Mitra NikpayAug 31, 20232 min readRevolutionizing Desalination: A Transformative Path Forward Amidst Microplastics Contamination In the area of solutions for water scarcity, the evolution of desalination, also known as de-sal, has been both promising and progressive. For decades, the concept of converting vast oceans of salt water into fresh water has had the potential to quench the world's thirst. Yet progress has encountered obstacles along the way.🌎 A convergence of factors is driving the construction of new desalination plants. Exploding populations in regions with water shortages, such as China, India, South Africa and parts of the United States (especially Arizona and California), have increased the demand for viable water resources. In addition, shifts in climate patterns, possibly driven by a changing climate, have led to droughts even in regions that not so long ago considered their water supplies ample.🚰 Globally, more than 300 million people now get their water from desalination plants, from the U.S. Southwest to China. The first large-scale de-sal plants were built in the 1960s, and there are now some 20,000 facilities globally that turn seawater into fresh. The kingdom of Saudi Arabia, with very little fresh water and cheap energy costs for the fossil fuels it uses in its de-sal plants, produces the most fresh water of any nation, a fifth of the world’s total.💧 Microplastics contamination is an issue that pervades modern water systems, posing substantial risks. With an unwavering commitment to overcoming these challenges, SATOORNIK has developed cutting-edge microplastic separation technology. This innovation not only enhances the desalination process by addressing energy consumption and environmental repercussions but also effectively mitigates microplastics contamination.The heart of SATOORNIK's approach lies in safeguarding the integrity of desalination processes against microplastics contamination. Unlike conventional methods, our technology actively combats the fouling of Reverse Osmosis (RO) systems and prevents microplastics from infiltrating the final customer product. By focusing on source-level solutions, we address the issue where it originates, ensuring that desalination not only provides clean water but also safeguards marine ecosystems and human health.🌊 As global water scarcity intensifies, SATOORNIK stands resolute in its mission to pioneer innovative solutions that redefine the desalination landscape. Our technology not only transforms the desalination process but also champions sustainability by mitigating the multifaceted challenges posed by microplastics pollution.Ref: 1) https://lnkd.in/eZHqZwmG2) https://lnkd.in/e35GpWnQ3) Graph From: https://lnkd.in/e7phPA83#waterconservation#reverseosmosis#SATOORNIK
In the area of solutions for water scarcity, the evolution of desalination, also known as de-sal, has been both promising and progressive. For decades, the concept of converting vast oceans of salt water into fresh water has had the potential to quench the world's thirst. Yet progress has encountered obstacles along the way.🌎 A convergence of factors is driving the construction of new desalination plants. Exploding populations in regions with water shortages, such as China, India, South Africa and parts of the United States (especially Arizona and California), have increased the demand for viable water resources. In addition, shifts in climate patterns, possibly driven by a changing climate, have led to droughts even in regions that not so long ago considered their water supplies ample.🚰 Globally, more than 300 million people now get their water from desalination plants, from the U.S. Southwest to China. The first large-scale de-sal plants were built in the 1960s, and there are now some 20,000 facilities globally that turn seawater into fresh. The kingdom of Saudi Arabia, with very little fresh water and cheap energy costs for the fossil fuels it uses in its de-sal plants, produces the most fresh water of any nation, a fifth of the world’s total.💧 Microplastics contamination is an issue that pervades modern water systems, posing substantial risks. With an unwavering commitment to overcoming these challenges, SATOORNIK has developed cutting-edge microplastic separation technology. This innovation not only enhances the desalination process by addressing energy consumption and environmental repercussions but also effectively mitigates microplastics contamination.The heart of SATOORNIK's approach lies in safeguarding the integrity of desalination processes against microplastics contamination. Unlike conventional methods, our technology actively combats the fouling of Reverse Osmosis (RO) systems and prevents microplastics from infiltrating the final customer product. By focusing on source-level solutions, we address the issue where it originates, ensuring that desalination not only provides clean water but also safeguards marine ecosystems and human health.🌊 As global water scarcity intensifies, SATOORNIK stands resolute in its mission to pioneer innovative solutions that redefine the desalination landscape. Our technology not only transforms the desalination process but also champions sustainability by mitigating the multifaceted challenges posed by microplastics pollution.Ref: 1) https://lnkd.in/eZHqZwmG2) https://lnkd.in/e35GpWnQ3) Graph From: https://lnkd.in/e7phPA83#waterconservation#reverseosmosis#SATOORNIK
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