Refinement of cooking oil using activated carbon from coconut shell and zeolite

https://doi.org/10.22146/teknosains.91766

Ety Jumiati(1*)

(1) Universitas Islam Negeri Sumatera Utara
(*) Corresponding Author

Abstract


Bulk cooking oil is obtained from traditional markets and and relatively has a characteristic color that tends to be brownish and unclear; cooking oil has been repeatedly used after frying, resulting in physical changes such as darkening, thickening, and foaming. If bulk cooking oil is repeatedly used for frying, it can be detrimental to health as it may accumulate saturated fatty acids in the oil. This condition prompted the search for solutions to purify bulk cooking oil and use cooking oil using processed zeolite and coconut shell-activated carbon as adsorbents to improve the quality of cooking oil. This research utilizes an experimental-quantitative method. Variations in composition include sample A (bulk cooking oil: 75% and processed natural zeolite: 25%), sample B (bulk cooking oil: 75% and coconut shell activated carbon: 25%), sample C (used cooking oil: 75% and processed natural zeolite: 25%), and sample D (used cooking oil: 75% and coconut shell activated carbon: 25%). The research results on the quality of coconut shell activated carbon obtain moisture content of 13.2%, ash content of 2.1%, volatile matter content of 17.9%, and carbon content of 80.0%, which meets the SNI 06-3730-1995 standard. Meanwhile, the quality results of cooking oil after the purification process obtain moisture content values of 0.09-0.10%, free fatty acid values of 0.14-0.30%, and normal color that does not exceed the maximum standard required by SNI 7709:2019 with a percentage reduction in moisture content of 0-60% and free fatty acids of 0-63.41%.


Keywords


Activated carbon from coconut shells; Processed natural zeolite; Bulk cooking oil; Used cooking oil

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References

[1] Novita, L. Asih, E. R. and Arsil, Y. 2021. Efektivitas Abu Cangkang Sawit Dalam Meningkatkan Kualitas Minyak Goreng Curah Dan Minyak Goreng Kemasan. Jurnal Kimia Riset, 6(2):132-140. DOI: 10.20473/jkr.31074.

[2] Widayana, S. Kurniawati, I. and Susilowati, S. 2022. Pemanfaatan Limbah Kulit Pisang Kepok Sebagai Bioadsorben pada Penurunan Warna Minyak Bekas Penggorengan. Jurnal Pendidikan Tambusai, 6(2):10191-10202. DOI: 10.31004/jptam.4028.

[3] Nustini, Y. and Allwar. 2019 Pemanfaatan limbah tempurung kelapa menjadi arang tempurung kelapa dan granular karbon aktif guna meningkatkan kesejahteraan Desa Watuduwur, Bruno, Kabupaten Purworejo. Prosiding Seminar Nasional Mewujudkan Masyarakat Madani dan Lestari seri 9:172–183. ISBN: 978-602-6215-79-6.

[4] Melani, A. and Apryansyah, Z. 2022. Adsorpsi Asam Lemak Bebas Pretreatment CPO Menggunakan Zeolit Alam Proses Kontinyu Adsorption of Free Fatty acids in CPO Pretreatment Using Continous Process Natural Zeolit. Jurnal Teknik Patra Akademika, 13(2):110-114. DOI:10.52506/jtpa.175.

[5] Oko, S. Mustafa, M. Kurniawan, A. and Muslimin, N. A. 2020. Pemurnian Minyak Jelantah dengan Metode Adsorbsi Menggunakan Arang Aktif dari Serbuk Gergaji Kayu Ulin (Eusideroxylon zwageri). Jurnal Riset Teknologi Ind.onesia, 14(2): 124-132. DOI: 10.26578/jrti.6067.

[6] Hamzah Alhusaini, M. Yuliati, S.and Yerizam, M. 2022. Pengaruh Variasi Tekanan Pada Pemurnian Minyak Goreng Bekas Menggunakan Membran Polisulfon Ultrafiltrasi Effect of Pressure Variations on Used Cooking Oil Purification Using Ultrafiltration Polysulphone Membranes. Jurnal Pendidikan dan Teknologi Indonesia (JPTI), 223(9):417–424. DOI:10.52436/.jpti.223.

[7] Sopianti, D. S. Herlina, H. and Saputra, H. T. 2017. Penetapan Kadar Asam Lemak Bebas Pada Minyak Goreng. Jurnal Katalisator, 2(2):100-105. DOI: 10.22216/jk.2408.

[8] Zulkania, A. 2018. Pengaruh perlakuan kimia terhadap karakteristik zeolit alam aktif. Seminar Nasional Teknik Kimia Ecosmart:99-106.

[9] Suartini, N. Jamaluddin and Ihwan. 2018. Jelantah, “Pemanfaatan Arang Aktif Kulit Buah Sukun (Artocarpus Altilis (Parkinson) Fosberg) Sebagai Adsorben Dalam Perbaikan Mutu Minyak Jelantah. Jurnal Riset Kimia (Kovalen), 4(2):152–165.

[10] Febriyanto, P. Jerry, J. Satria, A. W. and Devianto, H. 2019. Pembuatan Dan Karakterisasi Karbon Aktif Berbahan Baku Limbah Kulit Durian Sebagai Elektroda Superkapasitor. Jurnal Integrasi Proses, 8(1):19-24. DOI: 10.36055/jip.5439.

[11] Dewi, R. Azhari. and Nofriadi, I. 2020. Aktivasi Karbon Dari Kulit Pinang dengan Menggunakan Aktivator Kimia KOH. Jurnal Teknologi Kimia Unimal, 9(2):12-22. DOI: 10.29103/jtku.3351.

[12] Nst, Z. Napitupulu, Y. R. and Silalahi, Y. C. E. 2020. Peningkatan Kualitas Minyak Goreng Bekas Menggunakan Adsorben Karbon Aktif Arang dari Tempurung Kelapa yang Diaktivasi dengan HCL,” Herbal Medicine Journal, 3(1):1–5. DOI: 10.58996/hmj.19.

[13] Muhammad, H. N. Nikmah, F. Hidayah, N. U. and Haqiqi, A. K. 2020. Arang Aktif Kayu Leucaena Leucocephala sebagai Adsorben Minyak Goreng Bekas Pakai (Minyak Jelantah). Physics Education Riset Journal, 2(2):123-130. DOI: 10.21580/perj.6176.

[14] Hartono, R. and Suhendi, E. 2020. Pemurnian Minyak Jelantah dengan Menggunakan Steam Pada Kolom Vigrek dan katalis Zeolit Alam Bayah. Jurnal Integrasi Proses, 9(1):20-24. DOI: 10.36055/jip.7912.

[15] Engelen, A. 2018. Analisis Kekerasan, Kadar Air, Warna dan Sifat Sensori pada Pembuatan Keripik Daun Kelor. Journal of Agritech Science., 2(1):10–15. DOI: 10.30869/jasc.173.

[16] Alamsyah, M. Kalla, R. and La Ifa L. I. 2017. Pemurnian Minyak Jelantah Dengan Proses Adsorbsi. Journal Of Chemical Process Engineering, 2(2):22-26. DOI: 10.33536/jcpe.162.

[17] Sari, R. M. and Kembaren, A. 2019. Pemanfaatan Karbon Aktif Ampas dalam Mereduksi Asam Lemak Bebas (Free Fatty Acid) pada Minyak Goreng Bekas sebagai Biodiesel. TALENTA Conference Series: Science & Technology, 2(1):124–128. DOI: 10.32734/st.329.

[18] Fanani, N. and Ningsih, E. 2019. Analisis Kualitas Minyak Goreng Habis Pakai yang Digunakan oleh Pedagang Penyetan di Daerah Rungkut Surabaya Ditinjau dari Kadar Air dan Kadar Asam Lemak Bebas (ALB). Jounal IPTEK, 22(2):59–66. DOI: 10.31284/j.iptek.436.

[19] Hidayati, F. C. Masturi, M. and Yulianti, I. 2016. Purification of used cooking oil (Used) by using corn charcoal. Jurnal Ilmu Pendidikan Fisika, 1(2):67–70. DOI: 10.26737/jipf.67.



DOI: https://doi.org/10.22146/teknosains.91766

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