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[1]段妮娜,谭学军,张辰.污水处理厂污泥独立焚烧的热力计算方法解析[J].中国给水排水,2021,37(16):83-88.
DUAN Ni-na,TAN Xue-jun,ZHANG Chen.Analysis of Sewage Sludge Mono-incineration Thermodynamic Calculation Method in a Sewage Treatment Plant[J].China Water & Wastewater,2021,37(16):83-88.点击复制
污水处理厂污泥独立焚烧的热力计算方法解析
中国给水排水[ISSN:1000-4062/CN:12-1073/TU] 卷: 第37卷 期数: 2021年第16期 页码: 83-88 栏目: 出版日期: 2021-08-17
Title:Analysis of Sewage Sludge Mono-incineration Thermodynamic Calculation Method in a Sewage Treatment Plant
作者:段妮娜,谭学军,张辰(上海市政工程设计研究总院<集团>有限公司,上海200092)
Author(s):DUAN Ni-na,TAN Xue-jun,ZHANG Chen(Shanghai Municipal Engineering Design Institute Co. Ltd., Shanghai 200092, China)
关键词:污泥焚烧; 独立焚烧; 热力计算
Keywords:sludge incineration; mono-incineration; thermodynamic calculation
摘要:污泥焚烧作为城镇污水厂污泥处理的主流技术之一,在我国得到越来越多的工程化应用,现阶段我国污泥焚烧在进行工艺设计和运行情况模拟时,计算污泥(燃料)发热量、烟气组成和焓值等关键环节,多借鉴燃煤锅炉的热力计算方法。热力计算是工艺设计和工艺运行时模拟预测的基本依据,作为工艺设计过程的重要内容,其方法的修正和完善有利于提升工艺设计和运行调控的准确性和合理性。污泥焚烧与燃煤锅炉燃烧过程和控制要点均有差异,燃煤锅炉计算方法忽略了烟气中水蒸气的潜热,故采用燃煤锅炉热力计算方法的准确度有待验证。分别采用传统燃煤锅炉的热力计算方法和优化后的方法进行了计算示例比较,当采用燃煤锅炉的热力计算方法进行污泥焚烧的工艺计算时,由于未考虑烟气中水蒸气的实际状态和潜热,影响焚烧炉燃烧温度、烟气余热利用和烟气净化各环节的温度预测的精确度。我国污泥焚烧入炉含水率的常见区间为50%~60%,采用传统方法计算时,从燃烧温度到后续烟气设施对应的入口和出口温度均偏高40~50 ℃。当采用传统方法进行设计和运行时,应结合入炉含水率的选择,充分考虑到由此引起的偏差。
Abstract:Sludge incineration, as one of the main sludge treatment technologies in urban sewage treatment plants, has been widely applied in engineering in China. At present, coal-fired boiler thermodynamic calculation method is often referred to calculate the key parameters (such as calorific value of sludge or fuel, composition of flue gas and enthalpy value) in the process of design and simulation. Thermal calculation is the basis of process design and simulation. As an important part of process design, modification and improvement of the method is beneficial to improve the accuracy and rationality of process design and management. There are differences in the incineration process and management between sewage sludge and coal incineration in coal-fired boilers. The calculation method of coal-fired boilers ignores the latent heat of water vapor in flue gas, so the accuracy of coal-fired boiler thermal calculation method needs to be verified. A comparison between the traditional thermal calculation method and the optimized thermal calculation method was exemplified. The actual state and latent heat of water vapor in flue gas were not considered when the coal-fired boiler thermal calculation method was used for sludge incineration process calculation, which affected the temperature prediction accuracy of incinerator combustion, flue gas waste heat utilization and flue gas purification. Common range of sludge water content to be combusted in the furnace in China is 50%-60%. The combustion temperature and the corresponding inlet and outlet temperature of flue gas facilities were 40-50 ℃ higher when the traditional method was employed. When the traditional method is used for design and operation, the deviation caused by calculation should be fully considered in combination with the selection of sludge water content to be combusted in the furnace.
相似文献/References:
[1]郝晓地,于文波,时琛,等.污泥焚烧灰分磷回收潜力分析及其市场前景[J].中国给水排水,2021,37(4):5.
HAO Xiao-di,YU Wen-bo,SHI Chen,et al.Potential Analysis and Market Prospects of Phosphorus Recovery from the Bottom Ashes of Sludge Incineration[J].China Water & Wastewater,2021,37(16):5.
[2]应基光,林莉峰,邵钦.基于鼓泡流化床的污泥焚烧保护控制[J].中国给水排水,2021,37(10):133.
YING Ji-guang,LIN Li-feng,SHAO Qin.Protection Control of Sludge Incineration Based on Bubbling Fluidized Bed[J].China Water & Wastewater,2021,37(16):133.
[3]杨汉文,王建国,李冲,等.市政污泥干化焚烧技术应用工程案例[J].中国给水排水,2021,37(12):136.
YANG Han-wen,WANG Jian-guo,LI Chong,et al.Application Project of Municipal Sludge Drying and Incineration Technology[J].China Water & Wastewater,2021,37(16):136.
[4]赵林辉,林莉峰,朱运涛.大型污泥焚烧项目的污泥脱水运行优化研究[J].中国给水排水,2021,37(12):145.
ZHAO Lin-hui,LIN Li-feng,ZHU Yun-tao.Study on Operation Optimization of Sludge Dewatering in Large Scale Sludge Incineration Project[J].China Water & Wastewater,2021,37(16):145.
[5]应基光,林莉峰,王丽花.白龙港污泥二期烟气在线监测系统设计与调试[J].中国给水排水,2022,38(6):117.
YINGJi-guang,LIN Li-feng,WANG Li-hua.Design and Commissioning of CEMS for Bailonggang Phase Ⅱ Sludge Project[J].China Water & Wastewater,2022,38(16):117.
[6]孟鑫,陈伟,陈柏校.萧山4 000 t/d污泥集中焚烧处理项目实践[J].中国给水排水,2022,38(8):127.
MENGXin,CHENWei,CHENBai-xiao.Practice of Xiaoshan 4 000 t/d Centralized Sludge Incineration Project[J].China Water & Wastewater,2022,38(16):127.
[7]朱运涛,林莉峰,赵林辉.污泥流化床焚烧烟气污染物排放特性研究[J].中国给水排水,2022,38(11):115.
ZHUYun-tao,LINLi-feng,ZHAOLin-hui.Emission Characteristics of Pollutants in Flue Gas from Sludge Fluidized Bed Incineration Process[J].China Water & Wastewater,2022,38(16):115.
[8]汪芸芸,李梦琼,林莉峰.鼓泡流化床污泥焚烧炉焚烧控制技术研究[J].中国给水排水,2022,38(18):42.
WANGYun-yun,LI Meng-qiong,LINLi-feng.Study on Incineration Control Technology of Sludge Bubbling Fluidized Bed Incinerator[J].China Water & Wastewater,2022,38(16):42.
[9]宋世琨,杨巍,刘波,等.市政污泥独立焚烧项目烟气处理工艺设计[J].中国给水排水,2024,40(8):70.
SONGShi-kun,YANGWei,LIUBo,et al.Design of Flue Gas Treatment Technology for Municipal Sludge Independent Incineration Project[J].China Water & Wastewater,2024,40(16):70.
更新日期/Last Update: 2021-08-17
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[1]段妮娜,谭学军,张辰.污水处理厂污泥独立焚烧的热力计算方法解析[J].中国给水排水,2021,37(16):83-88.
DUAN Ni-na,TAN Xue-jun,ZHANG Chen.Analysis of Sewage Sludge Mono-incineration Thermodynamic Calculation Method in a Sewage Treatment Plant[J].China Water & Wastewater,2021,37(16):83-88.
点击复制
DUAN Ni-na,TAN Xue-jun,ZHANG Chen.Analysis of Sewage Sludge Mono-incineration Thermodynamic Calculation Method in a Sewage Treatment Plant[J].China Water & Wastewater,2021,37(16):83-88.
污水处理厂污泥独立焚烧的热力计算方法解析
中国给水排水[ISSN:1000-4062/CN:12-1073/TU] 卷: 第37卷 期数: 2021年第16期 页码: 83-88 栏目: 出版日期: 2021-08-17
- Title:
- Analysis of Sewage Sludge Mono-incineration Thermodynamic Calculation Method in a Sewage Treatment Plant
- 摘要:
- 污泥焚烧作为城镇污水厂污泥处理的主流技术之一,在我国得到越来越多的工程化应用,现阶段我国污泥焚烧在进行工艺设计和运行情况模拟时,计算污泥(燃料)发热量、烟气组成和焓值等关键环节,多借鉴燃煤锅炉的热力计算方法。热力计算是工艺设计和工艺运行时模拟预测的基本依据,作为工艺设计过程的重要内容,其方法的修正和完善有利于提升工艺设计和运行调控的准确性和合理性。污泥焚烧与燃煤锅炉燃烧过程和控制要点均有差异,燃煤锅炉计算方法忽略了烟气中水蒸气的潜热,故采用燃煤锅炉热力计算方法的准确度有待验证。分别采用传统燃煤锅炉的热力计算方法和优化后的方法进行了计算示例比较,当采用燃煤锅炉的热力计算方法进行污泥焚烧的工艺计算时,由于未考虑烟气中水蒸气的实际状态和潜热,影响焚烧炉燃烧温度、烟气余热利用和烟气净化各环节的温度预测的精确度。我国污泥焚烧入炉含水率的常见区间为50%~60%,采用传统方法计算时,从燃烧温度到后续烟气设施对应的入口和出口温度均偏高40~50 ℃。当采用传统方法进行设计和运行时,应结合入炉含水率的选择,充分考虑到由此引起的偏差。
- Abstract:
- Sludge incineration, as one of the main sludge treatment technologies in urban sewage treatment plants, has been widely applied in engineering in China. At present, coal-fired boiler thermodynamic calculation method is often referred to calculate the key parameters (such as calorific value of sludge or fuel, composition of flue gas and enthalpy value) in the process of design and simulation. Thermal calculation is the basis of process design and simulation. As an important part of process design, modification and improvement of the method is beneficial to improve the accuracy and rationality of process design and management. There are differences in the incineration process and management between sewage sludge and coal incineration in coal-fired boilers. The calculation method of coal-fired boilers ignores the latent heat of water vapor in flue gas, so the accuracy of coal-fired boiler thermal calculation method needs to be verified. A comparison between the traditional thermal calculation method and the optimized thermal calculation method was exemplified. The actual state and latent heat of water vapor in flue gas were not considered when the coal-fired boiler thermal calculation method was used for sludge incineration process calculation, which affected the temperature prediction accuracy of incinerator combustion, flue gas waste heat utilization and flue gas purification. Common range of sludge water content to be combusted in the furnace in China is 50%-60%. The combustion temperature and the corresponding inlet and outlet temperature of flue gas facilities were 40-50 ℃ higher when the traditional method was employed. When the traditional method is used for design and operation, the deviation caused by calculation should be fully considered in combination with the selection of sludge water content to be combusted in the furnace.
相似文献/References:
[1]郝晓地,于文波,时琛,等.污泥焚烧灰分磷回收潜力分析及其市场前景[J].中国给水排水,2021,37(4):5.
HAO Xiao-di,YU Wen-bo,SHI Chen,et al.Potential Analysis and Market Prospects of Phosphorus Recovery from the Bottom Ashes of Sludge Incineration[J].China Water & Wastewater,2021,37(16):5.
[2]应基光,林莉峰,邵钦.基于鼓泡流化床的污泥焚烧保护控制[J].中国给水排水,2021,37(10):133.
YING Ji-guang,LIN Li-feng,SHAO Qin.Protection Control of Sludge Incineration Based on Bubbling Fluidized Bed[J].China Water & Wastewater,2021,37(16):133.
[3]杨汉文,王建国,李冲,等.市政污泥干化焚烧技术应用工程案例[J].中国给水排水,2021,37(12):136.
YANG Han-wen,WANG Jian-guo,LI Chong,et al.Application Project of Municipal Sludge Drying and Incineration Technology[J].China Water & Wastewater,2021,37(16):136.
[4]赵林辉,林莉峰,朱运涛.大型污泥焚烧项目的污泥脱水运行优化研究[J].中国给水排水,2021,37(12):145.
ZHAO Lin-hui,LIN Li-feng,ZHU Yun-tao.Study on Operation Optimization of Sludge Dewatering in Large Scale Sludge Incineration Project[J].China Water & Wastewater,2021,37(16):145.
[5]应基光,林莉峰,王丽花.白龙港污泥二期烟气在线监测系统设计与调试[J].中国给水排水,2022,38(6):117.
YINGJi-guang,LIN Li-feng,WANG Li-hua.Design and Commissioning of CEMS for Bailonggang Phase Ⅱ Sludge Project[J].China Water & Wastewater,2022,38(16):117.
[6]孟鑫,陈伟,陈柏校.萧山4 000 t/d污泥集中焚烧处理项目实践[J].中国给水排水,2022,38(8):127.
MENGXin,CHENWei,CHENBai-xiao.Practice of Xiaoshan 4 000 t/d Centralized Sludge Incineration Project[J].China Water & Wastewater,2022,38(16):127.
[7]朱运涛,林莉峰,赵林辉.污泥流化床焚烧烟气污染物排放特性研究[J].中国给水排水,2022,38(11):115.
ZHUYun-tao,LINLi-feng,ZHAOLin-hui.Emission Characteristics of Pollutants in Flue Gas from Sludge Fluidized Bed Incineration Process[J].China Water & Wastewater,2022,38(16):115.
[8]汪芸芸,李梦琼,林莉峰.鼓泡流化床污泥焚烧炉焚烧控制技术研究[J].中国给水排水,2022,38(18):42.
WANGYun-yun,LI Meng-qiong,LINLi-feng.Study on Incineration Control Technology of Sludge Bubbling Fluidized Bed Incinerator[J].China Water & Wastewater,2022,38(16):42.
[9]宋世琨,杨巍,刘波,等.市政污泥独立焚烧项目烟气处理工艺设计[J].中国给水排水,2024,40(8):70.
SONGShi-kun,YANGWei,LIUBo,et al.Design of Flue Gas Treatment Technology for Municipal Sludge Independent Incineration Project[J].China Water & Wastewater,2024,40(16):70.
更新日期/Last Update: 2021-08-17
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