Water scarctiy is something that far too many coutries face. Everyday countries in Africa, the Middle East, India, and China face the detrimental challenges of not having enough water to provide to their population. Over the years there have been many propositions as to how we can help resolve this issue and restore countries access to clean water. However one process has remained. This is known as Water Desalination. Water Desalination is a process that was introduced many years ago to continents and countries located near the equator such as Africa, Asia, the Middle East, India, and China which are located on or near the solar belt. It has proven to help bring a substantial amount of clean water to these countries and to overall help deplinish …show more content…
“Forward Osmosis (FO) can help to reduce the costs of desalination…,” while also “achieving the indirect desalination of seawater at reduced energy and costs.” (Quintanilla, Li, Valladares, Li, Amy, 160) One of the major issues that was being faced during the Water Desalination process was the amount of energy that was being used to run each and every desalination plant. Forward Osmosis uses only fifty percent of the energy used by higher pressure desalination processes. (Quintanilla, Li, Valladares, Li, Amy, 160) This overall uses far less energy which therfore uses far less money to run the desalination plants. Something that is very differnet in Forward Osmosis than in other ideas that were proposed to help reduce the cost and the amount of energy used in the plants was how the water was being used. In the process of Forward Osmosis, secondary water is used. In simpler terms, Forward Omsosis uses “wastewater” as a feed water and water from the Red Sea to draw a solution of a more pure and clean form of water. (Quintanilla, Li, Valladares, Li, Amy, 160) This process of reusing water and filtering so to speak demonstrates that the technology being used in Forward Osmosis is very trustworthy and promising. The key …show more content…
Although water desalination was introduced and has helped many countries in aleviating their scarce water supply, the process itself is steadily decreasing in use due to the extreme cost it takes to run each and every desalination plant in these countries. The technology, machinery, and fossil fuels being used are far to expensive to continue using desalination as a method of providing water to countries in need. For this reason it is necessary that solar energy and forward osmosis be introduced into the desalination plants for the simple reason of being able to save countries fossil fuels and money. With these two new sources of energy being implemented into the plants, the water that is filtrated through the desalination process will be more efficiently spread throughout countries that are located all throughout the solar
However, due to the long lasting drought in California we should heavily consider this method of producing clean water. In other parts of the world such as China, India, Australia, Spain and more they have been able to produce nearly fourteen billion gallons of drinking water through this process. The largest desalination plant in the world is located in Saudi Arabia and produces two hundred and seventy three million gallons of drinking water per day. If the United States is able to perfect this, it could fix the situation. Amanda Little does an excellent job of sharing a wide array of perspectives of desalination in her article “Can Desalination Counter The Drought”. For instance she describes the discusses the standpoint of the executive director of the California Coast keeper Alliance, Sara Aminzadeh, as she argues, “It’s just not a good option from a cost and energy standpoint.” She goes on to say, “Desalination may seem like a panacea, but it’s the worst deal out there.” Although this method may not be cost or energy efficient, this may be the only plausible method of producing clean water. As seen in Saudi Arabia this is an efficient form of creating clean water and due to the lack of resources, this may be California’s last
The issue of building desalination plants has been a hot topic of Californians in the past couple decades because researchers knew that our available surface and groundwater supplies are becoming scarce. This problem is important because California is home to a large population of people as well as extensive agricultural and industrial productions that need vast amounts of water. With the reduction in available ground and fresh water brings other problems that need to be addressed. Many farmers are having to impose stricter management policies in regards to how they use the water the pay so much for. Crops sensitive to the amount of water they receive or do not receive can be destroyed in a short amount of time if neglected of water. With the amount of fresh water accumulated by both snow melt of California’s mountains as well as ground water retrieved from wells and pumps being depleted faster than we can recharge those sources, farmers face further impacts. An article by Robert Glennon, “Unquenchable: Americas water crisis and what to do about it” says “In the summer of 2009, California is facing mandatory water rationing. Many farmers may be entirely cut off, costing the economy more than $1 billion and putting more
Desalination is basically the procedure of separating excess sodium chloride, minerals and impurities from sea and ocean water to make it usable for irrigation and human consumption. It has been touted to rid the world of its current water problems for nearly 5 decades now, during this period huge strides have been made in the desalination technology. These advances have made it possible to venture into desalination as the long term option to the water problem in many parts of the world. It is seen as long term since the ocean is not going anywhere anytime soon as compared to lakes and rivers that have been going dry seasonally. The state of California is not new to the water shortage problem; as stated above tit has been a witness to previous droughts. It is therefore time to consider a long term solution to this problem.
With the water crisis being seen around the world, even right here in the United States, we need to explore other options to supply fresh water to the residents. One State, in particular, that raises concern is the state of California. An alternative method to supply water to residents could be the process of desalination. Desalination is when fresh water is made by using either seawater or brackish and eliminating the minerals and salts as a way to make the water safe for human and agriculture uses ( Kesieme et al., 2013). In recent years, we have seen an increase the in the number of desalination plants around the United States (fig 1). However, is the process of desalination the answer for the water crisis going on in California? As a
If residents and corporations throughout the United States continue to frivolously waste water and refuse to make painless changes and upgrades around their homes, it will continue to increase in cost to people across the United States. For example, as a result of the water shortage crisis currently afflicting the southwestern United States, the city of San Diego, California, is currently constructing a desalination plant, located in Carlsbad, California. The idea of a desalination plant is to collect undrinkable saltwater from the ocean and, using reverse osmosis and other filtering techniques, remove the salt to produce clean, potable water (Barnett). However, there are many downsides to relying on desalination practices to provide for a city the size of San Diego. First and foremost, it is considerably more expensive to produce clean drinking water from saltwater as opposed to using regular surface water or groundwater. The act of filtering the water alone can be twice as expensive as traditional filtration methods. In addition, desalination plants consume much more energy than traditional treatment plants, mostly due to the fact that the filtration methods are much more involved. Desalination consumes twice as much power as recycled plants, and four times as much as pumping groundwater (Newell, Roohk and Reardon). For example, the Carlsbad plant alone will require the same amount of electricity as is used to power 125,000 homes in California. However, the biggest
Today, desalination is a common process that's used in seaside cities and towns worldwide. There are more than 15,000 desalination plants around the world providing freshwater from salt and brackish water alike (Planet Green 2011). This number continues to grow as researchers work to improve the process, both in terms of cost effectiveness and energy efficiency (DSE 2011). But countries such as Australia, Israel and even the United States are continually adding desalination plants of various sorts into their water-management portfolios. The facilities are common in North Africa and the Mideast, where freshwater is scarce (Chandler 2008).
A desalination plant is a possible alternative to California’s need of consumable water. There is a course cons against desalination mainly affecting the marine environment for leaving highly concentrated saline water behind through the process but we should not fear it as it is a long term solution we cannot toss aside. Kerry Cavanaugh from Los Angeles Times mentions, “2,000 an acre foot, compared to about $1,000 an acre foot for imported water” (par. 3). This means that production of water through this process is cost efficient and seems rather illogical to spend more money into producing water; instead of importing it from another major source. The process cost is not a major step forward, but the idea of reaching out to import water is rather absurd. California is an arid state; we are the ones responsible for turning it into a paradise. In order to maintain it that way a method to lower the cost of desalination can be propose as solution. The thought
-Article 1- Ghaffour, N., M. Missimer, T., & L. Amy, G. (2013). Desalination (Technical review and evaluation of the economics of water desalination: Current and future challenges for better water supply sustainability) (Vol. 309, pp. 197-207). Thuwal.
The advantages of desalination represents an opportunity to use oceanic water resources. If the appropriate conditions are present, a desalination plant could potentially be used to replace an existing or future dam. As existing sources of useable water run dry, desalination is a very effective, alternative source of water. On top of that the distillation process produces one of the highest quality water, with a range of 1 to 50 ppm tds, tds is also known as total dissolved solids. With the recommended California standard being 500 ppm, this quality of water is far beyond any other water quality seen before.
Desalination is one of the more popular options being considered to attempt to terminate the drought. Desalination is a process through which salt water is pumped from the ocean in to a treatment facility, and then the salt is extracted to make it possible to be used domestically. This is a long drawn out process, which involves seven different steps. The steps of desalination include the
Ocean water desalination is the process of making ocean water drinkable. Seventy-one percent of the world is covered in ocean water, and a significant number of people in the world live within thirty miles of an ocean. Despite the abundance of resources, a large portion of the energy and materials found in the ocean remains largely untouched. Desalination of ocean water is the only solution for countries with a limited availability of existing sources of drinking. Areas such as parts of the Middle East and Africa, where water is scarce, may use outside shipments of fresh water and techniques to purify the abundant ocean water in order to survive. Some areas in South America where water may be abundant, could be unsafe to drink due to the biological
1. There are two main sources of fresh drinking water, ground water and surface water. Ground water originates from precipitations that usually fall in the form of snow or rain. While, the surface water is also originates from precipitate that reaches the land surface and is then recharged into rivers, wetlands and lakes. Although these systems are usually reliable, in desperate time of need, a more reliable source of water is needed. The desalination plant is extremely valuable and flexible because it does not depend on rainfall. Instead, the desalination plant is the only source that relies on seawater. Using seawater in the desalination plant helps meet the community’s water needs and secures the water needs in the future. While other sources of water, such as rainwater or water from dames are not reliable enough to strictly rely
Desalination allows the removal of all impurities from water, through the use of chemical engineering, at a reasonable cost that is affordable to low-income areas (Lopez-Gunn and Llamas). Desalination being used in Flint could help prevent the abundance of lead in the water and allow the Flint River to still be used for the source of water. Instead of spending $12 million to reconnect to Lake Huron, this type of water system could save the city money and end this crisis (Robenznieks). Another way desalination can help is in Africa. Earlier it is mentioned that students created their own filtering system to help communities in Africa. This connected the students with the people in the villages along with the country through this change that was being made because of the water. However, with this new desalination system, instead of allowing a filtering system, it allows for a public water supply in African communities. Currently, global desalination is taking place in North America (16%), Europe (13%), Asia (11%), Africa (5%), as well as several other countries (Lopez-Gunn and Llamas). Lopez-Gunn and Llamas go on to explain how even though the number of this type of system isn’t very high in some areas, the breakthroughs in recent technology allows it to be more affordable and become an option being considered. No matter where in the world the water issue is, it can be fixed by
It begins sea water to enter the sea water intakes through the refineries so as to prevent impurities from entering the sea water pumps, which in turn pumped seawater evaporators. After that, sea water mix with sodium hypochlorite when sea water intakes before entering the evaporator in order to process biological material sticking out. This solution (sol) is treated in tanks and then is injected through the pumps in specific amount on demand. There are electric power plates next to the sea water intakes for distribute electricity power that feed pumps and other electrically equipment’s, as there is also a measurement required for this equipment and control devices. The seawater moves
Much of the population has agreed that society might be forced to resort to this in the future; however, this project should truly be initiated now. Recently, a desalination plant was opened in San Diego for about $1 billion (Rogers). With the current technology being used, this plant and others like it will simply not produce enough water to make it worth the cost. However, scientific advancement may someday make desalinization more efficient and reasonably priced, allowing it to pose as a feasible solution to the water supply