Determination of the Compositions of Gasoline, Aqueous Ethanol, and Butanol, in Stable Emulsions at Low Temperatures
Sangian, H., Benaino, L., Pasau, G., Sangian, M., Aritonang, H., Agnesty, S., Sriana, T., Widjaja, A., Sadjab, B., Rotinsulu, T. (2025). Determination of the Compositions of Gasoline, Aqueous Ethanol, and Butanol, in Stable Emulsions at Low Temperatures. EKB Journal Management System, 68(7), 185-194. doi: 10.21608/ejchem.2024.295454.10358
Hanny F. Sangian; Letia R. Benaino; Guntur Pasau; Messiah C. Sangian; Henry F. Aritonang; Silvya Yusnica Agnesty; Tun Sriana; Arief Widjaja; Bayu Achil Sadjab; Tri Oldy Rotinsulu. "Determination of the Compositions of Gasoline, Aqueous Ethanol, and Butanol, in Stable Emulsions at Low Temperatures". EKB Journal Management System, 68, 7, 2025, 185-194. doi: 10.21608/ejchem.2024.295454.10358
Sangian, H., Benaino, L., Pasau, G., Sangian, M., Aritonang, H., Agnesty, S., Sriana, T., Widjaja, A., Sadjab, B., Rotinsulu, T. (2025). 'Determination of the Compositions of Gasoline, Aqueous Ethanol, and Butanol, in Stable Emulsions at Low Temperatures', EKB Journal Management System, 68(7), pp. 185-194. doi: 10.21608/ejchem.2024.295454.10358
Sangian, H., Benaino, L., Pasau, G., Sangian, M., Aritonang, H., Agnesty, S., Sriana, T., Widjaja, A., Sadjab, B., Rotinsulu, T. Determination of the Compositions of Gasoline, Aqueous Ethanol, and Butanol, in Stable Emulsions at Low Temperatures. EKB Journal Management System, 2025; 68(7): 185-194. doi: 10.21608/ejchem.2024.295454.10358

Determination of the Compositions of Gasoline, Aqueous Ethanol, and Butanol, in Stable Emulsions at Low Temperatures

Egyptian Journal of Chemistry
Volume 68, Issue 7, July 2025, Page 185-194  XML PDF (696.64 K)
Document Type: Original Article
DOI: 10.21608/ejchem.2024.295454.10358
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Authors
Hanny F. Sangian email orcid 1; Letia R. Benaino1; Guntur Pasau1; Messiah C. Sangian2; Henry F. Aritonang3; Silvya Yusnica Agnesty4; Tun Sriana4; Arief Widjaja5; Bayu Achil Sadjab6; Tri Oldy Rotinsulu7
1Department of Physics, Sam Ratulangi University, Manado, 95115 Indonesia
2Department of Physics, Institut Teknologi Bandung, Bandung 40132, Indonesia
3Department of Chemistry, Sam Ratulangi University, Manado, 95115 Indonesia
4Department of Oil and Gas Processing, Energy and Minerals Polytechnics, Cepu Blora, 58315, Indonesia
5Department of Chemical Engineering, Institut Teknologi Sepuluh Nopember, Surabaya, Indonesia
6Department of Physics, Halmahera University, Wari, 97762, Indonesia
7Department of Economic Development, Sam Ratulangi University, 95115, Indonesia
Abstract
This study aims to identify and examine the compositions of stable emulsions of gasoline (RON 90), aqueous ethanol, and butanol at low temperatures to improve fuel stability in cold environments. The blending process involved combining gasoline and ethanol in different ratios, followed by the gradual addition of butanol to stabilize the emulsion without using synthetic surfactants. Emulsion stability was evaluated by varying the temperature from 29.0°C to -17.0°C and observing phase separation. The analysis centered on the volumetric composition and stability of the emulsions over time and across different temperatures. The compositions were documented and the changes in stability were analyzed to understand the effects of temperature and component ratios. The results indicated that at lower temperatures, the volume percentages of gasoline and ethanol in the emulsion decreased, while the percentage of butanol increased. At -17.0°C, the emulsion composition was 33.68% gasoline, 18.13% aqueous ethanol, and 48.19% butanol, highlighting butanol's key role in maintaining stability at low temperatures. These findings suggest that stable emulsions of gasoline, ethanol, and butanol can be achieved at low temperatures, potentially enhancing the performance and reliability of biofuel blends in cold climates. This could contribute to the development of more efficient and environmentally friendly fuel options for automotive and other combustion engines.
Keywords
aqueous ethanol; butanol; emulsion; phase separation; stable emulsion
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