An operational energy model is indeed a valuable energy analysis tool used in the field of building and plant design and management. This model allows us to comprehensively represent the energy consumption and efficiency of a building or facility, including its service engineering and process systems.
Operational energy models are powerful tools that enable organizations to understand, optimize, and manage the energy consumption of their buildings and facilities. Using these models, industrial companies can make informed decisions to reduce energy costs, minimize environmental impact, and meet their sustainability objectives.
Let us explore its primary advantages for our clients:
➡ Performance Analysis: These models allow for a detailed analysis of energy usage over time. This includes identifying peak usage periods, inefficiencies, and areas where energy-saving measures can be implemented.
➡ Energy Map Representation: Operational energy models provide a visual representation or map of how energy is used within a building or plant. This map breaks down energy consumption by various components, systems, and processes.
🏭 Inclusion of Service Engineering: These models consider all aspects of the building or facility, including HVAC (Heating, Ventilation, and Air Conditioning) systems, lighting, electrical systems, and other services that are essential for the building's operation.
➡ Process Systems Integration: In industrial settings or facilities with specific processes, operational energy models can integrate and analyze the energy usage of these process systems. This is crucial for optimizing energy consumption in manufacturing or industrial environments.
♻ Energy Efficiency Improvements: By using operational energy models, building and facility managers can identify opportunities for energy efficiency improvements. This can lead to reduced operational costs and a lower environmental footprint.