Effect of Adsorbent Type and Coulomn Lenght on Long Purification Time Liquid Smoked of Coconut Shell
DOI:
https://doi.org/10.24843/JBETA.2023.v11.i02.p31Keywords:
adsorbent, column lenghts, distillation, iquid smokeAbstract
Improving the quality of liquid smoke is carried out by purification (adsorption and distillation) using
variations in column length and type of adsorbent. This study aims to determine the effect of the type of
adsorbent (activated charcoal, silica gel, and zeolite) and the length of the column (5 cm, column 10 cm,
and column 15 cm) on the duration required to purify liquid smoke. Parameters analyzed consisted of
aroma, color, long purification time, and compound content. The liquid smoke compound content test by
the GC-MS test. The results showed that the column with a length of 5 cm and the type of silica gel
adsorbent was the fastest purification time at 138 minutes. The length column of 15 cm and the type of
activated charcoal adsorbent were the longest purification time at 207 minutes. The results of the GC-MS
test show that activated charcoal adsorbent is the best liquid smoke with specifications of a whitish yellow
color and clear, not strong aroma, and a phenolic compound content of 12.88% in accordance with the
quality standard of liquid smoke according to FAO 2001 which is allowed for use as a food preservative.
References
Dewi, J., Gani, A., & Nazar, M. (2019). Analisis
Kualitas Asap Cair Tempurung Kelapa dan
Ampas Tebu sebagai Bahan Pengawet Alami
pada Tahu. Jurnal IPA & Pembelajaran IPA,
2(2),
106–112.
https://doi.org/10.24815/jipi.v2i2.12743
Ervie, O., Nora, I., & Harlia. (2016). Pengaruh
Destilasi
Berulang
Dan
Pemurnian
Menggunakan Zeolit Teraktivasi H2SO4
Terhadap Komposisi Asap Cair Tandan Kosong
Kelapa Sawit (TKKS). Jurnal Kimia
Khatulistiwa, Vol 5(4), 62–67.
Farizi, N. Al, & Sa’diyah, K. (2021). Pengaruh Jenis
dan
Rasio Penambahan Adsorben pada
Pemurnian Asap Cair Nurrahmad. Jurnal
Teknologi Separasi, 8(9), 18–27.
Fitriani, I., & Fadli, A. (2016). Kinetika Adsorpsi
pada Penjerapan Ion Timbal (Pb +2 ) Terlarut
dalam Air Menggunakan Partikel Tricalcium
Phosphate. Jom FTEKNIK, 3(1), 1–6.
Gani, M. ulum A., & Widodo. (2011). Percobaan
Penyerapan Limbah Industri Menggunakan
Karbon Aktif dari Batubara Tanjung Tabalong , Kalimantan Selatan. Jurnal Geologi Indonesia,
6(4), 239–248.
Jamilatun, S., Setyawan, M., Salamah, S., Purnama,
D. A. A., & Putri, R. U. M. (2015). Pembuatan
Arang Aktif dari Tempurung Kelapa dengan
Aktivasi Sebelum dan Sesudah Pirolisis.
Seminar Nasional Sains Dan Teknologi, 0258,
1–8.
Katja, D. G., Suryanto, E., & Momuat, L. I. 2012.
Pengaruh
Adsorben
Terhadap
Aktivitas
Antioksidan Dari Asap Cair Kayu Cempaka
(Michelia champaka Linn). Chemistry Progress,
1(1), 54–59.
Karima, R., & Edwar, F. (2016). Pengaruh Jenis dan
Jumlah Adsorben Serta Lama Perendaman
Terhadap Cuka Kayu Untuk Pengawet
Makanan. Jurnal Riset Industri Hasil Hutan, 8,
17–24.
Masiring, G. Y. (2017). Pemanfaatan Karbon Aktif
Granul Berbahan dasar Tempurung Kelapa
Penyerap Limbah Deterjen Sebagai Media
Tanaman Jagung Zea mays L. In Journal of
Chemical Information and Modeling (Vol. 53,
Issue 9).
Megasari, R. (2020). Analisis Kandungan Kimia
Asap Cair dari Tempurung dan Sabut Kelapa
dengan Metode Destilasi. Journal Of Agritech
Science
(JASc),
4(2),
https://doi.org/10.30869/jasc.v4i2.577
61–68.
Nurdin, A., & Nurdiana, J. (2017). Evaluasi
Pembuatan Arang Aktif dari Tempurung
Kelapa. Jurnal Teknologi Lingkungan, 1(09),
27–35.
Salamah, S., & Jamilatun, S. (2017). Pemanfaatan
Asap Cair Food Grade yang Dimurnikan dengan
Arang Aktif sebagai Pengawet Ikan Nila.
Eksergi,
14(2),
https://doi.org/10.31315/e.v14i2.2027
29.
Silir, S., Ningrum, Y., Perbawani, S., Anggraini, A.,
Tribhuwana, U., & Malang, T. (2018).
Pemurnian Asap Cair Terhadap Kinerja Reaktor
Pirolisis Melalui Proses Filtrasi Zeolit Aktif.
Prosiding Seminar Nasional Teknologi Industri,
Universitas Tribhuwana Tunggadewi, Malang,
1(September), 1–6.
Wirawan, I. P. S. 2018. Pengembangan Dehidrasi
Bioetanol dengan Adsorben Karbon Aktif
Bambu Petung (Dendrocalamus asper).
Disertasi S3. Tidak Dipublikasikan. Fakultas Pasca Sarjana IPB, Bogor.
Yulianti, C. H. (2021). Perbandingan Uji Deteksi
Formalin
pada Makanan Menggunakan
Pereaksi Antilin dan Rapid Tes Kit Formalin
(Labstest). Journal of Pharmacy and Science,
6(1),
53–58.
https://doi.org/10.53342/pharmasci.v6i1.205
Yusrin, A., Susatyo, E., & Mahatmanti, F. (2014).
Perbandingan Kemampuan Silika Gel dari Abu
Sabut Kelapa dan Abu Sekam Padi untuk
Menurunkan Kadar Logam Cd 2+. Jurnal
MIPA,
37(2),
154–162.
Downloads
Published
Versions
- 2026-02-11 (4)
- 2026-02-11 (3)
- 2026-02-10 (2)
- 2023-09-30 (1)
How to Cite
Issue
Section
License
This work is licensed under a Creative Commons Attribution 4.0 International License.
License Term
All articles published in Jurnal Beta (Biosistem dan Teknik Pertanian) are open access and licensed under the Creative Commons Attribution 4.0 International License (CC BY 4.0). This means that anyone is free to:
-
Share — copy and redistribute the material in any medium or format.
-
Adapt — remix, transform, and build upon the material for any purpose, even commercially.
However, this is granted under the following conditions:
-
Attribution — You must give appropriate credit, provide a link to the license, and indicate if changes were made. You may do so in any reasonable manner, but not in any way that suggests the licensor endorses you or your use.
-
No additional restrictions — You may not apply legal terms or technological measures that legally restrict others from doing anything the license permits.
By submitting an article to Jurnal Beta (Biosistem dan Teknik Pertanian), authors agree to the publication of their work under this open access license. The authors retain the copyright of their work, but grant Jurnal Beta (Biosistem dan Teknik Pertanian) the right of first publication.
For more information about the CC BY 4.0 license, please visit the official website: https://creativecommons.org/licenses/by/4.0/
