The Future of Industrial Cooling Maher Damak, Co-Founder & CEO, Infinite Cooling Infinite Cooling: https://www.infinite-cooling.com/
Cooling towers are ubiquitous in industrial and commercial settings. They are critical pieces of equipment but also major sources of energy and water consumption. They are used across a wide range of applications, including power generation, manufacturing, chemical processing, and HVAC systems for large buildings and data centers.
At Infinite Cooling, we begin with TowerPulse, our advanced sensors and software package that leverages physics-informed machine learning to optimize cooling tower operations. TowerPulse enables real-time monitoring and predictive maintenance, ensuring optimal performance, reducing energy consumption, and minimizing operational downtime.
Building on this, our WaterPanel technology uses electrostatic fields to captures pure, demineralized water directly from cooling tower plumes. This innovative solution provides an alternative demineralized water source while eliminating visible plumes, helping facilities conserve water, lower costs, and reduce environmental impact. Together, these technologies address key sustainability and efficiency challenges in industrial cooling.
P&G is looking for startups to help delivering more useful/delightful consumer experiences via next-generation digital advisor ecosystem.
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Join MIT VMS for "AI-Enabled Startup Marketing" a revamped half-day boot camp designed to give founders and teams the edge as they go to market.
The 2025 MIT Japan Conference will explore future research trends at MIT, highlighting breakthroughs in key areas such as Soft Materials and Mechanics, Biomedical Innovation, and the impact of Generative AI (GAI) on the Work of the Future. Additional sessions will focus on Quantum and Silicon Photonics, Nanotechnology in materials and additive manufacturing, and the latest Machine Learning and AI tools for chemical discovery. Advances in semiconductor technology, hydrogen innovation, and electrochemistry, as well as thermofluidic interfaces, will also be featured.
Please visit the MIT ILP site for the full agenda.