EnviroHub Trashform SLU
EnviroHub Trashform SLU
CFD = Computational Fluid Dynamics Simulation
DES = Dynamic Energy Simulation.
With computer simulation. It is possible to mobilise the right ventilation for each area by reducing the volumes of air to be moved. Reducing losses due to inefficiencies or design assumptions that are affected by unpredictable events. Interior enclosures are improved and optimised to reduce cross-contamination and unwanted recirculation.
CFD studies the actual behaviour of the air while DES studies the influence over time of the environment, solar radiation and operating transients on the energy demand of the building.
3D modelling and analysis
In the first stage, a preliminary analysis of the ventilation and renovation system in the waste treatment plant is carried out. Relevant data is collected, such as dimensions of the areas, locations of air inlets and outlets, and ventilation requirements. A detailed 3D model of the plant is then created, including all relevant elements of the ventilation and renovation system.
Simulation of air and gas flows by CFD and DES
In the second stage, a computer simulation of the air and gas flows in the plant is carried out using Computational Fluid Dynamics (CFD) and Discrete Event Simulation (DES) techniques. CFD allows to analyse the actual behaviour of the air in the different areas of the plant, while DES evaluates the influence over time of the environment, solar radiation and operating transients on the energy demand of the building. These simulations help to identify inefficiencies and design assumptions that are affected by unpredictable events.
Energy optimisation and improvements to the ventilation system
In the third stage, the results of the simulations are used to propose improvements to the ventilation and renovation system, with the aim of optimising energy consumption. This includes adjusting the appropriate ventilation to each area, reducing the volumes of air to be moved, improving and optimising interior enclosures to reduce cross-contamination and unwanted recirculation. These improvements, based on accurate data and comprehensive analysis, allow for increased energy efficiency and environmental quality at the waste treatment plant.
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