Source Journal of CSCD
Source Journal for Chinese Scientific and Technical Papers
Core Journal of RCCSE
Included in JST China
Volume 38 Issue 12
Apr.  2021
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BAO Yi, SONG Jia-jun, YIN Fang-fang, ZHANG Yuan-ke, TIAN Wen-li, LI Xin-hui, YANG Chen-qi, LIU Wen-ru, SHEN Yao-liang. EFFECTS OF LOW TEMPERATURE ON PARTIAL NITRIFICATION GRANULAR SYSTEM[J]. ENVIRONMENTAL ENGINEERING , 2020, 38(12): 32-37,44. doi: 10.13205/j.hjgc.202012006
Citation: BAO Yi, SONG Jia-jun, YIN Fang-fang, ZHANG Yuan-ke, TIAN Wen-li, LI Xin-hui, YANG Chen-qi, LIU Wen-ru, SHEN Yao-liang. EFFECTS OF LOW TEMPERATURE ON PARTIAL NITRIFICATION GRANULAR SYSTEM[J]. ENVIRONMENTAL ENGINEERING , 2020, 38(12): 32-37,44. doi: 10.13205/j.hjgc.202012006

EFFECTS OF LOW TEMPERATURE ON PARTIAL NITRIFICATION GRANULAR SYSTEM

doi: 10.13205/j.hjgc.202012006
  • Received Date: 2020-02-28
    Available Online: 2021-04-23
  • The long-and short-term effects of temperature change on partial nitrification granules was investigated. The results showed that nitrite accumulation efficiency and ammonium removal loading rates of the granular reactor were stably maintained at above 95% and 0.18~0.25 kg/(m3·L), when treating the influent of (35.8±5.2) mg/L with hydraulic retention time of 2.0 h at 7~17 ℃. The low DO/NH4+-N ratio (<0.25) caused the efficient nitrite oxidizing bacteria (NOB) repression in the granular reactor. Though the lowering temperature caused the decrease of specific ammonia oxidation rates (SAOR) of partial nitrification granules from (237±14) g/(g·d) (at 17 ℃) to (93±11) g/(g·d) (at 8 ℃), the active AOB ratio (the ratio between actual SAOR and maximal SAOR of granules) increased from 48% to 85%. Batch tests results indicated that the temperature coefficient (θ) and activation energy (Ea) of the ammonia oxidizing bacteria (AOB) living in the granules was around 1.042~1.063, 29.7~41.9 kJ/mol respectively from 7.1 ℃ to 28 ℃, which were lower than that reported in flocculent sludge systems. These results suggested that the AOB living in the granules were less influenced by low temperatures than that living in the flocs. The research could provide practical support for the development of high-rate nitritation technology for municipal wastewater treatment with granular sludge.
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