Effectiveness of Liquid Smoke Purification of Sawdust by using Distillation Method, Zeolite and Active Carbon Adsorption

Abstract

Liquid smoke is a product resulting from the pyrolysis of biomass under conditions of minimal oxygen. The compounds of liquid smoke is influenced by the type of biomass, water content, process temperature and the length of pyrolysis time. In general, liquid smoke is dark brown in color with an acidic and has a unique aroma and taste, depending on the type of biomass. Liquid smoke chemical compounds characterize organoleptic, antimicrobial and antioxidant, in addition to functional compounds sometimes also produce harmful compounds such as a group of polycyclic aromatic hydrocarbon compounds, and 2-propanone, 2-butanone, cyclopentanone which are toxic or carcinogenic. Crude liquid smoke may contain several mixtures of hazardous compounds depending on the process conditions, so it cannot be directly applied to food products. To get quality liquid smoke, it is necessary to carry out a purification process to reduce or eliminate harmful compounds. Methods that have been widely applied include distillation and adsorption processes. This study aims to measure the effectiveness of zeolite and activated carbon in the purification of liquid smoke with mixed sawdust biomass as raw material. Liquid smoke is purified by distillation, and adsorption with several adsorbents. The results obtained indicate that the liquid smoke still contains 2-propanone ,2-butanone and cyclopentanone. Zeolite ZG₂ showed the best effectiveness in removing the three harmful compounds, while ZK₁and C_ca still left 2-propanone in liquid smoke. Thus zeolite ZG₂ is effective as an absorbent in the purification of liquid smoke

Keywords: Liquid Smoke, Adsorption, Biomass, Sawdust

Abstrak

Asap cair adalah produk yang dihasilkan dari pirolisis biomassa pada kondisi minim oksigen. Komposisi senyawa asap cair dipengaruhi oleh jenis biomassa, kadar air, dan suhu proses serta lama waktu pirolisis. Pada umumnya asap cair berwarna cokelat tua dengan pH asam dan memiliki aroma serta rasa yang unik, tergantung dari jenis biomassanya. Senyawa kimia asap cair mencirikan sifat organoleptik, antimikroba dan antioksidan, selain senyawa fungsional terkadang juga menghasilkan senyawa berbahaya seperti kelompok senyawa Polycyclic aromatic hydrocarbon, dan 2-propanone, 2-butanone, cyclopentanone yang bersifat toksik atau karsinogenik. Asap cair crude dimungkinkan terdapat beberapa campuran senyawa berbahaya tergantung dari kondisi prosesnya, sehingga tidak dapat secara langsung diaplikasikan untuk produk pangan. Untuk mendapatkan asap cair berkualita perlu dilakukan proses pemurnian untuk mengurangi atau menghilangkan senyawa berbahayanya. Metode yang telah banyak diaplikasikan antara lain dengan proses distilasi dan adsorpsi. Penelitian ini bertujuan mengukur efektifitas zeolite dan karbon aktif dalam pemurnian asap cair dengan bahan baku biomasa serbuk gergaji campuran. Asap cair di lakukan pemurnian dengan destilasi, dan adsorpsi dengan beberapa adsorben. Hasil yang diperoleh menunjukkan bahwa asap cair masih mengandung 2-propanone ,2-butanone dan cyclopentanone. ZG₂ menunjukkan efektifitas yang paling baik mampu menghilangkan ketiga senyawa berbahaya tersebut sedangkan ZK₁ dan C_ca masih menyisakan 2-propanone dalam asap cair. Dengan demikian zeolite ZG₂ efektif sebagai absorben dalam pemurnian asap cair

Kata kunci : Asap  Cair, Adsorpsi, biomassa, serbuk gergaji kayu

Abdal Kareem and Dawagreh, M. A. (2018) ‘Evaluation of Natural Zeolite As Sorbent Material for the Removal of Acetic Acid From Aqueous Solution’, Poll Res, 37(1), pp. 38–41.

Abdullah, N. A. et al. (2017) ‘A review of improvements to the liquid collection system used in the pyrolysis process for producing liquid smoke’, International Journal of Technology, 8(7), pp. 1197–1206.

Asip, F., Mardhiah, R. and Husna (2008) ‘Uji Efektifitas Cangkang Telur dalam Mengadsorbsi Ion Fe dengan Proses Batch’, Jurnal Teknik Kimia, 15(2), pp. 22–26.

Atikah, W. S. (2017) ‘Potensi Zeolit Alam Gunung Kidul Teraktivasi Sebagai Media Adsorben Pewarna Tekstil the Potentiality of Activated Natural Zeolite From Gunung Kidul As Adsorben To Textile Dyes’, Arena Tekstil, 32, pp. 17–24.

Br Ginting, A. et al. (2007) ‘Karakterisasi Komposisi Kimia, Luas Permukaan Pori Dan Sifat Termal Dari Zeolit Bayah, Tasikmalaya, Dan Lampung’, Jurnal Teknologi Bahan Nuklir, 3(1), pp. 38–48.

Budaraga, K. et al. (2016) ‘Liquid smoke production quality from raw materials variation and different pyrolysis temperature’, International Journal on Advanced Science, Engineering and Information Technology, 6(3), pp. 306–315.

Darmadji, P. (2002) ‘Optimasi Pemurnian Asap Cair dengan Metoda Redistilasi’, Teknologi dan Industri Pangan, XIII(3), pp. 267–271.

Edward, . (2017) ‘Pengamatan Awal Konsentrasi Senyawa Polisiklik Aromatik Hidrokarbon (PAH) Dalam Sedimen Di Perairan Delta Mahakam, Kalimantan Timur’, Jurnal Ilmu dan Teknologi Kelautan Tropis, 9(2), pp. 453–464.

Fatimah, F. and Gugule, S. (2009) ‘Penurunan Kandungan Benzo(a)Pirena Asap Cair Hasil Pembakaran’, Chemistry Progress, 2(1), pp. 15–21.

Fauzan and Ikhwanus, M. (2017) ‘Pemurnian Asap Cair Tempurung Kelapa Melalui Distilasi Dan Filtrasi Menggunakan Zeolit Dan Arang Aktif’, Prosiding Seminar nasional sains dan teknologi, 0(0), pp. 1–2.

Jamilatun, S. and Salamah, S. (2015) ‘Peningkatan Kualitas Asap Cair Dengan Menggunakan Arang Aktif Sntt Fgdt 2015’, Simposium Nasional Teknologi Terapan (SNTT), 3, pp. 1–6.

Janairo, J. I. B. and Amalin, D. M. (2018) ‘Volatile chemical profile of cacao liquid smoke’, International Food Research Journal, 25(1), pp. 213–216.

Kadir, S., Darmadji, P. and Hidayat, C. (2015) Sifat Sensoris Asap Cair Tempurung Kelapa Hasil Adsorpsi Pada Zeolit, Agroland, 22(4), pp. 1–8.

Katja, D. G., Suryanto, E. and Momuat, L. I. (2008) Pengaruh Adsorben Terhadap Aktivitas Antioksidan Dari Asap Cair Kayu Cempaka (Michelia champaka Linn)’, 1(1), pp. 54–59.

Lamichhane, S., Bal Krishna, K. C. and Sarukkalige, R. (2016) ‘Polycyclic aromatic hydrocarbons (PAHs) removal by sorption: A review’, Chemosphere. Elsevier Ltd, 14, pp. 336–353.

Lestari, Y. I. et al. (2015) ‘Aktivitas Antibakteri Asap Cair Tandan Kosong Sawit Grade 2’, 4(4).

Lingbeck, J. M. et al. (2014) ‘Functionality of liquid smoke as an all-natural antimicrobial in food preservation’, Meat Science. Elsevier B.V., 97(2), pp. 197–206.

Maga, J. A. (1987) ‘The flavor chemistry of wood smoke’, Food Reviews International, 3(1–2), pp. 139–183.

Manni, A. et al. (2007) ‘Natural zeolites for PAH removal from liquid effluents’, Organohalogen Compounds, 69(February 2015), pp. 2938–2941.

Maulina, S., Kamny, E. R. and Amalia, R. (2021) ‘Comparison of activated zeolite and activated carbon as adsorbent on liquid smoke purification’, IOP Conference Series: Materials Science and Engineering, 1122(1), p. 012102.

Muro-Fraguas, I. et al. (2020) ‘Atmospheric pressure cold plasma anti-biofilm coatings for 3D printed food tools’, Innovative Food Science and Emerging Technologies.

Muzwar, K. et al. (2012) ‘Genesis dan Karakteristik Endapan Zeolit Desa Hargomulyo dan Sekitarnya , Kecamatan Gedangsari , Gunung Kidul , Daerah Istimewa Yogyakarta, ( Gamb’, Geologi UNDIP, pp. 19–24.

Narin, G. (2017) ‘Removal of Acetic Acid From Dilute Aqueous Solutions Using Zeolite 13X’, JOTCSB. Narin, JOTCSB, 11(12), pp. 159–190.

Ningrum, shinta silir yunia and Anggraini, sinar perbawani abrina (2018) ‘Pemurnian Asap Cair Terhadap Kinerja Reaktor Pirolisis Melalui Proses Filtrasi Zeolit Aktif’, Prosiding Seminar Nasional teknologi industri, lingkungan dan infrastruktur, 1(9), pp. 1–6.

Oktafany, E., Idiawati, N. and Harlia (2016) ‘Pengaruh Destilasi Berulang dan Pemurnian menggunakan Zeolit Teraktivasi H2SO4 terhadap Komposisi Asap Cair Tandan Kosong Kelapa Sawit (TKKS)’, Jurnal Kimia dan Kemasan (JKK), 5(2), pp. 62–67.

Pinheiro Pires, A. P. et al. (2019) ‘Challenges and opportunities for bio-oil refining: A review’, Energy and Fuels, 33(6), pp. 4683–4720.

Pino, J. A. (2014) ‘Characterisation of volatile compounds in a smoke flavouring from rice husk’, Food Chemistry. Elsevier Ltd, 153, pp. 81–86.

Ratnawati and Singgih, H. (2010) ‘TERHADAP KUANTITAS DAN KUALITAS ASAP CAIR Pembuatan dan Karakterisasi Asap Cair’, Jurnal Sains Materi Indonesia, 12(1), pp. 7–11.

Ria suryani, wahyu anggo rizal, diah pratiwi, dwi joko prasetyo (2020) Characteristics and Antibacterial Activity of Liquid Smoke From White Wood (Melaleuca leucadendra) and Teak Wood (Tectona grandis) Biomass’, jurnal teknologi pertanian, 21(2), pp. 106–117.

Rizal, W. A. et al. (2020) ‘Chemical composition of liquid smoke from coconut shell waste produced by SME in Rongkop Gunungkidul’, IOP Conference Series: Earth and Environmental Science, 462(1).

Rizal, Wahyu Anggo et al. (2020) ‘Pirolisis limbah biomassa serbuk gergaji kayu campuran: parameter proses dan analisis produk asap cair, Jurnal Riset Teknologi Industri, 14(2), pp. 353–364.

Sabadash, V. et al. (2021) ‘Regularities of Adsorption of Α-Oxypropionic Acid By Natural Zeolite’, Advances in Materials Science, 21(1),

Salamah, S. and Jamilatun, S. (2017) ‘Pemanfaatan Asap Cair Food Grade yang Dimurnikan dengan Arang Aktif sebagai Pengawet Ikan Nila, 14(2), pp. 29–34.

Simko, P. (2005) ‘Factors affecting elimination of polycyclic aromatic hydrocarbons from smoked meat foods and liquid smoke flavorings’, Mol. Nutr. Food Res, 49, pp. 637–647.

Suaib, nur fajriani, Yermia and Agustina (2019) Pembuatan dan Analisis Komponen Kimia Asap Cair Kayu Gamal ( Gliricidia Sepium ) Hasil Pemurnian Dengan Metode Destilasi Bertingkat’, jurnal sains dan teknologi pangan, 4(1), pp. 1868–1878.

Wahono, S. K. et al. (2010) ‘Pembangkit Listrik Modification As an Effort Local Zeolite – Gunungkidul Performance Improvement for Biogas’, pp. 1–6.

Wahono, S. K. et al. (2019) ‘Multi-stage dealumination for characteristic engineering of mordenite-clinoptilolite natural zeolite’, AIP Conference Proceedings, 2085(3).

Wahono, S. K. and Rizal, W. A. (2014) ‘Biogas Filter Based on Local Natural Zeolite Materials’, 3(February), pp. 1–5.

Wang, S., Terdkiatburana, T. and Tadé, M. O. (2008) ‘Adsorption of Cu(II), Pb(II) and humic acid on natural zeolite tuff in single and binary systems’, Separation and Purification Technology, 62(1), pp. 64–70.

Xin, X. et al. (2021) ‘Transforming biomass pyrolysis technologies to produce liquid smoke food flavouring’, Journal of Cleaner Production. Elsevier Ltd, 294, p. 125368.

Yogaswara, D. (2017) ‘Adsorpsi Senyawa Polisiklik Aromatik Hidrokarbon (Pah) Oleh Karbon Aktif’, Oseana, 42(1), pp. 1–8.

Yulistiani, F. et al. (2020) ‘The Effect of Distillation Temperature in Liquid Smoke Purification Process: A Review’.