MIMOS Autonomous Chiller Control & Energy Efficiency (Mi-ACE) is an intelligent system that enables chillers to maximise efficiency, saving 12 to 20% of a chiller plant’s total energy consumption. Mi-ACE’s algorithm analyses data from all sensors and devices installed at strategic locations in a building to determine the optimum performance needed for chiller efficiency while ensuring occupants stay comfortable. Mi-ACE is hardware-light and non-intrusive to existing systems
FEATURES
Genetic Algorithm (GA)
The Mi-ACE system is designed to acquire real-time psychrometric data. It uses a Genetic Algorithm (GA) to derive its own unique dynamic thermal control algorithm.
Fuzzy Logic Control Algorithm
Mi-ACE with a Fuzzy Logic Control algorithm, can optimise and manage the building/facility’s chiller load matching the dynamic changes in heat gains throughout operation.
Real-time Heat Transfer Monitoring
Mi-ACE monitors heat transfer, and chiller heat gain and heat rejection. This enables a desired indoor temperature with +/-2% accuracy of set point temperature.
State-of-the-art IoT, Cloud and Big Data Analytics
Mi-ACE deploys state-of-the-art IoT for data gathering, an on-cloud energy dashboard, and multidimensional data readings.
Technology Benefits
The main impacts of Mi-ACE are:
Increase Electricity Bill Savings
Mi-ACE enables an estimated reduction in electricity bill charges between 12 to 20% from the current chiller system.
Enhance Asset Life Expectancy
The system prolongs chiller life expectancy by enabling soft start and stop.Digital Maintenance System
Computerised Maintenance Management System (CMMS) provides real-time data on the current condition of chillers and pumps, cooling tower, air handling unit (AHU) and valves.Optimum Building Climate Control
An optimum temperature is maintained in a building at all times. This ensures that occupants do not feel too cold or warm throughout the day.
Minimise Carbon Footprint
Mi-ACE enables chillers to run at optimal efficiency at all times minimising the greenhouse effect and leading to a reduction in noise and emission.