| Design, Implementation, Evaluation of an Up-to-Date Low Swirl Burner |
| Paper ID : 1033-IUGRC6 |
| Authors |
|
Omnia Ahmed Aly *1, Omneya Ahmed hamed2, Dina Mahmoud Hassan3, Amani Samir Farag4, Elaf Moataz Sayed4, Seif Hazem Mohammed4 1Mechanical Power Department, Faculty of Engineering, Helwan university, Mattria Branch, Cairo, Egypt 2Mechanical Power Department, Faculty of Engineering,Helwan University Mattria Branch, Cairo, Egypt 3Mechanical Power Department, Faculty of Engineering, Helwan University Mattria Branch, Cairo, Egypt 4Mechanical Power Department, Faculty of Engineering, Helwan University Mattriya Branch, Cairo, Egypt |
| Abstract |
| In recent years, combustion projects have taken a new concern which prioritizes the environmental safety along with keeping the combustion efficiency as high as possible. In the following study, a very modern combustion method is discussed which focuses on obtaining a single-digit level of NOx emissions. This innovative technology system is using a partially premixed lean mixture of fuel and air as well as staging low swirl combustion process. With this configuration, a clean thermal power generation that complies with the worldwide standards of gaseous emissions of nitrogen oxides and carbon monoxide (5ppm) was achieved. The targeted industrial projects are seawater desalination processes - agricultural crop drying processes - steam furnaces and boilers - poultry farms heating operations in addition to air-conditioning operations for factories halls using thermal absorption chiller systems. The proposed burner design can be fueled by natural gas, diesel, biofuel, or syngas from organic wastes, within the national system for solid waste management and align with Egypt’s vision 2030 and its environmental commitments in the 2015 Paris Climate Agreement, according to the “carbon neutral” standard. |
| Keywords |
| Renewable Energy, Low swirl burner, Stratification, Lifted stable flame, NOx emissions |
| Status: Accepted |