Industrial natural ventilation

In industrial facilities with large heat sources, such as glass and steel plants, natural ventilation uses the heat gains from the production process itself to create sufficient motive power.

Ventilation of a plant containing furnaces operating at the extremely high temperatures required for glass production is a major technical problem. Even the best insulated furnaces give off large amounts of heat inside the facility, resulting in very high heat gains to the indoor air.

Every building, including glassworks, is assigned a critical temperature which, if exceeded, can damage the structure, especially the roof, where heat gains are greatest. Any excess heat which could bring the temperature to critical levels which could cause deformation or fire if grease has been deposited over time. On the other hand thermal comfort must be maintained at optimum levels for workstations, or acceptable levels for temporary intervention zones (above furnaces, for example). To do this, air must be released into the atmosphere to ensure the continuous operation of the system.

Sizing of static natural ventilation aerators

We are studying the principle of the neutral pressure plane in order to optimize natural ventilation.

Ventilation naturelle 1 - simulation cfd

ventilation naturelle 2 - simulation cfd

Puits de ventilation naturelle 1 - simulation cfd

Puits de ventilation naturelle 2 - simulation cfd

Automatic natural ventilation

Modern natural ventilation systems operate automatically on both air extraction ventilators and air supply dampers. In this way, a specific temperature is maintained under the roof and the pressure is minimized . pressure on the first floor of the building. The principle of minimizing negative pressure requires a sufficiently large number of air inlets.

Optimization of operator comfort

Natural ventilation is often associated with the thermo-aerodynamic discomfort of the operators because it is rarely controlled.

Pollutant extraction

Air quality air quality is important for employee health and safety. Invisible pollutants such as carbon monoxide, fumes toxic to traffic. And other harmful chemicals can cause health problems. As well as lower organizational productivity.

CFD modeling is a versatile tool for solving engineering problems related to the analysis of the propagation of various impurities and particles in air. CFD modeling can reproduce the movement of air, taking into account heat and mass transfer, the transfer of gaseous impurities and their dispersion, and the transfer of mechanical particles in suspension.

Industries : on the same subject

Sizing static aerators

EOLIOS optimizes the sizing of your static aerators thanks to its expertise in CFD simulation and calculation.

Find out more

Smoke audit

EOLIOS performs an assessment of your systems, measures indoor temperature conditions and characterizes thermal and aeraulic conditions.

Find out more

Production hall

EOLIOS brings its expertise in high-precision calculation and CFD simulation to optimize your production hall.

Find out more

Glassware

Find out more

Fine dust study

EOLIOS has the expertise you need to deal with the performance and health problems caused by fine dust.

Find out more

Industries

Laboratories

Expertise

Projects

Expertise

Projects

Expertise

Projects

Expertise

Projects

Expertise

Projects

Expertise

Projects

Expertise

Projects

Industrial natural ventilation