The BN-reactor is a type of sodium-cooled fast breeder reactor built in Russia from the company OKBM Afrikantov . Two BN-reactors are to date (2015) the only commercial fast breeder reactors in operation worldwide.
57-414: The BN-350 is the first prototype of the series, in operation between 1973 and 1999 for electricity production (150MW) and desalination . The BN-600 is a commercial reactor with 600MW electrical power. In operation since 1980 with an availability factor of over 74% it is together with Phénix one of the most successful fast breeder reactors ever built. The BN-800 is the newest reactor of this type, with
114-511: A still to a cookstove. During the Middle Ages elsewhere in Central Europe, work continued on distillation refinements, although not necessarily directed towards desalination. The first major land-based desalination plant may have been installed under emergency conditions on an island off the coast of Tunisia in 1560. It is believed that a garrison of 700 Spanish soldiers was besieged by
171-520: A 10%+ compound rate, doubling in abundance every seven years. There are now about 21,000 desalination plants in operation around the globe. The biggest ones are in the United Arab Emirates , Saudi Arabia , and Israel. The world's largest desalination plant is located in Saudi Arabia ( Ras Al-Khair Power and Desalination Plant ) with a capacity of 1,401,000 cubic meters per day. Desalination
228-490: A April 2024, researchers from the Australian National University published experimental results of a novel technique for desalination. This technique, thermodiffusive desalination, passes saline water through a channel with a temperature gradient. Species migrate under this temperature gradient in a process known a thermodiffusion. Researchers then separated the water into fractions. After multiple passes through
285-479: A buffer tank on a hill with seawater. The reverse osmosis process receives its pressurized seawater feed in non-sunlight hours by gravity, resulting in sustainable drinking water production without the need for fossil fuels, an electricity grid or batteries. Nano-tubes are also used for the same function (i.e., Reverse Osmosis). Forward osmosis uses a semi-permeable membrane to effect separation of water from dissolved solutes. The driving force for this separation
342-681: A decade of regional drought. By the late 1960s and the early 1970s, RO started to show promising results to replace traditional thermal desalination units. Research took place at state universities in California, at the Dow Chemical Company and DuPont . Many studies focus on ways to optimize desalination systems. The first commercial RO plant, the Coalinga desalination plant, was inaugurated in California in 1965 for brackish water . Dr. Sidney Loeb , in conjunction with staff at UCLA , designed
399-399: A factor of 10 from 20-30 kWh/m in 1970. This is similar to the energy consumption of other freshwater supplies transported over large distances, but much higher than local fresh water supplies that use 0.2 kWh/m or less. Still A still is an apparatus used to distill liquid mixtures by heating to selectively boil and then cooling to condense the vapor . A still uses
456-805: A fine wax vessel would hold potable water after being submerged long enough in seawater, having acted as a membrane to filter the salt. At the same time the desalination of seawater was recorded in China. Both the Classic of Mountains and Water Seas in the Period of the Warring States and the Theory of the Same Year in the Eastern Han Dynasty mentioned that people found that the bamboo mats used for steaming rice would form
513-627: A large pilot plant to gather data on RO, but was successful enough to provide freshwater to the residents of Coalinga. This was a milestone in desalination technology, as it proved the feasibility of RO and its advantages compared to existing technologies (efficiency, no phase change required, ambient temperature operation, scalability, and ease of standardization). A few years later, in 1975, the first sea water reverse osmosis desalination plant came into operation. As of 2000, more than 2000 plants were operated. The largest are in Saudi Arabia, Israel, and
570-434: A lower temperature, when the ambient atmospheric pressure is less than usual atmospheric pressure. Thus, because of the reduced pressure, low-temperature "waste" heat from electrical power generation or industrial processes can be employed. Water is evaporated and separated from sea water through multi-stage flash distillation , which is a series of flash evaporations . Each subsequent flash process uses energy released from
627-479: A multidisciplinary desalination methodology in the IBTS Greenhouse . The IBTS is an industrial desalination (power)plant on one side and a greenhouse operating with the natural water cycle (scaled down 1:10) on the other side. The various processes of evaporation and condensation are hosted in low-tech utilities, partly underground and the architectural shape of the building itself. This integrated biotectural system
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#1732844065200684-525: A planned electrical output of 880MW. It became first critical in 2015, electricity production was planned starting in 2017, but began in December 2015. The BN-1200 is a 1200MW reactor project planned to reach the safety and efficiency goals of the Generation IV . 56°50′30″N 61°19′21″E / 56.8416°N 61.3224°E / 56.8416; 61.3224 This nuclear technology article
741-418: A significant effect on efficiency and durability. A study found that a membrane created via co-axial electrospinning of PVDF - HFP and silica aerogel was able to filter 99.99% of salt after continuous 30-day usage. The leading process for desalination in terms of installed capacity and yearly growth is reverse osmosis (RO). The RO membrane processes use semipermeable membranes and applied pressure (on
798-544: A thin outer layer after long use. The as-formed thin film had adsorption and ion exchange functions, which could adsorb salt. Numerous examples of experimentation in desalination appeared throughout Antiquity and the Middle Ages , but desalination became feasible on a large scale only in the modern era. A good example of this experimentation comes from Leonardo da Vinci (Florence, 1452), who realized that distilled water could be made cheaply in large quantities by adapting
855-492: A vacuum. Under vacuum conditions the ice, desalinated, is melted and diverted for collection and the salt is collected. Electrodialysis uses electric potential to move the salts through pairs of charged membranes, which trap salt in alternating channels. Several variances of electrodialysis exist such as conventional electrodialysis , electrodialysis reversal . Electrodialysis can simultaneously remove salt and carbonic acid from seawater. Preliminary estimates suggest that
912-482: A vertical tube seawater distilling unit that, thanks to its simplicity of design and ease of construction, gained popularity for shipboard use. Land-based units did not significantly appear until the latter half of the nineteenth century. In the 1860s, the US Army purchased three Normandy evaporators, each rated at 7000 gallons/day and installed them on the islands of Key West and Dry Tortugas . Another land-based plant
969-512: Is CETO , a wave power technology that desalinates seawater using submerged buoys. Wave-powered desalination plants began operating on Garden Island in Western Australia in 2013 and in Perth in 2015. Membrane distillation uses a temperature difference across a membrane to evaporate vapor from a brine solution and condense pure water on the colder side. The design of the membrane can have
1026-403: Is distillation (i.e., boiling and re- condensation of seawater to leave salt and impurities behind). There are currently two technologies with a large majority of the world's desalination capacity: multi-stage flash distillation and reverse osmosis . Solar distillation mimics the natural water cycle, in which the sun heats sea water enough for evaporation to occur. After evaporation,
1083-454: Is a stub . You can help Misplaced Pages by expanding it . Desalination Desalination is a process that removes mineral components from saline water . More generally, desalination is the removal of salts and minerals from a substance. One example is soil desalination . This is important for agriculture. It is possible to desalinate saltwater, especially sea water , to produce water for human consumption or irrigation. The by-product of
1140-432: Is a critical problem worldwide. Desalination processes are using either thermal methods (in the case of distillation ) or membrane-based methods (e.g. in the case of reverse osmosis ). An estimate in 2018 found that "18,426 desalination plants are in operation in over 150 countries. They produce 87 million cubic meters of clean water each day and supply over 300 million people." The energy intensity has improved: It
1197-451: Is an artificial process by which saline water (generally sea water ) is converted to fresh water. The most common desalination processes are distillation and reverse osmosis . There are several methods. Each has advantages and disadvantages but all are useful. The methods can be divided into membrane-based (e.g., reverse osmosis ) and thermal-based (e.g., multistage flash distillation ) methods. The traditional process of desalination
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#17328440652001254-548: Is an osmotic pressure gradient, such as a "draw" solution of high concentration. Freeze–thaw desalination (or freezing desalination) uses freezing to remove fresh water from salt water. Salt water is sprayed during freezing conditions into a pad where an ice-pile builds up. When seasonal conditions warm, naturally desalinated melt water is recovered. This technique relies on extended periods of natural sub-freezing conditions. A different freeze–thaw method, not weather dependent and invented by Alexander Zarchin , freezes seawater in
1311-418: Is currently expensive compared to most alternative sources of water, and only a very small fraction of total human use is satisfied by desalination. It is usually only economically practical for high-valued uses (such as household and industrial uses) in arid areas. However, there is growth in desalination for agricultural use and highly populated areas such as Singapore or California. The most extensive use
1368-425: Is expected that costs will continue to decrease with technology improvements that include, but are not limited to, improved efficiency, reduction in plant footprint, improvements to plant operation and optimization, more effective feed pretreatment, and lower cost energy sources. Reverse osmosis uses a thin-film composite membrane, which comprises an ultra-thin, aromatic polyamide thin-film. This polyamide film gives
1425-422: Is improved by the chemical reaction between the copper in the still and the sulfur compounds created by the yeast during fermentation. These unwanted and flavor-changing sulfur compounds are chemically removed from the final product resulting in a smoother, better-tasting drink. All copper stills will require repairs about every eight years due to the precipitation of copper-sulfur compounds . The beverage industry
1482-498: Is in the Persian Gulf . While noting costs are falling, and generally positive about the technology for affluent areas in proximity to oceans, a 2005 study argued, "Desalinated water may be a solution for some water-stress regions, but not for places that are poor, deep in the interior of a continent, or at high elevation. Unfortunately, that includes some of the places with the biggest water problems.", and, "Indeed, one needs to lift
1539-407: Is more cost effective if kept at a small scale. Wave powered desalination systems generally convert mechanical wave motion directly to hydraulic power for reverse osmosis. Such systems aim to maximize efficiency and reduce costs by avoiding conversion to electricity, minimizing excess pressurization above the osmotic pressure, and innovating on hydraulic and wave power components. One such example
1596-493: Is most suitable for large scale desert greening as it has a km footprint for the water distillation and the same for landscape transformation in desert greening, respectively the regeneration of natural fresh water cycles. In vacuum distillation atmospheric pressure is reduced, thus lowering the temperature required to evaporate the water. Liquids boil when the vapor pressure equals the ambient pressure and vapor pressure increases with temperature. Effectively, liquids boil at
1653-400: Is now about 3 kWh/m (in 2018), down by a factor of 10 from 20–30 kWh/m in 1970. Nevertheless, desalination represented about 25% of the energy consumed by the water sector in 2016. Ancient Greek philosopher Aristotle observed in his work Meteorology that "salt water, when it turns into vapour, becomes sweet and the vapour does not form salt water again when it condenses", and that
1710-449: Is the most thermodynamically efficient among methods powered by heat, a few limitations exist such as a max temperature and max number of effects. Vapor-compression evaporation involves using either a mechanical compressor or a jet stream to compress the vapor present above the liquid. The compressed vapor is then used to provide the heat needed for the evaporation of the rest of the sea water. Since this system only requires power, it
1767-656: The South Seas , reported that he had been able to supply his men with fresh water by means of shipboard distillation. Additionally, during the early 1600s, several prominent figures of the era such as Francis Bacon and Walter Raleigh published reports on desalination. These reports and others, set the climate for the first patent dispute concerning desalination apparatus. The two first patents regarding water desalination were approved in 1675 and 1683 (patents No. 184 and No. 226, published by William Walcot and Robert Fitzgerald (and others), respectively). Nevertheless, neither of
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1824-457: The 1500s, and formulated practical advice that was publicized to all U.S. ships on the reverse side of sailing clearance permits. Beginning about 1800, things started changing as a consequence of the appearance of the steam engine and the so-called age of steam . Knowledge of the thermodynamics of steam processes and the need for a pure water source for its use in boilers generated a positive effect regarding distilling systems. Additionally,
1881-476: The RO membranes are destroyed. To mitigate damage, various pretreatment stages are introduced. Anti-scaling inhibitors include acids and other agents such as the organic polymers polyacrylamide and polymaleic acid , phosphonates and polyphosphates . Inhibitors for fouling are biocides (as oxidants against bacteria and viruses), such as chlorine, ozone, sodium or calcium hypochlorite. At regular intervals, depending on
1938-537: The Turkish army and that, during the siege, the captain in charge fabricated a still capable of producing 40 barrels of fresh water per day, though details of the device have not been reported. Before the Industrial Revolution , desalination was primarily of concern to oceangoing ships, which otherwise needed to keep on board supplies of fresh water. Sir Richard Hawkins (1562–1622), who made extensive travels in
1995-645: The UAE; and the biggest plant with a volume of 1,401,000 m3/d is in Saudi Arabia (Ras Al Khair). As of 2021 22,000 plants were in operation In 2024 the Catalan government installed a floating offshore plant near the port of Barcelona and purchased 12 mobile desalination units for the northern region of the Costa Brava to combat the severe drought. In 2012, cost averaged $ 0.75 per cubic meter. By 2022, that had declined (before inflation) to $ 0.41. Desalinated supplies are growing at
2052-414: The channel, the researchers were able to achieve NaCL concentration drop of 25000 ppm with a recovery rate of 10% of the original water volume. The desalination process's energy consumption depends on the water's salinity. Brackish water desalination requires less energy than seawater desalination. The energy intensity of seawater desalination has improved: It is now about 3 kWh/m (in 2018), down by
2109-722: The column, the effective number of distillations greatly increases. Vodka and gin and other neutral grain spirits are distilled by this method, then diluted to concentrations appropriate for human consumption. Alcoholic products from home distilleries are common throughout the world but are sometimes in violation of local statutes. The product of illegal stills in the United States is commonly referred to as moonshine and in Ireland , poitín . However, poitín, although made illegal in 1661, has been legal for export in Ireland since 1997. Note that
2166-421: The condensation of the water vapor from the previous step. Multiple-effect distillation (MED) works through a series of steps called "effects". Incoming water is sprayed onto pipes which are then heated to generate steam. The steam is then used to heat the next batch of incoming sea water. To increase efficiency, the steam used to heat the sea water can be taken from nearby power plants. Although this method
2223-673: The construction of over 200 electrodialysis and distillation plants globally, reverse osmosis (RO) research, and international cooperation (for example, the First International Water Desalination Symposium and Exposition in 1965). The Office of Saline Water merged into the Office of Water Resources Research in 1974. The first industrial desalination plant in the United States opened in Freeport, Texas in 1961 after
2280-444: The cost of such carbon removal can be paid for in large part if not entirely from the sale of the desalinated water produced as a byproduct. Microbial desalination cells are biological electrochemical systems that implements the use of electro-active bacteria to power desalination of water in situ , resourcing the natural anode and cathode gradient of the electro-active bacteria and thus creating an internal supercapacitor . In
2337-558: The desalination process is brine . Many seagoing ships and submarines use desalination. Modern interest in desalination mostly focuses on cost-effective provision of fresh water for human use. Along with recycled wastewater , it is one of the few water resources independent of rainfall. Due to its energy consumption, desalinating sea water is generally more costly than fresh water from surface water or groundwater , water recycling and water conservation ; however, these alternatives are not always available and depletion of reserves
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2394-480: The distillation is used solely to harvest botanical flavors such as limonene and other terpene like compounds. The ethyl alcohol is relatively unchanged. The simplest standard distillation apparatus is commonly known as a pot still , consisting of a single heated chamber and a vessel to collect purified alcohol. A pot still incorporates only one condensation , whereas other types of distillation equipment have multiple stages which result in higher purification of
2451-507: The membrane contamination; fluctuating seawater conditions; or when prompted by monitoring processes, the membranes need to be cleaned, known as emergency or shock-flushing. Flushing is done with inhibitors in a fresh water solution and the system must go offline. This procedure is environmentally risky, since contaminated water is diverted into the ocean without treatment. Sensitive marine habitats can be irreversibly damaged. Off-grid solar-powered desalination units use solar energy to fill
2508-438: The membrane feed side) to preferentially induce water permeation through the membrane while rejecting salts. Reverse osmosis plant membrane systems typically use less energy than thermal desalination processes. Energy cost in desalination processes varies considerably depending on water salinity, plant size and process type. At present the cost of seawater desalination, for example, is higher than traditional water sources, but it
2565-674: The membrane its transport properties, whereas the remainder of the thin-film composite membrane provides mechanical support. The polyamide film is a dense, void-free polymer with a high surface area, allowing for its high water permeability. A recent study has found that the water permeability is primarily governed by the internal nanoscale mass distribution of the polyamide active layer. The reverse osmosis process requires maintenance. Various factors interfere with efficiency: ionic contamination (calcium, magnesium etc.); dissolved organic carbon (DOC); bacteria; viruses; colloids and insoluble particulates; biofouling and scaling . In extreme cases,
2622-489: The mixture. Historically, a copper vessel was used for this purpose, since copper removes undesirable sulfur -based compounds from the alcohol. However, many modern stills are made of stainless steel pipes with copper linings to prevent erosion of the entire vessel and lower copper levels in the waste product (which in large distilleries is processed to become animal feed). Copper is the preferred material for stills because it yields an overall better-tasting spirit. The taste
2679-449: The more volatile component (alcohol). Pot still distillation gives an incomplete separation , but this can be desirable for the flavor of some distilled beverages . If a purer distillate is desired, a reflux still is the most common solution. Reflux stills incorporate a fractionating column , commonly created by filling copper vessels with glass beads to maximize available surface area . As alcohol boils, condenses, and reboils through
2736-450: The same concepts as a basic distillation apparatus , but on a much larger scale. Stills have been used to produce perfume and medicine , water for injection (WFI) for pharmaceutical use, generally to separate and purify different chemicals, and to produce distilled beverages containing ethanol . Since ethanol boils at a much lower temperature than water , simple distillation can separate ethanol from water by applying heat to
2793-407: The sea and somewhat high, such as Riyadh and Harare . By contrast in other locations transport costs are much less, such as Beijing, Bangkok , Zaragoza , Phoenix , and, of course, coastal cities like Tripoli . After desalination at Jubail , Saudi Arabia, water is pumped 320 km inland to Riyadh . For coastal cities, desalination is increasingly viewed as a competitive choice. In 2023, Israel
2850-417: The spread of European colonialism induced a need for freshwater in remote parts of the world, thus creating the appropriate climate for water desalination. In parallel with the development and improvement of systems using steam ( multiple-effect evaporators ), these type of devices quickly demonstrated their desalination potential. In 1852, Alphonse René le Mire de Normandy was issued a British patent for
2907-440: The two inventions entered service as a consequence of scale-up difficulties. No significant improvements to the basic seawater distillation process were made during the 150 years from the mid-1600s until 1800. When the frigate Protector was sold to Denmark in the 1780s (as the ship Hussaren ) its still was studied and recorded in great detail. In the United States, Thomas Jefferson catalogued heat-based methods going back to
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#17328440652002964-428: The water by 2000 m, or transport it over more than 1600 km to get transport costs equal to the desalination costs." Thus, it may be more economical to transport fresh water from somewhere else than to desalinate it. In places far from the sea, like New Delhi, or in high places, like Mexico City , transport costs could match desalination costs. Desalinated water is also expensive in places that are both somewhat far from
3021-425: The water vapor is condensed onto a cool surface. There are two types of solar desalination. The first type uses photovoltaic cells to convert solar energy to electrical energy to power desalination. The second type converts solar energy to heat, and is known as solar thermal powered desalination. Water can evaporate through several other physical effects besides solar irradiation . These effects have been included in
3078-610: Was created in the United States Department of the Interior in 1955 in accordance with the Saline Water Conversion Act of 1952. This act was motivated by a water shortage in California and inland western United States. The Department of the Interior allocated resources including research grants, expert personnel, patent data, and land for experiments to further advancements. The results of these efforts included
3135-585: Was installed at Suakin during the 1880s that provided freshwater to the British troops there. It consisted of six-effect distillers with a capacity of 350 tons/day. After World War II, many technologies were developed or improved such as Multi Effect Flash desalination (MEF) and Multi Stage Flash desalination (MSF). Another notable technology is freeze-thaw desalination. Freeze-thaw desalination, (cryo-desalination or FD), excludes dissolved minerals from saline water through crystallization. The Office of Saline Water
3192-424: Was the first to implement a modern distillation apparatus and led the way in developing equipment standards which are now widely accepted in the chemical industry. There is also an increasing usage of the distillation of gin under glass and PTFE , and even at reduced pressures, to facilitate a fresher product. This is irrelevant to alcohol quality because the process starts with triple distilled grain alcohol, and
3249-505: Was using desalination to replenish the Sea of Galilee 's water supply. Not everyone is convinced that desalination is or will be economically viable or environmentally sustainable for the foreseeable future. Debbie Cook wrote in 2011 that desalination plants can be energy intensive and costly. Therefore, water-stressed regions might do better to focus on conservation or other water supply solutions than invest in desalination plants. Desalination
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