Services

Thermal Analysis and Heat Transfer

At Slidian, we specialize in the analysis, calculation, and optimization of thermal systems and any industrial or engineering application where temperature is a critical design parameter.

Using advanced CFD simulation technology, we perform detailed studies of heat transfer mechanisms, including conduction, convection, and radiation. This allows us to ensure that the heat generated within a system is dissipated efficiently and that operating temperatures remain within the limits established by applicable standards and project specifications.

Our simulations enable us to evaluate the overall thermal performance of facilities and equipment, anticipate issues such as overheating, thermal accumulation, and energy losses, and validate technical solutions before implementation. This reduces operational risks, optimizes costs, and improves design reliability from the earliest project stages.

What Can Thermal CFD Simulation Achieve?

Our simulations provide critical insights that cannot be obtained through conventional calculations alone:

✔ Predict overheating and thermal accumulation issues
✔ Detect hidden energy losses
✔ Validate technical solutions before construction
✔ Reduce operational risks and cost overruns
✔ Optimize designs from the earliest development stages

All supported by quantitative data and clear visualizations that facilitate technical decision-making and project validation with clients and contractors.

Thermal Dissipation in Rooms and Enclosed Spaces

For thermal analysis of rooms, infrastructures, and industrial facilities, we accurately define all relevant thermal loads, including internal heat sources, operating equipment, and external heat gains.

We model existing or proposed systems such as:

Ventilation systems

HVAC systems

Heat extraction systems

Passive and active cooling solutions

CFD simulations provide complete temperature and heat-flow fields throughout the study domain, allowing us to:

Identify critical heat accumulation areas

Detect maximum and minimum temperature peaks

Analyze different operating conditions and load scenarios

Evaluate the actual efficiency of cooling and heat dissipation systems

This approach delivers a detailed thermal distribution of the facility, supporting informed engineering decisions while ensuring compliance with project thermal requirements with a high degree of accuracy and reliability.