BMS & Building Controls

Building Management System Architecture

NOVTRIQ designs building management systems integrating HVAC, lighting, security, fire safety, and energy monitoring into unified platforms enabling comprehensive facility oversight. BMS architecture is selected based on facility complexity, geographic distribution, and client operational preferences. Distributed control philosophies ensure continued operation if central systems fail, whilst centralised monitoring enables efficient management and rapid problem identification.

System design incorporates appropriate sensor networks, control logic programming, and user interface provision ensuring operational staff can monitor and respond to facility conditions effectively. Integration with external building systems provides complete visibility into facility performance. Data storage and analytics capabilities enable historical trend analysis, peak demand identification, and proactive maintenance scheduling.

Predictive Maintenance & Equipment Health Monitoring

Modern BMS systems extend beyond reactive control to predictive identification of degrading equipment performance enabling maintenance before failures occur. NOVTRIQ specifies appropriate sensors monitoring equipment operating parameters including power consumption, vibration signatures, fluid quality, and component wear indicators. Control system logic identifies deviations from normal operating profiles triggering maintenance alerts to facilities teams.

Predictive strategies reduce emergency failures, extend equipment life, and optimise maintenance labour allocation. Vibration monitoring of rotating equipment identifies bearing wear and misalignment. Fluid analysis and temperature trends identify developing heat exchanger fouling or compressor issues. Power demand trending identifies efficiency degradation requiring cleaning or component replacement.

Energy Optimisation & Demand Response

BMS systems identify energy consumption patterns and optimise building operation to minimise costs whilst maintaining comfort and performance standards. NOVTRIQ designs control sequences that respond dynamically to facility demand, weather conditions, and energy market pricing. Pre-cooling or pre-heating strategies utilise off-peak energy availability. Demand limiting prevents simultaneous equipment operation that triggers utility demand charges.

Lighting and occupancy-linked systems ensure energy is consumed only where required. Ventilation and air handling systems respond to actual indoor air quality rather than fixed schedules. Heat recovery and thermal storage systems are operated to align with energy pricing patterns. Integration with renewable generation and battery storage systems optimises self-consumption and grid interaction.

Resilience, Redundancy & Automated Failover

Critical facilities require control systems demonstrating high availability and graceful degradation if component failures occur. NOVTRIQ designs BMS with redundant communication networks, backup power supplies, and distributed control enabling continued operation under failure conditions. System logic provides appropriate fallback strategies ensuring comfort and safety during outages whilst preventing equipment damage.

For facilities with critical operations, we implement automated switchover to backup systems, notification to maintenance teams of faults, and capability for remote diagnosis and intervention. Uninterruptible power supplies support control system operation during grid outages. Backup control panels enable continued basic operation if primary systems fail.