A Low-NOx High-DRE Burner for Co-firing Liquid Waste with Natural Gas

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A Low-NO~ High-DRE Burner for Co-firing Liquid Waste with Natural Gas Blake E. Stapper* and Thomas P. Nelson Radian Corporation, 8501 N. Mopac, Austin, TX 78759 Ronald D. Bell Petrocon Technologies, Inc, 3105 Executive Blvd., Beaumont, TX 77705 S. Peter Barone Gas Research Institute, 8600 West Bryn Mawr Ave., Chicago, IL 60631 ABSTRACT The regulatory pressures aimed at providing a clean environment are leading to stringent emission requirements for operators of combustion equipment. In some applications, such as waste liquid incineration, the purpose of the regulations are at odds with each other. For instance, the higher flame temperatures that are required to achieve high destruction efficiency generally produce NOx emissions that are significantly higher than baseline. To address this problem, the Gas Research Institute has, in conjunction with Radian Corporation and Petrocon Technologies, Inc., developed a 10w-NOx, high-destruction efficiency burner for co-firing liquid waste with natural gas. A prototype of the burner, which utilizes a radiant tube to enhance destruction efficiency and fuel/air staging to minimize NOx formation was evaluated at the John Zink test facility in Tulsa, OK. The burner was fired at 25 MMBtuIhr, of which 10 MMBtuIhr was natural gas and 15 MMBtuIhr was a simulated waste fuel oil, spiked with ethyl benzene. A Zink lIPS™ dual-fuel burner was tested at the same c,onditions to provide a baseline for a typical waste-fired burner. The GRI burner demonstrated NOx emissions that were 20 to 30 percent lower than the lIPS burner, with a destruction efficiency of the ethyl benzene in excess of 99.99 percent. The purpose of this paper is to document these test results. *Corresponding Author 1