AI - OPTIMIZES
DISTRICT HVAC SYSTEMS

ABOUT US

We are a team of energy innovators driven by a mission to redefine how large facilities manage and consume energy. With backgrounds spanning artificial intelligence, data analytics, and HVAC system engineering, we bring together the tools and expertise needed to transform traditional centralized chiller plants into intelligent, self-optimizing ecosystems.

Our focus is simple yet powerful: enabling district-scale infrastructures - such as airports, hospitals, campuses, and industrial zones - to achieve exceptional energy efficiency and sustainability without compromising comfort or performance. By merging predictive AI control with real-time system analytics, we help our clients move from reactive maintenance to proactive optimization, ensuring every kilowatt counts.

At our core, we believe that smarter energy management is not just about cutting costs - it’s about building a cleaner, more sustainable future through technology that learns, adapts, and delivers measurable impact.

THE NEED

District areas such as airports, hospitals, hotels, malls, university faculties, and industrial zones consume significant amounts of electricity, particularly for their HVAC (Heating, Ventilation, Air Conditioning) systems, which rely heavily on centralized chiller plants to maintain thermal comfort and equipment performance. However, much of this energy is wasted across these energy utilities due to outdated HVAC systems that depend on reactive, human-based management lacking forecasting capabilities or data-driven decision making, resulting in massive inefficiencies and unnecessary operational costs.

OUR SOLUTION

EYWA ENERGY leverages AI-powered predictive technology and advanced data analytics to intelligently optimize chiller control systems. Our platform dynamically manages workload distribution across multiple chiller units based on real-time performance data and each unit's operational efficiency, delivering up to 30% reduction in electricity consumption - translating to $100K-$1M+ in annual savings per site - while maintaining optimal comfort levels. Thermal energy storage (TES) can be integrated to increase efficiency.