Environmental Sanitation Engineering ›› 2025, Vol. 33 ›› Issue (1): 98-102.doi: 10.19841/j.cnki.hjwsgc.2025.01.013

Previous Articles     Next Articles

Engineering Practice and Analysis of Exhaust Gas Recirculation Technology for Waste Incineration Power Generation Project

YAN Haowen, ZHANG Bei, WANG Zhiqiang, LONG Jisheng, JIN Xingqian, GUO Xinwei   

  1. 1. College of Energy and Power Engineering, North China University of Water Resources and Electric Power; 2. Shanghai SUS Environment Co. Ltd.
  • Online:2025-03-04 Published:2025-03-04

PDF (PC)

105

PDF (Mobile)

4

Abstract: In order to explore the effects of exhaust gas recirculation system on the combustion characteristics of garbage incinerators and the reduction of NOx emission concentration, taking a domestic waste incineration plant in Hebei as an example, the engineering experiments were used to study the effects of operating factors such as exhaust gas recirculation ratio and oxygen concentration on furnace temperature, CO concentration, as well as NOx concentration. The results indicated that when using existing waste incineration processes and equipment, with a exhaust gas recirculation ratio of 15% and the oxygen concentration at the outlet of the economizer decreased to below 3.8%, the CO concentration could not be stably controlled below 50 mg/m3, posing a risk of environmental non-compliance. The trend of NOx concentration and oxygen concentration was consistent, and it increased with the increase of oxygen concentration. At the same time, when the oxygen concentration at the outlet of economizer was 4.5%-5.0%, the average NOx concentration and the maximum concentration decreased with the increase of the proportion of exhaust gas recirculation. The furnace temperature decreased by about 70 ℃ with the increase of the exhaust gas recirculation ratio.

Key words: municipal solid waste, incineration, exhaust gas recirculation, engineering tests, NOx

[1] QIU Qingwen. Suggestions on Geotechnical Engineering Design of Domestic Waste Incineration Fly Ash Landfill [J]. Environmental Sanitation Engineering, 2025, 33(3): 64-69.
[2] HU Honglei, LONG Jisheng, WU Yazhong. Corrosion Causes and Optimization Scheme for Flue Gas Recirculation Equipment in Waste to Energy Incineration Plants [J]. Environmental Sanitation Engineering, 2025, 33(3): 97-101.
[3] DUAN Panqiao, LI Yaxin, BAI Liangcheng. White Smoke Generation Source and Control in Domestic Waste Incineration Plants [J]. Environmental Sanitation Engineering, 2025, 33(3): 102-106,113.
[4] SONG Xiangnan, GAO Shan, WANG Wenjie, WANG Qiang, HUA Qiang. Dynamic Modeling of SNCR Denitrification System for Waste Incinerator Based on MIC-BiLSTM [J]. Environmental Sanitation Engineering, 2025, 33(3): 107-113.
[5] FU Kai, BAI Xu, SHI Jiayu, QIAN Xinxin, LIU Lu, ZHOU Yaqian, WANG Heli. Calculation of Greenhouse Gas Emission from Domestic Waste Incineration Based on the Entire Process [J]. Environmental Sanitation Engineering, 2025, 33(2): 12-18.
[6] QI Xiaobo, YI Peng, MA Yunfeng, LIN Xiaoqing. Study on the Combustion Characteristics of Municipal Solid Waste Influenced by Large Proportion of Typical Industrial Solid Waste in a Solid Waste Incinerator [J]. Environmental Sanitation Engineering, 2025, 33(2): 1-11.
[7] QI Jianan, ZHOU Shuo, NING Qing, WANG Huan, LI Bing, LIU Haiwei. Technical-economic Analysis of SRF Preparation Processes from Municipal Solid Waste in County Area of China [J]. Environmental Sanitation Engineering, 2025, 33(1): 23-31.
[8] GUO Kaiyi, DING Zihang, WEN Sijie, LI Huan, LIU Jianguo, WEI Junxiao. Study on Greenhouse Gas Quantification and Emission Reduction Potentials in Municipal Solid Waste Transportation in Zhanjiang City [J]. Environmental Sanitation Engineering, 2025, 33(1): 130-139.
[9] WANG Chuan, WANG Huishuang, TAI Jun, BI Zhujie, FAN Shuaikang, SONG Xiaolong. Impact of Source Sorting on Carbon Emission and Reduction of Municipal Solid Waste Treatment:A Case Study of Kitchen and Residual Waste Sorting in Shanghai [J]. Environmental Sanitation Engineering, 2025, 33(1): 140-140.
[10] ZHOU Baiyu, REN Yi, DU Chunyan, ZHU Hao, CAO Limin, GUO Xuhui, CHEN Lijian, HAN Zhiyong. Carbon Emission and Carbon Peak Management Strategies for the Treatment and Disposal of Domestic Waste: Comparative Analysis Based on the Measured Data of Waste and Landfill Gas Production in Chengdu City [J]. Environmental Sanitation Engineering, 2024, 32(6): 10-19.
[11] DUAN Feifei, ZHU Chuanqiang, YANG Lin, HU Mingdong, YIN Xiaolong, HAN Hao. Research on the Integrated Process of Desulfurization and Denitrification in a Large-capacity Waste Incinerator [J]. Environmental Sanitation Engineering, 2024, 32(6): 64-69.
[12] GONG Yue. Research and Application of Shock Pulse Generators Ash Cleaning Technology for Waste Incineration Boiler Heating Surface [J]. Environmental Sanitation Engineering, 2024, 32(6): 74-79.
[13] GAN Jie, LIU Hao, LI Jianhui. Comparative Analysis of Discharge and Regulatory Standards on Effluents from Waste Incineration Plants in China and Developed Countries [J]. Environmental Sanitation Engineering, 2024, 32(5): 11-16.
[14] DING Cong. Composition and Characteristics Analysis of Terminal Municipal Solid Waste of a City in South China in the Last Decade [J]. Environmental Sanitation Engineering, 2024, 32(5): 36-40.
[15] YU Yaping. Technical and Economic Analysis of Sludge Incineration Flue Gas Deacidification Process [J]. Environmental Sanitation Engineering, 2024, 32(5): 87-92.
Viewed
Full text


Abstract

Cited
  Shared   
  Discussed   
No Suggested Reading articles found!
Copyright © Environmental Sanitation Engineering
Address: 107#, Weidi Road, Tianjin, P.R.C.    Postcode: 300201
Telephone: 022-28365069   Fax: 022-28365080 E-mail: csglwyjs10@tj.gov.cn
Supported by:Beijing Magtech