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By Mr. By Ms. By Dr. Nikolay Voutchkov and Dr. Noura Chehab. With this beautiful season ushering in a renewed spirit and hopes of growth, I am delighted to extend my warmest greetings to you all. This prestigious event will gather thought leaders, innovators, and experts from around the globe to share insights and advancements in our mission to address water scarcity. It promises to be a unique platform for profound knowledge-sharing and impactful interaction. As individuals, communities, industries, and governments, each of us holds a crucial role in revolutionizing desalination and water reuse to offset global water scarcity and preserve our natural water resources. The global water narrative is focused on resilient water management strategies, not only to ensure sufficient supply but also enhancing the quality and sustainability of our water resources. Through concerted efforts in water reuse, desalination, and conservation, we are making strides towards creating a balance where our water consumption and replenishment are in harmony. I wholeheartedly believe that together, we can fashion a future where access to water is not a luxury for some, but a fundamental human right for all. With these spotlights, our goal is to inspire industries and utilities to adopt best practices for environmental stewardship and energy efficiency in all desalination and water reuse projects. In our quest for comprehensive sustainability, we strive to harmonize activities with local water resources, emphasizing the immense value of freshwater resources and the critical importance of water and environmental stewardship. Innovation remains the cornerstone of our endeavours. From reducing energy consumption, unlocking the potential of blue brine for resource recovery, to minimizing environmental impacts, today's advancements are transforming desalination from a last-resort option to a viable and welcomed solution for many. Similarly, breakthroughs in water reuse technologies are enabling us to reclaim and recycle water with unprecedented efficiency, further alleviating the pressure on our freshwater sources. The importance of innovation extends beyond technology. It encompasses the development of new policies, business models, and collaborative frameworks that promote sustainable water management. At the same time, collaborative platforms and partnerships are fostering the exchange of knowledge and best practices, driving collective action towards common goals. As we prepare for it, I encourage all members to actively participate, share their knowledge, and embrace the spirit of collaboration. This event is not only a showcase of our achievements but also a catalyst for forging new partnerships and fostering the collaborative spirit needed to tackle the complex water challenges ahead. I would like to take this opportunity to thank the authors who have contributed their insights into this edition of the Global Connections:. Let us draw inspiration from these stories and continue to push the boundaries of what is possible. To put the scale of this edition into context, if all the individuals reading this come together and collaborate, we have the potential to create a profound impact on a global scale for a cause that touches every aspect of our lives: accessibility to clean water. By pooling our collective knowledge, resources, and innovative ideas, we can drive forward sustainable solutions that ensure reliable and equitable access to clean water for all. Together, we can transform our water systems to be more resilient, efficient, and sustainable, making a lasting difference in the lives of millions and safeguarding this vital resource for future generations. With spring ushering in a renewed spirit and hopes of growth, I am delighted to extend my warmest greetings to you all. This edition of our quarterly magazine arrives at a time of great anticipation as we look forward to the upcoming IDRA World Congress in Abu Dhabi, proudly hosted by the Abu Dhabi Department of Energy and endorsed by key government stakeholders. The Congress will continue to explore the intersection of climate change, water positivity, and technological innovation. As we face the growing impacts of climate change, our commitment to developing sustainable solutions becomes ever more crucial. Rising temperatures, shifting weather patterns, and the increased frequency of extreme weather events underscore the urgent need for adaptive and resilient water management strategies. Achieving a water-positive future means not only ensuring sufficient supply but also enhancing the quality and sustainability of our water resources. Innovation remains the cornerstone of our endeavors. As we prepare for the IDRA World Congress, I encourage all members to actively participate, share their knowledge, and embrace the spirit of collaboration. This event is not only a forum for showcasing our achievements but also a crucible for forging new partnerships and exploring innovative ideas that will shape the future of our industry. Thank you for your unwavering dedication and passion for our mission. Your contributions are the bedrock of our success, and I look forward to seeing the remarkable outcomes of our continued collaboration. IDRA and AWS will conduct joint educational activities, such as webinars and developing joint training modules, to help their respective communities understand the intersection of desalination, reuse, and stewardship. Their ongoing cooperation will include knowledge sharing and exploring co-convening events to promote increased water security. The International Desalination and Reuse Association IDRA is dedicated to advancing desalination and water reuse technologies to offset global water scarcity. Through education, advocacy, and collaboration, IDRA supports the development of sustainable water solutions. For those responsible for providing or procuring water supplies, however, brine, the high salt concentration solution left from desalination, has become the limiting factor to growth. As the need to desalinate more brackish and ocean water has grown acute, governments, commercial, industrial, and agricultural water users face a crucial question: what can we do with these enormous quantities of brine? For decades, the desalination industry has recognized the potential to turn brine to value. Doing so represents not only a commercial opportunity for the industry, but an answer to sustainable use of brackish and ocean water. These chemical byproducts can include converting salt to hydrochloric acid, caustic soda, an array of chlorine derivatives, gypsum, magnesium sulphate fertilizer, magnesium hydroxide and in some cases, depending on the constituents of the brine, rare earth elements such as lithium. The brine problem is foundational to multiple stakeholders underpinning basic water supply, farming, commercial development, and environmental outcomes. Discharge of brine impacts license to operate and cost of operations for all facilities that produce brine. Seawater desalination facilities generally use a brine line to discharge concentrate into the ocean. That brine discharge is often a major factor in environmental reviews and permit considerations given the damage that can be done to reefs as well as other damage to coastal regions. Inland brine production can be even more challenging. A survey commissioned by the. As a result, brine management has been at the forefront of innovation and industry strategy for decades. Yet, the ambition of the industry to achieve near zero-liquid discharge, and to recover value from brine, represent the rare exception rather than the norm. Advanced brine recovery now presents a compelling opportunity for commercial value, aligning business interests with environment. Separation of minerals can yield valuable recovery depending on the constituent minerals in the brine, from magnesium to lithium and more. Finally, the underlying salt can serve as the basis for staple chemical production, enabling local and sustainable generation of necessary staple chemicals such as caustic soda. The limiting factor has been brine management. The facility has historically transported brine through over 20 miles of pipeline, before permitted underground discharge. That discharge capacity is, however, limited. The value proposition of the facility stems from addressing discharge limitations on brine while simultaneously also providing an incremental source of fresh water. By accepting brine and turning that brine to value, the facility is designed to enable the inland desalination facility to operate additional capacity, providing billions of gallons of additional freshwater to the community. Regional production from a brine waste feedstock avoids transportation costs and environmental footprint. Blue Brine has further designed the capability to sequester carbon from the process. Each facility has the opportunity to serve as a beacon for key stakeholders to brine management. In addition, demonstration of at-scale mineral. The scaled production of green chemicals offers the potential for creating an entirely new industrial base. As with any major undertaking, alignment of interests and support of key industry players are key ingredients for success. In the s, during a race to commercially launch constellations of satellites, one prominent space technology company experienced a launch failure. The success-rate of commercial space launches has since improved dramatically, as industry participants pushed through challenges, improved, and began to reliably deliver. Contributions from local government and utility. In addition, Mr. Sylvia serves as a board director of Grupo Rotoplas de C. Previously, Mr. We explore this enlightening example to address the water crisis through proper and timely action. Michael Lesniak's journey in the water sector spans nearly four decades, characterized by a relentless pursuit of innovation and environmental stewardship. His career commenced as a college intern at the Pennsylvania Department of Environmental Resources, moving afterwards to Nalco in Chicago, at the time a small company problems. His tenure at Nalco witnessed his ascent to executive roles and international work, especially after the merger with Ecolab, a deal which in he played a key role and was and service teams all over the world. Can you comment on what it will mean for the economy of Taiwan, and the global semiconductor industry? Taiwan is a relatively small island nation that punches way above its weight when it comes to making semiconductors. When I think foundry, who customers early my of some of think I would melt steel, bronze, or some other metal. The foundry did not develop the. The high cost shops went bankrupt If a shop decided to compete with their customers, it would usually not end well for the shop. Taiwan got really good at making silicon chips and using the patterns of their customers; they call these silicon foundries. They never competed with their customers, so they attracted all the semiconductor designers who were making useful end products, and they grew very strong. The foundry model won out, and Taiwan enjoys a very high global market share of semiconductors today. Taiwanese people have invested two generations in semiconductor manufacturing and there is tremendous national pride; they broke away from mainland China rule in and semiconductor manufacturing has provided a good life for them. One of the challenges of making silicon chips is that it consumes a lot of water and generates a lot of wastewater Further complicating things, the newer smaller chips are much more complicated, with many more steps that use much more water, and produce much more waste. Additionally, Taiwan is feeling the impact of acute climate change on their limited water supplies. The monsoon rains do not come like. The public and government realize they must invest more in water infrastructure if they want to continue to dominate their global microelectronic competitors and be independent and not be controlled by China. They need more water supplies to achieve this, and they must reuse and recycle their water as a matter of survival. Water is a life and death resource; it is very important. They announced they are building more fabs across the country, and smaller chips, and so they need more water Taiwan wants to survive and remain free, and thus this investment means everything to them. They have partnered closely with TSMC their homegrown global leader in manufacturing semiconductors and many other industries strategically connected to the semiconductor supply chain and located in their major industrial parks. They are not proposing anything new or innovative there, everything is tried and proven technology, and they are executing with precision and speed to drive low cost, something they are very good at. Since the investment is being made by the government, the enabling conditions are transfers of gross domestic product revenue; second, the ruling party and leadership must have the will and public support to spend the money on water infrastructure; and lastly, the country leadership must be willing to follow the science of water to ensure quantity, quality, and access within each individual local water basin. Taiwan leaders have the skill and will, in addition to the money, public and private support from their industrial stakeholders, and the right science. The semiconductor manufacturers obviously support the plan because they cannot survive without it. The future and independence of all countries are underpinned by water Without water, there is no economic future, no independence, no. Many countries have other problems like war, famine, monetary disruption, corruption, and inequality which get in the way of them making good water decisions. Water infrastructure is typically a very large long-term CAPEX investment, and may take years to complete. The role of leadership is to foresee problems and address them before they become big problems. Leaders can learn that water solutions today require a robust set. The plan. The ambition is to achieve positive water impact in global water-stressed basins that support over 3 billion people and to enable equitable and resilient water access and hygiene for over million people by Four main approaches are being used to achieve the ambition and they include scaling proven solutions, advancing impact. There are now about 45 CEOs that have made the pledge to achieve Net Positive Water Impact in water-stressed basins and agreed to develop, implement, and enable strategies for water-resilient value chains to raise the global ambition on water The CEOs are working collectively to scale their resources and achieve. Businesses have human, physical, and economic resources that can be catalytic and complimentary to help governments succeed if, where, and when they need help solving problems. Most citizens expect their government to provide the proper water quantity, quality, and access for their needs. We know that is not happening perfectly everywhere, especially as weather and climate disrupt plans that may citizens. The main wins so far are collective actions that c ompound indi v idual pri v at e se c t o r c ont r ibution s in basins through government support and ministerial participation, multi-sectorial collaboration and allocation of funds to support the implementation of improvement actions. The WRC has also established collective funding mechanisms that act as a channel towards scalability and sustainability. The funds have helped channel investments in numerous areas from natural conservation or restoration to water access, sanitation, and hygiene while strengthening water governance by bringing together relevant. Other key wins have been the removal of departmental barriers and to promote coordination across sectors — such as and NGO actors. Do you think businesses give enough emphasis to water-related risks? What trends do you see in corporate water sustainability? Large public businesses that have an obvious dependency on water do a very good job of managing their water related risks. These types of companies have been working on water risks. They essentially put water in a container and understand. If you run out of water, you cannot. The latest trend is to look at water use throughout the entire supply chain and take ownership of making sure people have the water they need, including the poorest and most in need. Consumers feel that businesses lack clarity on how to address the water crisis but believe that the crisis can be addressed with proper and immediate action. Consumers in China feel this way the strongest. The latest trend is for all companies to look more seriously at water sustainability. Most consumers are starting to realize their clothing, food, electricity, cell phone, transportation,. Smart governments and businesses are tuning in to this feedback from their constituents and customers, this is the new trend and the business risk that companies and governments are trying to manage. This project involves the construction of new infrastructure and the renewal and operation of existing facilities. The project entails pumping 56, cubic meters per day of seawater to an elevation of 2, meters for mineral processing, a necessity due to the expansion of the Centinela Mine. This expansion, recently announced by AMSA and its partner Marubeni, will add , tons of copper, 3, tons of molybdenum, and an additional , ounces of gold extraction per year through a second concentrator plant. Seawater will be captured in the town of Michilla about 60 km north of Mejillones , where the company's port is located, and pumped at a rate of 1, liters per second through a km pipeline towards the district's mining operations. The company's operation will be sustainable as. This project is undoubtedly a major achievement for the consortium of Almar Water Solutions aspects worth highlighting:. For years, I have been predicting a shift in the drivers that propel and accelerate the development of water projects. The industrial sector has begun to respond to the risks associated with the uncertainty of their water security by initiating their own projects rather than compromising their operations in the face of potential relocations due to water scarcity. In this case, the resource is located at the mine itself, making it unviable to relocate. Thus, this project consolidates the trend of industrial interest in new water projects, adding to those already initiated in the sector, such as the project Almar Water Solutions has contracted with Saudi Aramco for the regeneration of water from oil extractions in Zuluf in the Arabian Gulf, Saudi Arabia. Projects of this size are uncommon in the water sector, but this will likely be one of the largest locally and possibly globally under the BOOT model. This sends a positive message to the sector with the potential for new projects in other regions and with other clients. The process involved. It is noteworthy that the interest and requirements for closing the structuring. The mining sector working with seawater instead of freshwater, local water reserves for communities. This achievement deserves commendation for raising awareness about the responsible use of scarce resources in the region. I would like to conclude with a personal thank you to the Antofagasta Minerals team for the trust they have placed in our consortium for this project, especially Andres, Eduardo, and Mauricio. Congratulations to the teams of Transelec and Almar Water Solutions for their dedication and faith over the years, of Bonatti and Sigdo Koppers, who are prepared to execute the great work ahead. Carlos Cosi n is the Chief E xecuti ve Officer o f Almar Wat er S olutions, leading the ope ra tions an d d evelopment of the company t o dri ve its su c cess an d g r ow th in the sec t o r. M r Cosin has 25 years of ex perience in the wat e r indu s try, including d eveloping desalin a tion , wa st ewat e r, and r euse p r ojects a r ound the worl d f or b o th municipal and indu s trial sec t ors. Associ a tion IDA f r om t o As I D A p r esiden t, Cosin contribu t ed t o driving p r o fessional commit t ees , kn ow ledge sharing, and be s t p ra c ti c es in desalin a tio n and wat er r euse t echnology. He s till ser ves the n ewl y r enamed associ a tion In t ern a tional D esalin a tion an d Reuse Associ a tion as a Boa r d Membe r. Without water, nothing can thrive: not human life, not society, not industry, and not sustainability. The absence of water means we cannot produce food, sustain economies, or protect hygiene and childhood. Water is fundamental to every aspect of life, yet it is often millions, hindering development and exacerbating poverty. This initiative calls for a shift in mindset about water from citizens, politicians, and global organizations. It emphasizes the urgent need to prioritize sustainable. Desalination, once a technology of last resort, is now poised to become a sustainable and primary solution for global water scarcity. As water resources become increasingly scarce, it's imperative to develop technologies that make challenges persist. Unconventional water sources—such as municipal and industrial wastewater, brackish groundwater, and seawater—are often saturated with sparingly soluble minerals and metals and plagued by poor microbiological and organic quality. Fouling and Scaling involves the accumulation, deposition, and adsorption of various mineral and organic substances onto the membrane surface or within its pores, leading to a decline in membrane performance over time. Prevention of fouling and scaling drives desalination process design and hence footprint, cost, and. Strategic advancements in innovative reverse osmosis pre-treatment and membrane technologies are essential to overcome these challenges. These technologies have the potential to reduce the cost, footprint, and. These through the development of smart desalination membranes with anti-scaling and anti-fouling quality. The research aims to lower the cost and. NAWI is a research program and public-private partnership that represents the largest United States federal investment in research and development for water treatment, desalination,. This innovative program unites industry, academia, national laboratories, and other stakeholders across the country to advance next-generation desalination and water recycling technologies. Membrane separation is traditionally a passive process, relying on pressure to push water through a semipermeable barrier The NAWI-supported research team is transforming this process into an active one by applying low-voltage electricity across the membrane. This innovation allows the membrane to actively prevent scaling and fouling, reducing the need for extensive pretreatment. True innovation in membrane separation for desalination requires rethinking membrane separation phenomenon at the membrane level. Electrically conductive forward, propelling the industry towards more. Since its inception in , Active Membranes has rapidly garnered international acclaim. The company was distinguished as the runner-up in the U. Further cementing its reputation for innovation, Active. These membranes will be available as drop-in replacements for existing systems, enabling a advantages, including reduced energy demand, higher product water recovery, and minimized lowers both operating and capital costs for desalination plants, making desalination a more viable solution to global water scarcity. Building on project is set to test these membranes against conventional reverse osmosis membranes. This test will take place at a brackish groundwater source high in dissolved solids in Sand City, CA, operated by California American Water. The head-to-head comparison will validate the performance of anti-scaling, electrically conductive reverse osmosis membranes in a high total dissolved solids brackish water environment. Ranging from water-energy grid integration analysis to developing algorithms, models, and adaptive process controls for resilient operations, NAWI is backing over sixty research and development projects to advance. Lauren Nicole Core holds over 10 years of experience in human and environmental development across multiple sectors. She is also a. Unlocking Livelihood, Food, and Water Security. Lauren has delivered lectures, served as an expert panelist, and presented at conferences and institutions such as the Massachusetts Institute of Technology. At ACCIONA, we are world leaders in desalination by reverse osmosis, the most sustainab and widely used desalination technique, capable of improving water quality and. Over the winter, we relocated our base to Portugal, where, during a four-month period, we harnessed ideal sailing conditions to best. Atlantic delivered intense weather, allowing us to push ourselves and the boat in very trying. Over the next few days,. He also has a heavy media schedule to deliver his story and the Be Water Positive message. The pre-race exhibition event is an opportunity to host guests from H2O Innovation, who will be on-site for activations at the New York Yacht Club and enjoying front-row viewing of the Liberty Race from Governors Island. The platform of sport is unique in that it acts as a bridge between collective enjoyment and. When Scott begins this race, he will be equipped to be alone at sea for about two weeks. He will depart with a certain amount of spares, food, and fuel to replenish his electrical power stores. Once these are depleted, they are gone. It is a medium where we can harness our networks and explore the gap between challenges and solutions. Our unique position also creates reach, enabling us to amplify the voices of change-makers and facilitate meaningful connections between solution providers and those in need. Scott and the whole team have embraced an alliance with the IDRA and water industry stakeholders to encourage advocacy around water equity on a global scale through the Be Water Positive mission. We aim to be the team that fosters a deeper understanding of the pressures on global watersheds as a result of local consumer choices, taking on the responsibility of leading by example and communicating methods to. Our sailing billboard is prominent, and our story has great human endeavour, human interest and broad reach. We might not be on the front line of the crisis as a team, but we can consider ourselves frontline communicators. We have the platform and we have the voice. The Be Water Positive sailing team is made up of more than 10 focused professionals covering all aspects of the boat's readiness. In the same way that we have the best technical support in the shore team, we have also partnered with Foxall Munro, who have 15 years of research and data collation on carbon footprint and environmental benchmarks across a wide range of products, yachts, and events in the marine sector. They are leaders at the intersection of the sailing sector and sustainability. Our relationship with Foxall Munro is to help guide us and ensure that we remain honest in our objectives, engaging with IDRA members and water industry. But water is the highest priority when it comes to provisioning. For this reason, we embrace and maintain modern onboard water desalination. Every boat in the race is equipped with a water desalination unit onboard; some have two for extra assurance. All have emergency hand-operated desalination machines. Without access to fresh water, the sailors would not be able to hydrate or reconstitute freeze-dried meals, both of which are potential race-ending and even life-threatening issues. For you, IDRA members and industry stakeholders, we are your boat and your team. Nick was awa r ded the p r e s tigious Au s t ralian S po r t s Medal in r e c ognition of his a c hi evements in sailing. H e is the author of ' Chasing the D awn ' and the r ecipient o f ca r eer highlight documen tary ' S ea of D r eams ' Nick i s cur r ently based in the U K and is continuing his sea r c h f or ad ventu r e and n ew r eco r ds as a b rand, li f e s tyl e and values ambassado r w ww. Water underpins our civilisation and life itself and the water crisis is already impacting billions of people worldwide, exacerbated by climate change, population growth, and uneven distribution of freshwater resources. We have become all too familiar with the outlook that communities and businesses across the world. Desalination has helped alleviate this situation, methods remain energy-intensive and environmentally harmful. This article explores the opportunity to ensure that the future of desalination is both sustainable and scalable to meet the urgent demands across the globe. The pitfalls of traditional desalination are commonly known. As we complete the transition from thermal desalination to reverse osmosis it is time for a mid-term review. Both technologies produce harmful brine, which - when discharged back into the ocean - can harm marine ecosystems. These aspects drive the search for more sustainable desalination technologies, which is also the focus area of Desolenator. Thermal distillation co-generation is highly energy-intensive and with a high carbon footprint it becomes unsustainable, due to the high reliance on fossil fuels. Reverse thermal desalination, requires high-quality electrical energy input, generally also fossil fuel based. There is also the heavy reliance on. Innovations in sustainable desalination in recent years have seen remarkable success and progress in the development of new technologies. These innovations aim to reduce energy consumption, minimize environmental impact, and lower costs, making desalination a more viable solution for addressing global water scarcity. Innovation in membrane technology for example nanotechnology, has certainly helped. These and other advancements could substantially lower the operational costs and energy requirements of desalination plants,. Another advancement is the integration of renewable energy sources, such as solar, wind, and geothermal energy, into existing desalination processes. Solar desalination, for example, which we are currently demonstrating, harnesses solar power to heat seawater or reduces the carbon footprint of desalination plants. Despite these advancements, several challenges remain in the widespread adoption of sustainable desalination technologies. At Desolenator we see in fact that a promising desalination techniques and optimizing the process to improve sustainability. Hybrid systems, which integrate e. Desolenator would like to carefully look at the future plant sites and to integrate provides great opportunities for optimisation. Addressing the environmental impact of brine is crucial for the future of our industry, as the brine discharge. Innovative brine management options, such as minimal and zero liquid discharge ZLD systems, aim to reduce or eliminate liquid waste by recovering salts and. In a great example of addressing both elements, Desolenator has deployed an installation that was showcased during COP28, that provides high quality water for growing tomatoes in the desert. The capital expenditure required for constructing sustainable technologies is substantial. While costs and reduced environmental impact, hurdle. Many rich desalination authorities do not count the amortization of their plants in their. This energy demand poses a challenge, particularly reliable renewable energy. Regulatory frameworks for desalination are evolving, but there is often a lag in updating. Public acceptance is also crucial, as communities may have concerns about the environmental and health impacts of desalination plants. Brine discharge, despite improvements, can still pose a risk to marine life and to already depleting aquifers. Moreover, the construction and operation of desalination plants can disrupt coastal ecosystems due to chemical discharge. To realize the full potential of sustainable desalination, a multifaceted approach is required. Governments, private sector stakeholders, and research institutes must collaborate to overcome these challenges and drive the adoption of innovative technologies. For over 30 years, Energy Recovery has partnered with customers to drive operational e ciency and reduced emissions in the production of clean water. Learn more about our entire line of PX devices at energyrecovery. Subsidies, grants, and tax breaks for research and development can accelerate the deployment of renewable energy powered desalination plants, within this tightening regulatory framework. Collaboration between the public and private sectors PPP can leverage the strengths of both. Private companies bring technical expertise and innovation, while public entities can facilitate large-scale implementation and ensure regulatory compliance. Successful models of such partnerships, including Water-as-a-Service WaaS , can serve as a blueprint and recent successes should be replicated in other regions. Food security is the top national priority for the country and. This is a fantastic example of PPP engagement as well as really showcasing the power of modular and sustainable desalination with a value addition that goes well beyond water alone. Improving public trust, acceptance and education is crucial. Which is why telling the story of installations such as the one for Silal has so much resonance. We all know that. So sharing stories of how the concept of desalination itself is being transformed can also help to garner public support, perhaps even to start introducing credits for brine in much the same way that carbon credits have been initiated. Wat e r is under valued, brine is of t en n o t r egul at e d and needless t o say if you h ave an inn ova tio n looking t o be c ome a p r odu c t, the r e i s limi t ed ventu r e c api tal available unles s. Our app r oach t o scal e up the deployment of modular desalin a tio n sy st ems th a t a r e de-carbonised, r equi r e n o harmful c hemicals and with in t eg rat ed ZL D opens up the p ot ential f or mass ado p tion o f decent ralised desalin a tion f or businesses an d c ommunities ex posed t o wat er s t r ess ac r os s the world. By working t og e ther we can trul y add r ess our mo s t c ritical r esou r ce of wat er i n. Mr Pols has extensive experience in commercial and strategic leadership positions with a passion for sustainability. Pols has been acting at the vanguard of the energy transition, moving from green electricity retailing, solar power and biofuels generation to the vital component of energy storage. Anyone who spends their time attending water conferences could be forgiven for thinking that a golden age of desalination and reuse is just around the corner. Water security is at long last moving up the agenda for governments and businesses, many of which are getting serious about developing non-conventional water resources. It is hard to argue that has not been a great year for desalination and reuse. This optimism rests on a shaky assumption that the general public is fundamentally comfor table with desalination and that they will be happy to see it rolled out on a massive scale to tackle water insecurity. The rocky road faced by desalination projects in California tells the opposite story: brine discharge is now a lightning rod for environmental outrage, driven by a mixture of genuine and wilful lack of understanding of membrane desalination. In the absence of engagement from the desalination industry, concerns about brine are gaining traction among the general public, academia, and even par ts of the water industry. If we continue to ignore this fact for much longer, we will have a serious image problem on our hands. As an industry, we have been slow to react and have a lot of ground to recover — here are three places for us to star t:. Firstly, emphasize the ability of desalination to supplement and operate in harmony with our broken natural water cycle. We will win no friends among environmental campaigners by insisting that brine outfalls comply with relevant legislation. We need to show how desalination and reuse can deliver precious fresh water on land, while returning pristine,. Secondly, centralize the data and research that is already out there. Long-term studies show that the impact of a sensibly designed, well-located brine outfall on marine ecosystems ranges from inconsequential to of brine outfall studies would give us a steady footing from which to star t outside our industry. Any claims that we make about brine will fall on deaf ears if they are not endorsed by independent environmental exper ts. From helping along procurement of desalination in new markets, to challenging. Par tnering with environmental groups to draw up a gold standard set of practices for brine management would both produce a useful resource for step to build these relationships. Public outrage can escalate quickly. The WIC is focused on applied research and development of technologies, equipment, systems, and products which allow all side streams from the water treatment processes, including brine, to be valorized as commercial grade minerals and metals, recycled water, and biosolids. In collaboration with desalination industry leaders and well renown universities, the WIC team has recently developed and is in a process of patenting advanced ZLD technologies; selective reverse osmosis RO membranes; and membrane mineral crystallization system, that allow generation of commercially viable minerals from desalination brine at less than a half of the energy demand and carbon footprint. This system is designed to produce monovalent minerals of high purity and high commercial value such as sodium, lithium, potassium and rubidium chlorides, as well as divalent salts such as magnesium hydroxide, calcium carbonate, and calcium sulfate Figure 1. Magnesium hydroxide can be used for production of magnesium metal — a highly valued commodity of increasing demand for key products such as electric cars, computers, cell phones, and aviation products. The ZLD system shown on Figure 1 incorporates two brine industry paradigm changing technologies developed by the WIC: 1 RO membranes for direct selective rejection of monovalent and bivalent minerals from seawater such as potassium and magnesium chloride mineral selective RO membranes ; and 2 forward-osmosis based membrane crystallization system with OARO draw solution recovery Figure 2. Conventional RO elements have only one function — to separate fresh water from brine. The WIC system with mineral selective RO elements combine three functions — 1 production of fresh water; 2 separation concentration of this mineral. The new selective RO membranes are of standard size and can be applied directly in existing conventional SWRO systems widely used by desalination industry at present — a feature that would facilitate their rate accelerated at adoption industry-wide. The selective RO elements operate within the elements and therefore, mineral harvesting is completed at an order of magnitude lower energy demand as compared to conventional brine mining systems. Use of this systems allows to avoid the need for separation of monovalent and bivalent brine and costly chemical precipitation methods for harvesting magnesium and calcium minerals. Membrane brine crystallization is another paradigm changing technology developed by the WIC research team. In the WIC membrane c ry s talliz a tion sy st em, mine ral s. This process uses magnesium chloride as a draw solution salt. RO membranes described above. As the draw solution extracts water from the brine, it is diluted and has to be recovered in order to be reused in continuous mineral crystallization process. Such recovery is completed by. This technological breakthrough allows us to solve the existing challenges of minimizing carbon footprint and costs of brine valorization. Both forward osmosis crystallization and OARO recovery of the draw solution added together. Last year, the ENOWA WIC have initiated the development of comprehensive program for green desalination, which aims to reduce both the amount and the types of chemicals used in the production of desalinated water and to produce all chemicals needed for production of desalinated water from brine. This program will ultimately allow desalination plants with brine mining facilities not to have to purchase commercial chemicals but to use brine-derived chemicals instead closing the circularity loop in desalinated water production. Examples are the use of magnesium hydroxide instead of ferric chloride for source seawater coagulation; elimination of the use of antiscalant by calcium. Cur r ently, he wor ks as a senio r ex pe r t w ith the D esalin a tion Technolog y R esea r c h In s titu t e of the S aline Wat er Con versio n Corpo ra tion. The ENOWA WIC is proud of its environmental stewardship achievements and is constantly developing and adopting new chemical-free, renewable energy-based technologies for a thriving blue economy. N ou r a Cheh a b is leading the water Research and Innovation at ENOWA Noura has been with NEOM for the past 3 years and half, where she has established multiple research projects and agreements and played a key role in attracting disruptive Water technologies to the Innovation team. She is a recipient of several prestigious awards First prize Bayer award; Siemens Second Prize Student Award in recognition of her innovative ideas in developing sustainable solutions to water scarcity. In June , IDRA began its quest to advocate share knowledge and spotlight actions worldwide on water stewardship. The program objective is to encourage industry to implement best practicescy in all desalination and water reuse projects by using the best available and most appropriate technologies according. The IDRA promotes discussion of environmental issues associated with desalination and water reuse, advocating for environmental stewardship, water recycling to lower the water footprint, decarbonization, implementation of increased renewable power in plant operations, and reduction of chemical consumption. Key initiatives recognized by IDRA include water utilization, community engagement, and holistic water management These actions not only reduce the companies' water footprints but also inspire others in the industry, contributing to global water security and resilience. To qualify, candidates must have been active IDRA members since July 1, , to be eligible to stand for election. Candidates should have strong industry knowledge, an understanding. Class I and II members or their designated representatives from the same region. Candidates must: a be prepared to serve the desalination and water reuse community rather than espouse the particular interest of any business of the Board, agree to non-compete; c. Twenty-one 21 directors may be elected to the Board of Directors, and each region may have at least one and no more than seven. Based on the membership numbers, the regional allocation of Directors for the election is as follows:. The Membership and Elections Committee asks that each candidate provide:. Ballots will be sent to all active members via E-Ballot on September 25, , to commence voting. IDRA Members will be able to log in and vote electronically. Voting will close on November. An email bulletin will be sent out announcing the elected directors. This exclusive event is an excellent opportunity for industry leaders from both the private and public sectors to engage management. The IDRA World Congress , hosted by the Abu Dhabi Department of Energy and widely endorsed by key government stakeholders, is a unique platform for profound knowledge-sharing and impactful interaction to address water scarcity. This congress is strategically designed to pave the way to a more secure water future by delving into various technical and business topics related to innovative energy, desalination, and water reuse solutions. Contribute to essential conversations on desalination, water reuse, and renewable energy, paving the way for sustainable water solutions. Act now and be part of this transformative journey! The IDRA World Congress has been the premier event in desalination and water reuse technologies for over thirty years. Join the brightest minds in the sector as they address water scarcity and climate change's impact on the water ecosystem. We are actively accepting sponsorship bookings. Contact the IDRA team at sponsorships idrawater org for more information. By exhibiting at the IDRA World Congress , you're not just participating in an event you're actively shaping the future of our industry, creating lasting impressions, and fostering collaborations that will propel your business and help solve water scarcity For more information, read the Exhibition Prospectus and Exhibitor Manual. As anticipation builds for the upcoming IDRA World Congress in Abu Dhabi, we are pleased to present a selection of recommended hotels to ensure your comfort and convenience during your stay. The IDRA World Congress Technical Program presents top-quality papers designed to solidify current industry knowledge and challenge existing assumptions to drive growth in our sector. Get ready to hear about success stories and case studies where serious issues were experienced and resolved. Sharing this knowledge helps us improve technology and advance our industry. Our papers are focused on practical operations directly from plant operators, as well as cutting-edge research aimed at dramatically enhancing the economics of non-conventional water resource solutions. This is an exclusive opportunity to interact with peers from across the sector Special registration is required. More details about the program will follow. We will acknowledge exceptional contributions to the Desalination and Water Reuse Sectors with the following awards:. Environmental Protection Agency. The nomination period closes on August 31, , insert the email to submit. IDRA will give awards for the best oral and written papers presented as part of the Technical Program. A special roundtable facilitated session will be conducted on Wednesday, December 11th and is open to all who would like to attend and share knowledge that will result in the development of a White Paper on Reuse. We are interested in hearing from people on the regional, national, and local levels and across industries and sectors; we aim to gather a more holistic understanding of the different considerations and approaches to advancing water recycling. Following the two-part Global Dialogue on Water Reuse, a white paper summarizing key takeaways and action items will be developed to guide water professionals worldwide as they seek to implement water reuse in their respective countries. The hackathon aims to deliver meaningful impact by fostering collaboration and encouraging innovative thinking. The winning team will receive recognition and exposure at the world congress, further incentivizing participants to develop innovative solutions with real-world applicability. A hackathon is an innovative way of solving a certain problem by bringing together experts in a collaborative environment. The hackathon's objective, framed around the IDRA World Congress theme:' Addressing Water Scarcity,' seeks to harness participants' collective intelligence and creativity to identify new green solutions for this pressing global challenge. Identify the most impactful solution for addressing water scarcity and implement it. Registration Opens for Problem Statement and to Participate in Hackathon: 2nd week of September to 2nd week of October — for more information, please contact: innovation acwapower. Ever considered the paradox of smartphones and water? On one hand, we're constantly warned to keep our devices away from water, yet on the other, the very birth of these indispensable gadgets relies heavily on water. Think about it: the manufacturing process of a single smartphone consumes over 12, liters of ultra pure water. Why such a staggering amount? The intricate components of our beloved devices, like chips, demand thorough rinsing, often more than 30 times. On average, a person consumes 3. Therefore, producing a single smartphone requires shockingly, the same amount of water that an average person would drink over eleven years. This juxtaposition unveils a profound truth about our modern world. Our daily choices, like sending a text or scrolling through social media, seem innocuous, but they conceal a vast network of resources and processes behind the sleek screens. Water is intrinsic to every aspect of our lives and whether you realize it or not, we are all responsible for our water footprint. IDRA is dedicated to promoting sustainable water management. Applicants for the Dr K. Applicants need to show admission to a doctoral program in desalination or water reuse, along with leadership potential. The scholarship provides up to USD 10,, paid in and submission of a mid-term progress report. Recipients must supplement the grant with other funds to complete their degree. The scholarship aims to support graduate students pursuing desalination and water reuse research. This program plays an important role in promoting education and fostering information exchange among industry professionals — two essential of supporting development of and promoting the use of desalination and water reuse technologies globally. The Fellowship Award provides recipients with an unprecedented opportunity to spend. The host agency also knowledge and exposure to best practices. Please contact us at education idrawater. The other levels are only available through on-site training. This webinar will feature YLP members who will share opinions and strategies to bridge the gap between laboratory research and market success. This webinar will serve as a catalyst for the next generation of innovations in the water industry. Summary - Water management in the modern age requires a collective approach. The YLP of IDRA is hosting a webinar on interdisciplinary collaborations in desalination and water reuse, bringing together young professionals ve problem-solving among emerging water leaders. The YLP of IDRA is hosting a webinar on interdisciplinary collaborations in desalination and water reuse, bringing together young professionals action and cooperative problem-solving among emerging water leaders. ANDRITZ is a globally leading supplier of plants, equipment, automation solutions and services for hydropower stations, the pulp and paper industry, the metalworking and steel industries, as well as environmental and green energy-focused sectors. The listed Group is headquartered in Graz, Austria. Since its foundation years ago, ANDRITZ has developed into a Group with approximately 30, employees, and more than locations in over 80 countries worldwide. ANDRITZ stands for passion, partnership, perspectives and versatility — core values to which the company is committed. The Technology Innovation Institute TII is a leading global research center dedicated to pushing the frontiers of knowledge. Our teams of scientists, researchers and engineers work in an and transformative technologies. A , was established in in Las Palmas, Gran Canaria. In its beginnings it performed its business activities within the Canary Islands and the southeast of the peninsula, with sporadic incursions abroad. Integrated into the Grupo Cobra, it was seen as a benchmark of design, manufacturing, operation, maintenance and engineering. The growth experienced by the company these last few years has led TEDAGUA to be considered today as one of the main companies in the water treatment sector in Spain, with contracts. Turn static files into dynamic content formats. Create a flipbook. Issuu converts static files into: digital portfolios , online yearbooks , online catalogs , digital photo albums and more. Sign up and create your flipbook.

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Employing digitalization and cutting-edge innovation, it delivers technologically superior solutions at every phase of project execution. Conscious of our larger responsibilities as a corporate citizen, we Operating Centres are committed to the development of the communities around our facilities and project sites. Offshore We offer lump-sum turnkey v services encompassing the entire Special Studies including safety, risk assessment, pre-service near Surat in Gujarat, and the other on east coast at Kattupalli Clients value chain — from oil and gas production to processing. Project Management teams deliver large and complex offshore has successfully installed over offshore structures jackets, in the North Sea. 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