Efficient cooling solutions rely on an excellent infrastructure. The Rittal piping system provides the link between the equipment and the refrigeration system. An optimum design and targeted media supply ensure efficient operation of all cooling components. This also includes safety-relevant options such as redundant pumps, emergency cooling or buffer stores.
Your practical benefit:
Speed-controlled pumps are used to convey the coolant.
The pumped volume may be varied by using state-of-the-art EC motors.
Lower energy consumption thanks to “cold water on demand”.
Only the volume of water that is actually needed for cooling is moved through the
system.
Less energy consumption thanks to the use of free-cooling heat exchangers including
redundancy. Chiller pumps may be switched on and off as required.
The standard hydraulic layout includes the use of a hydraulic separating filter.
Different volumes of water on the producer side and equipment side for process cooling do not adversely affect the function of the cooling systems.
Use of compact distributors to distribute the cooling medium among different pieces
of equipment. Redundancies in the supply lines to the equipment may be designed as required. For example, a layout can be designed to facilitate the automatic shutoff of sub-trains in the event of pipe leaks.
System benefits:
• Pipeline systems are part of a turnkey solution for the targeted cooling of IT operating environments
• Media network for the connection of refrigerators (IT chillers) and cooling equipment (liquid cooling package and CRAC systems)
• Free scalability of chiller and equipment output via the hydraulic separation of the producer and equipment sides
• Use of a hydraulic separating filter with dual function as a buffer store
• Maximum energy efficiency thanks to the use of polypropylene piping with exceptionally low pipe friction losses
• Systems are suitable for the use of cold water and water/antifreeze mixtures (glycol)
• Media pumping redundancy by fitting every chiller with its own primary pump and via the use of redundant main pumps on the equipment side
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