SMAYLABSolutions
The new SmayLab 2.0 it means more benefits for the investor and owner of the facility.
SMAYLAB solutions are a universal proposal suitable for rooms where it is required to maintain an appropriate pressure gradation (overpressure or underpressure).
Thanks to the combination of SMAY products for air flow regulation (RVP-R, RVP-P, KVR and VRRK) and the implementation of proven technologies used in laboratory installations, a solution has been developed that will work regardless of the flow control concept adopted by the designer.
iFLOW – SYSTEM FOR INDIVIDUAL VENTILATION
System for optimizing the operation of the ventilation system in the building with use of VAV regulators.
Investment and user friendly, easy to design and install.
The iFlow system was created for building objects which structure and internal architecture doesn’t constitute open spaces but is arranged as a group of closed rooms in which, due to the variability of their use, it is required to adjust the amount of supplied air in accordance with the demand.
Those facilities may include hospitals, offices, public utility buildings, schools, kindergartens, office buildings next to warehouses and production plants, apartments or floors in office buildings for individual arrangement.
Such solutions include follow-up systems that adapt to the current load of the rooms, thus bringing maximum operational savings. These systems are now referred to as DCV (Demand Controlled Ventilation).
They can be controlled according to the current demand. What does it mean? The analysis of various types of signals – eg current room temperature, CO2 concentration, user’s working hours, information from presence sensors and window opening sensors – allows you to adjust the ventilation performance to the current demand.
It is possible to control the airflow temperature of the control panel through a 0-10V signal. The control panel temperature control collects temperature setpoints from all rooms, averaging the set temperature and adjusting the supply temperature of the ventilation unit to them. A freely limited temperature control range set for the air handling unit.
Safety Car Park
The Safety Carpark System
The Safety Carpark System is intended for ventilation of large spaces of underground garages and tunnels.
The system is composed of SCF jet fans installed under the ceiling of the garage hall and reversible axial fans. In regular operation, the system operates in household ventilation mode, and if there is a fire, its purpose is to quickly pump smoke and heat through the extraction points and secure the zone as quickly as possible.
The system reduces the temperature and removes smoke, which facilitates rescue and fire fighting efforts and evacuation of people from the facility, and prevents the spread of fire to more cars. Jet ventilation involves pumping smoke from cars on fire to extraction shafts.
The ZUBR power supplies monitor
Apart from jet fans, the Safety CarPark system installation also includes SDS (SMAY DUCT SYSTEM) smoke exhaust ducts and ZUP (ZUBR) fire safety equipment power supplies.
The ZUBR power supplies monitor the parameters of the supply grid and lines feeding the respective components of the fire safety system. Single-compartment SDS smoke exhaust ducts in turn remove smoke and heat.
They ensure integrity through thermal elongation compensation under fire conditions. They fulfil the relevant fire resistance standards.
Complex solutions for industrial and warehouse facilities
Smoke removal, ventilation and aeration of industrial premises, workshops and warehouses.
Adequate air quality for work, necessary for everyone to function, both at home and in the workplace.
Taking care of a safe space, SMAY offers practical ventilation solutions for any industrial environment.
Why use smoke ventilation systems for halls?
Smoke exhaust ventilation systems for large-scale buildings, such as: warehouses and production plants, primarily fulfill the function of effectively reducing the temperature of fumes in the under-ceiling zone and protecting the building structure.
At the same time, they significantly improve the operating conditions for rescue and firefighting teams, making it easier to extinguish the fire and the evacuation of people.