Computational Wind Engineering Solution to Address Wind Engineering Problems
TESOLUTION
was founded in 2001 with the aim of enhancing the safety and serviceability
of various constructions. Using their innovative computational wind engineering
solution and wind vibration
control system, the organisation specializes in wind engineering and
vibration control.
In addition to wind resistance stability tests,
TESolution also conducts wind-induced vibration tests.
These tests evaluate
the dynamic behavior of structures under wind-induced vibrations, which can
affect their long-term performance and occupant comfort. By analyzing and
mitigating wind-induced vibrations, TESolution helps improve the serviceability
and durability of structures, minimizing the potential for structural damage or
discomfort for occupants. By leveraging their computational wind engineering solution
and state-of-the-art wind test facilities, TESolution remains at the forefront
of the industry, delivering innovative solutions for evaluating the
serviceability of structures and ensuring their resistance to wind and
vibration challenges.
TESolution’s Computational Wind Engineering
Solution
Buildings and bridges
can be designed with the computational wind engineering solution from
TESolution to ensure structural integrity and safety against high winds. The
solution makes use of computational analysis approaches to investigate a number
of topics pertaining to wind loads and reactions, such as wind loads and
structural response.
Wind Loads
The solution accurately calculates wind
loads on buildings and bridges, taking into account various factors such as
wind speed, direction, turbulence, and other meteorological parameters. This
comprehensive analysis helps engineers gain a deep understanding of the
magnitude and distribution of wind forces on different components of the
structures.
Structural Response
The computational wind engineering solution
simulates the interaction between the wind and structures, allowing it to
accurately predict the dynamic response of buildings and bridges. This analysis
assists in evaluating the structural behaviour, identifying potential areas of
concern, and optimizing the design to ensure structural integrity under
wind-induced loads.
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If you are
looking for advanced computational wind engineering solution
for wind engineering problems, you can
find it on TESolution.
Click here to contactTESOLUTION
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