Process and apparatus for recovering ammonia

Details Process and apparatus for recovering ammonia Process and apparatus for recovering ammonia

1999-10-07

2001-07-17

Spitzer, Robert H. (Department: 1724)

Gas separation: processes

Solid sorption

Including reduction of pressure

C095S106000, C095S115000, C095S128000, C096S130000, C096S146000

Reexamination Certificate

active

06261345

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a process and an apparatus for recovering ammonia. More particularly, the present invention pertains to a process and an apparatus for efficiently recovering ammonia from a large amount of a gas containing ammonia with a high concentration.
2. Description of the Related Arts
Ammonia is widely used not only as a raw material for chemical industries but also for the formation of a nitride film in the production of ornaments, carbide tools and semiconductors. After being used, the remaining ammonia is converted into a low-value substance or a valueless substance, which is subjected to an exhaust gas treatment, or exhausted in part into the atmosphere without being treated. In addition a large amount of useful ammonia is exhausted on occasion depending upon the step in which ammonia is used. For example, in the production of a compound semiconductor such as a gallium nitride film, most of ammonia is exhausted as such from a compound semiconductor manufacturing unit without causing any reaction at a high concentration. Such being the case, a great expense is required for a harm-removing treatment of ammonia. Thus the recovery of ammonia is eagerly desired from the viewpoints of both the environmental science and the effective utilization thereof as a valuable resource. In such circumstances, the present invention provides a process and an apparatus for efficiently recovering ammonia.
An ammonia-containing exhaust gas generated after the use of ammonia has heretofore been seldom recovered as such in usable form of ammonia, since ammonia is a relatively inexpensive compound. Instead, the ammonia-containing exhaust gas has been subjected in many cases to exhaust gas treatment by a method in which ammonia is removed, ammonia is made harmless or the like so as to discard said exhaust gas.
There have been known as a process for treating ammonia-containing exhaust gas, a combustion treatment process, a wet absorption process, a dry adsorption process, a decomposition treatment process, a combinational process of decomposition and dry adsorption and the like. However, the above-mentioned processes involve such problems as described hereunder.
The combustion treatment process suffers from the defect that a fuel such as propane is necessary for combustion treatment, the applicable range of a combustion unit is narrow for load variation, and nitrogen oxides are by-produced accompanying the combustion of ammonia. The wet absorption process in which an acidic aqueous solution is employed suffers from the disadvantage that the by-produced ammonium salt is difficult to dispose of. The dry adsorption process in which ammonia is made harmless by chemical adsorption suffers from the drawback that the use of an expensive adsorbent causes a high treatment cost in the case of treating a large amount of ammonia-containing exhaust gas.
On the other hand, the decomposition treatment process in which ammonia is decomposed into nitrogen and hydrogen by bringing ammonia into contact with an ammonia decomposition catalyst under heating can not completely decompose ammonia, since a part thereof remains undecomposed on the basis of chemical equilibrium. There is also known a combinational process of decomposition and dry adsorption in which ammonia is decomposed into nitrogen and hydrogen by bringing ammonia into contact with an ammonia decomposition catalyst under heating, followed by cleaning of the undecomposed ammonia by the use of a dry adsorbent. Nevertheless, said process suffers from the shortcoming that the use of an expensive adsorbent causes a high treatment cost in the case of treating a large amount of ammonia-containing exhaust gas.
As described hereinbefore, any of the above-mentioned processes for treating ammonia as the exhaust gas is each defective, and besides is not intended to recover ammonia as a useful substance. That is to say, the basic problem remains unsolved in that a useful substance as a raw material for chemical industries or semiconductor manufacturing is converted unfavorably into a valueless or low-value substance at a considerable cost.
On one hand, there is employed a large amount of highly pure ammonia in the production of a nitride film semiconductor and the like. In this case, however, most of ammonia is exhausted as such without causing any reaction at a high concentration and further in a large amount, and therefore it is disadvantageous to apply any of the foregoing processes to the treatment of the ammonia-containing exhaust gas.
An efficient recovery of the ammonia thus used, if made possible, can favorably contribute to not only the effective utilization of a resource but also environmental preservation. However, there is not yet proposed a process for efficiently recovering the ammonia.
SUMMARY OF THE INVENTION
A general object of the present invention is to develop and provide a process and an apparatus for efficiently recovering ammonia from a large amount of a gas containing ammonia with a high concentration.
Under such circumstances, intensive extensive research and investigation were accumulated by the present inventors in order to achieve the above-mentioned object. As a result, it has been found that ammonia contained in an ammonia-containing gas can be efficiently captured through adsorption by passing the aforesaid gas through adsorption tubes which are packed inside with an adsorbent such as synthetic zeolite or activated carbon and which are cooled by passing a heat transfer medium through the outside of the adsorption tubes, and also that the ammonia thus captured through adsorption can be collected in high yield within a short period of time by desorbing the ammonia under reduced pressure, while heating with a heat transfer medium, the inside of the adsorption tubes wherein ammonia has been adsorbed onto the adsorbent. The present invention has been accomplished by the foregoing findings and information.
Specifically, the present invention relates to a process for recovering ammonia which comprises installing at least one shell and multi-tube adsorber which is equipped with a plurality of adsorption tubes each packed inside with an ammonia adsorbent and equipped with a flow mechanism for a heat transfer medium for performing heat exchange through said adsorption tubes, passing an ammonia-containing gas through said adsorption tubes, while cooling the inside of said adsorption tubes with a heat transfer medium so as to capture the ammonia contained in said gas through adsorption, and thereafter collecting the captured ammonia through desorption, while heating the inside of said adsorption tubes with a heat transfer medium under reduced pressure.
The present invention pertains also to an apparatus for recovering ammonia which comprises at least one shell and multi-tube adsorber which is equipped with a plurality of adsorption tubes packed inside with an ammonia adsorbent and equipped with a flow mechanism for a heat transfer medium for performing heat exchange through said adsorption tubes, and a pump for evacuating the inside of said adsorption tubes of the adsorber at reduced pressure, said apparatus having such constitution that is capable of passing an ammonia-containing gas through said adsorption tubes, while cooling the inside of said adsorption tubes with a heat transfer medium so as to capture the ammonia contained in said gas through adsorption, and thereafter collecting the captured ammonia through desorption, while heating the inside of said adsorption tubes with a heat transfer medium under reduced pressure.
The present invention is further concerned with a process and an apparatus for efficiently recovering ammonia in high yield within a short period of time that are each characterized by its capability of preventing the deterioration of adsorption performance due to the temperature rise of the adsorbent owing to the heat of adsorption, by forcibly and efficiently cooling the adsorbent through the heat exchange with a heat transfer medium. In addition, sa

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