Reversed air staging - a method to reduce nitrous oxide emissions from circulating fluidized bed boilers
Paper in proceeding, 1997
Reversed air staging is a method to reduce nitrous oxide (N2O)emissions from circulating fluidized bed boilers (FBBs). Tests in a 12 MW circulating FBB show that the N20 emission can be lowered to one fourth without affecting the emissions of NO,SO2 or CO and without adverse effects on the combustion efficiency. The focus of the paper is on the conditions in the combustion chamber. Measurements inside the combustion chamber reveal how the combustion conditions are affected by reversed air staging compared to normal air staging. These measurements confirm the working principle of reversed air staging, namely to provide more oxidizing conditions in the lower part of the combustion chamber and lower stoichiometry in the upper part of the combustion chamber.
N2O
nitrous oxide emissions
Fluidized bed combustion
Reversed air staging
Author
Anders Lyngfelt
Chalmers, Department of Energy Technology
Lars-Erik Åmand
Chalmers, Department of Energy Technology
Elke Müller
Bo G Leckner
Chalmers, Department of Energy Technology
Proceedings of the 7th International Workshop on Nitrous Oxide Emissions, Cologne, Ber. Bergische Univ. Gesamthochsch. Wuppertal Fachbereich 9 Phys. Chem.
41 75-82
Driving Forces
Sustainable development
Subject Categories
Energy Engineering
Chemical Engineering
Other Environmental Engineering
Areas of Advance
Energy
Infrastructure
Chalmers Power Central