Temperature Effect of Water Content at Hoarding Process Biosolar For Quality Maintain
DOI:
https://doi.org/10.32493/jitk.v7i1.26783Keywords:
Temperature, Storage, Solar, Biosolar, Water ContentAbstract
Diesel fuel is used for diesel-engined vehicles containing sulfur, where the quality of diesel oil is expressed by the cetane number, as it is known that the cetane number for diesel fuel is 48. Water content is a parameter that affects the quality of diesel and biodiesel fuel which often increases during the stockpiling process. If the water content value is too high, it can damage the engine and accelerate corrosion. Hoarding for diesel and biodiesel products in this test was carried out with 2 variations, namely temperature variations (outside temperature and inside temperature) and also time variations. The length of the stockpiling process used in this study was 6 hours, where the results obtained from the water content test were also different. From the water content research for biodiesel products, the results were 0.1595% vol, 0.1621% vol for inside temperature, 0.1839% vol, and 0.1845% vol for outside temperature, while for solar products the results were 0.0344% vol, 0.0339% vol at inside temperature and 0.0502% vol and 0.0495 vol % for the outside temperature. It can be concluded that the higher the temperature in the process of storing diesel and biodiesel, the greater the value of the water content
References
Aisyah, L., Bethari, S. A., Wibowo, C. S., Hermawan, N., Alwi, D. U., Rulianto, D., & Anggarani, R. (2019, March). Water content in biodiesel for diesel fuel blends: Measurement using centrifuge and coulometric titration method. In IOP Conference Series: Materials Science and Engineering (Vol. 494, No. 1, p. 012082). IOP Publishing.
Azizul, M. A., Khalid, A., Nanihar, N., Manshoor, B., & Ngadiron, Z. (2020). Effects of storage characteristics on flash point and water content of biodiesel derived from crude palm oil, Jatropha, and waste cooking Oil. Journal of Advanced Research in Fluid Mechanics and Thermal Sciences, 76(2), 154-162.
Cappenberg, A. D. (2017). Pengaruh penggunaan bahan bakar solar, biosolar dan pertamina dex terhadap prestasi motor diesel silinder tunggal. Jurnal Konversi Energi dan Manufaktur, 4(2), 70-74.
Daud, A., Suriati, S., & Nuzulyanti, N. (2019). Kajian penerapan faktor yang mempengaruhi akurasi penentuan kadar air metode thermogravimetri. Lutjanus, 24(2), 11-16.
Haryono, H., & Marliani, M. (2014). Analisis Mutu Biosolar pada Variasi Formulasi Blending Biodiesel dari Minyak Kapuk dengan Minyak Solar. Eksergi, 11(2), 24-29.
Pambudi, A., Farid, M., & Nurdiansah, H. (2017). Analisa Morfologi dan Spektroskopi Infra Merah Serat Bambu Betung (Dendrocalamus Asper) Hasil Proses Alkalisasi Sebagai Penguat Komposit Absorbsi Suara. Jurnal Teknik ITS, 6(2), F435-F440.
Roliadi, H., Sudradjat, R., & Anggraini, A. (2012). Kemungkinan Penggunaan Antioksidan Guna Mempertinggi Ketahanan Oksidasi Biodiesel dari Minyak Biji Tanaman Jarak Pagar (Jatropha curcas L.). Jurnal Penelitian Hasil Hutan, 30(1), 69-86.
Steven, J., Oksil, V., Sugito, B. 2021. Studi Temperatur Penyimpanan Pada Proses Penimbunan B30 Guna Mengurangi Korosi. Jurnal Ilmiah Teknik Kimia Unpam, 5(2), 111-114.
Sulistyani, M., & Huda, N. (2017). Optimasi pengukuran spektrum vibrasi sampel protein menggunakan spektrofotometer fourier transform infrared (FT-IR). Indones. J. Chem. Sci, 6, 173-180.
Zakaria, H., Khalid, A., Sies, M. F., Mustaffa, N., & Manshoor, B. (2014). Effect of storage temperature and storage duration on biodiesel properties and characteristics. In Applied Mechanics and Materials (Vol. 465, pp. 316-321). Trans Tech Publications Ltd.
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