GTB
Optimize your energy management with technical building management.
Understanding technical building management
Technical Building Management (BMS) is a centralized system that controls and supervises all technical installations in a building, such as heating, ventilation, air conditioning and lighting. By optimizing these systems, GTB makes it possible to reduce energy consumption, improve occupant comfort and reduce operating costs.
Our expertise in GTB
Analysis and Diagnosis
We start with a thorough assessment of your needs and your
existing facilities. This analysis allows us to design a BMS solution perfectly suited to
your building and your energy objectives.
Design and Installation
Our experts develop a detailed plan and supervise the installation of your BMS system. We integrate the latest technologies to guarantee optimal energy management and maximum efficiency.
Monitoring and Optimization
After installation, we provide continuous monitoring and offer adjustments to optimize the
performance of your GTB. We also train you on how to use the system so you can get the most out of it.
The advantages of
technical building management
Control your energy consumption
Control your energy consumption
With an optimal BMS solution, all technical installations are regulated in order to provide comfort and uses with the minimum energy consumption. This tool makes it easier to operate the building. This results in substantial savings and more rational use of resources.
Improve comfort and productivity
Improve comfort and productivity
BMS makes it possible to automatically regulate heating, ventilation and air conditioning systems based on space occupancy and external conditions. A comfortable environment improves occupant well-being and productivity, while reducing unnecessary energy expenditure.
Transform a constraint into an opportunity
Transform a constraint into an opportunity
Non-residential tertiary buildings must comply with the BACS decree by January 1, 2025 (or 2027 for those over 70 kW), including the installation of a BMS for heating or air conditioning systems exceeding 290 kW. This regulatory obligation becomes an opportunity for energy and financial gains thanks to GTB.
A word from the expert
The importance of GTB in the energy transition
Eric Amsellem
Design Office Director at Enerlis
FAQs
A question?
BMS makes it possible to control and supervise all the technical systems of a building, such as heating, ventilation, air conditioning and lighting. This enables proactive management of energy performance, thereby reducing energy consumption and operating costs. By intelligently automating systems according to real usage needs and temperatures based on external conditions, GTB also optimizes occupant comfort. In addition, GTB helps extend the lifespan of equipment by ensuring preventive maintenance and more efficient management. It also facilitates compliance with current environmental and energy regulations, which is essential for tertiary and industrial buildings.
BMS classes refer to different levels of sophistication and functionality of a BMS system. They vary from class C, offering simple facility management, to class A, integrating advanced technologies for optimal and predictive energy management. Class C is often sufficient for small and medium-sized buildings with moderate energy needs, while classes B and A are more suitable for large buildings with complex energy management and comfort requirements. A Class A BMS can include features such as predictive analytics, proactive maintenance, and the integration of renewable energy sources.
GTB stands for Technical Building Management, while GTC stands for Centralized Technical Management. Initially, the term GTC was used in office buildings 30 or 40 years ago. Today, the term GTB is more commonly used. GTC is limited to the collection of information, while GTB ensures the interoperability of equipment and control with intelligence closer to thermal equipment.