Centralized Control and Management of Building Heating, Cooling, and Ventilation Systems
What is HVAC – Mechanical Automation System?
HVAC – Mechanical Automation System manages and controls the heating, cooling, and ventilation systems in buildings from a centralized location. Operators utilize the HVAC – Mechanical Automation System to regulate and manage the heating, cooling, and ventilation systems based on the building’s requirements, considering climate conditions.
The system ensures optimal energy consumption and creates ideal comfort conditions in buildings by comparing the building’s heating, cooling, and ventilation needs with the external air exchanges, in accordance with energy efficiency and comfort scenarios.
CENTRALIZED
MANAGEMENT
FUNCTIONAL
PROGRAMMING
ALARM MANAGEMENT
PLATFORM
EQUIPMENT
EFFICIENCY
The HVAC – Mechanical Automation System ensures the control of systems that consume an average of 45% of building energy consumption. It allows the generation of reports on the causes of energy losses through the collection of specific scenarios and historical records. The HVAC – Mechanical Automation System centralizes different systems to provide centralized management. Centralized control saves time for the business and enables real-time intervention in the systems through the implemented alarm management platform.
The HVAC – Mechanical Automation System caters to the specific needs of buildings, providing room comfort in hotels, controlling fresh air requirements in shopping malls, maintaining hygienic conditions in operating rooms of hospitals, balancing air quality for ideal working conditions in offices, and expelling stale air while meeting the hot water needs of athletes in sports facilities.
Why is HVAC Mechanical Automation System Important?
Enables centralized control of various mechanical systems.
Facilitates the programming of specialized functions required for the control of mechanical systems.
Ensures simultaneous operation of systems through time management functions.
Enables real-time acquisition of fault alarms and error signals through the alarm management platform.
Shortens the response time to faults through the alarm management platform, allowing efficient utilization of the workforce.
Prevents systems from operating more than necessary, promoting efficient energy usage and reducing carbon emissions in the building.
Results in longer usage of mechanical equipment and facilitates easier planning of maintenance needs by preventing excessive operation of systems.