2Magnussen B F. On the structure of turbulence and a generalized eddy dissipation concept for chemical reaction in tur- bulent flow[ C]. 19th AIAA Meeting, St. Louis,1981.
3Rota R, Antos D, Zanoelo E F, et al. Experimental and modeling analysis of the NOx OUT process [ J 1. Chemical Engi- neering Science,2002,57( 1 ) :27 - 38.
4Koebel M,Strutz E. Thermal and hydrolytic decompo- sition of urea for automotive selective catalytic reduction sys- tems: thermochemical and practical aspects [ J ]. Industrial and Engineering Chemistry Research, 2003,42 ( 10 ) : 2093 - 2100.
5Brouwer J, Heap M P. A model for prediction of selec- tive noncatalytic reduction of nitrogen oxides by ammonia, urea, and cyanuric acid with mixing limitations in the presence of CO [ C]. Twenty - sixth Symposium (International) on Combustion/ the Combustion Institute, Pittsburgh, Pennsylvania, USA, 1996.
6Zhou H, Jensen A D, Glarborg P, et al. Numerical modeling of straw combustion in a fixed bed [ J ]. Fuel,2005,84 (4) :389 -403.
7Richard K Lyon. Method for the reduction of theconcentration of NO in combustion effluents using ammonia[P]. US, 3900554. 1975.
8Hou Xiangsong (侯祥松). Experimental study on NO andNO removal in CFB boiler [ D ]. Beijing; TsinghuaUniversity, 2007.
9Oliva M,Alzueta M U, Millera A,Bilbao R. Theoreticalstudy of the influence of mixing in the SNCR process.Comparison with pilot scale data [ J ]. ChemicalEngineering Science , 2000,55 (22) ; 5321-5332.
10Lee Gang-Woo,Shon Byung-Hyun, Jung Jong-Hyeon, ChoiWon-Joon,Oh Kwang-Joon. Effect of mixing on NOremoval in the selective noncatalytic reduction reactionprocess [J]. Journal of Material Cycles and WasteManagement 2010 12 (3) : 204-211.