Baltimore Aircoil Company, Inc. (BAC), a marketplace pioneer in cooling solutions, highlights their efficient, reliable cooling solutions for green hydrogen production and carbon capture, utilization, and storage.
To achieve peak performance, these emerging green technologies depend on BAC's extensive range of cooling solutions, including evaporative open and closed circuit cooling towers, hybrid systems, adiabatic cooling, and dry cooling systems.
Energy-efficient cooling solutions
BAC reinvents cooling and leads the way in creating ever more advanced, reliable, water and energy-efficient cooling solutions. High-performance and reliable cooling plays an essential role in green hydrogen production and carbon capture processes.
In green hydrogen production, the heat losses of the electrolysis process will be approximately 25% to 35% of the electricity input. Without adequate cooling, excessive heat can lead to inefficient system performance or equipment failure. Similarly, in carbon capture processes, efficient and reliable cooling is crucial to maintain the optimal temperature for chemical reactions that isolate carbon dioxide from gas mixtures.
Cooling technology
The most suitable cooling technology is often determined by the project location and the availability
BAC has the knowledge, experience, and solutions to meet the cooling requirements of any hydrogen or carbon capture process, with modular, scalable systems.
The most suitable cooling technology is often determined by the project location and the availability and cost of water and/or electricity.
Open and Closed-circuit cooling towers
Open cooling towers are evaporative cooling systems that use cold air and water to remove heat from process water. They are energy-efficient and have a compact footprint.
Closed-circuit cooling towers isolate the process fluid from the outside air, ensuring clean and contamination-free cooling. Adiabatic coolers, on the other hand, are dry coolers equipped with an adiabatic pre-cooler section. They provide efficient cooling with minimal water usage.
