Comparative evaluation of thermal and emission performances for improved commercial coal-fired stoves in China

Riaz Ahmad; Yuguang Zhou; Chao Liang; Gang Li; Nan Zhao; Adnan Abbas; Fan Yu; Lianliang Li; Jue Gong; Duoyi Wang; Yanming Yang; Zixuan Tang; Muhammad Sultan; Chao Sun; Renjie Dong

doi:10.1039/d2ra03364j

Comparative evaluation of thermal and emission performances for improved commercial coal-fired stoves in China

RSC Adv. 2022 Jul 20;12(32):20886-20896. doi: 10.1039/d2ra03364j. eCollection 2022 Jul 14.

Authors

Riaz Ahmad^{1

2

3}, Yuguang Zhou^{1

2

3}, Chao Liang^{1

2

3}, Gang Li⁴, Nan Zhao⁵, Adnan Abbas¹, Fan Yu⁶, Lianliang Li⁴, Jue Gong⁴, Duoyi Wang⁵, Yanming Yang⁵, Zixuan Tang⁷, Muhammad Sultan⁸, Chao Sun⁹, Renjie Dong^{1

2

3}

Affiliations

¹ Bioenergy and Environmental Science and Technology Laboratory, College of Engineering, China Agricultural University Beijing 100083 China.
² Key Laboratory for Clean Renewable Energy Utilization Technology, Ministry of Agriculture and Rural Affairs Beijing 100083 China.
³ National Center for International Research of BioEnergy Science and Technology, Ministry of Science and Technology Beijing 100083 China.
⁴ School of Artificial Intelligence, Beijing Technology and Business University Beijing 100048 China ligang@btbu.edu.cn.
⁵ School of Ecology and Environment, Zhengzhou University Zhengzhou Henan Province 450001 China nan.zhaoca@outlook.com.
⁶ School of Economics, Beijing Technology and Business University Beijing 100048 China.
⁷ School of Art and Communication, Beijing Technology and Business University Beijing 100048 China.
⁸ Department of Agricultural Engineering, Bahauddin Zakariya University Bosan Road Multan 60800 Pakistan.
⁹ Shandong Warm Valley New Energy & Environ. Protection Technology Co., Ltd Yantai 264001 China.

Abstract

The extensive use of traditional cooking stoves to meet daily cooking and heating requirements has highlighted the serious problem of indoor and outdoor air pollution. This study evaluates seven improved coal-fired space-heating and cooking stoves and compares them with a widely used stove of an older design, selected as a baseline reference. The seven stoves were selected from a range of candidate improved stoves submitted by manufacturers for testing as part of the air quality improvement in the Hebei Clean Air Project, Hebei Province, China. Stove performance was evaluated when burning raw coal and coal briquettes during the high and low power stages respectively. All seven improved cooking stoves surpassed the baseline stove in combined heating and cooking thermal and emission performance. Among the improved cooking stoves, Model 2-TL was found to have the highest average thermal efficiency, 87.2 ± 0.5%, when burning coal briquettes at high and low power. The lowest emission of PM_2.5 was 0.94 ± 0.5 mg MJ_NET ^-1, CO 0.55 ± 0.28 g MJ_NET ^-1, and CO/CO₂ 1.1 ± 0.6%, respectively. It is concluded that the use of these improved heating and cooking stoves should be promoted for daily cooking and heating requirements. This strategy will not only save fuel to the benefit of the household, but widespread adoption could contribute to significant reductions of CO and PM_2.5 emissions in Hebei Province.