Radial flow gas phase reactor and method for reducing the...

Chemical apparatus and process disinfecting – deodorizing – preser – Chemical reactor – Waste gas purifier

Reexamination Certificate

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Details

C422S172000, C422S173000, C422S176000, C422S180000, C422S181000

Reexamination Certificate

active

06663839

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
The invention herein relates to a chemical reactor and method for catalytically reducing the content of nitrogen oxide in a gas, particularly flue or stack gas, resulting from the combustion of fuel.
2. Description of the Related Art
The combustion of fuels in various industrial processes often generates undesirable SO oxides of nitrogen (NO
x
) usually in the form of nitric oxide (NO) and nitrogen dioxide (NO
2
). High combustion temperatures tend to produce more NO
x
. Because NO
x
is harmful to the environment, efforts have been made to reduce the emission of NO
x
in gases produced by industrial processes involving the combustion of fuel, particularly gases resulting from the operation of power plants, thermal cracking furnaces, incinerators, internal combustion engines, metallurgical plants, fertilizer plants and chemical plants.
Methods for selectively reducing the NO
x
content of a flue gas are known. Generally, such methods involve the reaction of NO
x
with a reducing agent, optionally in the presence of a catalyst. The selective non-catalytic reduction (“SNCR”) of NO
x
with a reducing agent such as ammonia or urea requires a relatively high temperature, e.g., in the range of from about 1600° F. to about 2100° F.
Alternatively, the reduction of NO
x
with ammonia can be performed catalytically at a much lower temperature, e.g. from about 500° F. to about 950° F., in a process known as selective catalytic reduction (“SCR”).
One problem associated with the treatment of flue gas using conventional SCR methods and apparatus is that the weight and bulk of the equipment necessary to achieve satisfactory removal of NO
x
requires that it be located at ground level. Many industrial plants need to be retrofitted with NO, removal (“deNOx”) equipment in order to meet the requirements of more stringent government regulations. However, because of the physical bulk of the deNOx system, the flue gas must be diverted to ground level for treatment and then sent back into a stack for subsequent exhaust to the atmosphere. To avoid the large cost of such a system it would be highly advantageous to provide a relatively lightweight deNOx unit which can be incorporated directly into the stack.
SUMMARY OF THE INVENTION
In accordance with the present invention, a radial flow gas phase reactor is provided for the chemical conversion of nitrogen oxide in a gas stream and comprises:
a) a shell having interior and exterior surfaces, a gas stream inlet for receiving an inlet gas stream having an initial concentration of nitrogen oxide and a gas stream outlet through which treated gas of reduced nitrogen oxide concentration relative to the nitrogen oxide concentration of the inlet gas stream is discharged;
b) at least one injector for introducing reducing agent into the inlet gas stream;
c) at least one catalyst bed within the shell positioned therein at a location which is approximately at, or downstream of, the injector, the catalyst bed containing at least one nitrogen oxide conversion catalyst for the selective catalytic reduction of nitrogen oxide in the inlet gas stream to produce a treated gas of reduced nitrogen oxide concentration, the catalyst bed having an interior wall defining an axial passageway and an outer wall spaced apart from the interior surface of the reactor shell; and,
d) an inlet gas stream deflector for directing the flow of inlet gas containing reducing agent radially through the catalyst bed, the treated gas emerging from its radial passage through the catalyst bed and exiting from the reactor shell through the gas stream outlet.
The radial flow reactor of this invention provides a relatively lightweight unit for the selective catalytic reduction of NO
x
in a gas, in particular flue gas produced by the combustion of a fossil fuel in a furnace, and is readily incorporated into furnaces equipped with stacks of conventional design, thus lending itself well to retrofit installation in existing units.


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