Atlético Madrid’s new football stadium, the Wanda Metropolitano, uses a CO2 system with parallel compressors and multi-ejectors.
Atlético Madrid's new Wanda Metropolitano stadium
Natural refrigerants are at the heart of Atlético Madrid’s new football stadium the Wanda Metropolitano, which opened its doors in September 2017. The state-of-the-art facility, with capacity for 68,000 people, is equipped with a CO2 transcritical system with parallel compressors and multi-ejectors. Albert Albert, in charge of the project at system manufacturer Pecomark, spoke to R744.com about the installation.
Pecomark provided the system, working in partnership with Fagos (industrial kitchen), Danfoss (ejectors), Bitzer (compressors), ECO (gas coolers and evaporators), Dinafri (commissioning) and Automatiza (electric switchboards).
The system provides cooling for a large kitchen serving different restaurants and VIP lounges. The installation features cold rooms at 0°C (fresh food) and -20°C (frozen foods), blast freezers at -30°C, and kitchen rooms at +10°C.
A CO2 system was the preferred solution, delivering water at high temperatures and functioning effectively even when cold rooms are far away from the machinery room, in this case more than 50m.
“The heat recovery from the system is used for making hot water and heating the soccer pitch,” said Albert.
The installation serves four low-temperature units and 12 medium- and high-temperature units (three out of 12 are workrooms). The cooling capacity is 95 kW at an evaporating temperature of -10°C and 45 kW at -28°C /-30°C.
The system is designed for an ambient temperature of 38°C. “The installation can work at higher temperatures, but this is the design temperature,” said Albert.
“CO2 is not a type of equipment but a whole technology. We are talking about a wide range of possible solutions.” – Albert Albert, Pecomark
This system relies only on CO2. “One of the premises of the project was that if we go with CO2, we’re going all the way with CO2 and not with auxiliary systems that need other refrigerants,” said Albert.
Albert cited the following reasons to go for CO2:
A comparison study with a traditional R404A system (containing theoretical data, because the system was installed too recently to show results already) shows that the CO2 system with parallel compressors and ejectors allows for energy consumption reductions of 15%.
“The installation is running smoothly and the control of ejectors is very stable,” said Albert.To find out more about the technical details of this project, click here to consult Albert’s presentation.