The OxiTherm OTO-500 is an advanced thermal oxidiser designed to provide efficient and reliable emission control solutions for various industrial applications. By effectively managing hazardous gases and volatile organic compounds (VOCs), it ensures compliance with environmental regulations while optimizing energy usage.
The OxiTherm OTO – 500 is engineered for industries needing efficient emission management with greater capacity. Leveraging over 20 years of expertise in thermal oxidiser design, this system combines robust construction, versatile fuel options, and advanced controls to ensure optimal performance. With a volume flow of 30,000 sm³/h, it is perfect for handling higher emission volumes while minimizing energy waste and operational costs.
The OxiTherm OTO – 300 is ideal for:
Thermal oxidisers are widely used in industries such as chemical manufacturing, pharmaceuticals, food processing, paint and coating, petrochemicals, and printing.
Depending on the design, a thermal oxidiser typically takes 15 to 60 minutes to reach its optimal operating temperature.
Most thermal oxidisers achieve a destruction efficiency of 95% to 99.9%, effectively reducing harmful pollutants to safe levels.
Thermal oxidisers are primarily designed for VOCs and gaseous pollutants. Particulate matter may require a pre-filter or scrubber before entering the oxidiser.
Components such as refractory linings and burner assemblies typically have a lifespan of 5 to 10 years, depending on usage and maintenance.
Yes, thermal oxidisers are often designed for hazardous environments, with safety systems in place to handle explosive or toxic gases safely.
Frequent system downtime can lead to incomplete combustion or buildup of residue, so regular maintenance is essential to avoid performance degradation.
Emissions monitoring usually includes measuring CO2, NOx, and VOC levels to ensure compliance with environmental regulations.
Noise levels from thermal oxidisers are typically minimal, but soundproofing or noise reduction systems can be implemented if needed.
Space requirements vary based on the size and capacity of the system, but it’s important to account for ventilation, maintenance access, and safety clearances when planning installation.