Computer Aided Design (CAD)
Our CAD services provide specialized support in the development, design, and manufacture of filters, dust collectors, and industrial fans for air pollution control systems. We assist you in modeling highly detailed 3D CAD models of complex components, including filter housings, dust collector parts, filter media, support structures, and industrial fans such as centrifugal and axial fans. Our precision-driven approach ensures that every component of your system is designed to meet your exact specifications, enhancing the overall performance and reliability of your air filtration and ventilation systems.
For industrial fans, we apply our expertise to create detailed models that account for critical aspects like airflow, pressure, and material stress. Whether you require fans for heavy-duty industrial applications or more precise models for specialized systems, our team ensures that all fan components are designed for optimal performance and efficiency. From fan blades and rotors to housings and shafts, every part is modeled to provide maximum airflow while minimizing energy consumption and noise.
Our technical drawings provide clear and detailed dimension sheets or production drawings, ensuring that each component is fully understood and ready for manufacturing. These drawings include all necessary dimensions, material specifications, and assembly instructions, allowing for a smooth transition from design to production. Our focus on accuracy and completeness guarantees that all essential information for production, assembly, and quality control is included, reducing errors and improving system integration.
We offer our CAD services in both English and French as standard, and we can also provide support in additional languages upon request. For the exchange of CAD data, we work with a variety of file formats, ensuring smooth integration with your existing systems and enabling collaboration with your engineering teams, regardless of the software they use.
Whether you're designing new filters, dust collectors, or industrial fans, or optimizing existing systems, our CAD services ensure that every component is built for durability, efficiency, and high performance. With our advanced CAD capabilities, we help you create reliable filtration solutions and industrial fans that meet the highest standards of air quality and energy efficiency.
Finite Element Method (FEM)
The Finite Element Method (FEM) allows for a detailed and precise analysis of the structure and dynamics of your industrial fan systems. Our experienced engineering team uses the latest simulation software to optimize the performance, strength, and reliability of your equipment. With FEM, we can model complex physical phenomena such as stress, strain, vibration, and thermal behavior within your fan systems, allowing us to predict their behavior under real-world conditions.
FEM plays a crucial role in ensuring that your fan systems are designed to perform efficiently, safely, and reliably. By simulating various operating conditions and external forces, we can identify potential weaknesses, optimize designs, and validate system integrity before production or installation. This helps you avoid costly errors, reduce maintenance, and increase the overall lifespan of your equipment.
Our FEM services are not just about improving performance; they’re about enhancing the durability and efficiency of your systems. Whether you're developing new fans or optimizing existing ones, our FEM simulations give you the insights necessary to make informed decisions that lead to better results.
Computational Fluid Dynamics (CFD)
Computational Fluid Dynamics (CFD) is a powerful tool that allows for detailed analysis and optimization of the flow dynamics within your fan systems and air pollution control systems. Our experienced engineering team utilizes advanced simulation software to maximize the performance, efficiency, and reliability of your systems. We provide numerical flow simulations to calculate and optimize installations, whether they are manufactured by us or third-party suppliers.
Through CFD, we can simulate a wide range of systems, from electrostatic precipitators and bag filters to venturi scrubbers, complete gas duct systems, and industrial fans. We tailor our analysis to meet the specific needs of each project. Our process begins with recalculating the geometry of your existing systems. By simulating the flow dynamics around and through the equipment, we assess critical parameters such as velocity, pressure losses, and flow patterns. This helps us identify inefficiencies and areas for improvement, enhancing the overall system performance.
In addition to recalculating existing geometries, we also focus on the optimization of fan geometry. Using CFD simulations, we can redesign or adapt components such as fan blades, inlets, outlets, and ducts to maximize flow performance. We analyze and compare different design variants to find the most efficient configurations, which reduce energy consumption and improve operational reliability.
With our years of experience and state-of-the-art simulation software, we understand the critical factors involved in optimizing airflow and improving system performance. After conducting CFD analyses, we provide detailed reports outlining potential optimizations and can implement these changes ourselves, ensuring a seamless transition from analysis to implementation. Whether it's a simple optimization or a complete redesign, we help you achieve the highest level of performance and efficiency for your fan and dedusting systems.
