Author :
McQueen, A.T. ; Bortz, S.J. ; Hatch, M.S. ; Leonard, R.L.
Abstract :
Control of NOX emissions from combustion sources has become an important issue in recent years, particularly in the ozone nonattainment areas of California. Cement kilns represent an important source of NOX emissions, and they either have already been regulated or are being considered for future regulations. This paper presents the results of a critical analysis of the state-of-the-art in cement kiln NOX control. A survey of current and anticipated cement kiln NOX regulations, NOX formation mechanisms, and common NOX control technologies (as applied to boilers) is presented. Cement kiln features relating to NOX control, such as a combustion characteristics and temperature and residence time profiles, are outlined. A comparison is made of NOX control technologies applicable to cement kilns; these include combustion modifications, low NOX burners, staged combustion, selective noncatalytic reduction, and selective catalytic reduction. The criteria for comparing these NOX control technologies include the principle of operation, technical feasibility, potential NOX reduction, relative cost, and, most importantly, the potential effects on clinker quality. Finally, conclusions and future directions in cement kiln NOX control are discussed
Keywords :
air pollution; air pollution control; cement industry; combustion; legislation; nitrogen compounds; standards; NO; NOX emissions control; USA; boilers; cement kilns; clinker quality; combustion sources; formation mechanisms; ozone; regulations; residence time; selective catalytic reduction; selective noncatalytic reduction; staged combustion; state-of-the-art; survey; technical feasibility; temperature; Boilers; Cement industry; Combustion; Costs; Fuels; Kilns; Paper technology; Performance analysis; Temperature control; Urban areas;
