High-Efficiency Blowers and Cyclones

TSM Control Systems is a leading provider of material unloading solutions, and our blowers and cyclones play a critical role in this process. Built with precision and using advanced technology, these components ensure efficient movement and separation of materials, helping to enhance the overall efficiency and performance of your operations.


  • Efficiency: Our blowers provide high air flow rates, which ensures efficient material transport, while our cyclones utilize vortex separation for effective material separation.

  • Reliability: Engineered for continuous operation, our blowers and cyclones deliver reliable performance, minimizing downtime and enhancing productivity.

  • Versatility: Our blowers and cyclones can handle a wide range of materials and are customizable to meet specific operational needs.

  • Durability: Constructed with robust materials, our blowers and cyclones are designed to withstand demanding operational conditions, ensuring long-lasting performance.


  • High Performance: Our blowers are designed to provide high air flow rates, ensuring swift and efficient material transport.
  • Continuous Operation: Built for continuous operation, our blowers provide the reliability that your operations require.
  • Customizable: Our blowers can be customized to handle a wide range of materials, ensuring they meet your specific needs.


  • Effective Separation: Utilizing the principle of vortex separation, our cyclones effectively separate materials from air, gas, or liquid streams.
  • Precision Engineered: Each of our cyclones is precisely engineered for optimal performance, ensuring efficient material separation.
  • Durable Construction: With their robust construction, our cyclones are built to withstand the most demanding operational conditions.

TSM Patented Mixing Technology

Find out more about TSM’s Unloading Systems

Contact us today to learn more about our high-efficiency blowers and cyclones and discover how they can enhance your material unloading processes.