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1.
Freely suspended and Ca-alginate-immobilized cells of Pimelobacter sp. were used for degradation of pyridine. When the pyridine concentration was up to 2 g l–1, freely suspended cells completely degraded pyridine regardless of the initial cell concentrations used. However, when the pyridine concentration increased to 4 g l–1, the initial cell concentration in freely suspended cell culture should be higher than 1.5 g dry cell weight l–1 for complete degradation of pyridine. In addition, a freely suspended cell culture with a high initial cell concentration resulted in a high volumetric pyridine-degradation rate, suggesting the potential use of immobilized cells for pyridine-degradation. When the immobilized cells were used for pyridine-degradation, neither specific pyridine-degradation rate nor tolerance against pyridine was improved. However, a high volumetric pyridine-degradation rate in the range 0.082–0.129 g l–1 hr–1 could be achieved by the immobilized cells because of the high cell concentration. Furthermore, when the immobilized cells were reused in degrading pyridine at a concentration of 2–4 g l–1 they did not lose their pyridine-degrading activity for 2 weeks. Taken together, the data obtained here showed the feasibility of using immobilized cells for pyridine-degradation.  相似文献   

2.
Summary Citric acid was produced with immobilized Yarrowia lipolytica yeast in repeated batch-shake-flask and air-lift fermentations. In active and passive immobilization methods calcium alginate, -carrageenan, polyurethane gel, nylon web and polyurethane foams were tested as carriers in repeated-batch fermentations. The highest citric acid productivity of 155 mg l–1 h–1 was reached with alginate-bead-immobilized cells in the first batch. A decrease in bead diameter from 5–6 mm to 2–3 mm increased the volumetric citric acid productivity threefold. In an air-lift bioreactor the highest citric acid productivity of 120 mg l–1 h–1 with a product concentration of 16.4 g l–1 was obtained with cells immobilized in -carrageenan beads. Offprint requests to: H. Kautola  相似文献   

3.
Summary Yeast-like cells ofAureobasidium pullulans were immobilized in Ca-alginate gel beads and employed for continuous production of glucoamylase in a fluidized-bed reactor (250 ml working volume). After an activation time of 48 h, to allow the in situ germination of the fungal blastospores, the reactor was operated continuously for over 150 h. A steady state enzyme concentration of 1.2–1.3 U ml–1 of glucoamylase activity and an enzyme volumetric productivity of ca. 130 U ml–1 h–1 were obtained at a medium flow rate of 26 ml h–1. Enzyme activity and volumetric productivity were influenced by fermentation conditions such as inoculum size and airflow rate.  相似文献   

4.
Summary Glycerol fermentations by the sulphite process with immobilized yeast cells were carried out successfully in continuous culture in a fixed-bed column reactor. In comparison to continuous glycerol fermentations with free yeast cells, fourfold higher dilution rates were obtained. The stability of the immobilized cell system was dependent on dilution rate (D) and temperature. Glycerol yields were influenced by the ratio of sugar to Na2SO3 in the feed. At a flow rate of D = 0.06 h –1 glycerol concentrations up to 25 g1 –1 were measured in the effluent with an average volumetric productivity of 35 g 1 –1 per day. A constant production rate was maintained for nearly 9 months.Offprint requests to: H.-J. Rehm  相似文献   

5.
The biological transformation from rifamycin B to rifamycin S was carried out with the live whole cells of Humicola sp., ATCC 20620, immobilized in a dual hollow fiber bioreactor (DHFBR). Humicola sp., inoculated in the DHFBR, proliferated successfully to a high density cell mass within the space between an outer silicone tubing and three inner polypropylene hollow fiber membranes. In order to control the cell growth a nitrogen deficient medium was fed. Conversion of rifamycin B continued for more than 30 d, whereas that of immobilized rifamycin B oxidase lasted only for 3 d in comparable conditions.In the DHFBR the volumetric productivity of rifamycin S was 0.65–1.03 mmol/(dm3 · h) with 60% conversion, while that in the rotating packed disk reactor was 0.27 mmol/(dm3 · h) with 40% conversion at a residence time of 0.5–1.5 h.  相似文献   

6.
Summary Direct alcoholic fermentation of dextrin or soluble starch with selected amylolytic yeasts was studied in both batch and immobilized cell systems. In batch fermentations, Saccharomyces diastaticus was capable of fermenting high dextrin concentrations much more efficiently than Schwanniomyces castellii. From 200 g·l–1 of dextrin S. diastaticus produced 77 g·l–1 of ethanol (75% conversion efficiency). The conversion efficiency decreased to 59% but a higher final ethanol concentration of 120 g·l–1 was obtained with a medium containing 400 g·l–1 of dextrin. With a mixed culture of S. diastaticus and Schw. castellii 136 g·l–1 of ethanol was produced from 400 g·l–1 of dextrin (67% conversion efficiency). S. diastaticus cells attached well to polyurethane foam cubes and a S. diastaticus immobilized cell reactor produced 69 g·l–1 of ethanol from 200 g·l–1 of dextrin, corresponding to an ethanol productivity of 7.6g·l–1·h–1. The effluent from a two-stage immobilized cell reactor with S. diastaticus and Endomycopsis fibuligera contained 70 g·l–1 and 80 g·l–1 of ethanol using initial dextrin concentrations of 200 and 250 g·l–1 respectively. The corresponding values for ethanol productivity were 12.7 and 9.6 g·l–1·h–1. The productivity of the immobilized cell systems was higher than for the batch systems, but much lower than for glucose fermentation.  相似文献   

7.
Summary Lactate production by immobilized Lactobacillus casei has been studied. The cells were immobilized in alginate and the effect of variations in different parameters on product formation and productivity was investigated. The performance of the reaction was evaluated in stirred batch as well as in packed-bed conditions. pH control was a problem in the packed-bed reactor. In stirred batch experiments, nearly total glucose utilization was observed with a lactate yield of 90–99% and a total productivity of 1.6 g·l–1·h–1. Under standard conditions only a low percentage (3–4%) of the total lactate formed was the abetd-isomer. When immobilized cells were reused, increased formation of abetd-lactate took place, especially when the cell conditions were sub-optimal. After revitalization by exposure to growth nutrients the balance was restored.On leave from Microbiology Institute, Zhejiang Academy of Agricultural Sciences, Hangzhou-310021, China Offprint requests to: Bo Mattiasson  相似文献   

8.
Summary Ribonuclease production using immobilized cells (IC) of Aspergillus clavatus has been studied under batch, repeated-batch and continuous fermentation conditions in a bubble-column bioreactor and compared with production by free cells, Immobilization was achieved by the method of cryostructurization in polyvinyl alcohol beads. The effect of various aeration rates in a column bioreactor has been investigated. Enzyme production by IC [42 000 units (U)·l–1] during batch fermentations was comparable to that of a free-cell system. The specific productivity of IC was 8.5 times higher than that of free cells. In repeated batch fermentation at various aeration rates, successful reuse of IC was obtained, with comparable levels of enzyme production. Continuous ribonuclease production was achieved for 44 days at 1 vvm aeration and a dilution rate of 0.0 h–1 with volumetric productivity (450 U·1–1) and yield.  相似文献   

9.
Summary This paper presents a study of propionic acid and propionibacteria production from whey by usingPropionibacterium acidi-propionici in continuous fermentation with cell recycle. The highest propionic acid volumetric productivity achieved was 5 g.l–1.h–1 with no biomass bleeding. A maximal biomass concentration of 130 g.l–1 was achieved before initiating biomass bleeding to give a biomass volumetric productivity of 3.2 g.l–1.h–1 with a biomass of 75 g.l–1 and a propionic acid productivity of 3.6 g.l–1.h–1 (for about 100 hours i.e. more than 50 residence times).  相似文献   

10.
Continuous production of isomalto-oligosaccharides from maltose syrup by the permeabilized cells ofAureobasidium pullulans immobilized into calcium alginate gel was studied using a column reactor. The immobilized cell column maintained its full activity over 45 days when the reactor was operated at a velocity of 0.1 h–1 at 50°C using 60%(w/v) maltose syrup as a substrate, and the maximum productivity achieved was around 60 g/1h.  相似文献   

11.
Summary Degradation of 3,4-dichloroaniline (34DCA) in aqueous by undefined cultures of free and immobilized cells was examined. Batch cultures of freely suspended cells and continuous degradation in a packed-bed reactor were studied using both synthetically concocted and industrially produced waste-waters. 34DCA was found to be degraded with a concomitant evolution of chloride ions into the bulk medium. The [acked bed reactor with biomass immobilized on celite diatomaceous earth was found to be capable of degrading over 98% of the 34DCA present in a synthetically concocted inlet stream at a concentration of 250 mg l–1. Residence times of less than 4 h were employed, giving an overall volumetric degradation rate for the packed bed of 90 mg l–1 h–1. The industrially produced wastewater contained, in addition to 34DCA, aniline, 4-chloroaniline, 2,3-dichloroaniline (23DCA) and 3,4-dichloronitrobenzene. The biomass enriched on the synthetic 34DCA waste-water was found to be capable of degrading these compounds in addition to 34DCA with the exception of 23DCA. 34DCA degradation efficiencies of over 95% were obtained for the industrial waste-water at reactor residence times of 4.6 h, giving volumetric degradation rates of 24 mg l–1 h–1. Offprint requests to: A. G. Livingston  相似文献   

12.
Poly--hydroxybutyrate was produced in shake cultures by Alcaligenes eutrophus H16 on fructose, xylose, and fumaric, itaconic, lactic and propionic acids in a three-stage process. The maximum polymer concentration of 6.9 g l–1 (69% of cell dry matter) was obtained with 20g l–1 of fructose with a volumetric productivity of about 0.22 g l–1 h–1 at 24h. Up to about 3 g l–1 (about 50% of cell dry matter) of polymer was also produced on lactic and propionic acids as the sole carbon source during the production phase. In multivatiate optimization employing an orthogonal 23-factorial central composite experimental design with fructose as the substrate in a single-stage process, the optimal initial fructose concentration decreased from 35 g l–1 to 24 g l–1 when the incubation time was increased from about 35 h to 96 h. The optimal shaking speed range was 90–113 rpm. Correspondence to: S. Linko  相似文献   

13.
Summary Mead was produced by immobilized cells of Hansenula anomala in calcium alginate gels. The immobilized cell beads of 3 mm diameter packed in column reactors of dimensions 2.2x60, 4x40 and 8x80 cm, produced mead containing maximum concentrations of ethanol and ethyl acetate of 70 g/l and 730 mg/l, respectively at a dilution rate of 0.1 h–1. The maximum alcohol productivity achieved was 23.1 g/l·h at a dilution rate of 0.33 h–1. With intermittent regenerations of the cells the reactor operated continuously for 110 days. This process enables the quick production of matured mead by a single culture and the elimination of the traditionally used long aging periods.  相似文献   

14.
Continuous ethanol fermentation by immobilized whole cells ofZymomonas mobilis was investigated in an expanded bed bioreactor and in a continuous stirred tank reactor at glucose concentrations of 100, 150 and 200 g L–1. The effect of different dilution rates on ethanol production by immobilized whole cells ofZymomonas mobilis was studied in both reactors. The maximum ethanol productivity attained was 21 g L–1 h–1 at a dilution rate of 0.36 h–1 with 150 g glucose L–1 in the continuous expanded bed bioreactor. The conversion of glucose to ethanol was independent of the glucose concentration in both reactors.  相似文献   

15.
The continuous bioconversion of xylose-containing solutions (obtained by acid hydrolysis of barley bran) into xylitol was carried out using the yeast Debaryomyces hansenii under microaerophilic conditions with or without cell recycle. In fermentations without cell recycle, the volumetric productivities ranged from 0.11–0.6 g l–1 h–1 were obtained for dilution rates of 0.008–0.088 h–1. In experiments performed with cell recycle after membrane separation, the optimum xylitol productivity (2.53 g l–1 h–1) was reached at a dilution rate of 0.284 h–1.  相似文献   

16.
Brevibacterium linens forms hydrolytic enzymes which can be used to accelerate the ripening of cheese without causing bitterness. B. linens ATCC 9172 was grown to a high cell density (50 g dry wt l–1 after 60 h) in a mineral medium containing lactic acid, soy-peptone and ammonium sulphate by applying a continuous feed of nutrients. The maximal activities of l-leucine aminopeptidase and cell-associated proteinase were 286 U l–1 and 202 U l–1, respectively. The cell-associated lipolytic activity exhibited a strong and sudden increase at 46 h, resulting in a maximum of 9.5 U g–1 dry wt; thus the volumetric productivity of proteolytic and lipolytic activity was 4220 U l–1 h–1 and 7.3 U l–1 h–1, respectively.  相似文献   

17.
Summary Xylitol production from sugarcane bagasse hemicellulosic hydrolyzate was evaluated in a fluidized bed reactor operated in semi-continuous mode, using cells immobilized on porous glass. The fermentative process was performed during five successive cycles of 72 h each one. The lowest xylitol production occurred in the first cycle, where a high cell concentration (12 g l−1) was observed. In the subsequent cycles the xylitol concentration was ever increasing due to the cells adaptation to the medium. In the last one, 18 g xylitol l−1 was obtained with a yield factor of 0.44 g g−1 and volumetric productivity of 0.32 g l−1 h−1.  相似文献   

18.
The performance of a continuous bioreactor containing Clostridium beijerinckii BA101 adsorbed onto clay brick was examined for the fermentation of acetone, butanol, and ethanol (ABE). Dilution rates from 0.3 to 2.5 h–1 were investigated with the highest solvent productivity of 15.8 g l–1 h–1 being obtained at 2.0 h–1. The solvent yield at this dilution rate was found to be 0.38 g g–1 and total solvent concentration was 7.9 g l–1. The solvent yield was maximum at 0.45 at a dilution rate of 0.3 h–1. The maximum solvent productivity obtained was found to be 2.5 times greater than most other immobilized continuous and cell recycle systems previously reported for ABE fermentation. A higher dilution rate (above 2.0 h–1) resulted in acid production rather than solvent production. This reactor was found to be stable for over 550 h. Scanning electron micrographs (SEM) demonstrated that a large amount of C. beijerinckii cells were adsorbed onto the brick support.  相似文献   

19.
Escherichia intermedia cells were immobilized by entrapment in a carrageenan gel and used for -DOPA synthesis from catechol, pyruvate, and ammonia. A preparation containing 75 mg of cell per gram of gel retained 60–65% of its original activity. The effect of substrate concentrations on the initial rate of -DOPA synthesis was very similar for free and immobilized cells, and substrate inhibition was observed for the three substrates. In batch reactors, up to 7.8 g l−1 of -DOPA was obtained in 20 h (productivity 0.39 g l−1 h−1). Cells immobilized in a carrageenan gel showed higher -DOPA synthesis, in both initial rates conditions and batch reactors, than cells immobilized in a polyacrylamide gel.  相似文献   

20.
The kinetics of continuous l-sorbose fermentation using Acetobacter suboxydans with and without cell recycle (100%) were investigated at dilution rates (D) of 0.05, 0.10, 0.15 and 0.3 h–1. The biomass and sorbose concentrations for continuous fermentation without recycle increased as the dilution rate was increased from 0.05 to 0.10 h–1. A maximum biomass concentration of 8.44 g l–1 and sorbose concentration of 176.90 g l–1 were obtained at D=0.10 h–1. The specific rate of sorbose production and volumetric sorbose productivity at this dilution rate were 2.09 g g–1 h–1 and 17.69 g l–1 h–1. However, on further increasing the dilution rate to 0.3 h–1, both biomass and sorbose concentrations decreased to 2.93 and 73.20 g l–1 respectively, mainly due to washout of the reactor contents. However, the specific rate of sorbose formation and volumetric sorbose productivity at this dilution rate increased to 7.49 g g–1 h–1 and 21.96 g l–1 h–1 respectively. Continuous fermentation with 100% cell recycle served to further enhance the concentration of biomass and sorbose to 28.27 and 184.32 g l–1 respectively (in the reactor at a dilution rate of 0.05 h–1). Even though, there was a decline in the biomass and sorbose concentrations to 6.8 and 83.40 g l–1 at a dilution rate of 0.3 h–1, the specific rates of sorbose formation and volumetric sorbose productivity increased to 3.67 g g–1h–1 and 25.02 g l–1 h–1.  相似文献   

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