When you build a slender structure it is important to take notice of the oscillation that can occur. Flow Engineering is a specialist in preventing dynamic problems at the design phase of any structure. They advise engineering firms, construction firms and other designers about the need of a Tuned Mass Damper or other damping solutions. By looking at drawings and other data of the planned structure, a plan is made to reduce the vibrations as much as possible. This is a good solution to prevent dynamic problems of the structure caused by strong winds, earthquakes and other natural phenomenon’s that can occur.
A Tuned Mass Damper ensures slender constructions in any weather condition
Earthquakes, strong winds and other natural phenomenon’s can endanger slender structures. It is important to reduce oscillation in slender structures in for example flares, stacks, chimneys and bridges. How to make them less oscillating? A well manufactured Tuned Mass Damper by Flow Engineering is what you need. Flow Engineering is specialized in manufacturing, installing and maintaining damper systems for various projects. Even existing structures that are oscillating can be provided with a Tuned Mass Damper for better stabilization in many weather conditions. Flow Engineering is a Dutch manufacturer that provides quality combined with great service.
Different structures benefit from a Tuned Mass Damper
There are many different structures that benefit from using a Tune Mass Damper.Bridges, chimneys, flares and stacks are a few examples of structures that are exposed to many different weather conditions. Strong wind, earthquakes and vortex shedding cause a lot of damage to those structures. With a high quality Tuned Mass Pamper made by Flow Engineering your slender structure is guaranteed of a solid system that reduces oscillation. This specialist is able to advise you when designing a new structure, provide solutions for exiting structures and manufacture an entire Tuned Mass Damper system. Are you building a slender structure? Choose Flow Engineering.