TY - BOOK ID - 37422394 TI - Nitrogen Removal Characteristics of Aerobic Denitrifying Bacteria and Their Applications in Nitrogen Oxides Emission Mitigation PY - 2019 SN - 9811324328 981132431X PB - Singapore : Springer Singapore : Imprint: Springer, DB - UniCat KW - Denitrification. KW - Denitrifying bacteria. KW - Biotechnology. KW - Climatic changes. KW - Environmental pollution. KW - Environmental Engineering/Biotechnology. KW - Climate Change. KW - Environmental Science and Engineering. KW - Waste Water Technology / Water Pollution Control / Water Management / Aquatic Pollution. KW - Chemical pollution KW - Chemicals KW - Contamination of environment KW - Environmental pollution KW - Pollution KW - Contamination (Technology) KW - Asbestos abatement KW - Bioremediation KW - Environmental engineering KW - Environmental quality KW - Factory and trade waste KW - Hazardous waste site remediation KW - Hazardous wastes KW - In situ remediation KW - Lead abatement KW - Pollutants KW - Refuse and refuse disposal KW - Changes, Climatic KW - Changes in climate KW - Climate change KW - Climate change science KW - Climate changes KW - Climate variations KW - Climatic change KW - Climatic changes KW - Climatic fluctuations KW - Climatic variations KW - Global climate changes KW - Global climatic changes KW - Climatology KW - Climate change mitigation KW - Teleconnections (Climatology) KW - Chemical engineering KW - Genetic engineering KW - Environmental aspects KW - Environmental engineering. KW - Climate change. KW - Environmental sciences. KW - Water pollution. KW - Aquatic pollution KW - Fresh water KW - Fresh water pollution KW - Freshwater pollution KW - Inland water pollution KW - Lake pollution KW - Lakes KW - Reservoirs KW - River pollution KW - Rivers KW - Stream pollution KW - Water contamination KW - Water pollutants KW - Water pollution KW - Waste disposal in rivers, lakes, etc. KW - Environmental science KW - Science KW - Environmental control KW - Environmental effects KW - Environmental stresses KW - Engineering KW - Environmental health KW - Environmental protection KW - Sustainable engineering KW - Global environmental change UR - https://www.unicat.be/uniCat?func=search&query=sysid:37422394 AB - This book systematically investigates the nitrogen removal characteristics of two screened aerobic denitrifying bacteria and their applications in nitrogen oxides emissions reduction. It reveals that Pseudomonas stutzeri PCN-1 possesses excellent capacity for aerobic nitrogen removal, regardless of whether nitrate, nitrite or N2O were taken as denitrification substrates. It also demonstrates that the rapid N2O reduction is due to the coordinate expression of denitrification genes. Further, the book discusses the bioaugmentation experiments conducted in denitrifying SBR and a pilot-scale Carrousel oxidation ditch, which confirmed that the strain could significantly enhance denitrification performance, reduce N2O emission and improve system stability. The second strain, P.aeruginosa PCN-2 accumulated negligible NO during aerobic nitrate and nitrite removal and efficiently removed NO from flue gas. This study is of great significance for potential applications of aerobic denitrification in mitigating nitrogen oxides emissions from biological nitrogen removal systems. ER -