Furnaces – Combined
Reexamination Certificate
2001-04-16
2002-06-11
Ciric, Ljiljana (Department: 3743)
Furnaces
Combined
C110S204000, C110S216000, C110S185000, C110S188000, C062S928000, C423S220000
Reexamination Certificate
active
06401633
ABSTRACT:
BACKGROUND OF THE INVENTION
This invention relates to the combustion of organic waste material, and particularly to a closed cycle combustion of waste material using concentrated oxygen.
Waste materials such as municipal solid waste, waste water treatment sludge, and paper mill sludge, are often treated by incineration. Such waste material contains organic combustible matter and inorganic metal oxides. The organic combustible matter typically provides sufficient thermal energy during combustion to maintain high combustion chamber temperatures without the need for supplemental fuel. The inorganic portion of the waste material is characterized by the presence of some silica (SiO
2
) and other glass forming metal oxides. If a slagging combustor such as a rotary kiln or cyclone furnace is used for combustion, the inorganic portion of the waste material can reach a temperature high enough to melt. The resulting molten material is drained from the combustion chamber as slag.
Conventional incinerators designed to combust organic waste material use air as the oxidizer source. Since almost four-fifths of air is inert gases (primarily nitrogen), a major portion of the air provides no benefits to the combustion process. In fact, the inert gas causes several distinct disadvantages. A first disadvantage is that the combustion flame temperature is lowered, thereby making it difficult to maintain the necessary temperatures to melt the inorganic metal oxides in the waste material. Secondly, the waste gases from the incineration will be contaminated with substantial amounts of nitrogen that results in a large volume of exhaust gases which require further treatment before release into the atmosphere.
It has been proposed to reduce the undesirable effects of nitrogen in the incineration of hazardous waste by introducing concentrated oxygen into the combustion chamber along with recycled exhaust gases. See U.S. Pat. No. 5,309,850 issued May 10, 1994, to Downs, et al.
The present invention also uses concentrated oxygen in a closed cycle to treat non-hazardous waste and to convert the waste material into useful end products.
SUMMARY OF THE INVENTION
In accordance with the invention, the non-hazardous organic waste material is introduced into a slagging combustor where it is burned. The burning produces exhaust gases and a slag of molten, inorganic ash which is removed from the combustor. The exhaust gases are treated to remove a major portion of particulate matter contained therein. A portion of the treated exhaust gases is mixed with a source of concentrated oxygen in a proportion that results in mixed gases having an oxygen concentration of at least 30% by volume. The mixed gases are introduced into the combustor to support the burning of the waste material.
Preferably, the proportion of oxygen in the mixed gases is from about 40% to 50% by volume. The exhaust gases may be cooled and dried before mixing with the concentrated oxygen.
Further in accordance with the invention, a second portion of the treated exhaust gases may be treated to remove the carbon dioxide therefrom. The removed carbon dioxide is preferably converted into a liquid form.
Also in accordance with one embodiment of the invention, a portion of the heat from the exhaust gases is transferred to the mixed gases before the mixed gases are introduced into the combustor.
The invention further comprises apparatus for carrying out the method.
The resulting products of the process of the invention are useful. The liquefied carbon dioxide can be marketed and utilized as a product. The carbon dioxide thus produced would displace carbon dioxide that is currently produced using natural gas or other natural resources thereby conserving on natural resources. The inorganic products in the waste material are vitrified into a highly inert granular material which may be used as a construction material. Conventional waste material incinerators generally produce ash that must be land filled. With the exception of a small amount of non-condensible gas at the exit of the carbon dioxide recovery system, there are no emissions into the air and the environmental impacts are insignificant as compared to conventional incineration processes which have significant emissions.
The foregoing and other objects and advantages of the invention will appear in the detailed description which follows. In the description, reference is made to the accompanying drawings which illustrate a various embodiments of the invention.
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Ciric Ljiljana
Minergy Corporation
Quarles & Brady LLP
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