[1] 王榕,成鹏飞,张建,等. 碳磷比对 SND 过程污染物 去除及 N2O 释放的影响[ J] .中国环境科学,2014, 34(2) :378-382.
[2] 甄建园,于德爽,王晓霞,等. 进水 C / P 对 SNEDPR 系统脱氮除磷性能的影响[ J] .环境科学,2019,40 (1) :343-351.
ZHEN J Y, YU D S, WANG X X, et al. Effect of the influent C / P ratio on the nutrient removal characteris- tics of the SNEDPR system [ J] . Environmental science, 2019, 40(1) : 343-351.
[3] 彭赵旭,韩微,彭志远,等. 反应时间和碳磷比对单 级好氧除磷的影响[ J] . 郑州大学学报 ( 工学版) , 2018,39(4) :46-50.
PENG Z X, HAN W, PENG Z Y, et al. Impacts of reaction time and C to P ratio on single aerobic phosphorus removal system[ J] . Journal of Zhengzhou university ( engineering science) , 2018, 39(4) : 46-50.
[4] 王维奇,王秀杰,李军,等. 部分反硝化耦合厌氧氨 氧化脱 氮 性 能 研 究 [ J] . 中 国 环 境 科 学, 2019, 39 (2) :641-647.
WANG W Q, WANG X J, LI J, et al. Study on the performance of partial denitrification coupled with anaerobic ammonia oxidation for nitrogen removal [ J ] . China environmental science, 2019, 39 ( 2 ) : 641 -647.
[5] 杨雄,彭永臻,宋姬晨,等. 进水中碳水化合物分子 大小对污泥沉降性能的影响 [ J] . 中 国 环 境 科 学, 2015,35(2) :448-456.
YANG X, PENG Y Z, SONG J C, et al. Effect of influent carbohydrates with different molecule-size on sludge settleability[ J] . China environmental science, 2015, 35(2) : 448-456.
[6] TORRESI E,TANG K,DENG J,et al. Removal of micropollutants during biological phosphorus removal:impact of redox conditions in MBBR[ J] . Science of the total environment,2019,663:496-506.
[7] KANG X R,LIU Y L. Effect of intracellular carbon resource on competition between PAOs and GAOs for enhanced biological phosphorus removal [ J ] . Advanced materials research,2014,1073-1076:1007-1010.
[8] 王建辉,赵鑫,林爽,等. 影响聚磷菌和聚糖菌竞争 的若干因素分析[ J] . 吉林农业大学学报,2019,41 (3) :303-307.
WANG J H, ZHAO X, LIN S, et al. Analysis of several factors influencing the competition of PAOs and GAOs [ J ] . Journal of Jilin agricultural university, 2019, 41(3) : 303-307.
[9] LI W,ZHANG H Y,SUN H Z,et al. Influence of pH on short-cut denitrifying phosphorus removal[ J] . Water science and engineering,2018,11(1) :17-22.
[10] 谷雨. 污水处理中硝化细菌生存的影响因素分析 [ J] . 江西化工, 2020(3) : 130-132. GU Y. Analysis of factors affecting the survival of nitrifying bacteria in sewage treatment[ J] . Jiangxi chemical industry, 2020(3) : 130-132.
[11] ZHANG L L,SONG Y D,ZUO Y,et al. Integrated sulfur-and iron-based autotrophic denitrification process and microbial profiling in an anoxic fluidized-bed membrane bioreactor[ J] . Chemosphere,2019,221:375 -382.
[12] 王文琪,李冬,高鑫,等. 不同好氧 / 缺氧时长联合分 区排泥优化生活污水短程硝化反硝化除磷颗粒系 统运行[ J] . 环境科学, 2021, 42(9) : 4406-4413.
WANG W Q, LI D, GAO X, et al. Combining different aerobic / anoxic durations with zoned sludge discharge to optimize short-cut nitrification denitrifying phosphorus removal granules in domestic sewage [ J] . Environmental science, 2021, 42(9) : 4406-4413.
[13] 王天龙. 生活污水处理过程影响因素分析及调控 策略探究[D] . 哈尔滨: 哈尔滨工业大学, 2016.
WANG T L. Analysis on influencing factors of domestic sewage treatment and the study of control process [D] . Harbin: Harbin Institute of Technology, 2016.
[14] 贾艳萍, 贾心倩, 张兰河, 等. 序批式生物反应器 工艺脱氮除磷过程控制参数[ J] . 化学反应工程与 工艺, 2015, 31(2) : 136-141.
JIA Y P, JIA X Q, ZHANG L H, et al. Control parameters for removal of nitrogen and phosphorus in sequencing batch reactor [ J ] . Chemical reaction engineering and technology, 2015, 31(2) : 136-141.
[15] LI S Y,MU J N,DU Y F,et al. Study and application of real-time control strategy based on DO and ORP in nitritation-denitrification SBR start-up [ J ] . Environmental technology,2021,42(1) :114-125.