Journal of South China University of Technology(Natural Science) >
Experimental Study on Thermal Drying Characteristics and Pollutant Discharge Law of Municipal Sludge
Received date: 2021-11-16
Online published: 2022-04-07
Supported by
the Guangdong Province Key Field Research and Development Program(2020B1111380001)
With the development of China’s economy and the acceleration of the urbanization process, the amount of municipal sludge has increased sharply. Sludge treatment and disposal has become an urgent problem to be solved. By taking the sludge from a sewage treatment plant as the research object, this paper studied its thermal drying characteristics and pollutant discharge law. In the study, the thermal weight loss experiment was carried out at seven sets of temperatures at 100 ~ 250 ℃ equidistantly with homemade equipment, and the drying properties were characterized by the drying rate and the dehydration rate. It is found that the best temperature for drying is 200 ℃. Moreover, the gaseous pollutants were measured online with a flue gas analyzer. It is found that, besides NH3 and H2S, the gaseous pollutants also contain acid gases such as NO, SO2 and HCl, as well as hydrocarbon components such as CO, CO2, H2, C2H6 and C2H4. The experiment also finds that the temperature being controlled below 200 ℃ is beneficial to inhibit the release of gaseous pollutants. Under the experimental conditions, the drying condensate is high-concentration organic wastewater, the pH values are concentrated in the range of 8.88 ~ 9.17 at 125 ~ 250 ℃, forming a buffer system; the COD increases as the temperature increases, and is up to 16 000.0 mg/L under the experimental conditions. Through the basic fuel characteristics test results of the dried sludge, it can be found that the carbon content and calorific value at 125 ~ 275 ℃ decrease with the increase of temperature, but at 300 ℃, due to the conditions of low-temperature carbonization, both the carbon content and calorific value increase. This provides ideas for the energy conversion of sludge. Combining SEM, BET and other methods to characterize the sludge, it finds that temperature increase can increase the microporous structure of the dried sludge, the structure of sludge becomes loose, so that the sludge can be used as a low-grade adsorbent or building material. The results in this paper provide a new idea for sludge resource utilization.
LIAO Yanfen, QIU Mengze, CHEN Shunkai, et al . Experimental Study on Thermal Drying Characteristics and Pollutant Discharge Law of Municipal Sludge[J]. Journal of South China University of Technology(Natural Science), 2022 , 50(8) : 92 -101 . DOI: 10.12141/j.issn.1000-565X.210726
| 1 | YANG G, ZHANG G M, WANG H C .Current state of sludge production,management,treatment and disposal in China[J].Water Research,2015,78:60-73. |
| 2 | 黄瑛,张董 .国内外污泥处理处置技术研究与应用现状[J].环境工程,2015,33(s1):600-604. |
| 2 | HUANG Ying, ZHANG Dong .Research and application status of sludge treatment and disposal technology at home and abroad[J].Environmental Engineering,2015,33(s1):600-604. |
| 3 | KOBAYASHI N, OKADA K, TACHIBANA Y,et al .Drying behavior of sludge with drying 494 accelerator[J].Dry Technol,2020,38(1/2):38-47. |
| 4 | 李博,王飞,严建华,等 .污水处理厂污泥干化焚烧处理可行性分析[J].环境工程学报,2012,6(10):3399-3404. |
| 4 | LI Bo, WANG Fei, YAN Jianhua,et al .Feasibility analysis of sludge drying and incineration treatment in sewage treatment plant[J].Environmental Engineering Journal,2012,6(10):3399-3404. |
| 5 | 洪博文,薛红琳,车卫彤,等 .污泥干化及协同焚烧处置技术分析[J].能源与节能,2020(6):86-88. |
| 5 | HONG Bowen, XUE Honglin, CHE Weitong,et al .Analysis of sludge drying and co-incineration disposal technology[J].Energy and Energy Conservation,2020(6):86-88. |
| 6 | 邓文义,严建华,李晓东,等 .造纸污泥干化及焚烧系统污染物排放特性[J].燃烧科学与技术,2008(6):545-550. |
| 6 | DENG Wen-yi, YAN Jian-hua, LI Xiao-dong,et al .Papermaking sludge drying and pollutant emission cha-racteristics of incineration systems[J].Combustion Science and Technology,2008(6):545-550. |
| 7 | 鲁南,李博,王飞,等 .深圳市污水处理厂剩余污泥干化特性研究[J].环境污染与防治,2011,33(10):59-62,72. |
| 7 | LU Nan, LI Bo, WANG Fei,et al .Study on the drying characteristics of surplus sludge in Shenzhen sewage treatment plant[J].Environmental Pollution and Control,2011,33(10):59- 62,72. |
| 8 | 汪家兴,刘欢,刘鹏,等 .深度脱水污泥的热干化特性[J].化工学报,2017,68(6):2491-2500. |
| 8 | WANG Jiaxing, LIU Huan, LIU Peng,et al .Thermal drying characteristics of deeply dewatered sludge[J].CIESC Journal,2017,68(6):2491-2500. |
| 9 | GOMEZ-RICO M F, FULLANA A, FONT R .Volatile organic compounds released from thermal drying of se-wage sludge[J].WIT Transactions on Ecology and the Environment,2008,111:425-433. |
| 10 | WANG J, SALMAN C A, WANG B,et al .Integrating sludge drying in biomass fueled CHP plants[J].Energy,Ecology and Environment,2021,6(1):1-12. |
| 11 | PARLAK N, OZDEMIZ S, YETILMEZSOY K,et al .Mathematical modeling of thin-layer solar drying of poultry abattoir sludge[J].International Journal of Environmental Research,2021,15(1):177-190. |
| 12 | GUO J L, ZHENG L, LI Z F .Microwave drying behavior,energy consumption,and mathematical modeling of sewage sludge in a novel pilot-scale microwave drying system[J].Science of the Total Environment,2021,777:146109. |
| 13 | LI X, HU YN, CHEN L,et al .Method for improving of activated sludge drying by the appropriate foaming pre-treatment[C]∥Proceedings of the E3S Web of Conferences.Dali:EDP Sciences,2021:02038. |
| 14 | MA X-W, WENG H-X, ZHANG J-J .Difference and cause analysis of drying characteristics of different shapes sludge[J].China Environmental Science,2011,31(5):803-809. |
| 15 | LI B, WANG F, CHI Y,et al .Study on optimal energy efficiency of a sludge drying-incineration combined system[J].Journal of Material Cycles and Waste Management,2014,16(4):684-692. |
| 16 | YANG J, YU W, LI P S,et al .Experimental study on drying characteristics of sewage sludge at low temperature[C]∥Proceedings of the 6th International Symposium on Coal Combustion.Wuhan:Huazhong University of Science & Technology Press,2007:576-581. |
| 17 | LI H, ZOU S X, LI C C .Liming pretreatment reduces sludge build-up on the dryer wall during thermal drying[J].Drying Technology,2012,30(14):1563-1569. |
| 18 | AVSAR Y, SARAL A, ILHAN F,et al .Vacuum-assisted thermal drying of wastewater treatment sludge[J].Journal of the Air & Waste Management Association,2021,71(3):293-303. |
| 19 | 俞燕,胡晓亮,施捷,等 .污泥干化全流程废气治理研究[J].中国设备工程,2021(14):253-254. |
| 19 | YU Yan, HU Xiaoliang, SHI Jie,et al .Research on waste gas treatment in the whole process of sludge drying[J].China Equipment Engineering,2021(14):253-254. |
| 20 | 翁焕新,章金骏,刘瓉,等 .污泥干化过程氨的释放与控制[J].中国环境科学,2011,31(7):1171-1177. |
| 20 | WENG Huanxin, ZHANG Jinjun, LIU Zan,et al .Release and control of ammonia during sludge drying process[J].China Environmental Science,2011,31(7):1171-1177. |
| 21 | 刘亚军,王磊,邓文义,等 .市政污泥热力干化污染物排放研究[J].广东化工,2017,44(23):13-14. |
| 21 | LIU Yajun, WANG Lei, DENG Wenyi,et al .Research on pollutant discharge from thermal drying of municipal sludge[J].Guangdong Chemical Industry,2017,44(23):13-14. |
| 22 | LI T, FAN Y, LI H,et al .Excess sludge disintegration by discharge plasma oxidation:efficiency and underlying mechanisms[J].Science of the Total Environment,2021,774:145127. |
| 23 | XU D, LI J, LIU J,et al .Rapid aerobic sludge granulation in an integrated oxidation ditch with two-zone clarifiers[J].Water Research,2020,175:115704. |
| 24 | 汤连生,张龙舰,罗珍贵 .污泥中水分布形式划分及脱水性能研究[J].生态环境学报,2017,26(2):309-314. |
| 24 | TANG Liansheng, ZHANG Longjian, LUO Zhengui .Study on the distribution of water in sludge and its dewatering performance[J].Journal of Ecological Environment,2017,26(2):309-314. |
| 25 | 陈泽成,黄汉廷,韦献革,等 .污泥干化废气特性及其治理技术研究进展[J].环境保护科学,2020,46(5):66-73. |
| 25 | CHEN Zecheng, HUANG Hanting, WEI Xiange,et al .Research progress on the characteristics of sludge drying waste gas and its treatment technology[J].Environmental Protection Science,2020,46(5):66-73. |
| 26 | 周杰,吴敏,牛明星,等 .污泥干化过程恶臭气体释放的研究进展[J].中国给水排水,2015,31(4):25-27. |
| 26 | ZHOU Jie, WU Min, NIU Mingxing,et al .Research progress on the release of odorous gases during sludge drying[J].China Water & Wastewater,2015,31(4):25-27. |
| 27 | 丁洁华 .污泥热干化过程恶臭污染物排放特性研究[D].廊坊:华北科技学院,2017. |
| 28 | 魏盟盟,刘帅,桂本,等 .污泥中脂肪族硫低温热解下含硫气体的释放特性[J].燃烧科学与技术,2015,21(1):71-76. |
| 28 | WEI Mengmeng, LIU Shuai, GUI Ben,et al .Release characteristics of sulfur-containing gas under low-temperature pyrolysis of aliphatic sulfur in sludge[J].Combustion Science and Technology,2015,21(1):71-76. |
| 29 | 郦春蓉 .市政污泥间壁式干燥过程污染物排放研究[J].广东化工,2019,46(12):49-50. |
| 29 | LI Chunrong .Research on pollutant emission during the partition drying process of municipal sludge[J].Guangdong Chemical Industry,2019,46(12):49-50. |
| 30 | 李安峰,骆坚平,黄丹,等 .污泥干化冷凝水水质特征分析[J].环境工程学报,2015,9(1):253-256. |
| 30 | LI Anfeng, LUO Jianping, HUANG Dan,et al .Analysis of water quality characteristics of sludge drying condensate[J].Environmental Engineering Journal,2015,9(1):253-256. |
| 31 | 王兴润,金宜英,王志玉,等 .污水污泥间壁热干燥实验研究[J].环境科学,2007(2):407-410. |
| 31 | WANG Xingrun, JIN Yiying, WANG Zhiyu,et al .Experimental study on thermal drying of sewage sludge partition[J].Environmental Science,2007(2):407-410. |
| 32 | 牛宇锟 .污泥低温碳化裂解液资源化技术研究[D].太原:太原理工大学,2020. |
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