TR201313617A2 - New generation water production and purification system - Google Patents
New generation water production and purification system Download PDFInfo
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- TR201313617A2 TR201313617A2 TR2013/13617A TR201313617A TR201313617A2 TR 201313617 A2 TR201313617 A2 TR 201313617A2 TR 2013/13617 A TR2013/13617 A TR 2013/13617A TR 201313617 A TR201313617 A TR 201313617A TR 201313617 A2 TR201313617 A2 TR 201313617A2
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- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 title claims abstract description 444
- 238000004519 manufacturing process Methods 0.000 title claims abstract description 63
- 238000000746 purification Methods 0.000 title claims abstract description 36
- 238000001704 evaporation Methods 0.000 claims abstract description 51
- 230000008020 evaporation Effects 0.000 claims abstract description 47
- 229910052500 inorganic mineral Inorganic materials 0.000 claims abstract description 21
- 239000011707 mineral Substances 0.000 claims abstract description 21
- 238000001914 filtration Methods 0.000 claims abstract description 19
- 238000000926 separation method Methods 0.000 claims abstract description 11
- 238000000034 method Methods 0.000 claims description 30
- 150000003839 salts Chemical class 0.000 claims description 30
- 239000002351 wastewater Substances 0.000 claims description 22
- 230000008569 process Effects 0.000 claims description 16
- 239000002245 particle Substances 0.000 claims description 14
- 239000013535 sea water Substances 0.000 claims description 12
- 239000007787 solid Substances 0.000 claims description 8
- 239000002699 waste material Substances 0.000 claims description 6
- WYTGDNHDOZPMIW-RCBQFDQVSA-N alstonine Natural products C1=CC2=C3C=CC=CC3=NC2=C2N1C[C@H]1[C@H](C)OC=C(C(=O)OC)[C@H]1C2 WYTGDNHDOZPMIW-RCBQFDQVSA-N 0.000 claims description 3
- 238000003809 water extraction Methods 0.000 claims 2
- 235000020681 well water Nutrition 0.000 claims 2
- 239000002349 well water Substances 0.000 claims 2
- 239000000243 solution Substances 0.000 description 22
- 230000036541 health Effects 0.000 description 10
- 239000012267 brine Substances 0.000 description 6
- 238000011161 development Methods 0.000 description 6
- 230000018109 developmental process Effects 0.000 description 6
- 238000004821 distillation Methods 0.000 description 6
- 239000003651 drinking water Substances 0.000 description 6
- 235000020188 drinking water Nutrition 0.000 description 6
- 238000001556 precipitation Methods 0.000 description 6
- 238000001223 reverse osmosis Methods 0.000 description 6
- HPALAKNZSZLMCH-UHFFFAOYSA-M sodium;chloride;hydrate Chemical compound O.[Na+].[Cl-] HPALAKNZSZLMCH-UHFFFAOYSA-M 0.000 description 6
- 239000000126 substance Substances 0.000 description 6
- 241000894006 Bacteria Species 0.000 description 4
- LYCAIKOWRPUZTN-UHFFFAOYSA-N Ethylene glycol Chemical compound OCCO LYCAIKOWRPUZTN-UHFFFAOYSA-N 0.000 description 4
- 238000010612 desalination reaction Methods 0.000 description 4
- 239000002803 fossil fuel Substances 0.000 description 4
- 239000005431 greenhouse gas Substances 0.000 description 4
- JEGUKCSWCFPDGT-UHFFFAOYSA-N h2o hydrate Chemical compound O.O JEGUKCSWCFPDGT-UHFFFAOYSA-N 0.000 description 4
- 239000004677 Nylon Substances 0.000 description 2
- 206010003119 arrhythmia Diseases 0.000 description 2
- 230000006793 arrhythmia Effects 0.000 description 2
- 230000009286 beneficial effect Effects 0.000 description 2
- 239000008280 blood Substances 0.000 description 2
- 210000004369 blood Anatomy 0.000 description 2
- 230000008859 change Effects 0.000 description 2
- 230000006835 compression Effects 0.000 description 2
- 238000007906 compression Methods 0.000 description 2
- 238000009833 condensation Methods 0.000 description 2
- 230000005494 condensation Effects 0.000 description 2
- 238000001816 cooling Methods 0.000 description 2
- 201000010099 disease Diseases 0.000 description 2
- 208000037265 diseases, disorders, signs and symptoms Diseases 0.000 description 2
- 238000000909 electrodialysis Methods 0.000 description 2
- 238000007710 freezing Methods 0.000 description 2
- 230000008014 freezing Effects 0.000 description 2
- 239000013505 freshwater Substances 0.000 description 2
- 239000007789 gas Substances 0.000 description 2
- WGCNASOHLSPBMP-UHFFFAOYSA-N hydroxyacetaldehyde Natural products OCC=O WGCNASOHLSPBMP-UHFFFAOYSA-N 0.000 description 2
- 239000012535 impurity Substances 0.000 description 2
- 238000004898 kneading Methods 0.000 description 2
- 239000007791 liquid phase Substances 0.000 description 2
- 238000012423 maintenance Methods 0.000 description 2
- 239000000463 material Substances 0.000 description 2
- 210000003205 muscle Anatomy 0.000 description 2
- 229920001778 nylon Polymers 0.000 description 2
- 239000012071 phase Substances 0.000 description 2
- 238000011160 research Methods 0.000 description 2
- 238000012827 research and development Methods 0.000 description 2
- 230000035922 thirst Effects 0.000 description 2
- 230000007704 transition Effects 0.000 description 2
- 230000001960 triggered effect Effects 0.000 description 2
- 238000010792 warming Methods 0.000 description 2
- 239000003643 water by type Substances 0.000 description 2
Classifications
-
- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F1/00—Treatment of water, waste water, or sewage
- C02F1/02—Treatment of water, waste water, or sewage by heating
- C02F1/04—Treatment of water, waste water, or sewage by heating by distillation or evaporation
- C02F1/048—Purification of waste water by evaporation
-
- E—FIXED CONSTRUCTIONS
- E03—WATER SUPPLY; SEWERAGE
- E03B—INSTALLATIONS OR METHODS FOR OBTAINING, COLLECTING, OR DISTRIBUTING WATER
- E03B3/00—Methods or installations for obtaining or collecting drinking water or tap water
- E03B3/28—Methods or installations for obtaining or collecting drinking water or tap water from humid air
-
- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F1/00—Treatment of water, waste water, or sewage
- C02F1/02—Treatment of water, waste water, or sewage by heating
- C02F1/04—Treatment of water, waste water, or sewage by heating by distillation or evaporation
- C02F1/14—Treatment of water, waste water, or sewage by heating by distillation or evaporation using solar energy
-
- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F1/00—Treatment of water, waste water, or sewage
- C02F1/28—Treatment of water, waste water, or sewage by sorption
-
- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F1/00—Treatment of water, waste water, or sewage
- C02F1/30—Treatment of water, waste water, or sewage by irradiation
- C02F1/32—Treatment of water, waste water, or sewage by irradiation with ultraviolet light
-
- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F1/00—Treatment of water, waste water, or sewage
- C02F1/46—Treatment of water, waste water, or sewage by electrochemical methods
- C02F1/4604—Treatment of water, waste water, or sewage by electrochemical methods for desalination of seawater or brackish water
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02A—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
- Y02A20/00—Water conservation; Efficient water supply; Efficient water use
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02W—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO WASTEWATER TREATMENT OR WASTE MANAGEMENT
- Y02W10/00—Technologies for wastewater treatment
- Y02W10/30—Wastewater or sewage treatment systems using renewable energies
- Y02W10/37—Wastewater or sewage treatment systems using renewable energies using solar energy
Landscapes
- Engineering & Computer Science (AREA)
- Life Sciences & Earth Sciences (AREA)
- Hydrology & Water Resources (AREA)
- Environmental & Geological Engineering (AREA)
- Water Supply & Treatment (AREA)
- Chemical & Material Sciences (AREA)
- Organic Chemistry (AREA)
- Health & Medical Sciences (AREA)
- Public Health (AREA)
- Separation Using Semi-Permeable Membranes (AREA)
- Heat Treatment Of Water, Waste Water Or Sewage (AREA)
- Physical Water Treatments (AREA)
Abstract
Buluş, temiz su elde edilmesi sağlayan su üretimi ve su arıtma sistemleri ile ilgili olup, özelliği, dış ortamdaki havadan su elde edilmesini sağlayan en az bır su üretim cihazı (1) ve/veya su üretim cihazından (1) veya farklı bir su kaynağından alınan suyun arıtıldığı, su ayrıştırma ve buharlaştırma kısmı (24) ve su buharından temiz su elde etme kısmından (25) oluşan en az bir su arıtma cihazı (23), elde edilen temiz suyun UV filtreleme/mineral filtrele gibi işlemlerden geçirildiği yeni nesil su üretim ve arıtma sistemi ile karakterize edilir.The invention relates to water production and water treatment systems for obtaining clean water, characterized in that at least one water production device (1) and / or water production device (1) or a different water source is used to obtain water from the outdoor air. at least one water treatment device (23) comprising water purification, water separation and evaporation portion (24) and clean water from water vapor portion (25), the generation of new generation water, wherein the obtained clean water is treated by UV filtration / mineral filtration characterized by purification system.
Description
TARIFNAME YENI NESIL su ÜRETIM VE ARITMA SISTEMI Teknik Alan Mevcut bulus, su üretim ve aritma sistemleri ile ilgilidir. DESCRIPTION NEW GENERATION WATER PRODUCTION AND TREATMENT SYSTEM Technical Area The present invention relates to water production and treatment systems.
Bulus özellikle, havadan veya baska bir kaynaktan su elde edildigi veya çesitli kaynaklardan alinan suyun aritilarak temiz suyun elde edildigi cihazlar ve bu cihazlarin gerçeklestirdigi su uretim ve aritma sistemi ile ilgilidir. In particular, the invention is concerned with the production of water from the air or from another source or in various Devices in which clean water is obtained by purifying the water taken from the sources and these It is related to the water production and treatment system performed by the devices.
Teknigin Bilinen Durumunun Açiklanmasi Su, bütün canli varliklarda yüksek oranlarda bulunan temel yapi tasini olusturmaktadir. Insan vücudunun % 65'i, kanin % 80-90'i, kaslarimizin % 75'i, bitkilere ait taze agirligin % 60-85'i sudan olusmaktadir. Description of the State of the Art Water is the basic building block found in high proportions in all living beings. forms. 65% of the human body, 80-90% of the blood, 75% of our muscles, 60-85% of the fresh weight of plants consists of water.
Günümüzde en onemli ihtiyaçlardan birisi, giderek azalan temiz su kaynaklari ve mevcut temiz su kaynaklarindan yeterli olmamasidir. Temiz suyun elde edilmesi için barajlarda su tutulmakta ve bu suyun filtrasyonu ile sehir sebekelerinden verilmektedir. One of the most important needs today is the ever-decreasing clean water resources and the lack of available clean water resources. To obtain clean water water is kept in dams and by filtration of this water, it is removed from the city networks. are given.
Okyanuslardan her yil 333000 km3 su buharlasmaktadir Karalarin yüzeyinden buharlasan su miktari ise 63 000 km3'tür Bu sularin hepsi yeryüzü ile atmosfer arasinda hareket etmektedir. Ancak, 100.000 km3 su yagis olarak yeryuzüne donmektedir. Geriye kalan hareketli suyun bir kismi ya yeryüzune gelirken yeniden buharlasmakta ya da kutuplarda kati halde baglanip kalmakta veya yüzlerce metre yer kabugu derinliklerinde birikmektedir. 333000 km3 of water evaporates from the oceans every year. the amount of water that evaporates is 63 000 km3. All of these waters belong to the earth and atmosphere. moves between However, 100,000 km3 of water falls on the earth as precipitation. is freezing. Some of the remaining moving water either comes back to the earth evaporates or stays solidly attached to the poles or hundreds of meters accumulates in the depths of the earth's crust.
Su aritma, sudaki yabanci maddelerin çesitli yöntemlerle sudan uzaklastirilmasina su aritma denir. Su aritmasini kullanilan yöntemler göz önüne alinarak temelde iki basliga bolebiliriz: Tuzun ayristirilmasi ve diger maddelerin ayristirilmasidir. Water purification is the removal of impurities from the water by various methods. called arrhythmia. Considering the methods used in water treatment, basically two We can divide it into the title: It is the separation of salt and the separation of other substances.
TARIFNAME YENI NESIL su ÜRETIM VE ARITMA SISTEMI Teknik Alan Mevcut bulus, su üretim ve aritma sistemleri ile ilgilidir. DESCRIPTION NEW GENERATION WATER PRODUCTION AND TREATMENT SYSTEM Technical Area The present invention relates to water production and treatment systems.
Bulus özellikle, havadan veya baska bir kaynaktan su elde edildigi veya çesitli kaynaklardan alinan suyun aritilarak temiz suyun elde edildigi cihazlar ve bu cihazlarin gerçeklestirdigi su uretim ve aritma sistemi ile ilgilidir. In particular, the invention is concerned with the production of water from the air or from another source or in various Devices in which clean water is obtained by purifying the water taken from the sources and these It is related to the water production and treatment system performed by the devices.
Teknigin Bilinen Durumunun Açiklanmasi Su, bütün canli varliklarda yüksek oranlarda bulunan temel yapi tasini olusturmaktadir. Insan vücudunun % 65'i, kanin % 80-90'i, kaslarimizin % 75'i, bitkilere ait taze agirligin % 60-85'i sudan olusmaktadir. Description of the State of the Art Water is the basic building block found in high proportions in all living beings. forms. 65% of the human body, 80-90% of the blood, 75% of our muscles, 60-85% of the fresh weight of plants consists of water.
Günümüzde en onemli ihtiyaçlardan birisi, giderek azalan temiz su kaynaklari ve mevcut temiz su kaynaklarindan yeterli olmamasidir. Temiz suyun elde edilmesi için barajlarda su tutulmakta ve bu suyun filtrasyonu ile sehir sebekelerinden verilmektedir. One of the most important needs today is the ever-decreasing clean water resources and the lack of available clean water resources. To obtain clean water water is kept in dams and by filtration of this water, it is removed from the city networks. are given.
Okyanuslardan her yil 333000 km3 su buharlasmaktadir Karalarin yüzeyinden buharlasan su miktari ise 63 000 km3'tür Bu sularin hepsi yeryüzü ile atmosfer arasinda hareket etmektedir. Ancak, 100.000 km3 su yagis olarak yeryuzüne donmektedir. Geriye kalan hareketli suyun bir kismi ya yeryüzune gelirken yeniden buharlasmakta ya da kutuplarda kati halde baglanip kalmakta veya yüzlerce metre yer kabugu derinliklerinde birikmektedir. 333000 km3 of water evaporates from the oceans every year. the amount of water that evaporates is 63 000 km3. All of these waters belong to the earth and atmosphere. moves between However, 100,000 km3 of water falls on the earth as precipitation. is freezing. Some of the remaining moving water either comes back to the earth evaporates or stays solidly attached to the poles or hundreds of meters accumulates in the depths of the earth's crust.
Su aritma, sudaki yabanci maddelerin çesitli yöntemlerle sudan uzaklastirilmasina su aritma denir. Su aritmasini kullanilan yöntemler göz önüne alinarak temelde iki basliga bolebiliriz: Tuzun ayristirilmasi ve diger maddelerin ayristirilmasidir. Water purification is the removal of impurities from the water by various methods. called arrhythmia. Considering the methods used in water treatment, basically two We can divide it into the title: It is the separation of salt and the separation of other substances.
Su, yasam için en temel gereksinimdir. Buna karsin yaklasik 900 milyon kisinin temiz suya erisimi yoktur. Her yil yaklasik 36 milyon insan kirli su kullanimi sonucu yakalandiklari hastaliklardan ötürü ölüyor. Dünya*nin varlikli kesimlerinde insanlar henüz susuzluk ile tanismamis olsalar bile temiz su kaynaklarinin hemen hemen her yerde hizla tükendigi birçok çalisma tarafindan belirtiliyor Bu su kitligina karsi en temel çözümlerden biri tuzlu suyun aritilmasi olarak görülüyor. Zira Dünya'da bulunan suyun sadece %0 014'ü içilebilir kaynaklar iken, yaklasik %97,5'i tuzludur. Water is the most basic requirement for life. However, about 900 million people are clean. does not have access to water. About 36 million people each year result from the use of polluted water. dies because of the diseases they catch. People in wealthy parts of the world Even if they are not yet acquainted with thirst, almost all sources of clean water It is stated by many studies that it is rapidly depleted in the ground. This is the most effective against water shortage. One of the main solutions is seen as desalination of salt water. Because in the World While only 0.014% of the water in the water is drinkable, approximately 97.5% is salty.
Sahip oldugumuz bu bol kaynagi kullanabildigimiz takdirde su sorununu uzun bir süre ortadan kaldirabiliriz. If we can use this abundant resource we have, we will solve the water problem for a long time. we can eliminate.
Su aritma yöntemleri uzun yillardir arastiriliyor ve yüksek hacimlerde su uretmek için pek çok uygun teknige sahibiz. Buna karsin sadece iki teknik piyasalara ~%85 oraninda hâkim bulunuyor. Günümüzde tuzlu suyu aritmak için kullanilan belli basli yöntemleri Dunya'da Kurulu tesis gucüne söyle siralayabiliriz. > Düsük Basinç ile Buharlastirma Multi-stage Flash (MSF) %44 > Ters Osmoz Reverse Osmosis (RO) %42 > Electrodialysis (ED) %6 > Multi-effect distillation (MED) %4 > Vapor compression (VC) %4 Bu yöntemlere ek olarak tarihsel açidan ilk damitma sistemlerinden olan havuz tipi damitma da halen arastirma konulari arasindadir. Water purification methods have been researched for many years and are used to produce high volumes of water. We have many suitable techniques. However, only two technical markets are ~85% ratio prevails. Today, certain major chemicals used to purify salt water are We can list the methods according to the facility power installed in the world. > Low Pressure Evaporation Multi-stage Flash (MSF) 44% > Reverse Osmosis Reverse Osmosis (RO) 42% > Electrodialysis (ED) 6% > Multi-effect distillation (MED) 4% > Vapor compression (VC) 4% In addition to these methods, the pool type, which is one of the first distillation systems historically distillation is still among the research topics.
Deniz suyu aritmak beraberinde birkaç sorun getiriyor. Örnegin, yüksek hacimde aritma yapabilen tesisler büyük miktarda enerjiye ihtiyaç duyuyorlar. Bu yüzden enerji konusunda ciddi sorun yasayan ülkelerde tuzlu su aritma tesisleri kurmak bir hayli zor olmaktadir. Dahasi fosil yakit kullanan tesisler sera gazi salinimina ciddi katkilarda bulunuyor Küresel sera gazi salinimiyla tetiklenen iklim degisikligi ise karsiliginda temiz su kaynaklarini tehdit ediyor. Seawater desalination brings with it a few problems. For example, at high volume Plants capable of treatment require large amounts of energy. That's why energy Establishing salt water treatment plants in countries with serious problems regarding it is difficult. Moreover, facilities using fossil fuels have serious consequences for greenhouse gas emissions. Contributing to climate change triggered by global greenhouse gas emissions In turn, it threatens clean water resources.
Su, yasam için en temel gereksinimdir. Buna karsin yaklasik 900 milyon kisinin temiz suya erisimi yoktur. Her yil yaklasik 36 milyon insan kirli su kullanimi sonucu yakalandiklari hastaliklardan ötürü ölüyor. Dünya*nin varlikli kesimlerinde insanlar henüz susuzluk ile tanismamis olsalar bile temiz su kaynaklarinin hemen hemen her yerde hizla tükendigi birçok çalisma tarafindan belirtiliyor Bu su kitligina karsi en temel çözümlerden biri tuzlu suyun aritilmasi olarak görülüyor. Zira Dünya'da bulunan suyun sadece %0 014'ü içilebilir kaynaklar iken, yaklasik %97,5'i tuzludur. Water is the most basic requirement for life. However, about 900 million people are clean. does not have access to water. About 36 million people each year result from the use of polluted water. dies because of the diseases they catch. People in wealthy parts of the world Even if they are not yet acquainted with thirst, almost all sources of clean water It is stated by many studies that it is rapidly depleted in the ground. This is the most effective against water shortage. One of the main solutions is seen as desalination of salt water. Because in the World While only 0.014% of the water in the water is drinkable, approximately 97.5% is salty.
Sahip oldugumuz bu bol kaynagi kullanabildigimiz takdirde su sorununu uzun bir süre ortadan kaldirabiliriz. If we can use this abundant resource we have, we will solve the water problem for a long time. we can eliminate.
Su aritma yöntemleri uzun yillardir arastiriliyor ve yüksek hacimlerde su uretmek için pek çok uygun teknige sahibiz. Buna karsin sadece iki teknik piyasalara ~%85 oraninda hâkim bulunuyor. Günümüzde tuzlu suyu aritmak için kullanilan belli basli yöntemleri Dunya'da Kurulu tesis gucüne söyle siralayabiliriz. > Düsük Basinç ile Buharlastirma Multi-stage Flash (MSF) %44 > Ters Osmoz Reverse Osmosis (RO) %42 > Electrodialysis (ED) %6 > Multi-effect distillation (MED) %4 > Vapor compression (VC) %4 Bu yöntemlere ek olarak tarihsel açidan ilk damitma sistemlerinden olan havuz tipi damitma da halen arastirma konulari arasindadir. Water purification methods have been researched for many years and are used to produce high volumes of water. We have many suitable techniques. However, only two technical markets are ~85% ratio prevails. Today, certain major chemicals used to purify salt water are We can list the methods according to the facility power installed in the world. > Low Pressure Evaporation Multi-stage Flash (MSF) 44% > Reverse Osmosis Reverse Osmosis (RO) 42% > Electrodialysis (ED) 6% > Multi-effect distillation (MED) 4% > Vapor compression (VC) 4% In addition to these methods, the pool type, which is one of the first distillation systems historically distillation is still among the research topics.
Deniz suyu aritmak beraberinde birkaç sorun getiriyor. Örnegin, yüksek hacimde aritma yapabilen tesisler büyük miktarda enerjiye ihtiyaç duyuyorlar. Bu yüzden enerji konusunda ciddi sorun yasayan ülkelerde tuzlu su aritma tesisleri kurmak bir hayli zor olmaktadir. Dahasi fosil yakit kullanan tesisler sera gazi salinimina ciddi katkilarda bulunuyor Küresel sera gazi salinimiyla tetiklenen iklim degisikligi ise karsiliginda temiz su kaynaklarini tehdit ediyor. Seawater desalination brings with it a few problems. For example, at high volume Plants capable of treatment require large amounts of energy. That's why energy Establishing salt water treatment plants in countries with serious problems regarding it is difficult. Moreover, facilities using fossil fuels have serious consequences for greenhouse gas emissions. Contributing to climate change triggered by global greenhouse gas emissions In turn, it threatens clean water resources.
Bir baska ciddi sorun aritmadan sonra çikan atik su ile yasaniyor Aritilan sudan geriye tuz ve mineral orani yüksek atik su kaliyor ve tesisler bu atik suyu dogaya geri veriyorlar. Az miktarda salinan atik su çevreye bir zarar vermeden dogaya karisiyor. Another serious problem is experienced with wastewater after treatment. waste water with high salt and mineral content remains and facilities return this waste water to nature. they are giving. A small amount of waste water is released into the environment without harming the environment.
Fakat yaygin bir sekilde aritma yapilan bir bölgede bu atik suyun önlem alinmadan çevreye salinmasi mümkün degildir islenmesi veya saklanmasi ise fazladan is gücü ve yatirim gerektiriyor. Dolayisiyla su kitligini çözebilecek miktarda tuzlu su aritabilmek için atik suyun yönetimi önemli bir konu olmaktadir. However, in an area that is widely treated, this waste water can be treated without taking any precautions. not possible to be released into the environment extra labor to be processed or stored and requires investment. Therefore, enough salt water to solve the water shortage. Waste water management is an important issue in order to be able to treat it.
Tüm bu olumsuzluklara ragmen deniz suyunun aritilmasi, var olan su kitligi karsisinda gerçek bir çozüm olarak karsimiza çikmaktadir. Arastirma ve gelistirmeye aktarilacak yeterli butçelerle atik suyun idaresi için uygun çozumler bulunabilir Yenilenebilir enerji alanindaki gelismeler sayesinde enerji ihtiyacini karsilamak için fosil yakitlardan vazgeçilebilir. Kisa vadedeki en iyi çozum ise insanlari su tasarrufu konusunda bilinçlendirmektir Bu sayede asiri nufus artisi, küresel isinma, tutumsuz kaynak kullanimi yüzünden yarattigimiz su kitligini çözmek için bilime umut baglamamiz gerekmeyebilir Çamurlu su, atik su, deniz suyu gibi birçok kaynaklarin aritilarak temiz içme suyu elde edilmesine çalisilmaktadir. Ancak, aritma maliyetleri yüksek olmaktadir. Despite all these negativities, the purification of sea water, the existing water scarcity it appears before us as a real solution. To research and development Appropriate solutions for wastewater management can be found with sufficient budgets to be transferred To meet the energy needs thanks to the developments in the field of renewable energy fossil fuels can be abandoned. The best short-term solution is to save people water. In this way, excessive population growth, global warming, lack of attitude Hope for science to solve the water scarcity we create because of resource use we may not need to tie Clean drinking water by purifying many sources such as muddy water, waste water, sea water is being achieved. However, treatment costs are high.
Aritmanin yeterli yapilamamasi durumunda, bakterilerin üremesi ile saglik problemleri ortaya çikabilmektedir Bilindigi üzere suyun kaynaklari hava, karalar, okyanuslar ve göllerdir. Havadaki su, buhar halinde olup hidrolojik dongu (çevrim) ile yeryüzü ve atmosfer arasinda sürekli olarak hareket halindedir. In case the treatment cannot be done adequately, health can be caused by the growth of bacteria. problems can arise As it is known, the sources of water are air, land, oceans and lakes. water in the air, It is in the vapor state and is continuously between the earth and the atmosphere with the hydrological cycle (cycle). as in motion.
Buharlasma, suyun sivi fazdan gaz fazina geçmesi seklinde tanimlanabilecek bir doga olayidir Turkiye genelinde yillik toplam yagis miktari 501 milyar m3'dür, bunun 274 milyar m3'u buharlasma yoluyla atmosfere geri donmektedir. Diger bir deyisle yillik toplam yagisin %54,7,sinden her hangi bir sekilde yararlanilamamaktadir. Evaporation is a process that can be defined as the transition of water from the liquid phase to the gas phase. It is a natural phenomenon. Total annual precipitation in Turkey is 501 billion m3. 274 billion m3 is returned to the atmosphere by evaporation. In an other saying 54.7% of the annual total precipitation cannot be utilized in any way.
Bir baska ciddi sorun aritmadan sonra çikan atik su ile yasaniyor Aritilan sudan geriye tuz ve mineral orani yüksek atik su kaliyor ve tesisler bu atik suyu dogaya geri veriyorlar. Az miktarda salinan atik su çevreye bir zarar vermeden dogaya karisiyor. Another serious problem is experienced with wastewater after treatment. waste water with high salt and mineral content remains and facilities return this waste water to nature. they are giving. A small amount of waste water is released into the environment without harming the environment.
Fakat yaygin bir sekilde aritma yapilan bir bölgede bu atik suyun önlem alinmadan çevreye salinmasi mümkün degildir islenmesi veya saklanmasi ise fazladan is gücü ve yatirim gerektiriyor. Dolayisiyla su kitligini çözebilecek miktarda tuzlu su aritabilmek için atik suyun yönetimi önemli bir konu olmaktadir. However, in an area that is widely treated, this waste water can be treated without taking any precautions. not possible to be released into the environment extra labor to be processed or stored and requires investment. Therefore, enough salt water to solve the water shortage. Waste water management is an important issue in order to be able to treat it.
Tüm bu olumsuzluklara ragmen deniz suyunun aritilmasi, var olan su kitligi karsisinda gerçek bir çozüm olarak karsimiza çikmaktadir. Arastirma ve gelistirmeye aktarilacak yeterli butçelerle atik suyun idaresi için uygun çozumler bulunabilir Yenilenebilir enerji alanindaki gelismeler sayesinde enerji ihtiyacini karsilamak için fosil yakitlardan vazgeçilebilir. Kisa vadedeki en iyi çozum ise insanlari su tasarrufu konusunda bilinçlendirmektir Bu sayede asiri nufus artisi, küresel isinma, tutumsuz kaynak kullanimi yüzünden yarattigimiz su kitligini çözmek için bilime umut baglamamiz gerekmeyebilir Çamurlu su, atik su, deniz suyu gibi birçok kaynaklarin aritilarak temiz içme suyu elde edilmesine çalisilmaktadir. Ancak, aritma maliyetleri yüksek olmaktadir. Despite all these negativities, the purification of sea water, the existing water scarcity it appears before us as a real solution. To research and development Appropriate solutions for wastewater management can be found with sufficient budgets to be transferred To meet the energy needs thanks to the developments in the field of renewable energy fossil fuels can be abandoned. The best short-term solution is to save people water. In this way, excessive population growth, global warming, lack of attitude Hope for science to solve the water scarcity we create because of resource use we may not need to tie Clean drinking water by purifying many sources such as muddy water, waste water, sea water is being achieved. However, treatment costs are high.
Aritmanin yeterli yapilamamasi durumunda, bakterilerin üremesi ile saglik problemleri ortaya çikabilmektedir Bilindigi üzere suyun kaynaklari hava, karalar, okyanuslar ve göllerdir. Havadaki su, buhar halinde olup hidrolojik dongu (çevrim) ile yeryüzü ve atmosfer arasinda sürekli olarak hareket halindedir. In case the treatment cannot be done adequately, health can be caused by the growth of bacteria. problems can arise As it is known, the sources of water are air, land, oceans and lakes. water in the air, It is in the vapor state and is continuously between the earth and the atmosphere with the hydrological cycle (cycle). as in motion.
Buharlasma, suyun sivi fazdan gaz fazina geçmesi seklinde tanimlanabilecek bir doga olayidir Turkiye genelinde yillik toplam yagis miktari 501 milyar m3'dür, bunun 274 milyar m3'u buharlasma yoluyla atmosfere geri donmektedir. Diger bir deyisle yillik toplam yagisin %54,7,sinden her hangi bir sekilde yararlanilamamaktadir. Evaporation is a process that can be defined as the transition of water from the liquid phase to the gas phase. It is a natural phenomenon. Total annual precipitation in Turkey is 501 billion m3. 274 billion m3 is returned to the atmosphere by evaporation. In an other saying 54.7% of the annual total precipitation cannot be utilized in any way.
Barailarda biriken suyun, ortamdaki nem miktarina göre buharlasmasi sonucu büyük oranlarda su kaybi yasanmaktadir. gemilerde ters ozmos sistem ile temiz su elde edilmesine dair bir yöntem açiklanmaktadir. Gemilerde kullanima özel bir çözümden bahsedilmektedir. Ozmos sisteminden bahsedilmektedir. nem ile indL'iklenen hidrotermal bir sistemle su elde edilmesine dair bir çözumden bahsedilmektedir. Bir radyator içerisinde glikol geçirilerek fan vasitasiyla olusturulan sogutma ünitesi kullanilmaktadir. Ancak, yüksek maliyetli bir çozümdur Komplike bir sistem olmasindan dolayi uygulama zorluklari ortaya çikmaktadir. 19/16 IPC kodlu faydali model basvurularinda: Bu bulus, su ile hava arasina konacak 3 bir madde ile buharlasmanin onlenmesidir. As a result of the evaporation of the water accumulated in the busbars according to the amount of humidity in the environment, large proportions of water loss. A method for obtaining clean water with reverse osmosis system on ships is explained. A special solution for use on ships is mentioned. Osmosis system is mentioned. from a solution for obtaining water by a hydrothermal system inflated with moisture is mentioned. Formed by a fan by passing glycol in a radiator. cooling unit is used. However, it is a costly solution. application difficulties arise due to the fact that it is a system. For utility model applications with 19/16 IPC code: This invention is to prevent evaporation with a substance placed between water and air.
Bu olayin gerçeklesmesi için, yüzen toplar ve balonlu ambalaj naylon kullanilmaktadir Yukaridaki malzemenin, su yüzeyinde kapladiklari alana göre, buharlasmanin yogunlugu belirlenmektedir. For this event to happen, floating balls and bubble wrap are made of nylon. According to the area covered by the above material on the water surface, The intensity of evaporation is determined.
Açiklanmaya çalisilan sorunlarin varliginda, temiz suyun elde edilmesi için yeni bir su üretim ve aritma sistemine ihtiyaç duyulmaktadir Bulusun Amaçlarinin Açiklanmasi Teknigin bilinen durumundan yola çikilarak bulusun gayesi, mevcut uygulamalardaki olumsuzluklari gideren, üstüne birçok avantajlar elde edilen çesitli kaynaklardan su Üretimi ve su aritmasi yapilarak temiz suyun elde edildigi yeni nesil su üretim ve aritma sistemi gelistirilmesidir Barailarda biriken suyun, ortamdaki nem miktarina göre buharlasmasi sonucu büyük oranlarda su kaybi yasanmaktadir. gemilerde ters ozmos sistem ile temiz su elde edilmesine dair bir yöntem açiklanmaktadir. Gemilerde kullanima özel bir çözümden bahsedilmektedir. Ozmos sisteminden bahsedilmektedir. nem ile indL'iklenen hidrotermal bir sistemle su elde edilmesine dair bir çözumden bahsedilmektedir. Bir radyator içerisinde glikol geçirilerek fan vasitasiyla olusturulan sogutma ünitesi kullanilmaktadir. Ancak, yüksek maliyetli bir çozümdur Komplike bir sistem olmasindan dolayi uygulama zorluklari ortaya çikmaktadir. 19/16 IPC kodlu faydali model basvurularinda: Bu bulus, su ile hava arasina konacak 3 bir madde ile buharlasmanin onlenmesidir. In the presence of the problems that are tried to be explained, a new water can be used to obtain clean water. production and treatment system is needed Clarifying the Objects of the Invention Based on the known state of the art, the aim of the invention is to water from various sources, which eliminates the negativities and gains many advantages. A new generation of water production and production, where clean water is obtained by producing and purifying water. is the development of a purification system As a result of the evaporation of the water accumulated in the busbars according to the amount of humidity in the environment, large proportions of water loss. A method for obtaining clean water with reverse osmosis system on ships is explained. A special solution for use on ships is mentioned. Osmosis system is mentioned. from a solution for obtaining water by a hydrothermal system inflated with moisture is mentioned. Formed by a fan by passing glycol in a radiator. cooling unit is used. However, it is a costly solution. application difficulties arise due to the fact that it is a system. For utility model applications with 19/16 IPC code: This invention is to prevent evaporation with a substance placed between water and air.
Bu olayin gerçeklesmesi için, yüzen toplar ve balonlu ambalaj naylon kullanilmaktadir Yukaridaki malzemenin, su yüzeyinde kapladiklari alana göre, buharlasmanin yogunlugu belirlenmektedir. For this event to happen, floating balls and bubble wrap are made of nylon. According to the area covered by the above material on the water surface, The intensity of evaporation is determined.
Açiklanmaya çalisilan sorunlarin varliginda, temiz suyun elde edilmesi için yeni bir su üretim ve aritma sistemine ihtiyaç duyulmaktadir Bulusun Amaçlarinin Açiklanmasi Teknigin bilinen durumundan yola çikilarak bulusun gayesi, mevcut uygulamalardaki olumsuzluklari gideren, üstüne birçok avantajlar elde edilen çesitli kaynaklardan su Üretimi ve su aritmasi yapilarak temiz suyun elde edildigi yeni nesil su üretim ve aritma sistemi gelistirilmesidir Bulusun bir baska amaci, havadaki nemden suyun elde edilmesi veya su kaynaklarindan alinan suyun aritilarak temiz su olarak kullanilabilmesidir Bulusun bir baska amaci da, havadaki nemden suyun elde edildigi bir cihazdan alinan tuzlu suyun ayristirilarak suyun aritildigi bir cihaz sayesinde su aritma ve temiz su elde islemlerinin yapilmasidir. In the presence of the problems that are tried to be explained, a new water can be used to obtain clean water. production and treatment system is needed Clarifying the Objects of the Invention Based on the known state of the art, the aim of the invention is to water from various sources, which eliminates the negativities and gains many advantages. A new generation of water production and production, where clean water is obtained by producing and purifying water. is the development of a purification system Another object of the invention is to obtain water from moisture in the air or to produce water. The water taken from the springs can be purified and used as clean water. Another object of the invention is to use a device in which water is obtained from moisture in the air. Thanks to a device that purifies the water by separating the ingested salty water, water purification and clean water is the process of obtaining.
Bulusun bir baska amaci da, su üretimi ve aritilmasi için enerji ihtiyaci düsük bir sistem ve cihaz gelistirilmesidir. Another object of the invention is a low energy requirement for water production and purification. system and device development.
Bulusun bir baska amaci da, havadaki nemden elde edilen tuzlu sudan tuz partiküllerinin ayristirilmasi ve kalan suyun buhar yoluyla aritilarak saglikli temiz su elde edilmesidir. Another object of the invention is to produce salt from brine obtained from moisture in the air. healthy clean water by separating the particles and purifying the remaining water by steam. is to be obtained.
Bulusun bir baska amaci da, çamurlu su, deniz suyu, atik su gibi aritilmasi gereken suyun buharlastirilarak aritilip temiz su elde edilmesidir. Bu sekilde, buharlasma esnasinda su içerisindeki sagliga zararli hiçbir seyin kalmamasidir. Another object of the invention is to provide treatment, such as muddy water, sea water, waste water. is the purification of water by evaporation and obtaining clean water. In this way, evaporation It is the absence of anything harmful to health in the water during the process.
Bulusun bir baska amaci da, havadaki nemden su elde edilen bir cihaz üzerinde toplanan tuzlu suyun tuzdan ayristirilmasi ve kalan kisminin buharlastirilarak tekrar yogusturulmasi ile çevrimsel bir temiz su elde edilmesidir. Elde edilen suyun UV filtrelerden ve mineral filtrelerden geçirilerek saglikli ve istenilen mineralleri içeren temiz su elde edilmesidir. Another object of the invention is to use a device in which water is obtained from moisture in the air. separating the collected brine from the salt and evaporating the remaining part It is to obtain a cyclical clean water by condensing it. UV of the resulting water It is passed through filters and mineral filters and contains healthy and desired minerals. obtaining clean water.
Bulusun bir baska amaci da, havadan su elde edilemedigi durumlarda, temiz olmayan su kaynaklarindan alinan suyun ayristirilip, buharlastirilmasi ve sonunda yogusturularak temiz suyun elde edilmesidir. Another object of the invention is to provide clean water in situations where water cannot be obtained from the air. separating and evaporating the water taken from non-existent water sources and finally is to obtain clean water by kneading.
Bulusun bir baska amaci da, havadan su elde edilen su üretim cihazi ve suyun aritildigi su aritma cihazi ile birlikte temiz suyun elde edilmesidir. Another object of the invention is a water generating device from which water is obtained from the air and the water It is to obtain clean water together with the water purification device that it is purified.
Bulusun bir baska amaci, havadaki nemden suyun elde edilmesi veya su kaynaklarindan alinan suyun aritilarak temiz su olarak kullanilabilmesidir Bulusun bir baska amaci da, havadaki nemden suyun elde edildigi bir cihazdan alinan tuzlu suyun ayristirilarak suyun aritildigi bir cihaz sayesinde su aritma ve temiz su elde islemlerinin yapilmasidir. Another object of the invention is to obtain water from moisture in the air or to produce water. The water taken from the springs can be purified and used as clean water. Another object of the invention is to use a device in which water is obtained from moisture in the air. Thanks to a device that purifies the water by separating the ingested salty water, water purification and clean water is the process of obtaining.
Bulusun bir baska amaci da, su üretimi ve aritilmasi için enerji ihtiyaci düsük bir sistem ve cihaz gelistirilmesidir. Another object of the invention is a low energy requirement for water production and purification. system and device development.
Bulusun bir baska amaci da, havadaki nemden elde edilen tuzlu sudan tuz partiküllerinin ayristirilmasi ve kalan suyun buhar yoluyla aritilarak saglikli temiz su elde edilmesidir. Another object of the invention is to produce salt from brine obtained from moisture in the air. healthy clean water by separating the particles and purifying the remaining water by steam. is to be obtained.
Bulusun bir baska amaci da, çamurlu su, deniz suyu, atik su gibi aritilmasi gereken suyun buharlastirilarak aritilip temiz su elde edilmesidir. Bu sekilde, buharlasma esnasinda su içerisindeki sagliga zararli hiçbir seyin kalmamasidir. Another object of the invention is to provide treatment, such as muddy water, sea water, waste water. is the purification of water by evaporation and obtaining clean water. In this way, evaporation It is the absence of anything harmful to health in the water during the process.
Bulusun bir baska amaci da, havadaki nemden su elde edilen bir cihaz üzerinde toplanan tuzlu suyun tuzdan ayristirilmasi ve kalan kisminin buharlastirilarak tekrar yogusturulmasi ile çevrimsel bir temiz su elde edilmesidir. Elde edilen suyun UV filtrelerden ve mineral filtrelerden geçirilerek saglikli ve istenilen mineralleri içeren temiz su elde edilmesidir. Another object of the invention is to use a device in which water is obtained from moisture in the air. separating the collected brine from the salt and evaporating the remaining part It is to obtain a cyclical clean water by condensing it. UV of the resulting water It is passed through filters and mineral filters and contains healthy and desired minerals. obtaining clean water.
Bulusun bir baska amaci da, havadan su elde edilemedigi durumlarda, temiz olmayan su kaynaklarindan alinan suyun ayristirilip, buharlastirilmasi ve sonunda yogusturularak temiz suyun elde edilmesidir. Another object of the invention is to provide clean water in situations where water cannot be obtained from the air. separating and evaporating the water taken from non-existent water sources and finally is to obtain clean water by kneading.
Bulusun bir baska amaci da, havadan su elde edilen su üretim cihazi ve suyun aritildigi su aritma cihazi ile birlikte temiz suyun elde edilmesidir. Another object of the invention is a water generating device from which water is obtained from the air and the water It is to obtain clean water together with the water purification device that it is purified.
Bahsedilen amaçlara ulasmak uzere, su üretim cihazindan elde edilen suyun aritilip temiz su elde edildigi su aritma cihazindan istenilen mineralleri içeren temiz saglikli su elde edilmesini saglayan yeni nesil su üretim ve aritma sistemi gelistirilmistir Sekillerin Açiklanmasi Sekil-1; Bulusun temsili bir uygulamasinda su üretim cihazinin iç kisminin belirtildigi çizimidir. In order to achieve the aforementioned purposes, the water obtained from the water production device is purified and clean and healthy water containing the desired minerals from the water purification device from which clean water is obtained. A new generation water production and treatment system has been developed that enables water to be obtained. Explanation of Figures Figure 1; In a representative embodiment of the invention, the interior of the water generating device is specified. is the drawing.
Sekil-2; Bulusun temsili bir uygulamasinda su üretim cihazinin yandan görünüsünun gösterildigi çizimidir. Figure-2; Side view of the water generating device in a representative embodiment of the invention. is the drawing shown.
Sekil-3, Bulusun temsili bir uygulamasinda su üretim cihazinin önden görünüsünün gösterildigi çizimidir. Figure-3 is the front view of the water generating device in a representative embodiment of the invention. is the drawing shown.
Sekil-4; Bulusun temsili bir uygulamasinda su aritma cihazinin iç kisminin belirtildigi çizimidir. Figure-4; In a representative embodiment of the invention, the interior of the water purifier is specified. is the drawing.
Sekil-5; Bulusun temsili bir uygulamasinda su aritma cihazinin yandan görünüsünün belirtildigi çizimidir. Figure-5; Side view of the water purifier in a representative embodiment of the invention. specified drawing.
Sekil-6; Bulusun temsili bir uygulamasinda su uretim cihazinin perspektif görünüsünün çizimidir. Figure-6; Perspective of the water production device in a representative embodiment of the invention drawing of the view.
Sekil-7, Bulusun temsili bir uygulamasinda su aritma cihazinin perspektif görünusünün çizimidir. Figure-7, Perspective of the water purifier in a representative embodiment of the invention. is the drawing of the view.
Bahsedilen amaçlara ulasmak uzere, su üretim cihazindan elde edilen suyun aritilip temiz su elde edildigi su aritma cihazindan istenilen mineralleri içeren temiz saglikli su elde edilmesini saglayan yeni nesil su üretim ve aritma sistemi gelistirilmistir Sekillerin Açiklanmasi Sekil-1; Bulusun temsili bir uygulamasinda su üretim cihazinin iç kisminin belirtildigi çizimidir. In order to achieve the aforementioned purposes, the water obtained from the water production device is purified and clean and healthy water containing the desired minerals from the water purification device from which clean water is obtained. A new generation water production and treatment system has been developed that enables water to be obtained. Explanation of Figures Figure 1; In a representative embodiment of the invention, the interior of the water generating device is specified. is the drawing.
Sekil-2; Bulusun temsili bir uygulamasinda su üretim cihazinin yandan görünüsünun gösterildigi çizimidir. Figure-2; Side view of the water generating device in a representative embodiment of the invention. is the drawing shown.
Sekil-3, Bulusun temsili bir uygulamasinda su üretim cihazinin önden görünüsünün gösterildigi çizimidir. Figure-3 is the front view of the water generating device in a representative embodiment of the invention. is the drawing shown.
Sekil-4; Bulusun temsili bir uygulamasinda su aritma cihazinin iç kisminin belirtildigi çizimidir. Figure-4; In a representative embodiment of the invention, the interior of the water purifier is specified. is the drawing.
Sekil-5; Bulusun temsili bir uygulamasinda su aritma cihazinin yandan görünüsünün belirtildigi çizimidir. Figure-5; Side view of the water purifier in a representative embodiment of the invention. specified drawing.
Sekil-6; Bulusun temsili bir uygulamasinda su uretim cihazinin perspektif görünüsünün çizimidir. Figure-6; Perspective of the water production device in a representative embodiment of the invention drawing of the view.
Sekil-7, Bulusun temsili bir uygulamasinda su aritma cihazinin perspektif görünusünün çizimidir. Figure-7, Perspective of the water purifier in a representative embodiment of the invention. is the drawing of the view.
Referans Numaralari 1 Su üretim cihazi 14 Su Buhari 3 Hava filtresi 16 Pompa 4 Hava girisi 17 Sicak hava hatti Hava emis fani 18 Soguk hava hatti 6 Havadan su elde etme modülu 19 Atik toplama haznesi 7 Damla tutucu 20 Sogutucu (Yogusturucu) 9 Drenaj 22 Temiz su haznesi SeNis kapagi 23 Su aritma cihazi 11 Sicak su serpantini 24 Su ayristirma ve buharlastirma 12 Kompresör 25 Su buharindan temiz su elde etme 13 Buharlastirma panelleri Bulusun Detayli Açiklanmasi Bulusumuz, yeni nesil su uretim ve aritma sistemidir. Su üretim cihazindan (1) elde edilen suyun aritma isleminin yapildigi su aritma cihazi (23) üzerinden temiz su elde edilmektedir Elde edilen temiz su, UV filtreleme ve mineral filtrelerden geçirilerek temiz suyun içerigi ayarlanmakta ve sagliga uygun sekilde sunulmaktadir Sekillerde görüldügü uzere, su uretim cihazi (1) üzerindeki hava girisinden (4) hava emis fani (5) ile alinan hava, hava filtresinden (3) geçirilmektedir Hava filtresinden (3) geçen hava, havadan su elde etme modüllerine (6) geçerek buradan su elde edilmektedir. Damla tutucu (7) kisminda, havadaki kalan su partükulleri alinarak drenaj (9) kismindan elde edilen su toplanmaktadir Havadan su elde modülleri (6) içerisinde tuz bloklari bulunmaktadir. Tuz bloklarindan geçen hava ile birlikte tuzlu su elde edilmektedir. Elde edilen tuzlu su, drenaj (9) kismindan toplanarak su aritma Referans Numaralari 1 Su üretim cihazi 14 Su Buhari 3 Hava filtresi 16 Pompa 4 Hava girisi 17 Sicak hava hatti Hava emis fani 18 Soguk hava hatti 6 Havadan su elde etme modülu 19 Atik toplama haznesi 7 Damla tutucu 20 Sogutucu (Yogusturucu) 9 Drenaj 22 Temiz su haznesi SeNis kapagi 23 Su aritma cihazi 11 Sicak su serpantini 24 Su ayristirma ve buharlastirma 12 Kompresör 25 Su buharindan temiz su elde etme 13 Buharlastirma panelleri Bulusun Detayli Açiklanmasi Bulusumuz, yeni nesil su uretim ve aritma sistemidir. Su üretim cihazindan (1) elde edilen suyun aritma isleminin yapildigi su aritma cihazi (23) üzerinden temiz su elde edilmektedir Elde edilen temiz su, UV filtreleme ve mineral filtrelerden geçirilerek temiz suyun içerigi ayarlanmakta ve sagliga uygun sekilde sunulmaktadir Sekillerde görüldügü uzere, su uretim cihazi (1) üzerindeki hava girisinden (4) hava emis fani (5) ile alinan hava, hava filtresinden (3) geçirilmektedir Hava filtresinden (3) geçen hava, havadan su elde etme modüllerine (6) geçerek buradan su elde edilmektedir. Damla tutucu (7) kisminda, havadaki kalan su partükulleri alinarak drenaj (9) kismindan elde edilen su toplanmaktadir Havadan su elde modülleri (6) içerisinde tuz bloklari bulunmaktadir. Tuz bloklarindan geçen hava ile birlikte tuzlu su elde edilmektedir. Elde edilen tuzlu su, drenaj (9) kismindan toplanarak su aritma Su üretim cihazi (1) uzerindeki kontrol unitesi (2) ile islemler kontrol edilmektedir. Reference Numbers 1 Water generating device 14 Water Steam 3 Air filter 16 Pump 4 Air inlet 17 Hot air line Air intake fan 18 Cold air line 6 Module for obtaining water from air 19 Waste collection chamber 7 Drip trap 20 Cooler (Condenser) 9 Drain 22 Fresh water tank SeNich cover 23 Water purifier 11 Hot water coil 24 Water separation and evaporation 12 Compressor 25 Obtaining clean water from water vapor 13 Evaporation panels Detailed Description of the Invention Our invention is a new generation water production and treatment system. Obtained from the water generating device (1) Clean water is obtained through the water treatment device (23) in which the water is purified. The clean water obtained is passed through UV filtering and mineral filters. The content of clean water is adjusted and presented in accordance with health. As seen in the figures, air from the air inlet (4) on the water generator (1) The air taken by the suction fan (5) is passed through the air filter (3). (3) the passing air passes to the modules (6) for obtaining water from the air and obtaining water from there. is being done. In the drip holder (7), the remaining water particles in the air are removed and The water obtained from the drainage (9) is collected. Air-to-water modules (6) It contains salt blocks. Salt water with air passing through salt blocks is obtained. The brine obtained is collected from the drainage section (9) for water treatment. Reference Numbers 1 Water generating device 14 Water Steam 3 Air filter 16 Pump 4 Air inlet 17 Hot air line Air intake fan 18 Cold air line 6 Module for obtaining water from air 19 Waste collection chamber 7 Drip trap 20 Cooler (Condenser) 9 Drain 22 Fresh water tank SeNich cover 23 Water purifier 11 Hot water coil 24 Water separation and evaporation 12 Compressor 25 Obtaining clean water from water vapor 13 Evaporation panels Detailed Description of the Invention Our invention is a new generation water production and treatment system. Obtained from the water generating device (1) Clean water is obtained through the water treatment device (23) in which the water is purified. The clean water obtained is passed through UV filtering and mineral filters. The content of clean water is adjusted and presented in accordance with health. As seen in the figures, air from the air inlet (4) on the water generator (1) The air taken by the suction fan (5) is passed through the air filter (3). (3) the passing air passes to the modules (6) for obtaining water from the air and obtaining water from there. is being done. In the drip holder (7), the remaining water particles in the air are removed and The water obtained from the drainage (9) is collected. Air-to-water modules (6) It contains salt blocks. Salt water with air passing through salt blocks is obtained. The brine obtained is collected from the drainage section (9) for water treatment. The processes are controlled by the control unit (2) on the water production device (1).
Servis kapaklari (10) ile gerektiginde bakim servis islemlerinin yapilmasi saglanmaktadir. Carrying out maintenance and service operations when necessary with the service covers (10) is provided.
Su aritma cihazi (23), su ayristirma ve buharlastirma kismi (24) ve su buharindan temiz su elde etme kismindan (25) olusmaktadir. Hava girisinden (4) dis ortamdan alinan hava, günes panelleri ile isitilmis olan suyun içerisinden geçtigi sicak su serpantinlerinden (11) geçmektedir. Kompresör (12) uzerinden sicak hava, sicak hava hatti (17) ile buharlastirma panellerine (13) gönderilmektedir. Buharlastirma panelleri (13) üzerinde su girisinden (15) pompa (16) vasitasiyla su aktarilmaktadir Buharlastirma panellerinden (13) geçen su, içerisindeki kati partikulleri birakarak su buhari (14) olusmaktadir Kati partikuller, atik toplama haznesinde (19) toplanmaktadir. Su içerisindeki tuz partikülleri toplanarak havadan su elde etme modülünde (6) tuz bloklari olarak tekrardan kullanilabilmektedir Su aritma cihazi (23) üzerinde kontrol unitesi (2) ile islemler kontrol edilmektedir Su buhari (14), sogutucu (20) uzerinden geçerken yogusarak temiz su elde edilir. The water purifier (23) consists of the water separation and evaporation part (24) and the water vapor. consists of the part (25) of obtaining clean water. From the air inlet (4) from the outside environment the inhaled air, the hot water through which the water heated by solar panels passes It passes through the serpentines (11). Hot air through the compressor (12), hot It is sent to the evaporation panels (13) by the air line (17). Evaporation Water is transferred from the water inlet (15) on the panels (13) by means of the pump (16). The water passing through the evaporation panels (13) leaves the solid particles in the water. vapor (14) is formed. Solid particles are formed in the waste collection chamber (19) is being collected. Obtaining water from the air by collecting salt particles in water can be reused as salt blocks in the module (6) Water purification device (23) The processes are controlled by the control unit (2) on it. Clean water is obtained by condensing the water vapor (14) while passing over the cooler (20).
Sogutucu (20) üzerine kompresörden (12) gelen soguk hava hatti (18) ile soguk hava gönderilmektedir. Hava çikis fani (21) üzerinden hava çikisi (8) ile dis ortama hava gönderilir Elde edilen temiz su, temiz su haznesinde (22) toplanip buradan UV filtreleme, mineral filtreleme gibi islemlerden geçirilerek sagliga yararli içilebilir su olarak depolanmasi saglanir. Cold air line (18) coming from the compressor (12) on the cooler (20) is sent. With the air outlet (8) over the air outlet fan (21), air to the outside environment The clean water obtained is collected in the clean water tank (22) and then UV drinking water beneficial for health by going through processes such as filtration, mineral filtration storage is provided.
Saglanan Avantajlar: > Su aritma cihazi (23), deniz suyu, çamurlu su, atik su gibi farkli su kaynaklarinin aritilarak temiz su elde edilmesi saglanir. Buharlastirma panelleri (13) üzerine gönderilen aritilacak su, burada su buhari haline gelirken içerisindeki kati partikülleri birakir. Yüksek sicaklik ve buharlasma nedeniyle sagliga zararli bakteriler barinamaz. > Elde edilen su buhari (14), sogutuculardan (20) geçirilerek yogusma sonucu temiz su elde edilmektedir Su içerisindeki mineraller, mineral filtreden Su üretim cihazi (1) uzerindeki kontrol unitesi (2) ile islemler kontrol edilmektedir. Advantages Provided: > Water purifier (23) for different types of water such as sea water, muddy water, waste water It is ensured to obtain clean water by purifying the resources. Evaporation The water to be treated, which is sent to the panels (13), turns into water vapor here. It leaves the solid particles inside as it comes. High temperature and evaporation Because of this, bacteria harmful to health cannot be accommodated. > The resulting water vapor (14) is passed through the coolers (20) as a result of condensation. clean water is obtained The minerals in the water are removed from the mineral filter. The processes are controlled by the control unit (2) on the water production device (1).
Servis kapaklari (10) ile gerektiginde bakim servis islemlerinin yapilmasi saglanmaktadir. Carrying out maintenance and service operations when necessary with the service covers (10) is provided.
Su aritma cihazi (23), su ayristirma ve buharlastirma kismi (24) ve su buharindan temiz su elde etme kismindan (25) olusmaktadir. Hava girisinden (4) dis ortamdan alinan hava, günes panelleri ile isitilmis olan suyun içerisinden geçtigi sicak su serpantinlerinden (11) geçmektedir. Kompresör (12) uzerinden sicak hava, sicak hava hatti (17) ile buharlastirma panellerine (13) gönderilmektedir. Buharlastirma panelleri (13) üzerinde su girisinden (15) pompa (16) vasitasiyla su aktarilmaktadir Buharlastirma panellerinden (13) geçen su, içerisindeki kati partikulleri birakarak su buhari (14) olusmaktadir Kati partikuller, atik toplama haznesinde (19) toplanmaktadir. Su içerisindeki tuz partikülleri toplanarak havadan su elde etme modülünde (6) tuz bloklari olarak tekrardan kullanilabilmektedir Su aritma cihazi (23) üzerinde kontrol unitesi (2) ile islemler kontrol edilmektedir Su buhari (14), sogutucu (20) uzerinden geçerken yogusarak temiz su elde edilir. The water purifier (23) consists of the water separation and evaporation part (24) and the water vapor. consists of the part (25) of obtaining clean water. From the air inlet (4) from the outside environment the inhaled air, the hot water through which the water heated by solar panels passes It passes through the serpentines (11). Hot air through the compressor (12), hot It is sent to the evaporation panels (13) by the air line (17). Evaporation Water is transferred from the water inlet (15) on the panels (13) by means of the pump (16). The water passing through the evaporation panels (13) leaves the solid particles in the water. vapor (14) is formed. Solid particles are formed in the waste collection chamber (19) is being collected. Obtaining water from the air by collecting salt particles in water can be reused as salt blocks in the module (6) Water purification device (23) The processes are controlled by the control unit (2) on it. Clean water is obtained by condensing the water vapor (14) while passing over the cooler (20).
Sogutucu (20) üzerine kompresörden (12) gelen soguk hava hatti (18) ile soguk hava gönderilmektedir. Hava çikis fani (21) üzerinden hava çikisi (8) ile dis ortama hava gönderilir Elde edilen temiz su, temiz su haznesinde (22) toplanip buradan UV filtreleme, mineral filtreleme gibi islemlerden geçirilerek sagliga yararli içilebilir su olarak depolanmasi saglanir. Cold air line (18) coming from the compressor (12) on the cooler (20) is sent. With the air outlet (8) over the air outlet fan (21), air to the outside environment The clean water obtained is collected in the clean water tank (22) and then UV drinking water beneficial for health by going through processes such as filtration, mineral filtration storage is provided.
Saglanan Avantajlar: > Su aritma cihazi (23), deniz suyu, çamurlu su, atik su gibi farkli su kaynaklarinin aritilarak temiz su elde edilmesi saglanir. Buharlastirma panelleri (13) üzerine gönderilen aritilacak su, burada su buhari haline gelirken içerisindeki kati partikülleri birakir. Yüksek sicaklik ve buharlasma nedeniyle sagliga zararli bakteriler barinamaz. > Elde edilen su buhari (14), sogutuculardan (20) geçirilerek yogusma sonucu temiz su elde edilmektedir Su içerisindeki mineraller, mineral filtreden geçirilerek elde edilir. Temiz su elde edilmesinden sonra ortaya çikan saglikli su, insanlarin su ihtiyaci için tarim alanlarinda da kullanilabilir Akarsu, gölet gibi yerlerden su elde edilerek dogal dengeyi bozmadan temiz su elde edilmesi saglanir. Kuruyan dogal göl, akarsu ve göletlerin yeniden canlandirilmasi saglanabilir Dogal hayatin su nedeniyle kayboldugu her yerde kullanilabilir bir çözum gelistirilmistir. Advantages Provided: > Water purifier (23) for different types of water such as sea water, muddy water, waste water It is ensured to obtain clean water by purifying the resources. Evaporation The water to be treated, which is sent to the panels (13), turns into water vapor here. It leaves the solid particles inside as it comes. High temperature and evaporation Because of this, bacteria harmful to health cannot be accommodated. > The resulting water vapor (14) is passed through the coolers (20) as a result of condensation. clean water is obtained The minerals in the water are removed from the mineral filter. is obtained by passing. Healthy life after obtaining clean water water can also be used in agricultural fields to meet the water needs of people. By obtaining water from places such as streams and ponds, it is clean without disturbing the natural balance. water is obtained. Reconstruction of dried natural lakes, streams and ponds It can be revitalized wherever natural life is lost due to water A usable solution has been developed.
Suyun aritilmasi ve üretilmesi esnasinda çok fazla enerji ihtiyaci olmadigi için ekonomik bir çözüm elde edilmistir. Günes panellerinden sicak su elde edilerek sicak su serpantinlerine (11) gönderilmektedir. Kompresörün (12) sicak havayi gönderirken elde edilen soguk hava, soguk hava hatti (18) üzerinden sogutucuya (20) gönderilmektedir. Buharlastirma panelleri (13) yüzey alanlari genis olmasindan dolayi suyun bu alanlara temasinda minimum isida maksimum buharlasma elde edilir Insanlarin içme suyu, tarim alanlari için temiz su ihtiyaci gibi çesitli alanlarda kullanima uygun ekonomik bir çozum gelistirilmistir Su aritma cihazi (23) tek basina kullanilarak dogada bulunan aritabilecek suyun aritilip temiz su elde edilmesi saglanabilir. Because it does not need a lot of energy during the purification and production of water An economical solution has been obtained. Obtaining hot water from solar panels and sent to the hot water coils (11). Compressor (12) cold air when sending hot air, cold air line (18) It is sent to the cooler (20) via Evaporation panels (13) due to their large surface areas, minimum water contact with these areas Maximum evaporation is achieved in the heat In various fields such as people's need for drinking water, clean water for agricultural areas. an economical solution suitable for use has been developed Water purifier (23) is a single Purifying the water that can be treated in nature by using the head and obtaining clean water. can be provided.
Su üretim cihazi (1) uzerinden dis ortamdaki havadan su elde edilmesi sonucunda elde edilen su, farkli sekillerde aritilip temiz su haline getirilebilir Su üretim cihazi (1) ve su aritma cihazi (23) birlikte kullanilarak su problemi olan her yerde kullanilabilir. Nakliyesi, tasinmasi sorun olmadan su sorununa çözum getirilebilir. Obtaining water from the outside air via the water production device (1) The resulting water can be purified in different ways and turned into clean water. Water problem by using water production device (1) and water purifier (23) together can be used anywhere. Transportation, transportation without any problem to the water problem solution can be found.
Günes panelleri yerine farkli sekillerde sicak su elde edilerek sicak su serpantinine gönderilebilir. geçirilerek elde edilir. Temiz su elde edilmesinden sonra ortaya çikan saglikli su, insanlarin su ihtiyaci için tarim alanlarinda da kullanilabilir Akarsu, gölet gibi yerlerden su elde edilerek dogal dengeyi bozmadan temiz su elde edilmesi saglanir. Kuruyan dogal göl, akarsu ve göletlerin yeniden canlandirilmasi saglanabilir Dogal hayatin su nedeniyle kayboldugu her yerde kullanilabilir bir çözum gelistirilmistir. Hot water is obtained by obtaining hot water in different ways instead of solar panels. can be sent to the serpentine. is obtained by passing. Healthy life after obtaining clean water water can also be used in agricultural fields to meet the water needs of people. By obtaining water from places such as streams and ponds, it is clean without disturbing the natural balance. water is obtained. Reconstruction of dried natural lakes, streams and ponds It can be revitalized wherever natural life is lost due to water A usable solution has been developed.
Suyun aritilmasi ve üretilmesi esnasinda çok fazla enerji ihtiyaci olmadigi için ekonomik bir çözüm elde edilmistir. Günes panellerinden sicak su elde edilerek sicak su serpantinlerine (11) gönderilmektedir. Kompresörün (12) sicak havayi gönderirken elde edilen soguk hava, soguk hava hatti (18) üzerinden sogutucuya (20) gönderilmektedir. Buharlastirma panelleri (13) yüzey alanlari genis olmasindan dolayi suyun bu alanlara temasinda minimum isida maksimum buharlasma elde edilir Insanlarin içme suyu, tarim alanlari için temiz su ihtiyaci gibi çesitli alanlarda kullanima uygun ekonomik bir çozum gelistirilmistir Su aritma cihazi (23) tek basina kullanilarak dogada bulunan aritabilecek suyun aritilip temiz su elde edilmesi saglanabilir. Because it does not need a lot of energy during the purification and production of water An economical solution has been obtained. Obtaining hot water from solar panels and sent to the hot water coils (11). Compressor (12) cold air when sending hot air, cold air line (18) It is sent to the cooler (20) via Evaporation panels (13) due to their large surface areas, minimum water contact with these areas Maximum evaporation is achieved in the heat In various fields such as people's need for drinking water, clean water for agricultural areas. an economical solution suitable for use has been developed Water purifier (23) is a single Purifying the water that can be treated in nature by using the head and obtaining clean water. can be provided.
Su üretim cihazi (1) uzerinden dis ortamdaki havadan su elde edilmesi sonucunda elde edilen su, farkli sekillerde aritilip temiz su haline getirilebilir Su üretim cihazi (1) ve su aritma cihazi (23) birlikte kullanilarak su problemi olan her yerde kullanilabilir. Nakliyesi, tasinmasi sorun olmadan su sorununa çözum getirilebilir. Obtaining water from the outside air via the water production device (1) The resulting water can be purified in different ways and turned into clean water. Water problem by using water production device (1) and water purifier (23) together can be used anywhere. Transportation, transportation without any problem to the water problem solution can be found.
Günes panelleri yerine farkli sekillerde sicak su elde edilerek sicak su serpantinine gönderilebilir.Hot water is obtained by obtaining hot water in different ways instead of solar panels. can be sent to the serpentine.
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CN105692942A (en) * | 2016-03-14 | 2016-06-22 | 夏士桀 | Intelligent dustproof air-to-water machine |
CN105756128B (en) * | 2016-03-17 | 2018-09-21 | 嘉兴维特拉电气科技有限公司 | A kind of intelligent air water machine based on Internet of Things |
CN105780852A (en) * | 2016-03-17 | 2016-07-20 | 马骏 | Air water generator adopting hollow fiber ultrafiltration technology |
CN105971063B (en) * | 2016-06-15 | 2018-11-30 | 宁波鼎安电器有限公司 | A kind of air water machine with High-efficient Water detergent power |
CN105951925B (en) * | 2016-06-15 | 2018-10-26 | 泉州台商投资区华林设计有限公司 | A kind of air water machine that cleaning water is high |
CN105926717B (en) * | 2016-06-15 | 2018-10-26 | 林宝领 | Air to water machine that water purification efficiency is high |
CN106049609B (en) * | 2016-07-20 | 2018-10-19 | 河南城建学院 | A kind of squelch type air water machine for intelligentized Furniture based on Internet of Things |
CN106049607B (en) * | 2016-07-20 | 2018-11-30 | 金科伟业(中国)有限公司 | A kind of reliable air water machine of detergent power |
CN110403468A (en) * | 2019-06-28 | 2019-11-05 | 顾美红 | Tea maker confesses water treatment system |
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Ullah et al. | Effect of Untreated Water Flow Rate at Certain Temperature on the Discharge of Treated Water | |
Saiful et al. | Enhancing the performance of solar stills for desalination of the sea water | |
Madiraju et al. | A Qualitative Examination of Applications and Treatment Technologies of Brackish Water | |
Sánchez Carceller | Concentrate treatments in reverse osmosis desalination plants: Status and innovative proposals |