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[1],Ρ,,.@ચٟĿ̎ˇOӋ[J].Їoˮˮ,2024,40(8):70-74.
SONGShi-kun,YANGWei,LIUBo,et al.Design of Flue Gas Treatment Technology for Municipal Sludge Independent Incineration Project[J].China Water & Wastewater,2024,40(8):70-74.c}
@ચٟĿ̎ˇOӋ
Їoˮˮ[ISSN:1000-4062/CN:12-1073/TU] : 40 ڔ: 20248 퓴a: 70-74 Ŀ: : 2024-04-17
Title:Design of Flue Gas Treatment Technology for Municipal Sludge Independent Incineration Project
: Ρ 퍣 ЇOӋоԺ˾Ĵ ɶ 610084
Author(s):SONGShi-kun YANGWei LIUBo GUOYun LILiangSouthwest Municipal Engineering Design & Research Institute of China Chengdu 610084 China
PI~:@ٟ; ;
Keywords:sludge incineration; flue gas treatment; process design
ժҪ:ͨ^@|ٟеҪ@ȾwNOxԚwؽٵijʼOӋMзAyYĿеğŷŘͬ@ȾȥҪᘌͬ@Ⱦ]ԡȥ\гɱxğ̎ˇYχ̎\РBě@ٟĿõğQˇm@ચٟĿğ̎ˇg·δĿšOӋṩ
Abstract:This paper introduced the flue gas emission standards for domestic sludge incineration project, predicted the initial design concentration of major pollutants such as particulate matter, NOx, acidic gas and heavy metal in incineration flue gas according to sludge component, and proposed the removal rates of different pollutants in combination with the emission standards to be implemented in the project. For different pollutants, the most economical and reasonable flue gas treatment process was selected by considering its characteristic, removal rate and operating cost. The flue gas treatment technologies suitable for municipal sludge independent incineration projects were proposed based on the flue gas treatment technology being applied in domestic sludge incineration projects. The results aim to provide reference for the process design of more similar projects in the future.
īI/References:
[1]Ե,IJ,r,.@ٟҷ՝Јǰ[J].Їoˮˮ,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(8):5.
[2],,ۚJ.ڹě@ٟo[J].Їoˮˮ,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(8):133.
[3]h,,_,.@ֻٟgṵ̀[J].Їoˮˮ,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(8):136.
[4]wx,,\.͛@ٟĿě@Óˮ\Ѓо[J].Їoˮˮ,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(8):145.
[5],TW܊,.@ˮ̎S@ચٟğӋ㷽[J].Їoˮˮ,2021,37(16):83.
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(8):83.
[6],,.ۛ@ڟھOyϵyOӋc{ԇ[J].Їoˮˮ,2022,38(6):117.
YINGJi-guang,LIN Li-feng,WANG Li-hua.Design and Commissioning of CEMS for Bailonggang Phase Sludge Project[J].China Water & Wastewater,2022,38(8):117.
[7],ꐂ,ꐰУ.ɽ4 000 t/d༯зմĿʵ[J].Їoˮˮ,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(8):127.
[8]\,,wx.@ٟ@Ⱦŷо[J].Їoˮˮ,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(8):115.
[9]ܿܿ,,.@ٟtٟƼgо[J].Їoˮˮ,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(8):42.
/Last Update: 2024-04-17
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PDFd
[1],Ρ,,.@ચٟĿ̎ˇOӋ[J].Їoˮˮ,2024,40(8):70-74.
SONGShi-kun,YANGWei,LIUBo,et al.Design of Flue Gas Treatment Technology for Municipal Sludge Independent Incineration Project[J].China Water & Wastewater,2024,40(8):70-74.
c}
@ચٟĿ̎ˇOӋ
Їoˮˮ[ISSN:1000-4062/CN:12-1073/TU] : 40 ڔ: 20248 퓴a: 70-74 Ŀ: : 2024-04-17
- Title:
- Design of Flue Gas Treatment Technology for Municipal Sludge Independent Incineration Project
- :
- Ρ 퍣
- йоԺ˾Ĵ ɶ 610084
Author(s):- SONGShi-kun YANGWei LIUBo GUOYun LILiang
- Southwest Municipal Engineering Design & Research Institute of China Chengdu 610084 China
- PI~:
- @ٟ; ̎; ˇOӋ
- Keywords:
- sludge incineration; flue gas treatment; process design
- ժҪ:
- ͨ^@|ٟеҪ@ȾwNOxԚwؽٵijʼOӋMзAyYĿеğ
ŷűԲͬȾȥҪԲͬȾԡȥгɱѡúաϹڴ״̬ě@ٟĿõգĿռ·ߣΪδĿĹṩο
Abstract:- This paper introduced the flue gas emission standards for domestic sludge incineration project, predicted the initial design concentration of major pollutants such as particulate matter, NOx, acidic gas and heavy metal in incineration flue gas according to sludge component, and proposed the removal rates of different pollutants in combination with the emission standards to be implemented in the project. For different pollutants, the most economical and reasonable flue gas treatment process was selected by considering its characteristic, removal rate and operating cost. The flue gas treatment technologies suitable for municipal sludge independent incineration projects were proposed based on the flue gas treatment technology being applied in domestic sludge incineration projects. The results aim to provide reference for the process design of more similar projects in the future.
īI/References:
[1]Ե,IJ,r,.@ٟҷDZгǰ[J].Їoˮˮ,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(8):5.
[2],,ۚJ.ڹě@ٟ[J].Їoˮˮ,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(8):133.
[3]h,,_,.@ֻٟgṵ̀[J].Їoˮˮ,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(8):136.
[4]wx,,\.͛@ٟĿˮŻо[J].Їoˮˮ,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(8):145.
[5],TW܊,.@ˮ̎S@ચٟğӋ㷽[J].Їoˮˮ,2021,37(16):83.
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(8):83.
[6],,.ۛ@ڟھOyϵyOӋc{ԇ[J].Їoˮˮ,2022,38(6):117.
YINGJi-guang,LIN Li-feng,WANG Li-hua.Design and Commissioning of CEMS for Bailonggang Phase Sludge Project[J].China Water & Wastewater,2022,38(8):117.
[7],ꐂ,ꐰУ.ɽ4 000 t/d༯зմĿʵ[J].Їoˮˮ,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(8):127.
[8]\,,wx.@ٟ@Ⱦŷо[J].Їoˮˮ,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(8):115.
[9]ܿܿ,,.@ٟ¯տƼо[J].Їoˮˮ,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(8):42.
/Last Update: 2024-04-17
