Experimental assessment of lamella heat exchanger as cold intake air system for spark ignition engine by utilizing vehicle air conditioning system
Global warming and air pollution have become major concerns for humanity, especially in the last few decades. The transport sector contributes significantly to a large proportion of urban air pollution due to the dramatic increase in vehicle production and transportation growth, resulting in harmful...
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my.upm.eprints.1078302024-12-10T06:37:45Z http://psasir.upm.edu.my/id/eprint/107830/ Experimental assessment of lamella heat exchanger as cold intake air system for spark ignition engine by utilizing vehicle air conditioning system Ikhtiar, Usman Hairuddin, Abdul Aziz Asarry, Azizan Md. Rezali, Khairil Anas Ali, Hafiz Muhammad Abdul Jalal, Rifqi Irzuan Global warming and air pollution have become major concerns for humanity, especially in the last few decades. The transport sector contributes significantly to a large proportion of urban air pollution due to the dramatic increase in vehicle production and transportation growth, resulting in harmful emissions. Cooling the intake air temperature is one of the alternative strategies to reduce exhaust emissions and improve combustion conditions. The present study adopted the Lamella heat exchanger (LHE) as an intake air cooling device for a 1.5 L naturally aspirated engine. The design size of LHE is based on the maximum space available in the test vehicle for its installation. A refrigerant derived from the vehicle air conditioning (VAC) system acts as a coolant medium for LHE. For experimental testing, two types of vehicle statuses are considered, i.e., moving and static, to evaluate the performance of the cooling device in both positions. Engine power, torque, exhaust emissions, and fuel consumption are designated as evaluating parameters. The results depict that lowering the temperature of the intake air by 30–40 through LHE reduces the increased quantity of exhaust emissions due to the VAC system by 43.6%, 39.5%, 47.3%, and 64.5% for CO, CO2, HC, and NOx respectively. Further, the amount of lost engine power and torque due to the VAC system is partially recovered by 17% and 24%, respectively, by introducing cold air into the engine. Convincingly, LHE has a significant potential to improve engine performance. Elsevier 2023-11 Article PeerReviewed Ikhtiar, Usman and Hairuddin, Abdul Aziz and Asarry, Azizan and Md. Rezali, Khairil Anas and Ali, Hafiz Muhammad and Abdul Jalal, Rifqi Irzuan (2023) Experimental assessment of lamella heat exchanger as cold intake air system for spark ignition engine by utilizing vehicle air conditioning system. International Communications in Heat and Mass Transfer, 148. pp. 1-10. ISSN 0735-1933; eISSN: 1879-0178 https://linkinghub.elsevier.com/retrieve/pii/S0735193323003780 10.1016/j.icheatmasstransfer.2023.106989 |
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Global warming and air pollution have become major concerns for humanity, especially in the last few decades. The transport sector contributes significantly to a large proportion of urban air pollution due to the dramatic increase in vehicle production and transportation growth, resulting in harmful emissions. Cooling the intake air temperature is one of the alternative strategies to reduce exhaust emissions and improve combustion conditions. The present study adopted the Lamella heat exchanger (LHE) as an intake air cooling device for a 1.5 L naturally aspirated engine. The design size of LHE is based on the maximum space available in the test vehicle for its installation. A refrigerant derived from the vehicle air conditioning (VAC) system acts as a coolant medium for LHE. For experimental testing, two types of vehicle statuses are considered, i.e., moving and static, to evaluate the performance of the cooling device in both positions. Engine power, torque, exhaust emissions, and fuel consumption are designated as evaluating parameters. The results depict that lowering the temperature of the intake air by 30–40 through LHE reduces the increased quantity of exhaust emissions due to the VAC system by 43.6%, 39.5%, 47.3%, and 64.5% for CO, CO2, HC, and NOx respectively. Further, the amount of lost engine power and torque due to the VAC system is partially recovered by 17% and 24%, respectively, by introducing cold air into the engine. Convincingly, LHE has a significant potential to improve engine performance. |
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Article |
| author |
Ikhtiar, Usman Hairuddin, Abdul Aziz Asarry, Azizan Md. Rezali, Khairil Anas Ali, Hafiz Muhammad Abdul Jalal, Rifqi Irzuan |
| spellingShingle |
Ikhtiar, Usman Hairuddin, Abdul Aziz Asarry, Azizan Md. Rezali, Khairil Anas Ali, Hafiz Muhammad Abdul Jalal, Rifqi Irzuan Experimental assessment of lamella heat exchanger as cold intake air system for spark ignition engine by utilizing vehicle air conditioning system |
| author_facet |
Ikhtiar, Usman Hairuddin, Abdul Aziz Asarry, Azizan Md. Rezali, Khairil Anas Ali, Hafiz Muhammad Abdul Jalal, Rifqi Irzuan |
| author_sort |
Ikhtiar, Usman |
| title |
Experimental assessment of lamella heat exchanger as cold intake air system for spark ignition engine by utilizing vehicle air conditioning system |
| title_short |
Experimental assessment of lamella heat exchanger as cold intake air system for spark ignition engine by utilizing vehicle air conditioning system |
| title_full |
Experimental assessment of lamella heat exchanger as cold intake air system for spark ignition engine by utilizing vehicle air conditioning system |
| title_fullStr |
Experimental assessment of lamella heat exchanger as cold intake air system for spark ignition engine by utilizing vehicle air conditioning system |
| title_full_unstemmed |
Experimental assessment of lamella heat exchanger as cold intake air system for spark ignition engine by utilizing vehicle air conditioning system |
| title_sort |
experimental assessment of lamella heat exchanger as cold intake air system for spark ignition engine by utilizing vehicle air conditioning system |
| publisher |
Elsevier |
| publishDate |
2023 |
| url |
http://psasir.upm.edu.my/id/eprint/107830/ https://linkinghub.elsevier.com/retrieve/pii/S0735193323003780 |
| _version_ |
1818835922434654208 |
| score |
13.23648 |