Impingement Heating Characteristics of Domestic Gas Burner Flames

“…Finally, the data obtained were used to perform descriptive analysis and thematic analysis in Bibliometrix. 48 For the descriptive analysis, the data were analyzed using descriptive 80 NG CO emissions and temperature analysis during partial premixed methane flame combustion experimental and numerical 2022 Leicher et al 81 CH 4 impact of HENG on domestic gas stoves theoretical 2022 Ahmadi et al 24 NG effect of burner head design on thermal efficiency and emissions of domestic gas stoves experimental and numerical 2022 Deymi-Dashtebayaz et al 82 NG effect of swirling at the outlet port on the combustion performance of the burner numerical 2022 Soltanian et al 42 NG assessing total thermal performance of PMB in domestic application experimental and analytical 2022 Xie et al 83 HENG impact of HENG on the flame stability of the burner experimental and theoretical 2022 Sun et al 84 HENG effect of HENG on the domestic stove performance experimental and analytical 2022 Glanville et al 44 HENG impact of HENG on NO X emission and operational performance of a partially premixed burner experimental 2022 Yitong et al 85 NG CO emission projections for partially premixed gas stoves experimental and analytical 2022 Hou et al 86 HENG effect of hydrogen addition on the extinction dynamics of partially premixed methane air flames numerical 2022 Wang et al 6 LPG improved heat transfer by adding fins to the pan of a gas stove experimental and numerical 2022 Yang et al 87 HENG flame extinction of HENG premixed flames experimental and theoretical 2022 Dinesh et al 88 NG impingement heating characteristics of domestic gas burner flames under various operating parameters experimental 2022 Du et al 89 HENG combustion performance of swirl burners using HENG experimental and numerical 2022 Devi et al 90 Biogas influence of PM materials on the combustion performance of the PMB with biogas fuel experimental 2023 Fang et al 46 HENG combustion performance of three typical burners using HENG experimental 2023 Usman et al 91 LPG emissions and efficiency of improved LPG cook stoves experimental 2023 Deymi-Dashtebayaz et al 92 NG effect of parameters on the stove's performance experimental and numerical 2023 Ozturk et al 93 HENG the impact of using HENG on emissions and combustion performance experimental 2023 Liu et al 45 HENG investigation on the combustion characterization of HENG in domestic swirl stoves experimental and numerical statistics according to selected categories (e.g., journals covered, time frame, and geographical distribution). The thematic analysis focus...…”

Comprehensive Review on Thermal Performance Enhancement of Domestic Gas Stoves

“…Finally, the data obtained were used to perform descriptive analysis and thematic analysis in Bibliometrix. 48 For the descriptive analysis, the data were analyzed using descriptive 80 NG CO emissions and temperature analysis during partial premixed methane flame combustion experimental and numerical 2022 Leicher et al 81 CH 4 impact of HENG on domestic gas stoves theoretical 2022 Ahmadi et al 24 NG effect of burner head design on thermal efficiency and emissions of domestic gas stoves experimental and numerical 2022 Deymi-Dashtebayaz et al 82 NG effect of swirling at the outlet port on the combustion performance of the burner numerical 2022 Soltanian et al 42 NG assessing total thermal performance of PMB in domestic application experimental and analytical 2022 Xie et al 83 HENG impact of HENG on the flame stability of the burner experimental and theoretical 2022 Sun et al 84 HENG effect of HENG on the domestic stove performance experimental and analytical 2022 Glanville et al 44 HENG impact of HENG on NO X emission and operational performance of a partially premixed burner experimental 2022 Yitong et al 85 NG CO emission projections for partially premixed gas stoves experimental and analytical 2022 Hou et al 86 HENG effect of hydrogen addition on the extinction dynamics of partially premixed methane air flames numerical 2022 Wang et al 6 LPG improved heat transfer by adding fins to the pan of a gas stove experimental and numerical 2022 Yang et al 87 HENG flame extinction of HENG premixed flames experimental and theoretical 2022 Dinesh et al 88 NG impingement heating characteristics of domestic gas burner flames under various operating parameters experimental 2022 Du et al 89 HENG combustion performance of swirl burners using HENG experimental and numerical 2022 Devi et al 90 Biogas influence of PM materials on the combustion performance of the PMB with biogas fuel experimental 2023 Fang et al 46 HENG combustion performance of three typical burners using HENG experimental 2023 Usman et al 91 LPG emissions and efficiency of improved LPG cook stoves experimental 2023 Deymi-Dashtebayaz et al 92 NG effect of parameters on the stove's performance experimental and numerical 2023 Ozturk et al 93 HENG the impact of using HENG on emissions and combustion performance experimental 2023 Liu et al 45 HENG investigation on the combustion characterization of HENG in domestic swirl stoves experimental and numerical statistics according to selected categories (e.g., journals covered, time frame, and geographical distribution). The thematic analysis focus...…”

Comprehensive Review on Thermal Performance Enhancement of Domestic Gas Stoves

Solar thermal cooking device for domestic cooking applications: Bridging sustainable development goals and innovation