Market news, 13 April 2024
New Solstice E-Cooling heat transfer agents cool data centers and other electronic applications with greater efficiency, reduced environmental impact.
Honeywell today announced the launch of a breakthrough platform of liquid heat transfer agents that cool high-performance electronics more efficiently and effectively than traditional methods that use air and water. These new heat transfer agents lower operational costs for applications such as data centers that use high-performance servers.
Solstice E-Cooling, the newest addition to Honeywell’s revolutionary line of next-generation low-global-warming potential refrigerant technologies, uses a two-phase liquid cooling process to remove heat from electronic applications while reducing environmental impact. The new technology is available now and being previewed at the Air Conditioning, Heating and Refrigeration Expo (AHR) in Orlando, Fla.
“Honeywell works to develop solutions that help the world prepare for the future, and with the global demand for more data and processing, there is an overwhelming need for efficient and effective cooling mechanisms,” said Chris LaPietra, vice president and general manager, Honeywell Stationary Refrigerants. “With Solstice E-Cooling, data centers and other high-performance electronics can increase efficiency while lowering costs and their carbon footprint.”
Data centers currently use about 3% of the world’s electricity, and that number is expected to rise to 8% by 2030, according to research by Global Markets Insights (GMI). With cooling systems accounting for approximately 40% of total energy consumption, the need for intelligent and energy-efficient solutions is expected to drive data center cooling market growth.
The two-phase Solstice E-Cooling process allows for more energy-efficient and uniform cooling, better heat rejection, and reduced pumping power than single-phase liquid cooling, where fluid remains in its liquid form throughout the cooling process. Solstice E-Cooling is also a dielectric solution, serving as an electrical insulator for equipment to prevent damage from contact with fluids.
