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CO2 Reduction Rate of Photosynthetic Bacteria with Ceramics

첫 페이지 보기
  • 발행기관
    보안공학연구지원센터(IJBSBT) 바로가기
  • 간행물
    International Journal of Bio-Science and Bio-Technology SCOPUS 바로가기
  • 통권
    Vol.8 No.2 (2016.04)바로가기
  • 페이지
    pp.23-34
  • 저자
    Yootaek Kim, Kyongwoo Lee
  • 언어
    영어(ENG)
  • URL
    https://www.earticle.net/Article/A272621

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원문정보

초록

영어
To address global warming caused by increased CO2 emissions, many studies on CO2 reduction have been conducted worldwide. In carbon capture and storage (CCS) technology, the mineral carbonation process causes CO2 to react with particular metals or compounds to stably fix CO2. Many relevant studies have been performed on this capture process. Based on research describing photosynthetic bacteria that fix CO2 in the process of producing H2 under light irritation, this study combines ceramics with photosynthetic bacteria to develop a material capable of reducing environmental CO2. To investigate the possible combinations this study conducted experiments on ceramic materials of hardened cement pastes and lightweight aggregates made using waste from the Korean Y power plant. The photosynthetic bacteria Rhodopseudomonas pentothenatexigens AE8-5 was used and cultivated in a standard culturing medium. To examine the CO2 reduction rate, a 165 mL sealable glass bottle was used and CO2 was injected through the rubber lid using a syringe. Ceramic specimens were placed in the medium with the photosynthetic bacteria, and then were cultured in a shaking incubator at 25-30°C, a pH of 7, 6000 lux irradiation, and a shaking rate of 120 RPM. After the injection of the bacteria, gas chromatography-thermal conductivity detection analysis was performed on the gases in the bottles, and the presence of CO2 was confirmed. When 30 g of the ceramic aggregate with a low reaction rate with CO2 was used and the photosynthetic bacteria were irradiated, the CO2 concentration was reduced by ~40%. It is necessary to address the amount of ceramic material used and the shaking friction generated in order for uniform light irradiation when the ceramic is combined with photosynthetic bacteria. The results demonstrated that materials combining photosynthetic bacteria and ceramic are applicable for future studies.

목차

Abstract
 1. Introduction
 2. Experiments
  2.1. Materials
  2.2. CO2 Reduction Rate
 3. Results and Discussion
  3.1. Cement-based Specimen
  3.2. Ceramic LWA Specimen
 4. Conclusions
 Acknowledgement
 References

키워드

CO2 reduction Photosynthetic bacteria Aggregate Medium

저자

  • Yootaek Kim [ Department of Materials Engineering, Kyonggi University, Suwon, Korea ]
  • Kyongwoo Lee [ Department of Materials Engineering, Kyonggi University, Suwon, Korea ]

참고문헌

자료제공 : 네이버학술정보

간행물 정보

발행기관

  • 발행기관명
    보안공학연구지원센터(IJBSBT) [Science & Engineering Research Support Center, Republic of Korea(IJBSBT)]
  • 설립연도
    2006
  • 분야
    공학>컴퓨터학
  • 소개
    1. 보안공학에 대한 각종 조사 및 연구 2. 보안공학에 대한 응용기술 연구 및 발표 3. 보안공학에 관한 각종 학술 발표회 및 전시회 개최 4. 보안공학 기술의 상호 협조 및 정보교환 5. 보안공학에 관한 표준화 사업 및 규격의 제정 6. 보안공학에 관한 산학연 협동의 증진 7. 국제적 학술 교류 및 기술 협력 8. 보안공학에 관한 논문지 발간 9. 기타 본 회 목적 달성에 필요한 사업

간행물

  • 간행물명
    International Journal of Bio-Science and Bio-Technology
  • 간기
    격월간
  • pISSN
    2233-7849
  • 수록기간
    2009~2016
  • 등재여부
    SCOPUS
  • 십진분류
    KDC 505 DDC 605

이 권호 내 다른 논문 / International Journal of Bio-Science and Bio-Technology Vol.8 No.2

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