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IDENTIFYING THE EFFECT OF AROMATIC COMPOUNDS ON THE COMBUSTION CHARACTERISTICS OF CRUDE COCONUT OIL DROPLET

Riupassa, Helen and Suyatno, Suyatno and Nanlohy, Hendry Yoshua (2023) IDENTIFYING THE EFFECT OF AROMATIC COMPOUNDS ON THE COMBUSTION CHARACTERISTICS OF CRUDE COCONUT OIL DROPLET. Eastern-European of Enterprise Technologies, 2 (6): UDC 543. pp. 8-16. ISSN 1729-3774

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Abstract

For now, energy sources uses are still dominated by fossil
fuels, whose availability is limited and continues to decline. Therefore, new alternative energy is needed to reduce dependence on fossil fuels. Crude vegetable oil is one alternative energy source that can be utilized as a substitute for fossil fuels because vegetable oil has a composition almost similar to fossil fuel. Crude coconut oil is an alternative to biodiesel to reduce dependency on fossil fuels. The combustion reaction of crude coconut oil is tricky because it has bonds saturated chain, so a substance is needed to weaken the carbon chain to increase the burning rate. The burning rate of coconut oil droplets has been investigated experimentally by adding clove oil and eucalyptus oil bio-additives. Tests were carried out with single droplets suspended on a thermocouple at atmospheric pressure and room temperature and ignited with a hot wire. The addition of clove oil and eucalyptus oil as bio-additives in crude coconut oil was 100 ppm and 300 ppm, respectively. The suspended droplet combustion method
was chosen to increase the contact area between the air
and fuel so that the reactivity of the fuel molecules increases. The results showed that the eugenol compounds in clove oil and cineol compounds in eucalyptus oil were both aromatic and had an unsymmetrical carbon chain geometry structure. Therefore, this factor has the potential to accelerate the occurrence of effective collisions between fuel molecules; thus, the fuel is flammable, as evidenced by the increased burning rate. Moreover, from the observations, it was found that the highest burning rate was achieved in both bio-additives with a concentration of 300 ppm

Item Type: Article
Uncontrolled Keywords: droplet combustion, crude coconut oil, bio-additives, aromatic compound
Subjects: 600 – Teknologi (Ilmu Terapan) > 600 Teknologi (ilmu terapan) > 600 Teknologi
600 – Teknologi (Ilmu Terapan) > 620 Ilmu teknik dan ilmu yang berkaitan > 620 Ilmu teknik dan ilmu yang berkaitan
600 – Teknologi (Ilmu Terapan) > 660 Teknik kimia > 662 Teknologi bahan peledak, bahan bakar, dan produk terkait
Divisions: FTIK > Prodi Teknik Mesin
Depositing User: Helen Riupassa
Date Deposited: 05 Apr 2023 23:45
Last Modified: 05 Apr 2023 23:45
URI: http://repository.ustj.ac.id/id/eprint/154

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