-
Enertherm Engineering,
Allia Future Business Centre, London Rd,
Peterborough PE2 8AN - +44 (0) 7949 863 273
- +44 (0) 1733 666 701
- info@enertherm-engineering.com
-
EnerTherm-Engineering.com 2024.
All rights reserved.
The OxiTherm OTO – 300 is a high-capacity thermal oxidiser, designed for medium-scale operations requiring reliable and efficient emission control. With advanced regenerative technology, this system ensures superior performance in managing hazardous gases and VOCs, while delivering excellent energy efficiency.
The OxiTherm OTO – 300 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 18,000 sm³/h, it is perfect for handling higher emission volumes while minimizing energy waste and operational costs.
The OxiTherm OTO – 300 is ideal for:
Yes, thermal oxidisers are designed to handle high-temperature emissions, often exceeding 1,000°C, making them suitable for high-heat industrial processes.
Thermal oxidisers are highly effective for destroying VOCs and HAPs but may be more energy-intensive compared to alternatives like catalytic oxidisers or biofilters.
Typical operating conditions range from 760°C to 1,200°C, with carefully controlled oxygen levels to ensure complete combustion of pollutants.
Efficiency is gauged through emission testing, consistent temperature maintenance, and monitoring airflow to ensure the system is functioning optimally.
Regulatory requirements differ by region but typically include limits on VOC and HAP emissions, as well as adherence to environmental safety standards set by agencies like the EPA or local authorities.
Yes, thermal oxidisers can be retrofitted to improve efficiency or to comply with new environmental regulations.
Safety measures include proper ventilation, regular inspections, emergency shutdown systems, and thorough training for operators handling high-temperature equipment.
Some thermal oxidisers are equipped with energy recovery systems that capture excess heat, which can be reused for other processes, improving overall energy efficiency.
Yes, many thermal oxidisers are designed to accommodate variable emission loads and can adjust their operating conditions accordingly to ensure efficient pollutant destruction.
Costs include fuel or energy consumption, maintenance, emission monitoring, and potential retrofitting or upgrades to meet regulatory standards. Energy recovery systems can help offset operational costs.
Contact us today to explore solutions in an industrial environment—we’re here to assist you in reaching your net zero goals!
Whether you need more information about our products, services, or sustainable practices, we’re just a message away.
We provide innovative engineering solutions that enhance efficiency, reduce costs, and support sustainable growth across various industries.
