Chemistry of inorganic compounds – Modifying or removing component of normally gaseous mixture
Reexamination Certificate
2002-04-29
2004-01-06
Silverman, Stanley S. (Department: 1754)
Chemistry of inorganic compounds
Modifying or removing component of normally gaseous mixture
C423S245300, C588S253000, C588S253000, C588S253000
Reexamination Certificate
active
06673325
ABSTRACT:
FIELD OF THE INVENTION
The present invention is directed to a process for the treatment by incineration of ventilation air or waste gases (hereinafter called only “waste gases”) containing toxic or odorous fumes of condensable organic compounds in the form of an aerosol of liquid particles.
More specifically, the invention is directed to a process of the above type, whereby high levels of destruction of the pollutants are achieved with an improved heat recovery and a substantial reduction in the amount of fouling of the equipment used to carry out the process.
BACKGROUND OF THE INVENTION
In order protect health and environment, it is necessary to eliminate toxic gases and undesirable odourous fumes from the waste gases released from many manufacturing processes, before their discharge to the environment.
A well known process for removing organic impurities present in waste gases consists in processing the fumes through a heating system to achieve total oxidation of the pollutants in a regenerative thermal oxidation system. U.S. Pat. Nos. 3,870,474 and 4,470,806 disclose examples of such systems, which basically comprise a plurality of heat accumulation chambers, called “regenerators”, each containing a suitable packing material such as ceramic spheres or nodules, and a combustion chamber connected to the regenerators and in which oxidation of the impurities is carried out.
The known process has the following cycle of operation.
In a first period of time, the waste gas to be treated is forced to flow through one of the regenerators (hereinafter called “first regenerator”) where it is heated by contact with the packing material that is contained therein and has previously been heated. Then, the waste gas is forced to flow through the combustion chamber where total oxidation of the fumes takes place. The hot combustion gas generated within the combustion chamber is directed to another one of the regenerators (hereinafter called “second generator) to heat the packing material contained in it, prior to being exhausted to the atmosphere.
In a second period of time, the waste gas is directed through the second regenerator where it is heated, then through the combustion chamber and then back through the first regenerator, in which it is cooled prior to being exhausted. Heat losses are compensated by injection of auxiliary fuel or combustion products from a burner in the combustion chamber.
The above steps are repeated in the very same order to provide continuous flow and treatment of the waste gas through the system, together with a recovery of a substantial amount of the heat contained in said waste gas after oxidation thereof in the combustion of chamber.
Whenever necessary, a third regenerator may be added to purge any waste gas remaining in one or the other of the first and second regenerators, after the period where the waste gas is heated therein and prior to the introduction of hot combustion gas therein.
The above regenerative oxidation process has been used with success for the treatment of waste gases containing volatile organic compounds as gaseous components, like those produced during the preparation, application and drying of organic solvent-based coatings.
However, a number of problems arise when the process as described herein above is applied to the treatment of waste gases containing condensable organic compounds in the form of an aerosol of liquid particles, like those produced by the impregnation of roofing felts with asphalt base coatings. When treating such waste gases by this process, liquid particles are carried into the regenerators and deposited as a liquid film on the inside surfaces of the ducts and packing material contained in the regenerators. Upon reversal of the flow in a regenerator, the soiled surfaces are heated by contact with the hot combustion gas, thereby causing some of the liquid deposits to evaporate and contaminate the otherwise cleaned gas, which causes a substantial reduction in the destruction efficiency of the process. In addition, any portion of the liquid deposits which are not evaporated, remains on the inside surfaces of the ducts and packing material and accumulates during subsequent cycles, thereby causing a runoff of excess liquid in the gas plenums of the regenerators and an increase in the contamination of the exhaust gas. Furthermore, the liquid deposits are slowly distilled in contact with the hot gas, thereby leaving tarry substances on the packing material and the inside surfaces of the regenerators as well as on the valves and ducts. These deposits have been found to impair the operation of the process and, when allowed to accumulate, to ignite and cause severe overheating and damage to mechanical parts of the equipment.
Presently, it is of common practice to periodically remove the deposits by a “bake-out” procedure at elevated temperature which requires interruption of the normal operation of the process for an appreciable period of time, as well as the participation of skilled maintenance labor, and which also involves serious risks of overheating and damage to the equipment.
Various processes have so far been proposed and tested to reduce the costs and risks associated with the treatment of organic aerosol in waste gases, as outlined above:
A first one of these proposed processes consists in removing by filtration the liquid particles contained in the waste gases prior to their introduction into the regenerators. Such a method requires costly equipment, causes high gas pressure losses and generates considerable operating and maintenance costs.
Another process consists in purging the regenerators with a heated stream of the clean gas during each operating cycle. This process which is disclosed and claimed in U.S. Pat. No. 6,183,707 in the name of the same Applicant, has been found to improve the destruction efficiency of the process by evaporation of some of the lighter fractions of the liquid deposits. However, with this process, the heavier fractions of the deposits remain and accumulate, thereby causing a progressive blockage of the open areas in the packing, with a reduction in the flow and exchange of heat in the regenerators. Thus, the heavier fractions of the deposits still have to be removed at regular intervals by the costly “baking-out” procedure as outlined herein above. In addition, heating of the purging stream requires auxiliary fuel, in addition to the heat recovered in the regenerators or from combustion of the volatile organics in the waste gases. In fact, much of the heat content in the waste organics is lost during the bake-out of the deposits.
SUMMARY OF THE INVENTION
The object of the present invention is to provide an improved regenerative thermal oxidation process for treating a waste containing condensable organic compounds in the form of an aerosol of liquid particles, in order to achieve virtually complete destruction of the organic compounds, a high thermal efficiency, an increased availability of the equipment used to carry out the processes and an elimination of the risks of damage due to over heating.
In accordance with the invention, it has been found that the above mentioned process may efficiently be used for the treatment of a waste gas containing organic compounds in the form of an aerosol of condensed liquid particles in equilibrium with a vapor phase, provided that the waste gas is preheated prior to its introduction in the regenerators in such a manner as to evaporate all the liquid droplets of the aerosol into a vapor phase. Such a preheating is best achieved by mixing the waste gas with a stream of the purified gas which is recycled from the process and suitably heated for this purpose.
In a first preferred embodiment of the invention, the recycled stream of purified is heated by mixing it with a stream of gases drawn from the combustion chamber.
In another preferred embodiment of the invention, the recycled stream of purified gas is heated by mixing it with a stream of hot combustion gases coming from a fuel burner partly or wholly fed with combustible liquid separated as liquid
Biothermica Technologies Inc.
Medina Maribel
Robic
Silverman Stanley S.
LandOfFree
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