Remote HVAC Energy Optimisation – Giving your Buildings a Voice
Introducing EnviroLogik’s Virtual Engineer Remote HVAC Energy Optimisation technology for commercial HVAC systems.
Building optimisation made simple
Our Virtual Engineer is an autonomous solution that enhances commercial HVAC systems, resulting in a healthier indoor environment, increased operational efficiency, and reduced energy consumption.
This advanced technology and data-led solution enhances HVAC system performance, reduces energy consumption, and significantly lowers carbon emissions.
“By having a comprehensive, real-time view of a building or estate’s HVAC performance and optimising it accordingly, we can significantly reduce energy consumption, boost occupant comfort, cut carbon emissions, and positively enhance a building’s overall environmental impact.”
The Virtual Engineer system adapts to the ongoing dynamic heating, ventilation, and cooling needs of a building, processing real-time data to make automatic adjustments.
I.e. if there’s a sudden spike in electricity consumption due to a change in weather condition or temperature control issue, Our Virtual Engineer quickly flags the anomaly and pinpoints its source, allowing remote corrective action to be taken. Advanced algorithms are deployed to automatically balance the systems, maintaining comfort levels whilst ensuring energy savings.
With energy prices continuously changing and a growing urgency to meet net-zero commitments, Our Virtual Engineer offers a cost-effective and scalable solution. Early adopters of our Virtual Engineer have reported substantial monthly energy savings, highlighting its effectiveness in achieving sustainability goals without the need for expensive refurbishments or disrupting day-to-day operations.
Key Features:
- Plug & Play Solution: Connects to your existing HVAC equipment, BMS, and energy supply metering, using stand-alone technology.
- Learning: Uses EnviroLogik’s IoT sensors to gather live indoor environmental and occupancy data, learning your building’s performance and energy consumption profile within 2-3 months.
- Optimising: Utilises advanced machine learning algorithms to optimise your buildings HVAC systems based on subtle changes in outdoor temperature, weather forecasts, and occupancy.
- Reporting: Provides real-time insights into energy consumption via a web-accessed cloud dashboard, allowing you to view, compare, monitor data, set up alerts, and create management reports.
- Improving: Continuously learns and improves algorithms to enhance energy efficiency, cost reductions, and occupant wellbeing over time.
Benefits:
- Stand-alone web based solution
- Real-time data Energy Consumption and Occupancy Data
- Advanced AI HVAC technology
- Improved occupant wellbeing
- 20-30% energy savings
- Reduced carbon footprint
How our Virtual Engineer System Works:
- Connect: On-site installation of our specialist gateway and IoT sensors, which interact with your HVAC systems automatically.
- Extract: Monitors and identifies relevant data, including historical energy consumption, installation manuals, and maintenance reports.
- Analyse: Uses algorithms and tools to find abnormalities and optimization opportunities, comparing performance with industry benchmarks.
- Optimise: Automatically adjusts the optimisation process to fit your building’s characteristics and specific needs, ensuring optimal performance without compromising indoor environment and occupant wellbeing.
Why Ai Building Optimisation Matters:
- Buildings account for ~40% of global energy consumption and ~36% of greenhouse gas emissions.
- HVAC systems typically account for ~39% of a building’s total energy consumption.
- ~75% of buildings in the EU, including the UK, are energy inefficient, leading to significant energy waste.
Case Study:
- Building optimisation across multiple Buildings for CBRE: Reduced energy consumption and improved working environment. Watch the video below.
Contact Us:
- Book a FREE consultation to discuss how to optimise your HVAC system.
EnviroLogik, 1 Kings Avenue, London N21 3NA Tel 0203 916 5158 or
