• 제목/요약/키워드: biohydrogen production

검색결과 60건 처리시간 0.033초

탄소중립형 바이오수소 생산 및 분리막기반 정제 기술 소개 (Biohydrogen Generation and Purification Technologies for Carbon Net Zero)

  • 김효원
    • 멤브레인
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    • 제33권4호
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    • pp.168-180
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    • 2023
  • 본 총설은 탄소중립 및 에너지순환을 실현하기 위한 재생에너지로부터 그린수소 생산 전략 중 하나인 바이오수소 생산 및 정제법에 관해 소개하고자 한다. 바이오수소는 생물질과 미생물과 같은 재생에너지원을 이용하며, 상온 및 상압 등의 마일드한 실험조건에서 작동하여 에너지소비 및 공정비용이 적게 드는 친환경 공정으로 알려져 있다. 하지만, 이러한 바이오수소를 상업적으로 이용하기 위해서는 해결해야 할 중요한 도전적인 과제가 존재한다. 특히, 바이오수소는 생물반응기내의 복합한 화학반응으로 합성되어, 낮은 수소생산 속도 및 반응기내 다양한 혼합물이 존재하여, 바이오수소 고순도화를 위해서 연속공정 형태의 분리 및 정제 기술이 반드시 필요하다. 이를 위해, 저온 증류법, 압력 흡착법, 분리막법 등을 비롯한 다양한 분리 및 정제 기술이 고순도 바이오수소를 얻기 위해 제안되었다. 본 총설에서는 바이오수소 생산 및 정제 연계화를 위한 비다공성 고분자 분리막의 가능성에 대해 소개하고자 한다.

비듬유발균 (Pityrosporum ovale) 에 대한 은행잎으로부터 추출한 Ginkgolide 및 Bilobalide의 항진균 효과 (Antifungal Effect of Bilobalide and Ginkgolide Extracted from Leaves of Ginkgo biloba Against Pityrosporum ovale)

  • 이인화;김미진;최준호;김치현;최승현
    • KSBB Journal
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    • 제25권2호
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    • pp.173-178
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    • 2010
  • Antifungal effect of Ginkgo biloba leaves extracts conducted for Pityrosporum ovale. Antifungal effect verified by diffusion test, optical density test and colony counting test under various concentration. Extract of ginkgo biloba leaves performed with 40% ethanol and 60% water solution at $60^{\circ}C$ and major components analyzed by HPLC. The concentrated extract have bilobalide and ginkgolide A and ginkgolide B and their concentration were 153.0 mg/L, 8403.5 mg/L and 2723.0 mg/L respectively. Ginkgo biloba leaves extracts gave 99.1% of antifungal effect for Pityrosporum ovale examined by colony counting method.

다양한 접종원을 이용한 바이오수소 생산 평가 (Evaluation of Biohydrogen Production Using Various Inoculum Sources)

  • 김근희;이지호;양효주;이윤영;양윤용;최성호;허문석;이병희;조경숙
    • 한국미생물·생명공학회지
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    • 제50권4호
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    • pp.557-562
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    • 2022
  • 본 연구에서는 토양, 담수 및 염수 퇴적물, 슬러지 등 8종의 접종원을 이용하여 배양인자(기질종류, 염농도, 배양온도)에 따른 바이오수소 생산 잠재능을 평가하고 최적조건을 도출하고자 하였다. 각 접종원 별 바이오수소 생산속도는 배양온도와 접종원 종류에 의해 유의한 영향을 받았다. 반면 기질종류와 염농도는 바이오수소 생산속도에 대체로 유의한 영향을 끼치지 않았다. 고온(50°)보다 중온(37℃)의 배양 온도가 수소 생산에 더 적합하였으며, 8종의 접종원 중에서 중에서는 혐기소화슬러지의 수소 생산능이 가장 우수하였다. 혐기소화슬러지의 최대 수소 생산속도는 중온(37℃)과 고온(50℃)에서 각각 2,729.0 및 1,384.7 ml-H2·l-1·d-1였다.

Hydrolysates of lignocellulosic materials for biohydrogen production

  • Chen, Rong;Wang, Yong-Zhong;Liao, Qiang;Zhu, Xun;Xu, Teng-Fei
    • BMB Reports
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    • 제46권5호
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    • pp.244-251
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    • 2013
  • Lignocellulosic materials are commonly used in bio-$H_2$ production for the sustainable energy resource development as they are abundant, cheap, renewable and highly biodegradable. In the process of the bio-$H_2$ production, the pretreated lignocellulosic materials are firstly converted to monosaccharides by enzymolysis and then to $H_2$ by fermentation. Since the structures of lignocellulosic materials are rather complex, the hydrolysates vary with the used materials. Even using the same lignocellulosic materials, the hydrolysates also change with different pretreatment methods. It has been shown that the appropriate hydrolysate compositions can dramatically improve the biological activities and bio-$H_2$ production performances. Over the past decades, hydrolysis with respect to different lignocellulosic materials and pretreatments has been widely investigated. Besides, effects of the hydrolysates on the biohydrogen yields have also been examined. In this review, recent studies on hydrolysis as well as their effects on the biohydrogen production performance are summarized.

토양컬럼을 이용한 합성하수 중의 질소제거 (Nitrogen Removal from Synthetic Domestic Wastewater Using the Soil Column)

  • 정경훈;임병갑;최형일;박상일;문옥란
    • 한국환경과학회지
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    • 제16권6호
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    • pp.707-714
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    • 2007
  • A laboratory experiment was performed to investigate nitrogen removal by the soil column. The addition of 20% waste oyster shell to the soil accelerated nitrification in soil column. The $NO_3^--N$ concentration in the effluent decreased with the decrease of HRT(Hydraulic Retention Time). When methanol and glucose added as carbon sources, the average removal rates of T-N(Total Nitrogen) were 82% and 77.9%, respectively. The $NO_3^--N$ removal by methanol supplementation in soil column can likely be attributed to denitrification. In continuous removal of nitrogen using the soil column, the COD(Chemical Oxygen Demand) and $NH_4^+-N$ removed simultaneously in organic matter decomposing column. The greater part of $NH_4^+-N$ was nitrified by the percolated through nitrification column, and the little $NH_4^+-N$ was found in the effluent. The T-N of 87.4% removed at HRT of 36 hrs in denitrfication column. Because of nitrified effluents from nitrification column are low in carbonaceous matter, an external source of carbon is required.

포도상구균에 대만 에탄올 농도별 은행잎 추출물의 항균효과에 관한 연구 (A Study on the Antimicrobial Effect of Ginkgo biloba Leaves Extracts according to Concentrations of Ethanol for staphylococcus aureus)

  • 이인화;심윤;최승현;박주영;한성우;송진영;윤석진
    • KSBB Journal
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    • 제21권4호
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    • pp.312-316
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    • 2006
  • 본 연구에서는 은행잎 추출물의 Staphylococcus aureus에 대한 항균효과를 검증하기 위해 먼저 에탄올 농도별로 bilobalide와 ginkgolide A, B의 성분을 분석한 결과 40% 에탄올 용매를 최적 활성농도로 결정하였다. Disc diffusion test, Optical density test을 통한 S. aureus 항균실험 결과 에탄올 추출농도가 증가할수록 항균효과가 증가하나 40% 에탄올 이상에서는 항균활성에 큰 차이가 없었다. 주사전자현미경을 통하여 은행잎 에탄올 40% 추출물 16배 농축액을 처리한 균의 세포표면을 확인한 결과 심하게 손상되었음을 확인할 수 있었다. 투과전자현미경을 이용하여 관찰한 결과 은행잎 추출물로 처리한 균주에서는 세포벽이 관찰되지 않았으며, 이는 은행잎 추출물의 주성분인 bilobalide와 ginkgolide A, B가 세포벽 합성을 저해하는 것으로 보여진다.

Optimal conditions for biological hydrogen production from food waste

  • Wongthanate, Jaruwan;Chinnacotpong, Kittibodee
    • Environmental Engineering Research
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    • 제20권2호
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    • pp.121-125
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    • 2015
  • Biohydrogen production from food waste via dark fermentation was conducted by using mixed culture under various environmental conditions (initial pH, initial F/M ratio, initial ferrous iron ($Fe^{2+}$), and temperature condition) in batch reactor. The results revealed that the maximum hydrogen yield of $46.19mL\;H_2/g\;COD_{add}$ was achieved at the optimal conditions (initial pH 8.0, initial F/M ratio 4.0, initial iron concentration 100 mg $FeSO_4/L$ and thermophilic condition ($55{\pm}1^{\circ}C$)). Furthermore, major volatile fatty acid (VFA) productions of butyrate (765.66 mg/L) and acetate (324.69 mg/L) were detected and COD removal efficiency was detected at 66.00%. Therefore, these optimal conditions could be recommended to operate a system.

두 종 미세 녹조류의 연속배양을 통한 바이오매스 생산성 비교 (Comparison of Biomass Productivity of Two Green Microalgae through Continuous Cultivation)

  • 김근호;이영미;김덕진;정상화;김시욱
    • KSBB Journal
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    • 제27권2호
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    • pp.97-102
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    • 2012
  • In the present study, the biomass productivity of two green microalgae (Chlorella sp. and Dunaliella salina DCCBC2) were assessed in a 12 L tubular photobioreactor under optimum culture conditions. In the batch culture optimization process, the Chlorella sp. biomass was obtained as 1.2 g/L under atmospheric air as a sole $CO_2$ source and other culture conditions as follows: light intensity, temperature, pH, $NH_4Cl$ and $K_2HPO_4$ were 100 ${\mu}E/m^2/s$, $27^{\circ}C$, 7.0, 20.0 mM and 2.0 mM, respectively. On the other hand, 2.9 g/L of D. salina DCCBC2 biomass production was observed under the following conditions: light intensity, temperature, pH, $KNO_3$ and $K_2HPO_4$were 80 ${\mu}E/m^2/s$, $27^{\circ}C$, 8.0, 3.0 mM and 0.025 mM, respectively. At 1% $CO_2$ supply to the reactor, the Chlorella sp. production was reached 1.53 g/L with 25% increment under the same operating conditions. In addition, the maximum D. salina DCCBC2 biomass was observed as 3.40 g/L at 3% $CO_2$ concentration. Based on the aforementioned optimized conditions, the dilution rate and maximal biomass productivity of Chlorella sp. and D. salina DCCBC2 in the continuous cultivation were 0.4/d and 0.6 g/L/d and 0.6/d and 1.5 g/L/d, respectively.

Unraveling Biohydrogen Production and Sugar Utilization Systems in the Electricigen Shewanella marisflavi BBL25

  • Sang Hyun Kim;Hyun Joong Kim;Su Hyun Kim;Hee Ju Jung;Byungchan Kim;Do-Hyun Cho;Jong-Min Jeon;Jeong-Jun Yoon;Sang-Hyoun Kim;Jeong-Hoon Park;Shashi Kant Bhatia;Yung-Hun Yang
    • Journal of Microbiology and Biotechnology
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    • 제33권5호
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    • pp.687-697
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    • 2023
  • Identification of novel, electricity-producing bacteria has garnered remarkable interest because of the various applications of electricigens in microbial fuel cell and bioelectrochemical systems. Shewanella marisflavi BBL25, an electricity-generating microorganism, uses various carbon sources and shows broader sugar utilization than the better-known S. oneidensis MR-1. To determine the sugar-utilizing genes and electricity production and transfer system in S. marisflavi BBL25, we performed an in-depth analysis using whole-genome sequencing. We identified various genes associated with carbon source utilization and the electron transfer system, similar to those of S. oneidensis MR-1. In addition, we identified genes related to hydrogen production systems in S. marisflavi BBL25, which were different from those in S. oneidensis MR-1. When we cultured S. marisflavi BBL25 under anaerobic conditions, the strain produced 427.58 ± 5.85 µl of biohydrogen from pyruvate and 877.43 ± 28.53 µl from xylose. As S. oneidensis MR-1 could not utilize glucose well, we introduced the glk gene from S. marisflavi BBL25 into S. oneidensis MR-1, resulting in a 117.35% increase in growth and a 17.64% increase in glucose consumption. The results of S. marisflavi BBL25 genome sequencing aided in the understanding of sugar utilization, electron transfer systems, and hydrogen production systems in other Shewanella species.

Enterobacter aerogenes의 혐기발효에 의한 바이오 수소 생산 배지의 최적화 (The Optimization of Biohydrogen Production Medium by Dark Fermentation with Enterobacter aerogenes)

  • 김규호;최영진;김의용
    • KSBB Journal
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    • 제23권1호
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    • pp.54-58
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    • 2008
  • 수소는 연료전지와 같은 친환경적인 용도로 인해 미래의 에너지로서 주목받고 있는데, 생물학적인 발효법은 수소의 생산을 위한 유망한 방법이다. 본 연구에서는 Enterobacter aerogenes KCCM 40146을 대상으로 수소 생산을 최대로 하기 위한 배지의 조건을 최적화하였다. 그 결과, 0.5M potassium phosphate buffer pH 6.5에서 glucose 30 g/L일 때 수소의 누적 농도가 431 $m{\ell}$로 최대값을 얻을 수 있었다. 질소원으로 peptone과 tryptone을 넣은 배지가 수소의 생산 뿐 아니라 균주의 성장에 가장 효율적이었다 한편, 미생물의 성장속도조절이 수소의 효율적 생산을 위해 중요한 실험변수임을 알 수 있었다.