Our team uses advanced simulations to achieve highest level of occupant comforts with appropriate design solutions, performances of materials.
Our Skills covers wide spectrum of various aspects to maximise performances and achieve highly optimised design solutions.
Energy efficiencies are achieved with detailed level of analysis, understanding the performances of various materials and build ups
Wind Engg and Optimisation
3 phase approaches adopted for facade wind pressures, highest level of optimisation achieved with our independent analysis.
Engg & Optimisation
Advanced engg designs skills & techniques are adopted to achieve cost savings on materials, improve design efficiency yet robust solutions
BES offers Wind Engineerng services for Architectural and Building sector using Computational Fluid Dynamics (CFD) techniques. Similar technologies widely being used in Automobile and Aerospace industries. This advanced technics has helped BES in delivering fully integrated and Highly optimised design solutions for Architectural and Building problems. Wind engineering studies shall be applied to Architectural design at micro or micro level ranging from various stages covering masterplan level to building layouts and designs.
BES has implemented this skills on several high rise facades, achieved optimised and economical design solutions.
Building Performance Analysis
BES uses state of the art design tools and implement cutting edge technologies to enhance, optimise and stretch the wind engineering design boundaries, these will greatly help our clients and projects. These are advanced design studies helps the efficient and cost effective designs to overall improve the building efficiency and occupants comforts.
- Wind Simulations
- Ventilation Studies
- Rain penetrations
Better Understanding of Wind and Rain
Multi phase CFD simulation completed by BES to study the rain water penetration through an ventilation (louvred) opening. This has help the architect to verify the ventilation opening of the lift corridor, the simulation helped the team otherwise it requires expensive laboratory testing.
Project : Normanton Park Condominium, Singapore
BES scope : Study and quantify rain penetration through the lift corridor of a residential apartments and recommend the shape and profile of Louvre ventilations. The results has helped the architect to finalise the common spaces such as lift corridor to be designed as naturally ventilated spaces yet protect from the rain water penetrations.
Study has been done in compliance with Singapore Green Mark (BCA) guidances. We have advanced simulation skills to that will help to attain higher level of sustainable design / green mark ratings,
Daylight Simulations to Optimise Natural Lights
BES team work on advanced simulations tools, techniques in order to optimise natural daylights, achieve energy efficiency, thermal comforts and arrive appropriate glazing designs and glass specifications. Performances are arrived based on detailed analysis and verifications, not just working on thumb rules or assumptions
We understand nature challenges better
Understand the power of nature and enhance design skills. Designers and Engineers need to visualize challenges to make designs better.