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The Anguil Direct Fired Thermal Oxidizer (DFTO) thermally destroys Hazardous Air Pollutants (HAPs), Volatile Organic Compounds (VOCs) and odorous emissions often discharged from industrial exhaust stacks or chemical processes.
It is an ideal abatement technology for process streams heavily laden with pollutants or intermittent batch processes where the oxidizer can come on-line relatively quickly. With a flexible and user-friendly design, the Anguil DFTO offers low capital cost with high destruction efficiency and reliable operation.
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Product Overview
Benefits of Anguil’s DFTO
- Multi-stage (MS-DFTO) option available for ultra-low NOx emissions
- Ideal for inert gas streams to keep capital and operating costs low
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Air Flow Range & Efficiency
Air Flow Range
- 100-10,000 SCFM (160.5-16050 Nm3/hr) (In a single system)
Thermal Energy Recovery (TER)
- High stack temperatures make the DFTO a great candidate for heat recovery
Destruction & Removal Efficiency
- 99.9%+
Concentration Range
- Up to 50% LEL as well as fully inert streams
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Ideal Applications
Ideal Applications
- Inert Gases Used as Fuel Sources to minimize abatement equipment sizing
- Ultra Low NOx generation from the combustion of nitrogen bearing compounds with the MS-DFTO
- Low Flow, Infrequent Operation for dilute gas streams with oxygen present
- Intermittent Batch Processing
- High Destruction Efficiency Requirements
- High Concentration Process Streams
- Inert process gas with halogens present
ANGUIL DFTO FEATURES AND DESIGN OPTIONS
Features
- Combustion chamber has high temperature refractory insulation and painted steel weatherproof enclosure for highly concentrated VOC/HAP streams
- Stack oxygen control for inert process streams to minimize auxiliary fuel consumption
- A modulating burner and PLC-based controls maintain proper air temperature
- Properly sized combustion chamber and sufficient internal mixing / turbulence to achieve high destruction efficiencies
- Modular design for system flexibility and further expansion
- Robust Programmable Logic Controller (PLC) based controls with digital data recording, remote telemetry and various configuration options
Options
- Multi-stage configuration for ultra low NOx
- Energy Recovery Solutions for the utilization of waste heat
- Alloy construction for corrosive acid gas environments
- Various burner options include multiple gas fuel inputs (natural gas, hydrogen, propane) and also ultra-low NOx or electric heating elements
- High Temperature Acid Gas Scrubbers with a completely integrated control system
Operating Cost Reduction Strategies
- Heat and energy recovery systems for steam generation or plant heating needs
- Oxidizer Service and Preventive Maintenance Evaluations (PME)
HOW DOES A DFTO WORK?
Sometimes referred to as an afterburner, fume incinerator or enclosed flare, the DFTO uses a specially designed burner to raise the temperature of a pollutant-laden air stream to a predetermined combustion temperature. In operation, the contaminated process exhaust is ducted into a burner chamber. Heat applied by the burner and from VOC exotherm oxidizes the VOCs and HAPs, creating less harmful products of combustion (water and carbon dioxide). The clean, heated exhaust gas can then be discharged to the atmosphere or sent through an optional heat recovery system.
The Anguil DFTO can achieve over 99% hydrocarbon destruction rate efficiency. To accomplish this, the heated air is kept in the combustion chamber for a specified amount of time, called the residence or dwell time. At the inlet to the combustion chamber, turbulence is generated to mix the pollutants and air. Proper mixing of the air and process streams not only provides high destruction efficiencies but also safe operation with well mixed gas streams. An optional burner system is available to burn inert process streams directly in the burner as fuel.
From a small tank vent to the largest of ethanol plant applications, each Anguil DFTO is designed around our customer’s application. Special designs can be provided to handle process streams that contain acids such as carbonic, hydrochloric or sulfuric acid.