論文 - 詳細
| RRC ID | 29416 |
|---|---|
| 著者 | Fotidis IA, Karakashev D, Angelidaki I. |
| タイトル | Bioaugmentation with an acetate-oxidising consortium as a tool to tackle ammonia inhibition of anaerobic digestion. |
| ジャーナル | Bioresour Technol |
| Abstract |
Ammonia is the major inhibitor of anaerobic digestion (AD) process in biogas plants. In the current study, the bioaugmentation of the ammonia tolerant SAO co-culture (i.e. Clostridium ultunense spp. nov. in association with Methanoculleus spp. strain MAB1) in a mesophilic up-flow anaerobic sludge blanket (UASB) reactor subjected to high ammonia loads was tested. The co-cultivation in fed-batch reactors of a fast-growing hydrogenotrophic methanogen (i.e. Methanoculleus bourgensis MS2(T)) with the SAO co-culture was also investigated. Results demonstrated that bioaugmentation of SAO co-culture in a UASB reactor was not possible most likely due to the slow maximum growth rate (μmax=0.007 h(-1)) of the culture caused by the methanogenic partner. The addition of M. bourgensis to SAO led to 42% higher growth rate (μmax=0.01 h(-1)) in fed-batch reactors. This indicates that methanogens were the slowest partners of the SAO co-culture and therefore were the limiting factor during bioaugmentation in the UASB reactor. |
| 巻・号 | 146 |
| ページ | 57-62 |
| 公開日 | 2013-10-1 |
| DOI | 10.1016/j.biortech.2013.07.041 |
| PII | S0960-8524(13)01099-7 |
| PMID | 23916979 |
| MeSH | Acetates / chemistry* Ammonia / chemistry* Anaerobiosis Biofuels* Bioreactors / microbiology Clostridium / metabolism Coculture Techniques Hydrogen / chemistry In Situ Hybridization, Fluorescence Methane / chemistry Methanomicrobiaceae / metabolism Microscopy, Confocal Oxygen / chemistry* Refuse Disposal / methods* Sewage / microbiology* Temperature Time Factors |
| IF | 7.539 |
| 引用数 | 59 |
| WOS 分野 | BIOTECHNOLOGY & APPLIED MICROBIOLOGY AGRICULTURAL ENGINEERING ENERGY & FUELS |
| リソース情報 | |
| 一般微生物 | JCM 16670 |