Our areas of expertise
Regulatory measures
Our customers have several obligations in terms of acoustics: we intervene to qualify their impact at property limits and in the vicinity of their site, as well as to measure the noise or vibration exposure of their personnel.
Acoustic engineering
Our acousticians carry out impact studies and acoustic assessments to evaluate noise emissions and design solutions to ensure compliance with acoustic standards, improve sound quality or reduce noise.
Vibration engineering
Sim Engineering specializes in vibration analysis to improve the performance and safety of industrial equipment. Thanks to our expertise, we identify and solve noise and vibration problems, ensuring greater operational efficiency and a more comfortable working environment.
Pipe and machine networks
SIM Engineering has historically developed specific expertise in all pulsating, vibratory and mechanical problems encountered in piping networks, as well as in reciprocating and rotary compressors.
Environmental surveillance and monitoring
Environmental monitoring and surveillance represent a strategic lever for controlling your sites in real time.
Related services
From regulatory measurements, essential to guarantee compliance and protect people, toacoustic engineering, focused on modeling, impact studies and sound optimization, we cover the full range of issues associated with complex noise environments.
Vibration engineering enables us to analyze and control the dynamic behavior of structures and equipment in order to prevent fatigue failures and secure plant performance. The Piping Systems and Machinery Division deals specifically with the interactions between pulsation, vibration, thermal expansion and mechanical stress, notably in the context of API standards. Last but not least, the Environmental Monitoring Division continuously monitors noise, vibration and atmospheric levels to manage risks and anticipate any regulatory overruns.
By combining these complementary areas of expertise, SIM Engineering offers an integrated approach, based on measurement, simulation and advanced analysis, to provide reliable, consistent and sustainable solutions at every stage of the project lifecycle.