Towards nationwide implementation of 40% biodiesel blend fuel in Indonesia: a comprehensive road test and laboratory evaluation

This research focused on evaluating the technical viability of using biodiesel with a blending ratio of 40% v/v, which is expected to be implemented soon in Indonesia. Two kinds of biodiesel blends were prepared, a blend of 60% diesel fuel and 40% biodiesel (B40) and a blend of 60% diesel fuel, 30%...

Full description

Saved in:
Bibliographic Details
Published inBiofuel research journal Vol. 10; no. 3; pp. 1876 - 1889
Main Authors Mokhtar, Mokhtar, Sukmono, Anis, Setiapraja, Hari, Ma’ruf, Muhammad, Yubaidah, Siti, Haryono, Ihwan, Rochmanto, Budi, Soewono, Respatya Teguh, Adhi Sukra, Kurnia Fajar, Thahar, Arfi, Manurung, Efendi, Wibowo, Cahyo Setyo, Widodo, Setyo, Supriyadi, Faqih, Abriyant, Riva Yudha, Suntoro, Dedi, Faridha, Faridha, Reksowardojo, Iman K.
Format Journal Article
LanguageEnglish
Published Saint John Green Wave Publishing of Canada 01.09.2023
Alpha Creation Enterprise
Subjects
Ambient temperature
biodiesel blend fuel
Biodiesel fuels
Biofuels
Cold starts
Diesel
Diesel engines
Diesel fuels
Emissions
endurance test
Energy efficiency
Engine components
Exhaust emissions
Fatigue tests
Fuel consumption
Fuel economy
hydrogenated vegetable oil
indonesia
Laboratory tests
Low temperature
road test
Road tests
Roads
Vegetable oils
vehicle performance
Indonesia
Online AccessGet full text

Cover

More Information
Summary:This research focused on evaluating the technical viability of using biodiesel with a blending ratio of 40% v/v, which is expected to be implemented soon in Indonesia. Two kinds of biodiesel blends were prepared, a blend of 60% diesel fuel and 40% biodiesel (B40) and a blend of 60% diesel fuel, 30% biodiesel, and 10% hydrogenated vegetable oil (HVO) (B30D10). The fuels were tested on EuroII vehicles without any engine modifications through a 50,000 km endurance road test. Laboratory tests were also performed at certain traveled distances to evaluate various engine parameters, including power, fuel economy, exhaust emissions, and used engine oil properties. Engine components were inspected upon the completion of the road test. Cold-start ability was also examined to confirm the suitability of the investigated biofuels at low-temperature operating conditions in Indonesia. The road test results showed that vehicles fuelled with B40 and B30D10 could reach a distance of 50,000 km without encountering any technical issues. The laboratory evaluation during the road test indicated that B30D10 had a higher power and fuel economy than B40, with a maximum difference of 2%. Furthermore, B30D10 emitted lower CO, HC, and PM emissions than B40 throughout the distance traveled, with maximum differences of 11.4%, 14.7%, and 22.6%, respectively, but led to 15% higher NOx. Engine component inspection and used engine oil analysis confirmed the fulfillment of the manufacturer's recommendations for both B40 and B30D10. Finally, B40 and B30D10 were suitable for operating at low ambient temperatures in Indonesia, confirming them as practical options to be implemented in the nationwide 40% biodiesel blend fuel.
ISSN:2292-8782
2292-8782
DOI:10.18331/BRJ2023.10.3.2