利用白云石回收污泥厌氧消化液中的磷

梅翔; 杨旭; 张涛; 王欣; 严伟; 何珣; 张怡; 周宇翔

利用白云石回收污泥厌氧消化液中的磷

1.
南京林业大学化学工程学院环境工程系,南京 210037
2.
江苏省环境监测中心,南京 210036
基金项目:
国家"水体污染控制与治理"科技重大专项子课题资助(2009ZX07101-15)

江苏省"六大人才高峰"项目(164030104)

南京林业大学人才基金资助项目(G2005-06)

江苏省研究生培养创新工程资助项目(苏教研[2010]6号)

江苏高校优势学科建设工程资助项目(PAPD)
中图分类号: X703.1

Phosphorus recovery from anaerobic digestion supernatant of sewage sludge using dolomite

1.
Department of Environmental Engineering, College of Chemical Engineering, Nanjing Forestry University, Nanjing 210037, China
2.
Jiangsu Provincial Environmental Monitoring Centre, Nanjing 210036, China
Fund Project:

摘要: 为经济有效地从污泥厌氧消化液中回收磷,构建了以白云石提供钙镁源的磷回收方法,探讨了磷回收的工艺条件与效果。通过盐酸酸化厌氧消化液以降低其碳酸盐含量,同时利用白云石溶于冷稀盐酸的特性使其钙镁缓慢释放到酸化的厌氧消化液中形成第一步磷回收体系,考察体系酸化pH、白云石与厌氧消化液的固液比以及反应pH对白云石的钙镁释放和磷回收效果的影响;第一步磷回收后的上清液为第二步厌氧消化液磷回收提供钙镁源,研究投加钙磷摩尔比对磷回收效果的影响。实验结果表明,当固液比为5.0时,在酸化pH为4.0~4.5且酸化溶出时间为10 h以及反应pH为9.0的条件下,第一步磷回收产物以磷酸钙盐沉淀为主,厌氧消化液磷回收率及回收产物含磷率(以P2O5计)分别达到99.43%和38.49%;第一步磷回收后的上清液按一定的钙磷摩尔比投加到酸化后的厌氧消化液中进行第二步磷回收,当投加钙磷摩尔比为0.20时,在反应pH为9.0的条件下,回收产物同时含有磷酸钙盐和磷酸铵镁,厌氧消化液中氮、磷回收率分别达到13.19%和90.90%,回收产物氮、磷含量(以P2O5计)分别为0.26%和39.58%;经XRD、XRF、ICP及SEM等分析表征,2步磷回收的产物以磷酸钙盐和磷酸铵镁为主要成分,杂质少。研究表明,利用白云石为钙镁源,通过分别构建不同的磷回收体系可以分步从污泥厌氧消化液中经济有效地回收磷,且磷回收率和回收产物含磷率高。
- 白云石 /
- 钙源 /
- 镁源 /
- 污泥厌氧消化液 /
- 磷回收 /
- 磷酸钙盐 /
- 磷酸铵镁
Abstract: In order to recover phosphorus from anaerobic digestion supernatant economically and efficiently, the method for phosphorus recovery was constructed by using dolomite to provide calcium and magnesium sources, and the process conditions and performances of phosphorus recovery were explored. Since the carbonate content could be decreased by acidification of anaerobic digestion supernatant with hydrochloric acid, in the meantime dolomite could be dissolved and calcium and magnesium in dolomite could be slowly released into the acidified anaerobic digestion supernatant by means of the characteristics that the dolomite could be dissolved in cold and dilute hydrochloric acid, the first-step phosphorus recovery system could be formed, and the effects of system acidification pH, solid-liquor ratio of dolomite to anaerobic digestion supernatant and reaction pH on phosphorus recovery were investigated. The supernatant after the first-step phosphorus recovery was used to provide calcium and magnesium sources for the second-step phosphorus recovery from anaerobic digestion supernatant, and the effect of the dosing Ca/P molar ratio on phosphorus recovery was studied. The experimental results showed that the first-step recovered product of phosphorus was mainly the precipitation of calcium phosphates, and phosphorus recovering rate and the phosphorus content (as P2O5) of product could attain 99.43% and 38.49%, respectively, when the solid-liquor ratio was 5.0, the acidification pH was 4.0~4.5 for 10 h of acidification and dissolution time, and the reaction pH was 9.0. The second-step phosphorus recovery was carried out when the supernatant after the first-step phosphorus recovery was dosed into the acidified anaerobic digestion supernatant according to a definite Ca/P molar ratio. When the dosing Ca/P molar ratio was 0.20 at the reaction pH of 9.0, the recovered product contained both calcium phosphates and magnesium ammonium phosphate, and nitrogen and phosphorus recovery rates of anaerobic digestion supernatant could reach 13.19% and 90.90%, respectively, and nitrogen and phosphorus contents (as P2O5) of recovered product were 0.26% and 39.58%, respectively. Based on the analyses and characterization by XRD, XRF, ICP and SEM, two-step recovered product mainly consisted of calcium phosphates and magnesium ammonium phosphate with little impurities. This research indicated that phosphorus could be economically and efficiently recovered from anaerobic digestion supernatant of sewage sludge based on two different phosphorus recovery systems established with dolomite as calcium and magnesium sources, and higher phosphorus recovery rate and phosphorus content could be achieved.
- dolomite /
- calcium source /
- magnesium source /
- anaerobic digestion supernatant of sewage sludge /
- phosphorus recovery /
- calcium phosphates /
- magnesium ammonium phosphate

[1]	郝凌云, 周荣敏, 周芳, 等. 磷酸铵镁沉淀法回收污水中磷的反应条件优化. 工业用水与废水, 2008, 39(1): 58-61 Hao L. Y., Zhou R. M., Zhou F., et al. A reaction condition optimization for phosphorus removal from wastewater by magnesium ammonium phosphate sedimentation. Industrial Water & Wastewater, 2008, 39(1): 58-61 (in Chinese)
[2]	陈瑶, 李小明, 曾光明, 等. 以磷酸钙盐的形式从污水处理厂回收磷的研究. 环境科学与管理, 2006, 31(4): 110-112 Chen Y., Li X.M., Zeng G.M., et al. Study on phosphorus recovery as calcium phosphate from wastewater treatment plant. Environmental Science and Management, 2006, 31(4): 110-112 (in Chinese)
[3]	程振敏, 魏源送, 刘俊新. 磷酸钙法回收污泥中磷的主要影响因素. 中国给水排水, 2009, 25(7): 22-25 Cheng Z.M., Wei Y.S., Liu J.X. Phosphorus recovery from sewage sludge by calcium phosphate precipitation method. China Water & Wastewater, 2009, 25(7): 22-25 (in Chinese)
[4]	Pastor L., Marti N., Bouzas A., et al. Sewage sludge management for phosphorus recovery as struvite in EBPR wastewater treatment plants. Bioresource Technology, 2008, 99(11): 4817-4824
[5]	王磊, 梅翔, 王金梅, 等. 污泥厌氧消化液中碳酸盐对回收磷的影响. 环境工程学报, 2010, 4(7): 1519-1524 Wang L., Mei X., Wang J.M., et al. Effect of carbonate on phosphorus recovery from anaerobic digestion supernatant of sewage sludge. Chinese Journal of Environmental Engineering, 2010, 4(7): 1519-1524 (in Chinese)
[6]	Jaffer Y., Clark T. A., Pearce P., et al. Potential phosphorus recovery by struvite formation. Water Research, 2002, 36(7): 1834-1842
[7]	郭杰, 曾光明, 张盼月, 等. 结晶法磷回收工艺在废水处理中的应用. 水处理技术, 2006, 32(10): 1-4 Guo J., Zeng G.M., Zhang P.Y., et al. Application of crystallization technologies for phosphorus recovery in wastewater treatment. Technology of Water Treatment, 2006, 32(10): 1-4 (in Chinese)
[8]	Kim E.H., Yim S.B., Jung H.C., et al. Hydroxyapatite crystallization from a highly concentrated phosphate solution using powdered converter slag as a seed material. Journal of Hazardous Materials, 2006, 136(3): 690-697
[9]	Battistoni P., De Angelis A., Pavan P., et al. Phosphorus removal from a real anaerobic supernatant by struvite crystallization. Water Research, 2001, 35(9): 2167-2178
[10]	汪慧贞, 王绍贵. 以磷酸钙盐形式从污水厂回收磷研究. 中国给水排水, 2006, 22(9): 93-96 Wang H.Z., Wang S.G. Study on phosphorus recovery by calcium phosphate precipitation from wastewater treatment plant. China Water & Wastewater, 2006, 22(9): 93-96 (in Chinese)
[11]	Zhang T., Ding L., Ren H., et al. Thermodynamic modeling of ferric phosphate precipitation for phosphorus removal and recovery from wastewater. Journal of Hazardous Materials, 2010, 176(1-3): 444-450
[12]	郝晓地, 甘一萍. 排水研究新热点——从污水处理过程中回收磷. 给水排水, 2003, 29(1): 20-24 Hao X.D., Gan Y.P. Phosphorus recovery in wastewater treatment. Water & Wastewater Engineering, 2003, 29(1): 20-24 (in Chinese)
[13]	Bellier N., Chazarenc F., Comeau Y. Phosphorus removal from wastewater by mineral apatite. Water Research, 2006, 40(15): 2965-2971
[14]	张勇, 丁爽. 白云石的热分解对氧化镁活性的影响. 化工矿物与加工, 2008, (4): 9-11 Zhang Y., Ding S. Study on impact of thermal decomposition of dolomite on MgO activity. Industrial Minerals & Processing, 2008, (4): 9-11 (in Chinese)
[15]	柳一鸣, 喻新平. 白云石的综合开发利用. 云南化工, 2003, 30(1): 5-7 Liu Y. M., Yu X. P. Comprehensive development and utilization of dolomite. Yunnan Chemical Technology, 2003, 30(1): 5-7 (in Chinese)
[16]	国家环境保护总局. 水和废水监测分析方法(第4版). 北京: 中国环境科学出版社, 2002
[17]	Hosni K., Ben Moussa S., Ben Amor M. Conditions influencing the removal of phosphate from synthetic wastewater: Influence of the ionic composition. Desalination, 2007, 206(1-3): 279-285
[18]	佟娟, 陈银广, 顾国维. 鸟粪石除磷工艺研究进展. 化工进展, 2007, 26(4): 526-530 Tong J., Chen Y.G., Gu G.W. Recent advances in phosphorus removal with struvite formation. Chemical Industry and Engineering Progress, 2007, 26(4): 526-530 (in Chinese)
[19]	Cao X., Harris W. G., Josan M. S., et al. Inhibition of calcium phosphate precipitation under environmentally-relevant conditions. Science of the Total Environment, 2007, 383(1-3): 205-215
[20]	高英, 叶荣, 宋永会, 等. 溶液条件对磷酸钙沉淀法回收磷的影响. 安全与环境学报, 2007, 7(3): 58-62 Gao Y., Ye R., Song Y.H., et al. Effects of solution conditions on the precipitation of calcium phosphate for recovery. Journal of Safety and Environment, 2007, 7(3): 58-62 (in Chinese)

点击查看大图

计量

文章访问数: 2562
HTML全文浏览数: 1197
PDF下载数: 2223
施引文献: 0

利用白云石回收污泥厌氧消化液中的磷

Phosphorus recovery from anaerobic digestion supernatant of sewage sludge using dolomite

计量

利用白云石回收污泥厌氧消化液中的磷

English Abstract

Phosphorus recovery from anaerobic digestion supernatant of sewage sludge using dolomite

全文HTML

目录

利用白云石回收污泥厌氧消化液中的磷

Phosphorus recovery from anaerobic digestion supernatant of sewage sludge using dolomite

计量

出版历程

利用白云石回收污泥厌氧消化液中的磷

English Abstract

Phosphorus recovery from anaerobic digestion supernatant of sewage sludge using dolomite

全文HTML

目录