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Fu kunming, Liao minhui, Wang junan, et al., Present situation on low concentration domestic wastewater in village and towns and its treatment[J]. Environmental Engineering. 2019, 37(4), pp. 48–51.FukunmingLiaominhuiWangjunanPresent situation on low concentration domestic wastewater in village and towns and its treatment[J]20193744851Search in Google Scholar
Jiang haihong, Yuan shaochun, Lv bo, et al., Strategy for eliminate the black and odorous water bodies in Panxi River of Chongqing[J]. Environmental Engineering, 2019, 37(8), pp. 37–41.JianghaihongYuanshaochunLvboStrategy for eliminate the black and odorous water bodies in Panxi River of Chongqing[J]20193783741Search in Google Scholar
Cao xiaoyuan, Wang jinsheng, Li jian, Managing urban sewage treatment: current situation and experience in Italy[J]. Journal of Beijing Normal University (Natural Science). 2016, 52(4), pp. 493–496.CaoxiaoyuanWangjinshengLijianManaging urban sewage treatment: current situation and experience in Italy[J]2016524493496Search in Google Scholar
BI Jianlin, WANG Lishuo, WANG Xinhui, Temporal and spatial variations of eutrophication and its risks in the urban rivers with unconventional water sources[J]. Acta Scientiae Circumstantiae, 2015, 35(6), pp. 1703–1709.BIJianlinWANGLishuoWANGXinhuiTemporal and spatial variations of eutrophication and its risks in the urban rivers with unconventional water sources[J]201535617031709Search in Google Scholar
Li xiao, Ji haixia, Cheng shuhui, et al., Discussion on reconstruction scheme of Chikan Wastewater Treatment Plant in Zhanjiang City[J]. Water & Wastewater Engineering, 2019, 55(6), pp. 11–15.LixiaoJihaixiaChengshuhuiDiscussion on reconstruction scheme of Chikan Wastewater Treatment Plant in Zhanjiang City[J]20195561115Search in Google Scholar
Teng liangfang, Wu di, Zheng zhijia, et al., Upgrading and Reconstruction to Meet Quasi Class IV Standard of Surface Water by Bardenpho-MBBR in a Wastewater Treatment Plant[J]. China Water & Wastewanter, 2019, 35(11), pp. 33–39.TengliangfangWudiZhengzhijiaUpgrading and Reconstruction to Meet Quasi Class IV Standard of Surface Water by Bardenpho-MBBR in a Wastewater Treatment Plant[J]201935113339Search in Google Scholar
Hou xiaoqing, Deng lei, Gao haiying, et al., Application of MBR Process in the Upgrading and Reconstruction Project of Shending River Wastewater Treatment Plant[J]. China Water & Wastewanter, 2018, 34(22), pp. 66–70.HouxiaoqingDengleiGaohaiyingApplication of MBR Process in the Upgrading and Reconstruction Project of Shending River Wastewater Treatment Plant[J]201834226670Search in Google Scholar
Wang honggang, Ji haixia, Cheng shuhui, et al., Design of Upgrading Project of CASS Process in a Sewage Treatment Plant in Northern China[J]. China Water & Wastewanter, 2019, 35(10), pp. 60–63.WanghonggangJihaixiaChengshuhuiDesign of Upgrading Project of CASS Process in a Sewage Treatment Plant in Northern China[J]201935106063Search in Google Scholar
Yang shuxia, Wei xun, Yan yong, et al., Retrofit of a WWTP by Biological Nutrient Removal and Membrane Bioreactor Process[J]. China Water & Wastewanter, 2019, 35(8), pp. 82–86.YangshuxiaWeixunYanyongRetrofit of a WWTP by Biological Nutrient Removal and Membrane Bioreactor Process[J]20193588286Search in Google Scholar
Du xin, Zhang chaosheng, Wang haiyan, et al., Phosphorus removal by biological-chemical strengthening process for municipal wastewater treatment[J]. Research of Environmental Sciences, 2015, 28(9), pp. 1474–1480.DuxinZhangchaoshengWanghaiyanPhosphorus removal by biological-chemical strengthening process for municipal wastewater treatment[J]201528914741480Search in Google Scholar
Jiang juan, Chemical-biological Flocculation Process Improve the Quality of Effluent of the Secondary Sedimentation Tank[D], Huazhong University of Science and Technology, 2011:1–4.Jiangjuan[D]Huazhong University of Science and Technology201114Search in Google Scholar
Yanchen Liu, Hanchang Shi, Wenlin Li, et al., Inhibition of chemical dose in biological phosphorus and nitrogen removal in simultaneous chemical precipitation for phosphorus removal[J]. Bioresource Technology, 2011, 102(5), pp. 77–89.YanchenLiuHanchangShiWenlinLiInhibition of chemical dose in biological phosphorus and nitrogen removal in simultaneous chemical precipitation for phosphorus removal[J]20111025778910.1016/j.biortech.2010.11.10721215613Search in Google Scholar
Ji bin, Qin hui, Chen wei, et al., Research Progress on Phosphorus Synergetic Removal by Ferric Salt in Wastewater[J]. Technology of Water Treatment, 2018, 44(2), pp. 11–14.JibinQinhuiChenweiResearch Progress on Phosphorus Synergetic Removal by Ferric Salt in Wastewater[J]20184421114Search in Google Scholar
Xing wei, Huang wenmin, Li dunmin, et al., Ferric salts for phosphorus removal and Flocculants[J]. Water & Wastewanter, 2006, 32(2), pp. 88–91.XingweiHuangwenminLidunminFerric salts for phosphorus removal and Flocculants[J]20063228891Search in Google Scholar
Liu yueyue, Chen jie, Zhang zhenbin, Preparation of Liquid Ferric Chloride by Acid Pickling Wastewater[J]. Journal of Green Science and Technology, 2018, 14(7), pp. 170–172.LiuyueyueChenjieZhangzhenbinPreparation of Liquid Ferric Chloride by Acid Pickling Wastewater[J]2018147170172Search in Google Scholar
Peng zhanying, Preparation of Ferric Chloride Aqueous Solutions[J]. Natural Science Journal of Hainan University, 2009, 27(2), pp. 129–133.PengzhanyingPreparation of Ferric Chloride Aqueous Solutions[J]2009272129133Search in Google Scholar
Li li, Li wenqing, Tan hongxin, et al., Effects of pH on ammonium nitrogen conversion efficiency and bacteria activity of microbial flocs[J]. Journal of Shanghai Ocean University, 2019, 28(8), pp. 1–10.LiliLiwenqingTanhongxinEffects of pH on ammonium nitrogen conversion efficiency and bacteria activity of microbial flocs[J]2019288110Search in Google Scholar
Li xinwei, Zhao yangguo, Wang juncai, et al., Effect of Alkalinity Changes on Performance of Sulfidogenic Bioreactor and Microbial Community[A]. Proceedings of Conference on Environmental Pollution and Public Health. 2010, 5, pp. 1011–1015.LixinweiZhaoyangguoWangjuncai[A].Proceedings of Conference on Environmental Pollution and Public Health2010510111015Search in Google Scholar
Kaiquan Zhang, Luqing Pan, Wenbin Chen, et al., Effect of using sodium bicarbonate to adjust the pH to different levels on water quality, the growth and the immune response of shrimp Litopenaeus vannamei reared in zero-water exchange biofloc-based culture tanks[J]. Aquaculture Research, 2017, 48(3), pp. 1032–1045.KaiquanZhangLuqingPanWenbinChenEffect of using sodium bicarbonate to adjust the pH to different levels on water quality, the growth and the immune response of shrimp Litopenaeus vannamei reared in zero-water exchange biofloc-based culture tanks[J]20174831032104510.1111/are.12961Search in Google Scholar
Li li, Li wenqing, Tan hongxin, et al., Effects of pH on ammonium nitrogen conversion efficiency and bacteria activity of microbial flocs[J]. Journal of Shanghai Ocean University, 2019, 28(5), pp. 671–679.LiliLiwenqingTanhongxinEffects of pH on ammonium nitrogen conversion efficiency and bacteria activity of microbial flocs[J]2019285671679Search in Google Scholar
Zheng chunhua, Geng anfeng, Li jinguo, Role and Control of Alkalinity in the Process for Biological Nitrogen Removal[J]. China Water & Wastewanter, 2017, 33(10), pp. 34–36.ZhengchunhuaGenganfengLijinguoRole and Control of Alkalinity in the Process for Biological Nitrogen Removal[J]201733103436Search in Google Scholar
Qi tao, Qin shuying, Ning zhanzhi, et al., Diurnal variation characteristics of pH and dissolved oxygen in autumn in Qiusuoxi, Yichang [J]. Yangtze River, 2018, 49(S2), pp. 38–42.QitaoQinshuyingNingzhanzhiDiurnal variation characteristics of pH and dissolved oxygen in autumn in Qiusuoxi, Yichang[J]201849S23842Search in Google Scholar
Ding kang, Liu hui, Ma jie, et al., Effect of Aeration on the Chemical Characteristics of Groundwater with High Concentration of Iron [J]. Environmental Science & Technology, 2019, 42(6), pp. 89–93.DingkangLiuhuiMajieEffect of Aeration on the Chemical Characteristics of Groundwater with High Concentration of Iron[J]20194268993Search in Google Scholar
Li nan, Wang xiuheng, Keng han, et al., Influence of pH on Microbial Community Structure and Metabolic Characteristics of PAOs in Biological Phosphorus Removal at Low Temperature[J]. Environmental Science & Technology, 2013, 36(3), pp. 9–11.LinanWangxiuhengKenghanInfluence of pH on Microbial Community Structure and Metabolic Characteristics of PAOs in Biological Phosphorus Removal at Low Temperature[J]2013363911Search in Google Scholar