Operational management analysis regarding optimization of making liquid smoke with cyclone distillation technology

Dudi Haryadi; Muhammad Fathussalam; Fahri Rijal Giffari; Khairunissa Ainun; Indra Yuwono

doi:10.29210/020243709

Operational management analysis regarding optimization of making liquid smoke with cyclone distillation technology

Dudi Haryadi

⁽¹⁾, Muhammad Fathussalam ⁽²⁾, Fahri Rijal Giffari ⁽³⁾, Khairunissa Ainun ⁽⁴⁾, Indra Yuwono ⁽⁵⁾,
(1) Universitas Langlangbuana

Indonesia
(2) Universitas Langlangbuana

Indonesia
(3) Universitas Langlangbuana

Indonesia
(4) Universitas Langlangbuana

Indonesia
(5) Universitas Langlangbuana

Indonesia

Corresponding Author

DOI : https://doi.org/10.29210/020243709

Full Text:

Language : en

Abstract

This study focuses on evaluating the yield and characteristics of liquid smoke obtained from palm kernel shell, mesocarp fiber, and oil palm frond biomass. The objective of the research is to determine both the percentage yield of liquid smoke produced per gram of palm oil solid waste and characterize the compounds present in the liquid smoke. Solid samples of palm oil waste components (shells, fibers, and fronds) were prepared and subjected to pyrolysis using Distillation Cyclone technology. Liquid smoke produced was then analyzed to determine the concentration of phenolic compounds. The study found that the yield of liquid smoke varied among different palm oil solid waste components, with a higher yield observed from oil palm shell biomass compared to others. Furthermore, the liquid smoke from all three biomass sources exhibited significant concentrations of phenolic compounds, indicating its potential as a natural pesticide ingredient. This research highlights the potential of utilizing palm oil solid waste for value-added products such as liquid smoke, contributing to waste management and sustainable agricultural practices. The findings provide insights for further research and development of eco-friendly pest control solutions utilizing liquid smoke-derived compounds.

Keywords

Liquid smoke, Palm Oil, machine, cyclone-distillation

References

Ariski, M. A., & Mikhratunnisa, M. (2023). Uji Karakteristik Briket Berbahan Baku Tempurung Kelapa Dengan Perekat Tepung Kanji Berdasarkan Dimensi dan Berat. Jurnal Agroteknologi Pertanian & Publikasi Riset Ilmiah, 5(2), 1–16.

Asrul, A., Rosmini, R., Egayani, E., Mutmainah, M., & Jusriadi, J. (2023). Potential of Coconut Fiber-Based Liquid Smoke as Biofungicide to Suppress Phytophthora palmivora Fungus Growth In Vitro. Jurnal Perlindungan Tanaman Indonesia.

Gani, A., Husni, H., Baihaqi, A., & Faisal, M. (2014). Potential development of liquid smoke from oil palm solid waste as biofungicides. International Journal of Science and Engineering, 7(1), 65–69.

Irawan, B., & Soesilo, N. I. (2021). Dampak kebijakan hilirisasi industri kelapa sawit terhadap permintaan CPO pada industri hilir. Jurnal Ekonomi Dan Kebijakan Publik, 12(1), 29–43.

Leki, A., Mardyaningsih, M., & Dimu, R. J. (2021). Performance Optimalization and Techno-Economic Analysis Liquid Smoke Pyrolysator of Kesambi Leaves with LPG Fuel. International Conference on Innovation in Science and Technology (ICIST 2020), 152–155.

Malvini, I. K. D., & Nurjasmi, R. (2019). Pengaruh Perlakuan Asap Cair terhadap Plutella xylostella L. pada Tanaman Sawi Pakcoy (Brassica rapa L). Jurnal Ilmiah Respati, 10(2), 104–114.

Maulina, S., & Silia, F. (2018). Liquid smoke characteristics from the pyrolysis of oil palm fronds. IOP Conference Series: Materials Science and Engineering, 309(1), 12073.

Permanasari, A. R., Yulistiani, F., Sihombing, R. P., & Wibisono, W. (2020). Applications of liquid smoke from biomass on food products: a review. International Seminar of Science and Applied Technology (ISSAT 2020), 518–524. https://doi.org/10.2991/aer.k.201221.086

Purba, S., Ginting, N. M., Budiman, I., Lubis, A. R., & Gea, S. (2023). Pemanfaatan Limbah Pabrik Kelapa Sawit di PT. Pratama Karya Niaga Jaya Menjadi Pupuk Organik. SELAPARANG: Jurnal Pengabdian Masyarakat Berkemajuan, 7(2), 1247–1252.

Putranto, A. W., Puspaningarum, F., & Sukardi, S. (2020). The cyclone separator application on physicochemical characterization of coconut shell-liquid smoke grade C. Advances in Food Science, Sustainable Agriculture and Agroindustrial Engineering (AFSSAAE), 3(2), 68–74.

Putri, R. E., Kasim, A., & Asben, A. (2019). Pyrolysis and Characterization of Liquid Smoke from Cacao Pod Husks. IOP Conference Series: Earth and Environmental Science, 327(1), 12011.

Rathoure, A. K., Ram, B. L. G. P., & Aggarwal, S. G. (2019). Unit Operations in Chemical Industries. International Journal of Environmental Chemistry, 5(2), 11-29p.

Rifai, N., Syaukat, Y., Siregar, H., & Sa’id, E. G. (2014). The development and prospect of indonesian palm oil industry and its derivative products. IOSR Journal of Economics and Finance, 4(5), 27–39.

Sadeghbeigi, R. (2020). Fluid catalytic cracking handbook: An expert guide to the practical operation, design, and optimization of FCC units. Butterworth-Heinemann.

Saloko, S., Darmadji, P., Setiaji, B., & Pranoto, Y. (2014). Antioxidative and antimicrobial activities of liquid smoke nanocapsules using chitosan and maltodextrin and its application on tuna fish preservation. Food Bioscience, 7, 71–79.

Saputra, R. Y., Naswir, M., & Suryadri, H. (2020). Perbandingan karakteristik asap cair pada berbagai grade dari pirolisis batubara. Jurnal Engineering, 2(2), 96–108.

Saputro, H., Fitriana, L., Purwanto, A., Muslim, R., & Mahmuddin, M. (2023). Experimental study of RDF-5 performance based on natural waste on fast pyrolysis process on the quality of the liquid smoke. Int J Adv Appl Sci ISSN, 12(3), 250–256. https://doi.org/10.11591/ijaas.v12.i3.pp250-256

Silaban, R., Lubis, I., Siregar, R. E., & Agus, P. (2022). Production of Liquid Smoke From the Combination of Coconut Shell and Empty Fruit Bunch through Pyrolysis Process. Proceedings of the 4th International Conference on Innovation in Education, Science and Culture, ICIESC 2022, 11 October 2022, Medan, Indonesia.

Simanjuntak, J. P., Al-attab, K. A., Daryanto, E., & Tambunan, B. H. (2022). Bioenergy as an Alternative Energy Source: Progress and Development to Meet the Energy Mix in Indonesia. Journal of Advanced Research in Fluid Mechanics and Thermal Sciences, 97(1), 85–104.

Syahza, A., Rosnita, R., Suwondo, S., & Nasrul, B. (2015). Potential oil palm industry development in Riau. International Research Journal of Business Studies, 6(2).

Xin, X., Dell, K., Udugama, I. A., Young, B. R., & Baroutian, S. (2021a). Economic performance of small-scale fast pyrolysis process of coproducing liquid smoke food flavoring and biofuels. ACS Sustainable Chemistry & Engineering, 9(4), 1911–1919.

Xin, X., Dell, K., Udugama, I. A., Young, B. R., & Baroutian, S. (2021b). Transforming biomass pyrolysis technologies to produce liquid smoke food flavouring. Journal of Cleaner Production, 294, 125368.

Xin, X., Essien, S., Dell, K., Woo, M. W., & Baroutian, S. (2022). Effects of spray-drying and freeze-drying on bioactive and volatile compounds of smoke powder food flavouring. Food and Bioprocess Technology, 15(4), 785–794.

Yanti, R. N. (2023). Pemanfaatan Limbah Perkebunan Kelapa Sawit Sebagai Sumber Energi Terbarukan. Dinamika Lingkungan Indonesia, 10(1), 7.

Yanti, R. N., Hambali, E., Pari, G., & Suryani, A. (2018). The characteristics of palm oil plantation solid biomass wastes as raw material for bio oil. IOP Conference Series: Earth and Environmental Science, 141(1), 12038.

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