Designed for complete automatic operation of the entire Burner System, the S&J 97310T Enclosed Flare and Touch Screen Control Panel is specifically designed to operate efficiently with low BTU anaerobic digester waste gases. The S&J 97310T Enclosed Burner removes harmful emissions from waste gas streams. Typical applications include fermentation off gas piping systems such as anaerobic digesters. This unit is specifically designed to bring emissions levels to within allowable limits as dictated by customer requirements or governmental bodies such as the EPA.
Every unit is designed for maximum destruction efficiency for each application’s process parameters. Provides very low NOX and CO emissions. Key data, such as gas stream composition and flow rates, are used to determine the appropriate residence time of the waste gas inside the stack. This is critical to both the reliability of the emissions removal as well as the efficiency of operation.
Components of construction include carbon steel or stainless steel for stack, pedestal, base, pilot piping and manifold as specified.
The Automatic Ignition System accepts a remote contact or signal from a pressure sensor to initiate ignition sequences. Advanced pilot design include UV sensor for positive flame proofing. Pilot System includes pilot pressure regulators and shut-off valves as specified.
The S&J 97310T can be configured with any combination of measuring instruments for complete recording and reporting. Flexible operation is achieved through innovative software and hardware design. Convertible manways for ease of maintenance and inspection.
Paired with a touch screen control panel, the flare controller is designed for complete automatic operation of the entire Flare System. Shand & Jurs’ Flare System gives the operator much more flexibility in controlling the system with more parameters easily configured via the touch screen control panel. The Control Panel can also be connected to a local PLC.
The S&J 97310T withstands the severest of process environments including high wind loading and seismic conditions as specified.