• Title/Summary/Keyword: fluidized bed bioreactor

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Simultaneous Removal of Hydrogen Sulfide and Ammonia Using Thiobacillus sp. IW in a Three-Phase Fluidized-Bed Bioreactor

  • Kum, Sung-Hoon;Oh, Kwang-Joong;Moon, Jong-Hae;Kim, Dong-Uk
    • Journal of Microbiology and Biotechnology
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    • v.10 no.3
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    • pp.419-422
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    • 2000
  • A three-phase fluidized-bed bioreactor including Thiobacillus sp. IW was tested to remove H_2S and $NH_3$ simultaneously. The inlet $H_2S$ was oxidized to $SO_4^{2-}$ by Thiobacillus sp. IW, and the $NH_3$ reacted with the $SO_4^{2-}$ to form $(NH_4)_2SO_4$. The removal efficiency of $H_2S$ was 98.4-99.9% for an inlet concentration of 36-730 ppm and that of $NH_3$ was 60.2-99.2% for an inlet concentration of 45-412 ppm. The removal efficiency of $NH_3$ was reduced when the inlet loading rate of $NH_3$ was increased above 10 mg/l/h. When the bioreactor was operated for 25 days with a lower inlet concentration of $NH_3$ compared with the of $H_2S$, the bioreactor exhibited an excellent performance with a stable pH, dissolved oxygen content, and cell concentration.

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A Study on the Characteristics of the Treatment with Bed Expansion and the Biomass Attachment in the Start-up of the AFBR (혐기성 유동층 반응기에서 층팽창에 따른 처리특성 및 미생물 부착특성)

  • 안재동;정종식;장인용
    • Journal of Environmental Health Sciences
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    • v.21 no.2
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    • pp.20-26
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    • 1995
  • The objective of this study is to estimate the effect of the bed expansion and the characteristics of attached biomass in the start-up in the anaerobic fluidized bed reactor(AFBR). The fluidized bed reactor was operated with bacteria supported on the bed of granular activated carbon(GAC). The reactor was operated at 35$\circ$C, 5 kg $COD/m^3\cdot day$ at bed expansion varying from 0 to 100% with soluble glucose wastewater(5,000 mg/l). When the effluent reached a steady state at 100% of bed expansion, maximum COD removal efficiency of 87.3% and 0.031 $m^3CH_4/kg COD_{removed}$ were obtained. At higher bed expansion, COD removal efficiency, methane production rate and biogas production rate increased. Especially, at 50% of bed expansion, the efficiency of the treatment increasedg rapidly in the AFBR. The biomass colonized in the pits and crevices of the GAC particle and no complete biofilm was established in the bioreactor during the experiment.

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Improved Anthocyanin Production in Hairy Root Culture of Daucus carota by Fungal Elicitor (당근의 모상근 배양에서 Fungal Elicitor에 의한 Anthocyanin 생산의 향상)

  • Kim, Chang-Heon;Lee, Seong-Woo;Whang, Baik;Chung, In-Sik
    • Microbiology and Biotechnology Letters
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    • v.22 no.4
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    • pp.395-400
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    • 1994
  • In order to improve anthocyanin production, effects of fungal elicitation in hairy root culture were investigated. fungal elicitor prepared from Fusarium moniliforme was the best in enhancement of anthocyanin production among the eight fungal elicitors tested. The optimum treat-ment time and concentration of treated elicitor for anthocyanin production were 12 hours and 3.28 mg carbohydrates per liter medium. Also, fungal elicitor was treated to hairy root culture in flat-bottomed fluidized-bed bioreactor. The anthocyanin production of elicited culture was enhanced 227% than non-treated.

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Approximated Solution of Model for Three-Phase Fluidized Bed Biofilm Reactor in Wastewater Treatment

  • Choi Jeong-Woo;Min Junhong;Lee Won-Hong;Lee Sang Baek
    • Biotechnology and Bioprocess Engineering:BBE
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    • v.5 no.1
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    • pp.65-70
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    • 2000
  • An approximated analytical solution of mathematical model for the three phase fluidized bed bioreactor (TFBBR) was proposed using the linearization technique to describe oxygen utilization rate in wastewater treatment. The validation of the model was done in comparison with the experimental results. Satisfactory agreement was obtained in the comparison of approximated analytical solution and numerical solution in the oxygen concentration profile of a TFBBR. The approximated solutions for three modes of the liquid phase flow were compared. The proposed model was able to predict the biomass concentration, dissolved oxygen concentration the height of efficient column, and the removal efficiency.

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Modeling and Characteristics of Ethanol Fermentation Process Combined with Pervaporation (투과증발과 결합된 에탄올 발효 공정의 모델링 및 특성)

  • 최은수;김진현;유영제
    • Microbiology and Biotechnology Letters
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    • v.20 no.4
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    • pp.451-458
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    • 1992
  • Pervaporation which is capable of removing ethanol selectively was adopted to reduce the ethanol inhibition and in situ recovery of ethanol in ethanol fermentation, The composite membrane made of silicone and polysulfone was used to separate the ethanol selectively. The ethanol selectivity of the membrane was about 4 and the total flux was 300 g/m2 h at 301:: and 10 mmHg for 25 g/l of feed concentration. Saccharomyces cerevisiae entrapped within Ca-alginate gels was employed for ethanol fermentations in a fluidized-bed bioreactor. The pervaporation membrane unit and fluidized-bed bioreactor were combined into one system. The proposed model equations for the combined system showed good accordances with the experimental results. It was found from the simulation results that the ethanol concentration in the broth for the combined system was lower than that for the continuous fermentation system without a membrane unit. Ethanol productivity can be thus increased by employing the combined system.

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The Removal of Toluene by a Granular Activated Carbon Bioreactor using Yeast (Yeast와 입상활성탄을 이용한 미생물반응기의 휘발성유기화합물 분해 특성)

  • NamGung, Hyeong-Kyu;Shin, Seung-Kyu;Ahmed, Zubair;Song, Ji-Hyeon
    • Journal of Korean Society of Environmental Engineers
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    • v.30 no.12
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    • pp.1218-1224
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    • 2008
  • A liquid culture of yeast "Candida tropicalis" was used in a fluidized bioreactor to achieve high removal efficiencies of volatile organic compounds (VOCs). In this study, granular activated carbon (GAC) was used as a fluidized material to improve adsorptive capacity as well as mass transfer of gaseous toluene, the model VOC. The GAC fluidized bioreactor demonstrated toluene removal efficiencies ranging from 50 to 80%, when inlet toluene loading varied in a range between 13.1 and 37.4 g/m$^3$-hr. The maximum elimination capacity determined in the GAC fluidized bioreactor was 172 g/m$^3$-hr at a toluene loading of 291 g/m$^3$-hr. Transient loading experiments revealed that the removal efficiency was remained unchanged during an increased loading period, and toluene introduced to the bioreactor was first absorbed to GAC and then slowly desorbed and became available to the yeast culture. Hence the fluidized GAC helped to achieve an improved mass transfer between the gas and liquid phases, resulting in high toluene removal capacity. Consequently, the GAC fluidized bioreactor using C. tropicalis can be successfully applied for the removal of VOCs, and is a feasible alternative over conventional processes such as packed-bed biofilters.

Production of Erythromycin Using a Carrier-Spported Mycelial Growth in a Fluidized-Bed Bioreactor (균사 증식 담체를 이용한 유동층 생물반응기에서 Erythromycin의 생산)

  • 김성환;배신규김정희
    • KSBB Journal
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    • v.4 no.3
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    • pp.241-245
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    • 1989
  • A carriersupported mycelial growth of Sreptomyces erythreus was applied to erythromycin fermentation sistem using celite as a support material. Hyphal growth through the pore matrices of the materials showed anchorages and provided a stable biofilm growth. When the phospate concentration was limited to 0.8g corn steep liquor/L(corresponding to 40mg KH2PO4/L), the specific production rate of erythromycin was increased from 557$\mu$g/g-cell.hr under unlimited condition to 2, 898 $\mu$g/g-cell.hr. A fluidized-bed bioreactor was operated for erythromycin production by a repeated fed-batch mode. The control of free mycelial concentration and the extension of production phase were considered important to maintain the reactor productivity at a desired level. The erythromycin production under phosphate-limited condition could be maintained for at least 600hrs.

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Inhanced Oxygen Supply of Xanthan Fermentations Using either Hydrogen Peroxide or Fluidized Particles in Tower Bioreators (탑형 생물반응기에서 과산화수소 또는 유동화 입자를 이용만 Xanthan 발효의 산소공급 향상)

  • 서일순
    • KSBB Journal
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    • v.17 no.2
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    • pp.142-147
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    • 2002
  • The decomposition of hydrogen peroxide was used for supplementing the oxygen during batch xanthan fermentations in a bubble column bioreactor in order to escape the oxygen transfer limitation that occurred at the high viscosity of culture broths. The xanthan production, however, was inhibited reversibly by dosing hydrogen peroxide. On the other hand, fluidized particles of glass beads with 8 mm diameter led to high gas-liquid oxygen transfer rates in three-phase fluidized beds, which resulted in higher space-time yields of the xanthan production compared to in the bubble column bioreactors.

Trends in Monoclonal Antibody Production Using Various Bioreactor Systems

  • Jyothilekshmi, I.;Jayaprakash, N.S.
    • Journal of Microbiology and Biotechnology
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    • v.31 no.3
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    • pp.349-357
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    • 2021
  • Monoclonal antibodies are widely used as diagnostic reagents and for therapeutic purposes, and their demand is increasing extensively. To produce these proteins in sufficient quantities for commercial use, it is necessary to raise the output by scaling up the production processes. This review describes recent trends in high-density cell culture systems established for monoclonal antibody production that are excellent methods to scale up from the lab-scale cell culture. Among the reactors, hollow fiber bioreactors contribute to a major part of high-density cell culture as they can provide a tremendous amount of surface area in a small volume for cell growth. As an alternative to hollow fiber reactors, a novel disposable bioreactor has been developed, which consists of a polymer-based supermacroporous material, cryogel, as a matrix for cell growth. Packed bed systems and disposable wave bioreactors have also been introduced for high cell density culture. These developments in high-density cell culture systems have led to the monoclonal antibody production in an economically favourable manner and made monoclonal antibodies one of the dominant therapeutic and diagnostic proteins in biopharmaceutical industry.

Hydraulic Characteristics of Anaerobic Fluidized Bed Bioreactor (혐기성 유동상 반응기의 수리학적 특성)

  • Seok, Jong-Hyuk
    • Journal of the Korea Academia-Industrial cooperation Society
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    • v.19 no.2
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    • pp.90-96
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    • 2018
  • Tracer experiments were carried out on two laboratory modes, "without media mode" and "with media mode", to examine the hydraulic characteristics of the anaerobic fluidized bed bioreactor (AFBR). For both configurations, a formula was derived for the hydraulics and data interpretation to obtain the actual characteristics of the reactor. The dispersion model is based on the assumption that carriers are non-reacting and the dispersion coefficient is constant. The model represents the one-dimensional unsteady-state concentration distribution of the non-reacting tracer in the reactors. The experimental results showed that the media increased the mixing conditions in the reactor considerably. For the reactor without media, in the range tested, the dispersion coefficient was at least an order of magnitude smaller than that of the reactor with media. Advective transport dominates and the flow pattern approaches the plug flow reactor (PFR) regime. The dispersion coefficient increased significantly as us, the superficial liquid velocity, was increased proportionally to 0.82cm/s. On the other hand, for the reactor with media, the flow pattern was in between a PFR and a completely mixed flow reactor (CMFR) regime, and the dispersion coefficient was saturated at us=0.41cm/s, remaining relatively constant, even at us=0.82cm/s. The dispersion coefficient depends strongly on the liquid Reynolds number (Re) or the particle Reynolds number (Rep) over the range tested.