Nadhifah, Nada (2025) Sintesis Aluminosilikat Mesopori Dari Metakaolin Dan Ekstrak Lerak Sebagai Templat Untuk Konversi Minyak Goreng Bekas Melalui Pirolisis Suhu Rendah. Masters thesis, Institut Teknologi Sepuluh Nopember.
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Abstract
Konversi minyak goreng bekas menjadi biofuel telah diidentifikasi sebagai solusi berkelanjutan untuk mengatasi masalah energi. Namun, konversi yang efisien memerlukan katalis unggul untuk mengatasi tantangan seperti keasaman tinggi dan degradasi termal. Produksi katalis yang berkelanjutan dengan memanfaatkan bahan alami dapat mengurangi emisi karbon secara keseluruhan serta menekan biaya operasional. Studi ini meneliti transformasi mineral kaolin melalui proses metakaonisasi menjadi nanopartikel aluminosilikat mesopori yang sangat seragam dengan menggunakan biosurfaktan alami. Ekstrak saponin dari tanaman Sapindus rarak DC digunakan sebagai templating agent untuk mengontrol morfologi dan mesoporositas. Sintesis katalis aluminosilikat mesopori dilakukan menggunakan metode sol-gel untuk memperoleh ukuran partikel yang seragam (20–40 nm), ukuran pori tertinggi sebesar 15,53 nm dan luas permukaan 197,29 m²/g pada M50. Katalis ini menunjukkan kinerja tinggi dengan konversi minyak goreng bekas hingga ~99%, selektivitas produk cair 70% dan selektivitas hidrokarbon sebesar 65,18% dengan jumlah situs asam 3,92 µmol/g, serta kandungan senyawa oksigenat terkecil 30% pada M50.
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The conversion of waste cooking oil into biofuel has been identified as a sustainable solution to address the global energy crisis. However, efficient conversion requires advanced catalysts to overcome issues such as high acidity and thermal degradation. The development of sustainable catalysts using natural materials can reduce overall carbon emissions and lower operational costs. This study investigates the transformation of kaolin mineral through a metakaolinization process into highly uniform mesoporous aluminosilicate nanoparticles using a natural biosurfactant. Saponin extract from Sapindus rarak DC was employed as a templating agent to control the morphology and mesoporosity. The mesoporous aluminosilicate catalyst was synthesized using a sol-gel method to obtain uniform particle sizes (20–40 nm), with the highest pore size of 15.53 nm and surface area of 197.29 m²/g observed in the M50 sample. This catalyst demonstrated excellent performance, achieving up to ~99% conversion of waste cooking oil, 70% liquid product selectivity, and 65.18% hydrocarbon selectivity, along with the highest acid site concentration (3.92 µmol/g) and the lowest oxygenated compound content (~30%) in M50.
| Item Type: | Thesis (Masters) |
|---|---|
| Uncontrolled Keywords: | Aluminosilikat Mesopori, Kaolin, Sapindus rarak DC, Minyak goreng bekas, Templat alami,Mesoporous aluminosilicate, Kaolin, Sapindus rarak DC, Waste cooking oil, Natural template |
| Subjects: | Q Science Q Science > QD Chemistry Q Science > QD Chemistry > QD181.S6 A4 Aluminum silicates Q Science > QD Chemistry > QD281 Pyrolysis Q Science > QD Chemistry > QD501 Catalysis. Catalysts. |
| Divisions: | Faculty of Natural Science > Chemistry > 47101-(S2) Master Thesis |
| Depositing User: | Nada Nadhifah |
| Date Deposited: | 04 Aug 2025 02:42 |
| Last Modified: | 04 Aug 2025 02:42 |
| URI: | http://repository.its.ac.id/id/eprint/126342 |
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