The further processing of coconut shell pyrolysis into liquid smoke has been developed in recent years. However, the common technology by directly condensing the smoke has many impurity compounds which decreases the yield of liquid smoke produced. Hence, in this study the cyclone separator was applied to increase the quality of physicochemical content in coconut shell-liquid smoke (CS-LS) grade C. The physical parameters analyzed were yield, pH, density and color. The chemical parameters was analyzed by GC-MS. The result showed that CS-LS processing with cyclone separator was able to increase the total yield into 3.33%, with better color, pH and density compared to the CS-LS produced using common method (direct condensation). The application of cyclone separator was also able to increase the phenolic compounds (97%), alcoholic compounds (92%), cycloalkene compounds (91%) and also decreased the benzoic acid, carbonyl and ester up to 100% compared with common method for CS-LS grade C production.

Ali, D.Y., Darmadji, P. and Pranoto, Y. (2014) 'Optimasi nanoenkapsulasi asap cair tempurung kelapa dengan response surface methodology dan karakterisasi nanokapsul (Optimazion of coconut shell liquid smoke nanoencapsulation using Respone Surfaxe Methodology and encapsulation characterization)', Jurnal Teknologi dan Industri Pangan, 25 (1), pp. 23-30 [In Indonesian]

Budaraga, I.K, Arnim, Marlida Y. and Bulanin U. (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

Budaraga, I.K., Marlida, Y., and Bulanin U. (2017) 'Chemical components analysis of cinnamon liquid smoke with gc ms from various production of different purification method', International Journal of ChemTech Research, 10 (1), pp. 12–26

Budijanto, S., Hasbullah, R., Prabawati, S., Setyadjit, Sukarno and Zuraida, I. (2008) 'Identifikasi dan uji keamanan asap cairtempurung kelapa untuk produk pangan (Identification and safety test of liquid smoke coconut shell for food products)', Jurnal Pascapanen, 5 (1), pp. 32-40 [In Indonesian]

Chen, J. and Shi, M. (2007) 'Analysis on cyclone collection efficiencies at high temperatures', China Particuology, 1 (1), pp. 20–26

Fathussalam, M., Putranto, A.W., Argo, B.D., Harianti, A., Oktaviani, A., Puspaningarum, F.P., Putri, S.L.O. (2019) 'Rancangbangun mesin produksi asap cair dari tempurung kelapa berbasis teknologi cyclone-redistillation (Design of coconut shellliquid smoke production machine based on cyclone-redistillation technology)', Jurnal Ilmiah Rekayasa Pertanian dan Biosistem, 7 (2), pp. 148–156 [In Indonesian]

Girard J.P. (1992) Smoking in technology of meat products. New York: Clermont Ferrand, Ellis Horwood.

Hadanu, R. and Apituley, D.A.N. (2016) 'Volatile compounds detected in coconut shell liquid smoke through pyrolysis at a fractioning temperature of 350-420C', Makara Journal of Science, 20 (3), pp. 95-100

Kailaku, S.I., Syakir, M., Mulyawanti, I. and Syah, A.N.A. (2017) 'Antimicrobial activity of coconut shell liquid smoke', IOP Conference Series: Materials Science and Engineering 206

Lombok, J.Z., Setiaji, B., Trisunaryanti, W. and Wijaya, K. (2014) ‘ Effect of pyrolisis temperature and distillation on character of coconut shell liquid smoke', Proceeding of International Conference on Research, Implementation and Education of Mathematics and Sciences, pp. 87-96

Marinuc, M. and Rus, F. (2011) 'The effect of particle size and input velocity on cyclone separation process', Bulletin of the Transilvania University of Braşov Series II: Forestry, Wood Industry, Agricultural Food Engineering, 4 (53), pp. 117–122

Putranto, A.W., Puspaningarum, F.P. and Sukardi, (2020a) 'Analisis neraca massa dan senyawa kimia asap cair grade C menggunakan cyclone separator (Mass balance and chemical compound analysis of liquid smoke grade C using cyclone separator', Jurnal Teknologi Pertanian, 21 (2), pp. 69-78. [In Indonesian]

Putranto, A.W., Oktaviani, A., Puspaningarum, F.P. and Sukardi, (2020b) 'Coconut shell-liquid smoke production based on the redistillation-filtration technology and its characterisation', IOP Conference Series: Earth and Environmental Science, 475, 012039

Rizal, W.A., Nisa’, K., Maryana, R., Prasetyo, D.J., Pratiwi, D., Jatmiko, T.H., Ariani, D. and Suwanto, A. (2020) 'Chemical composition of liquid smoke from coconut shell waste produced by SME in Rongkop Gunungkidul', IOP Conference Series: Earth and Environmental Science, 462, 012057

Sakİn, A., Karagöz, İ. and Avci, A. (2017) 'A computational comparison of flow and pressure fields in axial and reverse flow cyclone separators', International Journal of Computational and Experimental Science and Engineering, 3 (2), pp. 20–25

Sarwendah, M., Feriadi, Wahyuni, T. and Arisanti, T.N. (2019) 'Utilization of plantation commodities waste for liquid smoke', Industrial Crops Research Journal, 25 (1), pp.22-30

Shelke, A.S., Ninghot, K.R., Kunjekar, P.P. and Gaikwad, S.P. (2014) 'Coconut shell as partial replacement for coarse aggregate : Review', International Journal of Civil Engineering Research, 5 (3), pp. 211–214

Shen, Y., Ma, D. and Ge X. (2017) 'CO2-looping in biomass pyrolysis or gasification', Sustainable Energy and Fuels, 1 (8), pp. 1700–1729

Surboyo, M.D.C., Arundina, I., Rahayu, R.P., Mansur, D., and Bramantoro, T. (2019) 'Potential of distilled liquid smoke derived from coconut (Cocos nucifera L) shell for traumatic ulcer healing in diabetic rats', European Journal of Dentistry, 13 (2), pp.271-279

Swastawati, F. (2008) 'Quality and safety of smoked catfish (Aries talassinus) using paddy chaff and coconut shell liquid smoke', Journal of Coastal Development, 12 (1), pp.47-55

Taiwo, M.I., Namadi, M.A. and Mokwa, B. (2016) 'Design and analysis of cyclone dust separator', American Journal of Engineering Research, 5 (4), pp. 130–134

Wibisono, Y., Izza, N., Savitri, D., Dewi, S.R. and Putranto, A.W. (2020a) 'Ekstraksi senyawa fenolik dari bawang putih (Allium sativum l.) untuk agen anti-biofouling pada membran (The extraction of phenolic compound from garlic (Allium sativum L.) for anti-biofouling agent in membrane)', Jurnal Ilmiah Rekayasa Pertanian dan Biosistem, 8 (1), pp. 100–109 [In Indonesian]

Wibisono, Y., Putri, A.Y., Dewi, S.R., Putranto, A.W. and Izza, N. (2020b) 'Garlic-based phenolic nanopowder as antibiofouling agent in mixed-matrix membrane', IOP Conference Series: Earth and Environmental Science, 542, 012005

Yatagai, M. (2002) 'Utilization of charcoal and wood vinegar in Japan', Graduate School of Agricultural and Life Science, The University of Tokyo

Yuniningsih, S. and Anggraini, S.P.A. (2013) 'Characterization of liquid smoke from coconut shell to be applicated as safe food preservatives for human health', Journal of Agriculture and Food Technology, 3 (2), pp. 1-5