Cooling towers are crucial for temperature control in industrial settings, but they can unintentionally release water droplets—known as "drift"—into the environment. This drift can carry salts, chemicals, and even bacteria, impacting both health and equipment. Our latest article delves into what drift is, its potential risks, and how Infinite Cooling’s WaterPanel? technology can help mitigate it, ensuring cleaner air and safer operations. Learn more here. https://lnkd.in/evkiry6Y #CoolingTowers #EnergyEfficiency #WaterConservation
Infinite Cooling
可再生能源
Cambridge,Massachusetts 3,899 位关注者
Changing the way the world uses water (We're hiring)
关于我们
At Infinite Cooling, we use high-voltage electric fields to recapture and recycle massive amounts of water that would otherwise be wasted at industrial scale facilities such as power plants, data centers, and factories. ? Winners of the MIT $100K Grand Prize ? Winners of the MassChallenge Grand Prize ? Winners of the Department of Energy Cleantech Grand Prize ? Winners of the MIT Clean Energy Prize ? Winners of the Rice Business Plan Competition Grand Prize
- 网站
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https://www.infinite-cooling.com
Infinite Cooling的外部链接
- 所属行业
- 可再生能源
- 规模
- 2-10 人
- 总部
- Cambridge,Massachusetts
- 类型
- 私人持股
- 创立
- 2017
地点
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主要
127 Massachusetts Ave
US,Massachusetts,Cambridge
Infinite Cooling员工
动态
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Cooling tower plumes—commonly seen as "white smoke"—are a natural part of cooling processes but can lead to lost water and visibility concerns. In our new article, we explain what cooling tower plumes are, the issues they cause, and how Infinite Cooling’s solutions can capture this valuable water resource. By addressing plume formation, we help facilities not only recover water but also improve public perception and operational efficiency. Access the article here https://lnkd.in/ePRsfSHS
What Are Cooling Tower Plumes?
infinite-cooling.com
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Energy efficiency is a top priority for industries reliant on cooling towers, as these systems can significantly impact power consumption. Cooling towers may be vital, but they also come with high energy demands. In our recent blog post, we examine how energy is used in cooling towers and ways to improve efficiency. From optimizing heat transfer to leveraging Infinite Cooling’s WaterPanel? and TowerPulse? technologies, we're working to help facilities cut down on energy use, lower costs, and improve sustainability. Check out the article here. https://lnkd.in/eM-cUdbs
Energy Use in Cooling Towers
infinite-cooling.com
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Cooling towers play a vital role in industrial cooling systems, relying on water to remove excess heat from equipment and ensure efficient, safe operations. However, the water demand for these systems can be considerable. Our latest article explores how cooling towers use and manage water and highlights the importance of reducing water loss in these high-demand environments. Learn how Infinite Cooling’s innovations can help conserve water while enhancing cooling tower efficiency. Check out the article here.?https://lnkd.in/ds-uaMgY
How Do Cooling Towers Use Water
infinite-cooling.com
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See Karim Khalil, PhD co-founder of Infinite Cooling speak at UltraFacility 12 Water Tech for Facility Performance workshop!
??Which 12 water technologies are reshaping semiconductor manufacturing operations? Find out at #UltraFacility24 during the '12 Water Tech for Facility Performance' workshop on October 29th, where we showcase innovative #technologies striving to redefine operational excellence in #semiconductor facilities. From #PFAS treatment to #AI-powered reverse osmosis, each presenter will pitch their groundbreaking solutions, highlighting key data points and technical features that address critical facility challenges. Meet Our Expert Moderators: Tom Pankratz | Ryan Pavlick, Ph.D. | Mike Knapp | Charlotte Oakes ??? Featured Presenters Include: ? Craig Beckman ? Kelle Zeiher ? Benjamin Sparrow ? Hiep Le ? Michael Boyd ? John Brockgreitens ? Sallee Murphy ? Karim Khalil, PhD ? Liron Ophek ? WAYNE BATES ? Sue Mecham ? Brian Pinkard This is your chance to discover the solutions that could revolutionize facility operations! Secure your spot now!
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As industries continue to face growing water scarcity challenges, we remain committed to providing innovative solutions that not only conserve water but also contribute to more sustainable operations across all sectors.? ? Read more in World Nuclear News?about our EDF Bugey Plant project aimed at reducing water consumption in nuclear power plants by capturing water from cooling tower plumes:?https://bit.ly/4eKyf8n #water #futureofwater
Recycling of cooling tower water trialled at French plant
world-nuclear-news.org
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As industries continue to face growing water scarcity challenges, we remain committed to providing innovative solutions that not only conserve water but also contribute to more sustainable operations across all sectors.? ? Read more in World Nuclear News?about our EDF Bugey Plant project aimed at reducing water consumption in nuclear power plants by capturing water from cooling tower plumes:?https://bit.ly/4eKyf8n #water #futureofwater
Recycling of cooling tower water trialled at French plant
world-nuclear-news.org
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We are pleased to announce a significant collaboration with EDF?to launch a pioneering project aimed at reducing water consumption in nuclear power plants. This initiative marks an important step towards EDF’s commitment to sustainable water management, especially as global water scarcity becomes a pressing concern and regulations in France call for a 10% reduction in water consumption by 2030.? The testing phase, running from August 2024 to March 2025, is taking place on a test setup at the Bugey Nuclear power Plant and will assess the technology’s performance in diverse environments and measure the amount of water recovered, the quality of the reclaimed water, and the system’s operational impact.? “Working closely with EDF marks a significant milestone for Infinite Cooling. Our mission is to address one of the most urgent challenges in industrial processes—water scarcity. The tests at Bugey represent a pivotal step in demonstrating the potential of our technology to enable sustainable water management in power plants worldwide.” – Our CEO and Co-Founder?Maher Damak, PhD says. Read more about the announcement here:?https://bwnews.pr/4gMEV7Y #water #futureofwater
Infinite Cooling and EDF Work to Revolutionize Water Conservation in Nuclear Power Plants
businesswire.com
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We are pleased to announce a significant collaboration with EDF?to launch a pioneering project aimed at reducing water consumption in nuclear power plants. This initiative marks an important step towards EDF’s commitment to sustainable water management, especially as global water scarcity becomes a pressing concern and regulations in France call for a 10% reduction in water consumption by 2030.? The testing phase, running from August 2024 to March 2025, is taking place on a test setup at the Bugey Nuclear power Plant and will assess the technology’s performance in diverse environments and measure the amount of water recovered, the quality of the reclaimed water, and the system’s operational impact.? “Working closely with EDF marks a significant milestone for Infinite Cooling. Our mission is to address one of the most urgent challenges in industrial processes—water scarcity. The tests at Bugey represent a pivotal step in demonstrating the potential of our technology to enable sustainable water management in power plants worldwide.” – Our CEO and Co-Founder?Maher Damak, PhD says. Read more about the announcement here:?https://bwnews.pr/4gMEV7Y #water #futureofwater
Infinite Cooling and EDF Work to Revolutionize Water Conservation in Nuclear Power Plants
businesswire.com
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Infinite Cooling's WaterPanel? is reducing the water footprint of energy production.?Sonora Hill writes in the current MCJ Collective Newsletter about the link between energy and water consumption. Special thanks to Imagine H2O Read more here https://bit.ly/3yCjvJq #ImagineH20 #WaterEnergyNexus #CleanEnergyTransition #FutureofWater
Thirsty Energy, Hungry Water: Balancing the Resource Equation
myclimatejourney.substack.com