Patent Publication Number: US-4225381-A

Title: Method for removing odor from fluid

Description:
The present invention relates to a method for removing odor from fluids such as liquid, gas or a mixture thereof, and more particularly, it relates to a method for biological deodorization of fluids containing malodorous substances derived from sulfur compounds. 
     Bad odor substances derived from sulfur compounds (or malodorous sulfur compounds) such as hydrogen sulfide, methyl mercaptan, dimethyl sulfide, dimethyl disulfide, thiophene and the like are generated in, for instance, pulp and paper industry mills, petroleum industry plants, sewage treatment plants and plants for treating fish wastes, such as fish bones and entrails. Such malodorous sulfur compounds have been heretofore discharged into waste waters and the open air. However, these malodorous sulfur compounds cause serious unpleasant odor problems for residents in the local area. Recently, in order to prevent such air pollution, various processes for removing bad odors from fluid effluents have been developed and have been used in unpleasant odor generating sources. 
     Processes for removing odors from fluids can be typically divided into two groups, that is, physico-chemical processes and biological processes. The process for removing odors from fluids according to the present invention belongs to the latter group. In the conventional biological processes for deodorizing or decomposing malodorous sulfur compounds, there are only known those in which sulfur bacteria are used (see Japanese Patent Laid-Open Applications Nos. 50-69278/75 and 51-63554/76) and in which bacteria, genus Pseudomonas are used (see &#34;Petroleum Fermentation&#34;, edited by Petroleum Fermentation Society, p490, published on Sept. 1, 1970, Saiwai Shobo, Tokyo, Japan). 
     The object of the present invention is to provide a novel method for biologically removing odors from fluids containing malodorous sulfur compounds. 
     Other objects and advantages of the present invention will become clear from the following description. 
     In accordance with the present invention, there is provided a method for removing odors from fluids containing malodorous substances derived from sulfur compounds comprising the step of contacting the fluid with fungi. 
     The inventors have diligently studied micro-organisms which are capable of removing malodorous sulfur compounds from fluid containing the same. As a result of their studies, the inventors have found that numerous strains of fungi which are isolated from the natural environment by using a conventional technique can effectively remove malodorous sulfur compounds from fluid containing the same. 
     Typical examples of the fungi used in the present invention are Cephalosporium, such as Cephalosporium sp. FERM-P No. 3976 (which has been deposited in the Fermentation Research Institute, Inage, Chiba-ken, Japan; all the numbers hereinafter recited refer to the numbers of this Institute) and Cephalosporium sp. FERM-P No. 3977; Paecilomyces, such as Penicillium sp. FERM-P No. 3978 (although this micro-organism has been deposited as Penicillium, it is clarified as Paecilomyces by the identification after the deposition); Penicillium, such as Penicillium sp. FERM-P No. 3979; Aspergillus, such as Aspergillus sp. FERM-P No. 3980; Mucor, such as Mucor sp. FERM-P No. 3981, and; Trichoderma, such as Trichoderma sp. FERM-P No. 3982. Morphological characteristics of these fungi, and aspects of growth and colors of the fungi on various plate cultures are shown in Table 1 below. The growth temperature of the plate cultures was 30° C. 
     
                                           TABLE 1-1                               
__________________________________________________________________________
         Cephalosporium sp.                                               
                         Cephalosporium sp.                               
Strain  FERM-P No. 3976 FERM-P No. 3977                                   
__________________________________________________________________________
Morphological                                                             
        Hyphae septate, Conidiophores                                     
                        Hyphae sparsely septate.                          
characteristics                                                           
        arise as side branches of                                         
                        Aerial hyphae floccose,                           
        aerial hyphae, errect, tapering,                                  
                        predominantly funiculose                          
        20-70 × 2-3 μ. Conidia ellipti-                          
                        with conidiophores arising                        
        cal, 5-11 × 2-3 μ.                                       
                        as short side branches,                           
                        15-27 × 2-4 μ. Conidia el-               
                        liptical, 6-9 × 2-3 μ.                   
Aspect of                                                                 
        Colonies spreading, moderate-                                     
                        Colonies spreading, moderate-                     
growth charac-                                                            
        growing, umbonate, floccose                                       
                        growing, convex, at first                         
teristics on                                                              
        aerial phypae, at first white,                                    
                        white, later becoming pinkish                     
plate agar                                                                
        later becoming brownish white.                                    
                        white.                                            
Malt extract                                                              
        (G) moderate    (G) moderate or scanty                            
agar    (CO) white → brownish white                                
                        (CO) white → pinkish white                 
        (CR) white or pale reddish                                        
                        (CR) pinkish white - purplish                     
        yellow → pale reddish                                      
                        red                                               
        yellow or light brown                                             
        (SP) dull yellow red                                              
                        (SP) none                                         
Potato dex-                                                               
        (G) moderate    (G) moderate                                      
trose agar                                                                
        (CO) white → brownish white                                
                        (CO) white → pinkish white                 
        (CR) white or yellowish white -                                   
                        (CR) white → dark brown purple             
        pale yellow red                                                   
        (SP) dull yellow red                                              
                        (SP) dark brown purple                            
Czapek&#39;s agar                                                             
        (G) moderate or scanty                                            
                        (G) moderate or scanty                            
        (CO) white → brownish white                                
                        (CO) white                                        
        (CR) white or light brownish                                      
                        (CR) white → pale yellow red               
        gray → pale yellow brown                                   
                        or bluish black                                   
        or dark brown                                                     
        (SP) dull yellow red                                              
                        (SP) dull red                                     
Sabouraud agar                                                            
        (G) moderate    (G) moderate                                      
        (CO) white → pinkish white or                              
                        (CO) white → pinkish white                 
        brownish white                                                    
        (CR) white → purplish red                                  
                        (CR) pinkish white → pale                  
                        yellow red or dull red                            
        (SP) pale purplish red                                            
                        (SP) pale yellow brown                            
Oatmeal agar                                                              
        (G) moderate    (G) moderate or scanty                            
        (CO) white → brownish white                                
                        (CO) white → pinkish white                 
        (CR) white → pale yellow red                               
                        (CR) white → grayish red purple            
        (SP) dull yellow red                                              
                        (SP) grayish red purple                           
Synthetic agar                                                            
        (G) moderate    (G) moderate                                      
for mucor                                                                 
        (CO) white      (CO) white → yellowish white               
        (CR) white → pale yellow or                                
                        (CR) white → yellow gray or                
        reddish yellow  light reddish yellow                              
        (SP) pale yellow                                                  
                        (SP) pale yellow                                  
YpSs agar                                                                 
        (G) moderate    (G) moderate                                      
        (CO) white → brownish white                                
                        (CO) white                                        
        (CR) pale reddish yellow →                                 
                        (CR) yellowish white → pale                
        pale brown or brown purple                                        
                        yellow red or dark red                            
                        purple                                            
                        (SP) dull red                                     
Yeast sucrose                                                             
        (G) moderate    (G) moderate                                      
agar    (CO) white → brownish white                                
                        (CO) white → purplish white                
        (CR) pale reddish yellow → dull                            
                        (CR) pale yellow red → dark                
        yellow red or brown purple                                        
                        brown purpose                                     
        (SR) dull yellow red                                              
                        (SP) light purplish gray                          
__________________________________________________________________________
 (Atten.)                                                                 
 (G) Growth                                                               
 (CO) Color of colony                                                     
 (CR) Color of colony reverse                                             
 (SP) Soluble pigment into substratum                                     
 
    
     
                                           TABLE 1-2                               
__________________________________________________________________________
         Penicillium sp.  Pencillium sp.                                  
Strain  FERM-P No. 3978  FERM-P No. 3979                                  
__________________________________________________________________________
Morphological                                                             
        Conidiophores arise from aerial                                   
                         Aerial hyphae hyalin, septate,                   
characteristics                                                           
        hyphae, generally short. The                                      
                         Conidiophores somewhat roughen-                  
        conidial fructification is in                                     
                         ed, penicilli asymmetrica.                       
        two stages, the branches of the                                   
                         Conidia elliptical to sub-                       
        conidiophore bearing a terminal                                   
                         globose, 2 × 2.5 μ.                     
        verticil of divergent metulae,                                    
        with divergent phialides.                                         
        Conidial chains long, el-                                         
        liptical, smooth, 2.5 × 5 μ.                             
Aspect of                                                                 
        Colonies spreading, convex                                        
                         Colonies slowly spreading, very                  
growth charac-                                                            
        floccose aerial hyphae, becom-                                    
                         closely floccose almost                          
teristics on                                                              
        ing powdery when mature, at                                       
                         velvety, white at first, becom-                  
plate agar                                                                
        first white later becoming light                                  
                         ing pinkish gray.                                
        olive.                                                            
Malt extract                                                              
        (G) abundant     (G) moderate                                     
agar    (CO) yellowish white → light                               
                         (CO) white → pinkish gray                 
        olive                                                             
        (CR) yellowish white → dark                                
                         (CR) yellowish white - pale                      
        olive            yellow or pale pink                              
        (SP) none        (SP) none                                        
Potato dex-                                                               
        (G) abundant     (G) moderate                                     
trose agar                                                                
        (CO) yellowish white → light                               
                         (CO) white →  pinkish gray                
        olive                                                             
        (CR) yellowish white → dark                                
                         (CR) white → pinkish white or             
        yellow brown     pale yellow red                                  
        (SP) none        (SP) none                                        
Czapak&#39;s agar                                                             
        (G) moderate     (G) moderate                                     
        (CO) white → light olive                                   
                         (CO) white → pale red purple              
        (CR) white → dark yellow brown                             
                         (CR) white → grayish red purple           
        or yellow                                                         
        (SP) light brownish gray                                          
                         (SP) grayish red purple                          
Sabouraud agar                                                            
        (G) abundant     (G) moderate                                     
        (CO) yellowish white → light                               
                         (CO) white → pale red purple              
        olive                                                             
        (CR) yellowish white → dark                                
                         (CR) yellowish white → yellow             
        yellow brown     brown                                            
        (SP) grayish yellow green                                         
                         (SP) pale yellow                                 
Oatmeal agar                                                              
        (G) moderate     (G) moderate                                     
        (CO) white → light olive                                   
                         (CO) white → pale pink                    
        (CR) white → olive green                                   
                         (CR) white → pale pink                    
        or yellowish white                                                
                         (SP) none                                        
        (SP) light brownish gray                                          
Synthetic agar                                                            
        (G) abundant     (G) moderate                                     
for Mucor                                                                 
        (CO) white → light olive                                   
                         (CO) white → pinkish gray                 
        (CR) white → dark yellow brown                             
                         (CR) white →  pale pink                   
        (SP) none        (SP) none                                        
YpSs agar                                                                 
        (G) abundant     (G) moderate                                     
        (CO) white → light olive                                   
                         (CO) white → dark reddish gray            
        (CR) yellowish white → yellow                              
                         (CR) white → pale yellow red              
        or yellow brown  or light reddish purple                          
        (SP) grayish yellow green                                         
                         (SP) none                                        
Yeast sucrose                                                             
        (G) abundant     (G) moderate                                     
agar    (CO) white → light olive                                   
                         (CO) white → pinkish gray                 
        (CR) yellowish white → yellow                              
                         (CR) white → pale pink or                 
        brown            pinkish gray                                     
        (SP) light brownish gray                                          
                         (SP) none                                        
__________________________________________________________________________
 (Atten.)                                                                 
 (G) Growth                                                               
 (CO) Color of colony                                                     
 (CR) Color of colony reverse                                             
 (SP) Soluble pigment into substratum                                     
 
    
     
                                           TABLE 1-3                               
__________________________________________________________________________
         Aspergillus sp.                                                  
                         Mucor sp.                                        
Strain  FERM-P No. 3980 FERM-P No. 3981                                   
__________________________________________________________________________
Morphological                                                             
        Conidial heads mostly                                             
                        Turf short, up to 4 mm, in height.                
characteristics                                                           
        globose, others somewhat                                          
                        Sporangiophores usually sym-                      
        loosely radiate. Conidio-                                         
                        podially branched. Sporangia                      
        phores arise mostly from                                          
                        usually 30-50 μ in diameter.                   
        aerial hyphae, roughened.                                         
                        Columellae elliptical, 20 μ long,              
        Vesicles almost globose,                                          
                        spores elliptical 3 × 5 μ.               
        10-15 μ in diameter.                                           
                        Chlamydospores present, 20-40 μ                
        Phialides 7-8 × 2.5 μ, in a                              
                        in diameter.                                      
        single series. Conidia al-                                        
        most globose, smooth, mostly                                      
        3-4 μ.                                                         
Aspect of                                                                 
        Colonies spreading, generally                                     
                        Colonies spreading, generally                     
growth charac-                                                            
        abundant growing, convex, at                                      
                        abundant growing, convex,                         
teristics on                                                              
        first white, later becoming                                       
                        yellowish gray. Sporulation on                    
plate agar                                                                
        olive.          Czapek&#39;s and oatmeal agar scanty.                 
Malt extract                                                              
        (G) abundant    (G) abundant                                      
agar    (CO) white or yellow green →                               
                        (CO) pale yellow brown → yellowish         
        dark greenish yellow                                              
                        gray                                              
        (CR) pale yellow → pale yellow                             
                        (CR) pale yellow or yellow → pale          
        brown           yellow red                                        
        (SR) none       (SP) none                                         
Potato dex-                                                               
        (G) abundant    (G) abundant                                      
trose agar                                                                
        (CO) white or yellow green →                               
                        (CO) pale yellow → yellowish gray          
        dark greenish yellow                                              
        (CR) yellowish white → pale                                
                        (CR) pale yellow → pale yellow red         
        olive                                                             
        (SP) pale yellow red                                              
                        (SP) none                                         
Czapek&#39;s agar                                                             
        (G) abundant    (G) moderate or scanty                            
        (CO) white → light olive                                   
                        (CO) white → pale yellow                   
        (CR) yellowish white → pale                                
                        (CR) white → pale yellow                   
        reddish yellow or                                                 
        yellow brown                                                      
        (SP) pale reddish yellow                                          
                        (SP) none                                         
Sabouraud agar                                                            
        (G) moderate    (G) abundant                                      
        (CO) white → dark greenish                                 
                        (CO) pale yellow → yellowish gray          
        yellow                                                            
        (CR) white → pale yellow                                   
                        (CR) pale yellow or yellow →               
        green           reddish yellow or yellow                          
                        brown                                             
        (SP) pale yellow red                                              
                        (SP) none                                         
Oatmeal agar                                                              
        (G) moderate    (G) moderate                                      
        (CO) white - dark greenish                                        
                        (CO) white → yellowish white               
        yellow                                                            
        (CR) white - pale yellow green                                    
                        (CR) white                                        
        (SP) pale yellow red                                              
                        (SP) none                                         
Synthetic agar                                                            
        (G) abundant    (G) abundant                                      
for  Mucor                                                                
        (CO) white or yellow green →                               
                        (CO) pale yellow → yellowish gray          
        dark yellow green                                                 
        (CR) yellowish white → pale                                
                        (CR) yellowish white or yellow →           
        yellow green    reddish yellow                                    
        (SP) none       (SP) none                                         
YpSs agar                                                                 
        (G) abundant    (G) abundant                                      
        (CO) white or yellow green →                               
                        (CO) pale yellow → yellowish gray          
        dark yellow green                                                 
        (CR) yellowish white → pale                                
                        (CR) pale yellow → yellowish gray          
        yellow green or light                                             
                        or pale yellow red                                
        reddish yellow                                                    
        (SP) none       (SP) none                                         
Yeast sucrose                                                             
        (G) abundant    (G) abundant                                      
agar    (CO) white or dark yellow                                         
                        (CO) pale yellow → yellowish gray          
        green → olive                                              
        (CR) pale yellow brown → light                             
                        (CR) pale yellow → pale reddish            
        olive           yellow or brown                                   
        (SP) pale yellow red                                              
                        (SP) none                                         
__________________________________________________________________________
 (Atten.)                                                                 
 (G) Growth                                                               
 (CO) Color of colony                                                     
 (CR) Color of colony reverse                                             
 (SP) Soluble pigment into substratum                                     
 
    
     
                       TABLE 1-4                                                   
______________________________________                                    
             Trichoderma sp.                                              
Strain      FERM-P No. 3982                                               
______________________________________                                    
Morphological                                                             
            Hyphae septate. Conidiophores arise as                        
characteristics                                                           
            short branches of aerial hyphae, branch-                      
            ing usually opposite, not swollen at the                      
            apex, up to 60 μ in height. Conidia                        
            almost globose, smooth 3-4 μ.                              
Aspect of   Colonies spreading, generally abundant                        
growth charac-                                                            
            growing, flat, at first white, later                          
teristics on                                                              
            becoming dark bluish green.                                   
plate agar                                                                
Malt extract                                                              
            (G) abundant                                                  
agar        (CO) white → dark bluish green                         
            (CR) yellow → pale yellow red                          
            (SP) reddish yellow                                           
Potato dex- (G) abundant                                                  
trose agar  (CO) white → dark bluish green                         
            (CR) pale yellow → brown                               
            (SP) yellow red                                               
Czapek&#39;s agar                                                             
            (G) moderate or scanty                                        
            (CO) white → dark bluish green                         
            (CR) white → pale green                                
            (SP) none                                                     
Sabouraud agar                                                            
            (G) abundant                                                  
            (CO) white → pale yellow brown                         
            (CR) pale yellow red → yellowish brown                 
            (SP) pale yellow                                              
Oatmeal agar                                                              
            (G) abundant or moderate                                      
            (CO) white → dark bluish green                         
            (CR) white → yellow brown                              
            (SP) pale yellow                                              
Synthetic agar                                                            
            (G) abundant                                                  
for Mucor   (CO) white → white or dark yellow green                
            (CR) white or pale yellow → light reddish              
            yellow                                                        
            (SP) light reddish yellow                                     
YpSs agar   (G) abundant                                                  
            (CO) white → dark bluish green                         
            (CR) white → pale yellow                               
            (SP) yellowish gray                                           
Yeast sucrose                                                             
            (G) abundant                                                  
agar        (CO) white → dark bluish green                         
            (CR) yellow → pale yellow brown                        
            (SP) dark yellow                                              
______________________________________                                    
 (Atten.)                                                                 
 (G) Growth                                                               
 (CO) Color of colony                                                     
 (CR) Color of colony reverse                                             
 (SP) Soluble pigment into substratum                                     
 
    
     Based on the following literature and the results listed in Table 1, it was confirmed that each isolated strain belongs to the stated genus. The literatures are: Mycologia 58, p351-361(1966), R. S. Sukapure et al; K. B. Raper and C. Thom &#34;A Manual of the Penicillia&#34; (1949); C. Thom and K. B. Raper &#34;A Manual of the Aspergilli&#34; (1945); H. Zycha &#34;Kryptogamenflora der Mark Brandenburg Pilze II Mucorineae&#34; (1935), and; J. C. Gilman &#34;A Manual of Soil Fungi&#34; (1957). Both of the above-mentioned Cephalosporium sp. FERM-P No. 3976 and FERM-P No. 3977 belong to genus Cephalosporium. However, Cephalosporium sp. FERM-P No. 3976 is clearly different from Cephalosporium sp. FERM-P No. 3977, because the conidiophores of the former are longer than those of the latter and, also, because the aerial hyphae of the former become funiculose. 
    
    
     The present invention will be better understood from the description set forth below with reference to the accompanying drawings, but is by no means limited to those drawings. In the drawings: 
     FIGS. 1 through 3 are schematic drawings illustrating the typical embodiments of the method of the present invention in which fluids containing malodorous sulfur compounds are biologically deodorized by using fungi. 
    
    
     The fungi mentioned hereinabove can be used alone or in any combination thereof. A fungus which is capable of remarkably decomposing certain malodorous sulfur compound or compounds can be conveniently used in combination with another fungus which is capable of remarkably decomposing another malodorous sulfur compound or compounds. 
     As shown in FIG. 1, a fluid containing malodorous sulfur compounds is batchwise treated in a cultivation vessel 1 provided with an agitator 3. Charged into the vessel 1 are cells of the above-mentioned fungus, and nutrients, such as glucose, waste molasses, methanol; NH 4  NO 3 , (NH 4 ) 2  SO 4 , KNO 3 , urea, pepton; corn steep liquor and the like, and a fluid to be deodorized is added into the system. When the fluid is a liquid, it is added into the vessel 1, and the fluid and the fungus are placed in contact with each other under agitation, while oxygen (or air) contained in a gas holder 2 is blown into the liquid in the vessel 1, by means of a suitable blower. The gas in the vapor zone in the vessel is returned to the gas holder and recirculated into the liquid in the vessel 1. Thus, the malodorous sulfur compounds contained in both liquid and vapor zone are decomposed. When a fluid is a gas, it is charged into the gas holder 2 together with oxygen (or air). The gas contained in the gas holder 2 is blown into the liquid in the vessel 1 which contains the fungus and the necessary nutrients. Thus, the malodorous sulfur compounds contained in the gas to be treated are decomposed by contact with the fungus. 
     As shown in FIG. 2, a fluid containing malodorous sulfur compounds can be also treated in, for example, trickling filters. A liquid containing malodorous sulfur compounds is fed to the top of a first trickling filter 4 through a liquid feed pipe 6, whereas oxygen or air is blown into the bottom of the first trickling filter 4 through a gas feed pipe 9. The first trickling filter 4 comprises a filtering medium 10, such as blast furnace slags, wood chips, plastic packings and the like. The filtering medium 10 is pre-treated with a culture medium containing a strain of the above-mentioned fungus and the necessary nutrients, whereby the culture medium is previously fixed to the filtering medium. Thus, the malodorous sulfur compounds contained in the liquid are decomposed by the fungus under an aeration condition. The treated liquid is then fed, via a pump 7, to a second trickling filter 5 provided with a filtering medium 11, which is also pre-treated with a culture medium containing the fungus and the necessary nutrients. The second trickling filter 5 is similar to the first trickling filter 4. The liquid is purified in the second tricling filter 5 in the same way as in the first tricling filter 4. The treated liquid is discharged from a liquid discharge pipe 8 and returned to the liquid feed pipe 6 by means of, for example, a suitable pump. The liquid can be stored in a storage vessel (not shown in FIG. 2), if it is preferable. On the other hand, a gas effluent from the top of the first trickling filter 4 enters into the bottom of the second trickling filter 5, where the gas, which is slightly contaminated with the malodorous sulfur compounds, is also biologically treated. The treated gas is discharged into the outside atmosphere, through a gas discharge pipe 12. 
     If a gas containing malodorous sulfur compounds is deodorized, the gas can be fed through the pipe 9, whereby the gas is brought into countercurrent contact with a circulating liquid in the filtering medium. Thus, a malodorous gas can be deodorized. 
     As shown in FIG. 3, a fluid containing malodorous sulfur compounds can be further treated in, for example, a packed column 13 packed with suitable plastic packings 14, such as those used in the conventional absorbers and distillation columns. According to this embodiment, a gas containing malodorous sulfur compounds together with oxygen (or air) is fed through a gas inlet 19, whereas a circulating liquid 16 contained in a vessel 15 is circulated via a pump 17 to the top 18 of the column 13. The liquid contains the above-mentioned fungus and the necessary nutrients. Thus, the gas is brought into countercurrent contact with the circulating liquid in the packed column 13, whereby the malodorous sulfur compounds are decomposed by the action of the fungus. The treated deodorized gas is discharged from the outlet 20 of the column 13. 
     As mentioned above, the method for removing odor from a fluid according to the present invention can be carried out in the above-mentioned various ways. 
     Although the operating conditions can be chosen within wide ranges, the temperature of the liquid (or culture modium) is preferably within the range of from about 25° C. to about 35° C., and the pH of the liquid (or culture medium) is preferably within the range of from about 3 to about 6. The content of the fungus in the liquid phase of the vessel 1 may be varied within a wide range, but will preferably be in the range of from about 0.05 to about 0.5% by weight, and more preferably in the range of from about 0.1 to about 0.3% by weight. 
     The present invention will be further illustrated by, but is by no means limited to, the following examples. The concentrations of the malodorous sulfur compounds were determined according to FPD gas chromatography. When the fluid to be treated was liquid, head gas was sampled under gas-liquid equilibrium state, and when the fluid to be treated was gas, feed and discharge gases were sampled. 
     EXAMPLE 1 
     Into 1 liter of an evaporator condensate discharged from a kraft pulp mill, 1 g of NH 4  NO 3 , 1 g of KH 2  PO 4 , 0.5 g of MgCl 2 .6H 2  O and 0.5 g of yeast extract were added and the mixture was then sterilized. 50 ml of the pre-culture of each fungus listed in Table 2, which were incubated in the same culture medium for 3 days, was inoculated into the mixture and then cultured in a 2 liter closed cultivation vessel 1, provided with an agitator 3 (see FIG. 1), at a temperature of 30° C., for 3 days. The cultivation vessel 1 was connected to a 5 liter gas holder 2 filled with pure oxygen gas. The oxygen was bubbled into the mixture contained in the vessel 1. The results are shown in Table 2 below. 
     
                       TABLE 2                                                     
______________________________________                                    
             Gas Concentration in Gas Phase                               
             after 3 days&#39; cultivation (ppm)                              
Fungi          H.sub.2 S                                                  
                      CH.sub.3 SH                                         
                               (CH.sub.3).sub.2 S                         
                                      (CH.sub.3).sub.2 S.sub.2            
______________________________________                                    
Control*       1.5    52       85     90                                  
Cephalosporium sp.                                                        
               0.1    0.1      0.5    2.8                                 
FERM-P No. 3977                                                           
Penicillium sp.                                                           
               0.1    0.5      5.0    10                                  
FERM-P No. 3978                                                           
Penicillium sp.                                                           
               0.1    0.5      7.9    15                                  
FERM-P No. 3979                                                           
Mucor sp.      0.1    0.1      0.5    17                                  
FERM-P No. 3981                                                           
Trichoderma sp.                                                           
               0.1    0.5      7.0    16                                  
FERM-P No. 3982                                                           
______________________________________                                    
 *No fungi were inoculated.                                               
 
    
     As is clear from Table 2, the malodorous sulfur compounds were remarkably removed from the condensate by the use of each fungus. When MgSO 4 .7H 2  O was used instead of MgCl 2 .6H 2  O, similar results were obtained. 
     EXAMPLE 2 
     An evaporator condensate discharged from a kraft pulp mill was treated by using an apparatus as illustrated in FIG. 2. Thus, an evaporator condensate, containing the same contents of the nutrients as used in Example 1, was fed through a liquid feed pipe 6 to a first closed type trickling filter 4 provided with 15 liters of a filtering medium 10 and, then, fed via a pump 7 to a second closed type trickling filter 5 provided with 15 liters of a filtering medium 11. The treated condensate was discharged from a liquid discharge pipe 8. The discharged condensate was returned to the liquid feed pipe 6 and recirculated in the system. Into this circulation system air was blown into the system through a gas feed pipe 9 and a strain of Cephalosporium sp. FERM-P No. 3976 was inoculated. After the inoculation of the strain, pre-cultivation was carried out at a temperature of 30° C., for 7 days, to attach the strain of the fungus to the surfaces of the filtering media 10 and 11. 
     After the malodorous sulfur compounds contained in the circulating liquid were removed, about 150 ml/min of a non-condensible gas vaporized from a bad odor drain discharged from a kraft pulp mill was continuously fed through the gas feed pipe 9 to the vessel 10 and 11, while the liquid was circulated in the system. The treated gas was discharged from a gas discharge pipe 12. The concentrations of the malodorous sulfur compounds contained in the gas vaporized from the drain and the treated discharge gas after 6 days of operation are shown in Table 3 below. 
     
                       TABLE 3                                                     
______________________________________                                    
             (ppm)                                                        
             H.sub.2 S                                                    
                  CH.sub.3 SH                                             
                           (CH.sub.3).sub.2 S                             
                                    (CH.sub.3).sub.2 S.sub.2              
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Gas Vaporized from Drain                                                  
               5      60       53     81                                  
Treated Discharge Gas                                                     
               0.1    0.5      0.5    2.5                                 
(After 6 Days&#39; Operation)                                                 
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     As is clear from Table 3, the malodorous sulfur compounds were remarkably removed from the gas by the use of Cephalosporium sp. FERM-P No. 3976. 
     EXAMPLE 3 
     30 to 40 ml/min of a simulated gas in petroleum refinery plant was deodorized using the same procedure as described in Example 2, except that Aspergillus sp. FERM-P No. 3980 was used instead of Cephalosporium sp. FERM-P No. 3976. The concentrations of the malodorous sulfur compounds contained in the simulated gas and the treated discharge gas after 6 days of operation are shown in Table 4 below. 
     
                       TABLE4                                                      
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            H.sub.2 S                                                     
                 CH.sub.3 SH                                              
                          (CH.sub.3).sub.2 S                              
                                   Thiophene                              
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Simulated Gas 0.1    0.2      0.2    0.2                                  
Treated Discharge Gas                                                     
              0.01   0.01     0.01   0.1                                  
(After 6 Days&#39;       or less  or less                                     
Operation)                                                                
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     As is clear from Table 4, the malodorous sulfur compounds were remarkably removed from the gas by the use of Aspergillus sp. FERM-P No. 3980. 
     EXAMPLE 4 
     Into 1 liter of an evaporator condensate derived from a kraft pump mill, 5 g of glucose, 2 g of NH 4  NO 3 , 2 g of KH 2  PO 4 , 0.5 g of MgSO 4  and 0.5 g of yeast extract were added. The pH of the mixture was adjusted to 6.5 and, then, the mixture was sterilized in a shake-flask. Into the flask, a strain of Cephalosporium sp. FERM-P No. 3976 was inoculated and subjected to a shake incubation, at a temperature of 30° C., for 3 days. The culivated fungus was filtered through a filter paper and, then, washed with a distilled water. Thus, 2.0 g (dry weight) of the washed cells of the fungi were obtained. 
     Into a 1.2 liter conical flask, 1 liter of an evaporator condensate discharged from a kraft pulp mill was charged and, then, 2.0 g of the cells of the fungus obtained as mentioned above was added into the flask. Thereafter, the evaporator condensate and the washed cells of the fungi were contacted with each other at a temperature of 30° C. for 4 hours, while the contents of the flask were stirred by means of a magnetic stirrer. The results are shown in Table 5 below. 
     
                       TABLE 5                                                     
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          Gas Concentration in Gas Phase of                               
          Conical Flask (ppm)                                             
          H.sub.2 S                                                       
                CH.sub.3 SH                                               
                          (CH.sub.3).sub.2 S                              
                                    (CH.sub.3).sub.2 S.sub.2              
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Before Addition of                                                        
            1.5     60        83      102                                 
Fungi                                                                     
4 Hours After                                                             
            0.1     1.5       1.0     4.2                                 
Addition of                                                               
Fungi                                                                     
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     As is clear from Table 5, the malodorous sulfur compounds were remarkably removed from the condensate of the use of Cephalosporium sp. FERM-P No. 3976. 
     EXAMPLE 5 
     A non-condensible gas vaporized from a drain discharged from a kraft pulp mill was treated by using an apparatus as illustrated in FIG. 3. Thus, the gas was continuously fed through the gas inlet 19 to the packed column 13, while the liquid 16 having the following composition was circulated in the system. 
     
         ______________________________________                                    
                        g/liter                                           
______________________________________                                    
glucose                   5                                               
peptone                   1                                               
corn steep liquor         1                                               
Cephalosporium sp. FERM-P No. 3976                                        
                          2                                               
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     The residence time of the gas in the column was about 1 hr. The results are shown in Table 6. 
     
                       TABLE 6                                                     
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             (ppm)                                                        
             H.sub.2 O                                                    
                  CH.sub.3 SH                                             
                           (CH.sub.3).sub.2 S                             
                                    (CH.sub.3).sub.2 S.sub.2              
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Feed Gas       10     80       52     30                                  
Treated Discharge Gas                                                     
               0.1    0.3      0.2    1.5                                 
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