficiency condensation and dewfall formula air water-intaking system as claimed in claim 1, it is characterized in that: the low-pressure inlet of compressor (20) connects heat extractor (22), the high-pressure outlet of compressor (20) connects with radiator (21), and radiator (21) is connected with heat extractor (22) by reducer (23).
8. high efficiency condensation and dewfall formula air water-intaking system as claimed in claim 1, it is characterized in that: condensation net (101) is formed by hydrophobicity twine (102) braiding, the diameter 0.2-0.5mm of hydrophobicity twine (102), gap 0.5-1.0mm, hydrophobicity twine (102) is made up of the hydrophobic coating of tinsel and wire surface.
CN201510242034.6A 2015-05-13 2015-05-13 A kind of high efficiency condensation and dewfall formula air water-intaking system Active CN104831780B (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201510242034.6A CN104831780B (en) 2015-05-13 2015-05-13 A kind of high efficiency condensation and dewfall formula air water-intaking system

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201510242034.6A CN104831780B (en) 2015-05-13 2015-05-13 A kind of high efficiency condensation and dewfall formula air water-intaking system

Publications (2)

Publication Number Publication Date
CN104831780A CN104831780A (en) 2015-08-12
CN104831780B true CN104831780B (en) 2016-06-15

Family

ID=53809950

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201510242034.6A Active CN104831780B (en) 2015-05-13 2015-05-13 A kind of high efficiency condensation and dewfall formula air water-intaking system

Country Status (1)

Country Link
CN (1) CN104831780B (en)

Families Citing this family (17)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105369854A (en) * 2015-11-20 2016-03-02 中山联昌电器有限公司 Water-making machine and water-making method thereof
CN105361701B (en) * 2015-12-14 2017-12-19 梁博 A kind of water dispenser
CN105625505A (en) * 2015-12-29 2016-06-01 张萍 Device for making drinking water from air
CN105507366A (en) * 2015-12-29 2016-04-20 张萍 Air-into-water drinking water system
CN105780854A (en) * 2016-05-01 2016-07-20 张萍 Novel efficient air water maker
CN105780853A (en) * 2016-05-01 2016-07-20 张萍 High-efficient and air-purifying air water maker
CN105780856A (en) * 2016-05-01 2016-07-20 张萍 High-efficient air water maker
CN105780855A (en) * 2016-05-01 2016-07-20 张萍 Healthy type machine for preparing water from air
CN105971059A (en) * 2016-06-05 2016-09-28 郭爱华 New-energy air water making device
CN108301462B (en) * 2017-12-29 2020-07-14 成都海天绿色化学技术研究中心 Air water production method based on molecular sieve membrane
CN108678075B (en) * 2018-05-21 2020-11-10 广州市宸宇环保设备有限公司 Device for preparing purified water by utilizing water in air
CN111528058A (en) * 2018-06-15 2020-08-14 庄臣酿酒(福建)有限公司 Multifunctional irrigator
CN110453752A (en) * 2019-08-30 2019-11-15 吴达镕 Portable air water and water tender
CN110450696A (en) * 2019-08-30 2019-11-15 吴达镕 Air and solar energy water water tender
CN111576552A (en) * 2020-05-29 2020-08-25 西安理工大学 Condensation and condensation water generator
CN112012273A (en) * 2020-07-31 2020-12-01 西安交通大学 Novel intelligent water collecting/taking device based on multifunctional MOF material
CN111912043A (en) * 2020-08-21 2020-11-10 重庆大学 Condensation mechanism and energy-saving dehumidifying device

Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN1316571A (en) * 2000-04-06 2001-10-10 环球水公司 Portable drinking water regenerating and distributing device
CN2675002Y (en) * 2004-02-14 2005-02-02 李星南 Domestic air water drinking machine
US7043934B2 (en) * 2000-05-01 2006-05-16 University Of Maryland, College Park Device for collecting water from air
CN202099833U (en) * 2011-06-03 2012-01-04 成都澳德森农业投资有限公司 Fog condenser
CN203049680U (en) * 2013-01-18 2013-07-10 东华大学 Adsorption air water-taking device utilizing phase-change materials
CN204645149U (en) * 2015-05-13 2015-09-16 长江水利委员会长江科学院 A kind of high efficiency condensation and dewfall formula air water-intaking system

Patent Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN1316571A (en) * 2000-04-06 2001-10-10 环球水公司 Portable drinking water regenerating and distributing device
US7043934B2 (en) * 2000-05-01 2006-05-16 University Of Maryland, College Park Device for collecting water from air
CN2675002Y (en) * 2004-02-14 2005-02-02 李星南 Domestic air water drinking machine
CN202099833U (en) * 2011-06-03 2012-01-04 成都澳德森农业投资有限公司 Fog condenser
CN203049680U (en) * 2013-01-18 2013-07-10 东华大学 Adsorption air water-taking device utilizing phase-change materials
CN204645149U (en) * 2015-05-13 2015-09-16 长江水利委员会长江科学院 A kind of high efficiency condensation and dewfall formula air water-intaking system

Also Published As

Publication number Publication date
CN104831780A (en) 2015-08-12

Similar Documents

Publication Publication Date Title
CN104831780B (en) A kind of high efficiency condensation and dewfall formula air water-intaking system
CN204645149U (en) A kind of high efficiency condensation and dewfall formula air water-intaking system
CN201314655Y (en) Environmental-friendly and energy-saving blower for supplying hot wind and cool wind
CN203878656U (en) Water making device through solar energy and air
CN202853083U (en) Air conditioner condensate water purification cycle temperature and humidity control integrated device
US20140158516A1 (en) Water Supply Systems
CN102003895A (en) Closed and integrated frostproof heat source tower
CN102379226A (en) Temperature adjustment system for sunlight greenhouses
CN104030384B (en) Small-sized solar multi-stage falling film evaporation back-heating type sea water desalinating plant
CN205717553U (en) A kind of air conditioner group with degree of depth dehumidification function
CN103371089A (en) Manual dew collection drip irrigation and purification of urban air and automobile exhaust
CN108131157B (en) A kind of tunnel air film water-cooled cooling system
CN112254249A (en) Building ventilation circulation system
CN201463148U (en) Solar fresh-air air purifying and humidifying machine
CN205676175U (en) A kind of device for preparing drinking water
CN107029496A (en) Artificial precipitation formula air purifier
CN202546951U (en) Energy-saving bacteria-inhibiting air conditioner
CN105783153A (en) System based on ground temperature structure ratio/hybrid air pump/multi-pipe temperature taking/water penetration purification
CN205481610U (en) Condensate recovery utilizes system
CN107059993B (en) It is round-the-clock without driving device for fetching water from air
CN205425254U (en) Radiate cold and hot wall and domestic air conditioning system based on solar energy - earth source heat pump
CN109502868A (en) A kind of control method of Trinity structure sewage treatment
CN205351858U (en) Outer tubine of porous ceramic of air conditioner comdenstion water utilizes device
CN205208815U (en) Utilize solution formula air conditioning system of solar energy
CN109778949A (en) A kind of equipment of the potable water from air

Legal Events

Date Code Title Description
PB01 Publication
C06 Publication
SE01 Entry into force of request for substantive examination
EXSB Decision made by sipo to initiate substantive examination
GR01 Patent grant
C14 Grant of patent or utility model