Pengembangan Teknologi Energi Baru Terbarukan pada Produk Migas dengan Basic Flame Oil
DOI:
https://doi.org/10.22441/10.22441/2441/pasti.2025.v19i2.008Keywords:
Spektrofotometri, Gravimetri, Pertadex, Fame, Emisi, Industri, Bahan BakarAbstract
Transisi menuju energi baru terbarukan (EBT) menjadi prioritas untuk mengurangi ketergantungan pada energi fosil. Studi ini mengevaluasi pencampuran biodiesel (Fatty Acid Methyl Ester atau FAME) dengan Pertadex menggunakan Fourier Transform Infrared Spectroscopy (FTIR) dan metode gravimetri bertujuan untuk menghasilkan bahan bakar yang ramah lingkungan yang dievaluasi menggunakan metode ash content. Hasil menunjukkan bahwa pencampuran FAME meningkatkan kadar abu (ash content), dari rata-rata 44,26% pada Pertadex murni menjadi 74,64% pada campuran 10% FAME. FTIR mengidentifikasi gugus karbonil (C=O) pada panjang gelombang 1745 cm⁻¹, yang meningkat signifikan pada konsentrasi FAME lebih tinggi. Meskipun demikian, gugus CH₂ dan CH₃ tetap dominan, menunjukkan stabilitas struktur hidrokarbon. Kombinasi ini menghasilkan bahan bakar dengan potensi emisi lebih rendah dan kandungan biofuel yang lebih tinggi, mendukung kebijakan Net Zero Emissions 2060. Namun, kadar abu yang meningkat memerlukan kontrol mutu lebih ketat untuk mencegah dampak negatif pada efisiensi pembakaran. Hasil studi ini menegaskan perannya metoda spektrofotometri dan gravimetri dalam pengembangan bahan bakar ramah lingkungan. Rekomendasi diberikan untuk pengujian lebih lanjut terkait dampak kinerja mesin dan analisis ekonomi untuk memastikan implementasi yang optimal dan berkelanjutan.
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Asemani, M., & Rabbani, A. R. (2020). Detailed FTIR spectroscopy characterization of crude oil extracted asphaltenes: Curve resolve of overlapping bands. Journal of Petroleum Science and Engineering, 185, 106618. https://doi.org/10.1016/j.petrol.2019.106618
Harahap, M. R., Abrasyi, R., & Tobing, V. H. L. (2022). PENENTUAN FLASH POINT, DENSITAS DAN WARNA BIOSOLAR (B30) TOO7 FT SABANG DAN SPBU CV. TOSAKA ABADI SABANG MENGGUNAKAN METODE ASTM D-93. AMINA, 3(2), 55–61. https://doi.org/10.22373/amina.v3i2.2001
Hasil, J., Dan, P., Ilmiah, K., Diniaty, D., Hanum, F., Hamdy, M. I., Studi, P., Industri, T., Sains, F., Teknologi, D., & Riau, K. (2019). Analisis Pengendalian Mutu (Quality Control) CPO (Crude Palm Oil) pada PT. XYZ. In Jurnal Teknik Industri (Vol. 5, Issue 2).
Nur, F., Aboytes-Ojeda, M., Castillo-Villar, K. K., & Marufuzzaman, M. (2021). A two-stage stochastic programming model for biofuel supply chain network design with biomass quality implications. IISE Transactions, 53(8), 845–868. https://doi.org/10.1080/24725854.2020.1751347
Paul, W. (2023). TRANSISI SUMBER ENERGI BERSIH TERBARUKAN (EBT) DALAM KELANGSUNGAN EKONOMI DI INDONESIA. In Jurnal Al-Amar (JAA) (Vol. 4, Issue 1).
Rohman, A., & Man, Y. B. C. (2012). Application of Fourier Transform Infrared Spectroscopy for Authentication of Functional Food Oils. Applied Spectroscopy Reviews, 47(1), 1–13. https://doi.org/10.1080/05704928.2011.619020
Saputri, I. U. (2014). ANALISIS DAYA SAING CRUDE PALM OIL (MINYAK SAWIT MENTAH) PADA PT. CIPTA USAHA SEJATI DENGAN METODE HERIFINDAHL INDEKS DAN ANALISA SWOT DALAM MENGHADAPI PERDAGANGAN CPO DUNIA: Vol. VIII (Issue 2).
SHELEMO, A. A. (2023). INTESIS SENYAWA LANTHANUM DOPED CERIUM (LDC) MENGGUNAKAN METODE SOL-GEL DENGAN VARIASI SUHU KALSINASI. Nucl. Phys., 13(1), 104–116.
Siddiqi, M. H., Liu, X., Qureshi, T., Tabish, A. N., Nawaz, S., & Iqbal, T. (2020). Performance analysis of bio-fuel blends for clean energy production: Thermogravimetric analysis. Journal of Cleaner Production, 273, 122936. https://doi.org/10.1016/j.jclepro.2020.122936
Studi, P., Pertanian, T., & Papua, U. N. (2015). PERKEMBANGAN BIODIESEL DI INDONESIA TINJAUAN ATAS KONDISI SAAT INI, TEKNOLOGI PRODUKSI & ANALISIS PROSPEKTIF Murtiningrum dan Alfa Firdaus: Vol. IX (Issue 1).
Tersedia, J., Wibisono, Y., Ruslan, W., Nely, D., & Bunga, T. (2020). Jurnal Mekanik Terapan Analisis Performa Mesin Diesel Caterpillar 3196 5ED04240 Menggunakan Bahan Bakar Solar Dan Biosolar B20 Dengan Metode Eksperimental. In Jurnal Mekanik Terapan (Vol. 01, Issue 56).
Tulis, K., Untuk, D., & Tugas-Tugas, M. (2014). PERBANDINGAN KUALITAS PERTAMINA DEX DAN BIO SOLAR.
Venriza, O., Jannah, M., Warcono, T., & Pekerti, A. L. (2021). Evaluation Factors Causing a Losses in the System of Receiving, Storage and Distribution Diesel Fuel in PT Badak NGL.
Wahyuni, C. R., Arifin, G. C. N., & Venriza, O. (2023). Effect of Added Acrylate Demulsifier for Increasing Antioxidants Functional in Diesel Fuel Oil. Key Engineering Materials, 962, 123–128. https://doi.org/10.4028/p-C9G1Eq
Yenni, F. R., & Prabowo, H. (2021). Management Pengendalian Kualitas Batubara Berdasarkan Parameter Kualitas Batubara Mulai Dari Front Sampai Ke Stockpile Di PT. Budi Gema Gempita, Merapi Timur, Lahat, Sumatera Selatan. Bima Tambang, 6(1), 110-.
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