Emission characterization and performance of conventional liquefied petroleum gas cookstove burners
The acceptance of liquefied petroleum gas (LPG) cookstove has increased across the country in recent years; however, their performance has not been investigated and established. To achieve this, laboratory tests were carried out to evaluate the thermal efficiency, and industrial combustion analyser...
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Taylor & Francis Group
2019
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oai:doaj.org-article:e150642bc591482c9b9d86b87bbb3db02021-11-04T15:51:56ZEmission characterization and performance of conventional liquefied petroleum gas cookstove burners2331-191610.1080/23311916.2019.1652228https://doaj.org/article/e150642bc591482c9b9d86b87bbb3db02019-01-01T00:00:00Zhttp://dx.doi.org/10.1080/23311916.2019.1652228https://doaj.org/toc/2331-1916The acceptance of liquefied petroleum gas (LPG) cookstove has increased across the country in recent years; however, their performance has not been investigated and established. To achieve this, laboratory tests were carried out to evaluate the thermal efficiency, and industrial combustion analyser (E-instrument E8500) was then used to characterize and quantify the air emissions from combustion of conventional LPG cookstoves in the country. The average thermal efficiency for all tested burners was 66.267 ± 7.218% meeting Tier 4 of the International Organization for Standardization, International Workshop Agreement 11. The mean concentration of CO, NOx, HC, and SO2 was in the range of 3–530, 48–810.5, 99–4176, and 0–4,respectively,and the range of CO2 was 1,792–3,592 mg/m3,which were compared with stationary source limit by Federal Ministry of Environment Standard, Nigeria. The toxicity potential of NOx and SO2 was below unity, 25% of the burners tested were below unity for CO, and HC was higher than unity for all tested burners. Most cookstoves met the guidelines for CO, NOx, and SO2. Hence, LPG in Nigeria could serve as a source of energy for cooking.Bamidele Sunday FakinleOlawale Daniel OkeOlayemi Abosede OdunlamiJacob Ademola SonibareFunso Alaba AkeredoluOlufemi Sunday OniTaylor & Francis Grouparticleliquefied petroleum gas lthermal efficiencycombustionindoor air qualitytoxicity potentialenergyEngineering (General). Civil engineering (General)TA1-2040ENCogent Engineering, Vol 6, Iss 1 (2019) |
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DOAJ |
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DOAJ |
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EN |
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liquefied petroleum gas l thermal efficiency combustion indoor air quality toxicity potential energy Engineering (General). Civil engineering (General) TA1-2040 |
| spellingShingle |
liquefied petroleum gas l thermal efficiency combustion indoor air quality toxicity potential energy Engineering (General). Civil engineering (General) TA1-2040 Bamidele Sunday Fakinle Olawale Daniel Oke Olayemi Abosede Odunlami Jacob Ademola Sonibare Funso Alaba Akeredolu Olufemi Sunday Oni Emission characterization and performance of conventional liquefied petroleum gas cookstove burners |
| description |
The acceptance of liquefied petroleum gas (LPG) cookstove has increased across the country in recent years; however, their performance has not been investigated and established. To achieve this, laboratory tests were carried out to evaluate the thermal efficiency, and industrial combustion analyser (E-instrument E8500) was then used to characterize and quantify the air emissions from combustion of conventional LPG cookstoves in the country. The average thermal efficiency for all tested burners was 66.267 ± 7.218% meeting Tier 4 of the International Organization for Standardization, International Workshop Agreement 11. The mean concentration of CO, NOx, HC, and SO2 was in the range of 3–530, 48–810.5, 99–4176, and 0–4,respectively,and the range of CO2 was 1,792–3,592 mg/m3,which were compared with stationary source limit by Federal Ministry of Environment Standard, Nigeria. The toxicity potential of NOx and SO2 was below unity, 25% of the burners tested were below unity for CO, and HC was higher than unity for all tested burners. Most cookstoves met the guidelines for CO, NOx, and SO2. Hence, LPG in Nigeria could serve as a source of energy for cooking. |
| format |
article |
| author |
Bamidele Sunday Fakinle Olawale Daniel Oke Olayemi Abosede Odunlami Jacob Ademola Sonibare Funso Alaba Akeredolu Olufemi Sunday Oni |
| author_facet |
Bamidele Sunday Fakinle Olawale Daniel Oke Olayemi Abosede Odunlami Jacob Ademola Sonibare Funso Alaba Akeredolu Olufemi Sunday Oni |
| author_sort |
Bamidele Sunday Fakinle |
| title |
Emission characterization and performance of conventional liquefied petroleum gas cookstove burners |
| title_short |
Emission characterization and performance of conventional liquefied petroleum gas cookstove burners |
| title_full |
Emission characterization and performance of conventional liquefied petroleum gas cookstove burners |
| title_fullStr |
Emission characterization and performance of conventional liquefied petroleum gas cookstove burners |
| title_full_unstemmed |
Emission characterization and performance of conventional liquefied petroleum gas cookstove burners |
| title_sort |
emission characterization and performance of conventional liquefied petroleum gas cookstove burners |
| publisher |
Taylor & Francis Group |
| publishDate |
2019 |
| url |
https://doaj.org/article/e150642bc591482c9b9d86b87bbb3db0 |
| work_keys_str_mv |
AT bamidelesundayfakinle emissioncharacterizationandperformanceofconventionalliquefiedpetroleumgascookstoveburners AT olawaledanieloke emissioncharacterizationandperformanceofconventionalliquefiedpetroleumgascookstoveburners AT olayemiabosedeodunlami emissioncharacterizationandperformanceofconventionalliquefiedpetroleumgascookstoveburners AT jacobademolasonibare emissioncharacterizationandperformanceofconventionalliquefiedpetroleumgascookstoveburners AT funsoalabaakeredolu emissioncharacterizationandperformanceofconventionalliquefiedpetroleumgascookstoveburners AT olufemisundayoni emissioncharacterizationandperformanceofconventionalliquefiedpetroleumgascookstoveburners |
| _version_ |
1718444682572201984 |