Simulation & Modelling

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Data Centre Simulation & Modeling

 DCiCON’s Simulation and Modelling team was established to find the answer to a number of reoccurring engineering challenges that many of our international clients were encountering..

Complete Simulation & Analysis

Developed from the success of using similar processes and modelling techniques within our data centre projects, our Critical Infrastructure team assisted clients in wider aspects of their critical operations.

Air and fluid flow characteristics can become extremely unpredictable once they combine with temperature fluctuations and other external factors. The implications caused by these types of dynamic flows can create a chaotic environment that, if unchecked, can have detrimental effects on commercial and industrial operations.

By deploying these advanced simulation and computational modelling techniques based on real data, we can identify and even predict potential issues before they happen.

The benefits of such analysis can help reduce costs by improving energy efficiency and even extending the operational life of critical equipment.

 

Technics

Point Cloud Technology involves capturing and processing large sets of data points in three-dimensional space, often obtained through LiDAR scanning or photogrammetry.

Point Cloud Technology

Computational Fluid Dynamics (CFD) is a powerful simulation technique used to analyze the flow of air and heat transfer within data center environments. By solving complex equations governing fluid flow and heat transfer, CFD software can predict temperature distributions, airflow patterns, and thermal performance within data centers.

Computational Fluid Dynamics

3D Modeling is essential for creating virtual representations of data center layouts, equipment, and infrastructure. Advanced 3D modeling software allows engineers to design and visualize various configurations, experiment with different placement strategies for servers and cooling equipment, and identify potential design flaws or inefficiencies before construction begins.

3D Modelling

By iteratively analyzing different design parameters, such as airflow patterns, equipment placement, and cooling system configurations, engineers can identify optimal solutions that maximize energy efficiency, minimize operating costs, and enhance overall reliability.

Design Optimization