Toxicity measurement in biological wastewater treatment processes: A review
2015-05-04
org.kosen.entty.User@4008f03
김형건(khgun)
행사&학회소개
1. Introduction
2. Approaches to toxicity measurement
3. Direct toxicity measurement methods
3.1. OUR based respiration inhibition test
3.2. Carbon dioxide evolution test
3.3. Nitrification/denitrification inhibition assay
3.3.1. Ammonium/nitrite/nitrate based nitrification/denitrification inhibition assay
3.3.2. Nitrous oxide accumulation based nitrification inhibition assay
3.4. Methane production-based anaerobic toxicity assay
3.5. Enzymatic activity of microorganisms
3.5.1. ATP luminescence assay
3.5.2. Dehydrogenase activity
3.6. Cell growth inhibition
3.7. Mortality/viability assay
3.7.1. Mortality assay
3.7.2. Cell membrane integrity assay
3.8. Floc morphology
4. Indirect toxicity measurement methods
4.1. Bioluminescent assay
4.2. Biosensors
4.2.1. Whole-cell biosensors
4.2.2. Microbial fuel cell (MFC) based biosensor
4.2.3. Full performance reactor-based biosensors
5. Comparison of different assays and future research needs
6. Conclusions
2. Approaches to toxicity measurement
3. Direct toxicity measurement methods
3.1. OUR based respiration inhibition test
3.2. Carbon dioxide evolution test
3.3. Nitrification/denitrification inhibition assay
3.3.1. Ammonium/nitrite/nitrate based nitrification/denitrification inhibition assay
3.3.2. Nitrous oxide accumulation based nitrification inhibition assay
3.4. Methane production-based anaerobic toxicity assay
3.5. Enzymatic activity of microorganisms
3.5.1. ATP luminescence assay
3.5.2. Dehydrogenase activity
3.6. Cell growth inhibition
3.7. Mortality/viability assay
3.7.1. Mortality assay
3.7.2. Cell membrane integrity assay
3.8. Floc morphology
4. Indirect toxicity measurement methods
4.1. Bioluminescent assay
4.2. Biosensors
4.2.1. Whole-cell biosensors
4.2.2. Microbial fuel cell (MFC) based biosensor
4.2.3. Full performance reactor-based biosensors
5. Comparison of different assays and future research needs
6. Conclusions
보고서작성신청
본 논문은 생물학적 하폐수 처리장에서 독성물질이 유입 될 경우의 제어에 대한 논문이다. OUR 등 다양한 방법을 통해서 검토하고 있다.