Aerosol Behavior Analysis
Using advanced simulation tools like ANSYS Fluent and OpenFOAM, ARE Labs Inc. specializes in modeling particle dynamics to track aerosol trajectories and dispersion patterns, crucial for evaluating public health risks and environmental impacts. Our work includes:
Conducting environmental impact assessments to examine interactions between aerosols and factors like wind, temperature, and humidity.
Optimizing HVAC systems to mitigate pollution.
Improving air circulation in key facilities such as hospitals and schools.
Developing strategies to prevent airborne diseases.
Our aerosol dispersion studies
provide essential public health insights. By converting complex CFD data into clear visualizations, we help sectors from pharmaceuticals to urban planning make informed decisions. At ARE Labs, we merge technical expertise with practical solutions to tackle aerosol-related challenges in modern industries.
Surface Interaction Studies
ARE Labs Inc. explores how aerosol particles interact with various surfaces, providing insights crucial for sectors like healthcare, manufacturing, and materials engineering. We use advanced Computational Fluid Dynamics (CFD) alongside high-resolution imaging and spectroscopy to simulate and validate these interactions at a microscopic level. Our services include:
Analyzing adhesion and deposition behaviors of aerosols.
Evaluating surface coatings that reduce particle adherence or neutralize harmful aerosols.
Conducting material resistance studies against corrosive or reactive particles.
These insights support the automotive industry in developing improved air filters and surface treatments, and assist healthcare facilities in designing surfaces that minimize pathogen retention and enhance cleanability.
At ARE Labs, we merge scientific precision with practical application to help industries address aerosol challenges effectively and innovatively.
Particle Dynamics on Air Filters
Our advanced Computational Fluid Dynamics (CFD) capabilities enable us to conduct in-depth particle dynamics studies specifically tailored to air filter performance. Utilizing the latest simulation technologies, we analyze filter efficiency, investigating how different designs and materials capture aerosol particles under varied environmental conditions.
Analyzes filter efficiency for different designs and materials.
Measures pressure drops to balance airflow efficiency and filtration effectiveness.
Predicts performance before prototype testing.
Informs the development for all flow systems to maintain optimal functionality over time.
This analytical approach is critical for industries such as automotive and residential HVAC systems.
Particle Tracking, Velocimetry, CFD and Particle Flow Path Line Investigations
ARE Labs Inc. is a leader in Particle Tracking, Velocimetry, Computational Fluid Dynamics (CFD), and Particle Flow Path Lines Investigations. These services are essential for analyzing and optimizing the motion of particles ejected by devices such as fire extinguishers, aerosol spray cans, and nebulizers.
Services Overview:
Particle Tracking: We employ advanced imaging to track individual particle trajectories, helping understand their behavior and environmental interactions.
Velocimetry: Our precision instruments measure particle speed and direction, offering detailed insights into particle motion dynamics.
CFD for Particle Motion: We use sophisticated simulations to predict particle behavior under various flow conditions, enhancing our understanding of particle-fluid interactions, dispersion patterns, and flow dynamics.
Flow Path Lines: We map particle flow paths to provide a comprehensive view of movement patterns.
Our investigations deliver crucial data that improve product design and performance while ensuring safety. We assess particle dispersion in fire extinguishers, analyze spray patterns in aerosol cans, and optimize medication delivery in nebulizers. Through meticulous analysis and cutting-edge technology, ARE Labs provides precise and reliable results for particle motion studies.
