Cornell University (USA) and University of Nottingham (UK) participated in the creation of the centre.
During the building renovation, we successfully implemented a complete air treatment system , all TWH series units were divided into components as much as possible, while larger sections, such as the steam distribution chambers, were assembled on site.
Due to very limited resources, all systems are equipped with heat recovery with complete separation of air flows. Interestingly, the heat recovery system is designed to operate not only in winter but also in summer, thereby reducing the power consumption of the refrigeration unit.
The cooling source is a chiller with a built-in TW-V series pump unit. The coolant is a 35% propylene glycol solution.
In operating rooms, intensive care units and intensive care wards, temperature and humidity are monitored year-round.
Without exception, all systems are equipped with air disinfection, and the terminal elements of the system are SFD air distributors with HEPA filters of classes H13 and H14.
Regarding the reconstruction, thanks to close cooperation with the design organisation, we were again able to install a large-area laminar field in the hybrid operating theatre without using recirculation.
Particular attention was paid to air flows. Air flows were modelled for the intensive care and resuscitation rooms, and the SFD air distributors and OPFA exhaust separators are positioned with near-perfect precision resulting in air speeds of approximately 0.15 m/s in the working areas.
Overall, the project fully complies with the requirements of SanPiN 2.1.3.2630-10 and R NP “AVOK” 7.8–2019, as well as DIN 1946 part 4, ONORM H 6020, and VDI 2083.
On June 20, the facility was visited by the President of Tatarstan, Rustam Minnikhanov.
