Pw. Groff et Bk. Gullett, INDUSTRIAL BOILER RETROFIT FOR NOX CONTROL - COMBINED SELECTIVE NONCATALYTIC REDUCTION AND SELECTIVE CATALYTIC REDUCTION, Environmental progress, 16(2), 1997, pp. 116-120
A 590 kW (2 MMBtu/hr), oil-fired, three-pass, fire-tube package boiler
was retrofit with a combined selective noncatalytic reduction (SNCR)
and selective catalytic reduction (SCR) system and demonstrated 85% ni
trogen oxide (NOx) reduction with less than 6 ppm ammonia slip A urea-
based SNCR solution was injected in the first pass, reducing NOx and p
roviding ammonia reagent for the SCR. A catalyst housing was designed
to fit between the second and third passes, where the access doors of
the boiler normally attach. The SCR catalyst volume of 0.04 m(3) (1.5
ft(3)) provided a space velocity of 10,000 hr(-1) at a pressure drop o
f less than 1.5 cm (0.5 in) of water. Numerous runs demonstrated syste
m repeatability and ease of operation. Continued tests using an on-lin
e ammonia monitor, an on-line reagent flow meter, and a different fuel
were conducted to show sustained performance and applicability.