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乐鱼,污泥焚烧工程中的磷形态分布与磷迁移研究 纪莎莎,黄瑾(上海市城市建设设计研究总院有限公司,上海200125)

发布时间:2024-08-10

焦点提醒:污泥燃烧项目中的磷形态散布与磷迁徙研究 纪莎莎,黄瑾(上海市城市扶植设想研究总院无限公司,上海200125) 中国给水排水2023年中国污水中国给水排水2023年城镇污泥处理处置技术与应用高级研讨会(第十四届)邀请函处理厂提标改造(污水处理提质增效)高级研讨会(第七届)邀请函暨征稿启事中国给水排水2023年中国污水处理厂中国给水排水2023年城镇污泥处理处置技术与应用高级研讨会(第十四届)邀请函提标改造(污水处理提质增效)高级研讨会(第七届)邀请函暨征稿启事

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    • English上一篇下一篇PDF下载[1]纪莎莎,黄瑾.污泥燃烧项目中的磷形态散布与磷迁徙研究[J].中国给水排水,2021,37(5):26-30. JI Sha-sha,HUANG Jin.Phosphorus Forms Distribution and Migration in Sludge Incineration Project[J].China Water & Wastewater,2021,37(5):26-30.点击复制

      污泥燃烧项目中的磷形态散布与磷迁徙研究中国给水排水[ISSN:1000-4062/CN:12-1073/TU]卷:第37卷期数:2021年第5期页码:26-30栏目:出书日期:2021-03-01
      Title:
      Phosphorus Forms Distribution and Migration in Sludge Incineration Project
      作者:
      纪莎莎,黄瑾
      (上海市城市扶植设想研究总院<团体>无限公司,上海200125)
      Author(s):
      JI Sha-sha,HUANG Jin
      (Shanghai Urban Construction Design and Research InstituteCo. Ltd., Shanghai 200125, China)
      要害词:
      污泥;燃烧;磷形态
      Keywords:
      sludge;incineration;form of phosphorus
      摘要:
      以竹园污泥燃烧项目为依托,采取SMT方式研究磷在干污泥、炉渣和飞灰中的含量和赋存形态。成果注解,燃烧进程使炉渣和飞灰中的总磷(TP)含量比干污泥提高了2~3倍,还使此中的无机磷(IP)含量年夜幅晋升至TP总量的99%以上,在实现磷富集的同时有用晋升了磷的生物可操纵性。阐发燃烧进程对磷灰石无机磷(AP)和非磷灰石无机磷(NAIP)的影响,发觉镁离子与钙离子会与污泥中的NAIP产生反映,代替铝离子从而生成钙镁连系情势的AP;与炉渣比拟,飞灰在布袋处受CaO添加的影响,此种转化趋向更加较着,AP已跨越NAIP成为劣势形态,占IP总量的78.4%。燃烧是上海地域处置污泥的首要体例,该研究成果从养分物收受接管角度为污泥燃烧飞灰的资本化操纵供给了新思绪。
      Abstract:
      Based on Zhuyuan sludge incineration project, contents and forms of phosphorus in dry sludge, slag and fly ash were explored by using SMT method. The total phosphorus (TP) contents in slag and fly ash were 2 to 3 times higher than that in dry sludge, and the inorganic phosphorus (IP) contents in slag and fly ash were increased to more than 99% of the total TP. Therefore, the phosphorus bioavailability was effectively improved while phosphorus enrichment was realized. The effects of incineration process on apatite inorganic phosphorus (AP) and non-apatite inorganic phosphorus (NAIP) were analyzed. It was found that magnesium and calcium ions reacted with NAIP in sludge, replacing aluminum ion to form calcium-magnesium binding AP. Compared with slag, this transformation trend in fly ash was more obvious because of CaO addition in bags, and the AP surpassed NAIP to become the dominant form, accounting for 78.4% of the total IP. As incineration is the main way of sludge treatment in Shanghai, the above conclusions provide a new idea for resource utilization of fly ash created in sludge incineration from the perspective of nutrient recovery.

      类似文献/References:

      [1]刘常青,陈琬,曾艺芳,等.SARD与CSTR反映器半持续发酵产氢能力对照[J].中国给水排水,2018,34(21):7.LIU Chang qing,CHEN Wan,ZENG Yi fang,et al.Hydrogen Production����APP Capacity of Semi continuous Fermentation of SARD and CSTR Bio hydrogen Production Reactor[J].China Water & Wastewater,2018,34(5):7.[2]颜莹莹,梁远,沙雪华,等.新冠肺炎疫情下关在削减污泥中病原体的思虑[J].中国给水排水,2020,36(6):22.[3]郭波,田瑜,范晨,等.绿色纳米铁/H2O2联用两性脱水剂调度污泥研究[J].中国给水排水,2020,36(13):62.GUO Bo,TIAN Yu,FAN Chen,et al. Sludge Conditioning by Green Iron Nanoparticles/H2O2 Combined with Amphoteric Dewatering Agent [J].China Water & Wastewater,2020,36(5):62.[4]许劲,范准,吕秋颖,等.山地城市污泥水热炭化产品特征研究[J].中国给水排水,2020,36(21):21.XU Jin,FAN Zhun,L Qiu-ying,et al.Characteristics of Hydrothermal Carbonization Products of Municipal Sludge in Mountainous Cities[J].China Water & Wastewater,2020,36(5):21.[5]李金河,张波澜,刘宝玉,等.污泥中温厌氧消化最好温度和改良机理阐发[J].中国给水排水,2021,37(3):9.LI Jin-he,ZHANG Bo-tao,LIU Bao-yu,et al.Optimal Reaction Temperature in Mesophilic Anaerobic Digestion of Waste Activated Sludge and Its Promotion Mechanism[J].China Water & Wastewater,2021,37(5):9.[6]马彩霞,刘蕾,李碧清,等.强化化学淋滤对污泥重金属溶出和磷释放的影响[J].中国给水排水,2021,37(5):66.MA Cai-xia,LIU Lei,LI Bi-qing,et al.Effect of Enhanced Chemical Leaching on Heavy Metal Dissolution and Phosphorus Release from Sludge[J].China Water & Wastewater,2021,37(5):66.[7]刘勇.城市糊口污泥干化燃烧项目调试与试运转[J].中国给水排水,2021,37(6):117.LIU Yong.Commissioning and Trial Operation of a Municipal Sludge Drying and Incineration Project[J].China Water & Wastewater,2021,37(5):117.[8]李彪,周欣,高波,等.顺义区污泥干化燃烧处置项目工艺设想[J].中国给水排水,2021,37(14):63.LI Biao,ZHOU Xin,GAO Bo,et al.Design of Sludge Drying Incineration Treatment Process in Shunyi District[J].China Water & Wastewater,2021,37(5):63.[9]李伟,常菁,王佳伟,等.热水解高级厌氧消化系统的污泥消毒、减量与能量收受接管[J].中国给水排水,2021,37(16):19.LI Wei,CHANG Jing,WANG Jia-wei,et al.Sludge Disinfection, Reduction and Energy Recovery by Anaerobic Digestion with Thermal Hydrolysis Pretreatment[J].China Water & Wastewater,2021,37(5):19.[10]胡佩佩,侯锋,范莹,等.深度脱水污泥好氧发酵工艺研究[J].中国给水排水,2021,37(17):74.HU Pei-pei,HOU Feng,FAN Ying,et al.Aerobic Fermentation Process of Deep Dewatering Sludge[J].China Water & Wastewater,2021,37(5):74.[11]王丽花,吕国钧,王飞,等.污泥干化燃烧系统的节能降耗研究[J].中国给水排水,2021,37(4):29.WANG Li-hua,Lü Guo-jun,WANG Fei,et al.Research on Energy Saving and Consumption Reduction of Sludge Drying and Incineration System[J].China Water & Wastewater,2021,37(5):29.

      更新日期/Last Update:2021-03-01


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