REVIEW: PERKEMBANGAN LIQUID COLLECTION SYSTEM PADA PROSES PYROLYSIS UNTUK MEMPRODUKSI ASAP CAIR

Nasruddin A. Abdullah, Nandy Putra, Raldi A. Koestoer, Imansyah Ibnu Hakim

Abstract


Liquid collection system adalah suatu sistem yang digunakan untuk mencairkan asap yang dihasilkan oleh proses pirolisis, Pirolisis adalah proses dekomposisi biomassa tanpa melibatkan oksigen di dalamnya. Asap cair sudah sangat luas digunakan sebagai bahan bakar, zat pengawet dan bahan kimia dasar lainnya. Tulisan ini bertujuan untuk memberikan informasi terkini tentang perkembangan pada bagian liquid collection system dan menyimpulkan dengan beberapa masukan dan strategi penggunaannya. Sedangkan untuk penyusunan menggunakan parameter produk, peralatan dan kondisi operasional yang digunakan dari jurnal-jurnal yang telah ada. Dengan menggunakan liquid collection system yang tepat akan menghasilkan sistem yang lebih efektif dan efisien.

References


A. Bridgwater, "Principles and practice of biomass fast pyrolysis processes for liquids," Journal of analytical and applied pyrolysis, vol. 51, pp. 3-22, 1999.

A. Sharma, V. Pareek, and D. Zhang, "Biomass pyrolysis—A review of modelling, process parameters and catalytic studies," Renewable and Sustainable Energy Reviews, vol. 50, pp. 1081-1096, 10// 2015.

A. V. Bridgwater, "Review of fast pyrolysis of biomass and product upgrading," Biomass and Bioenergy, vol. 38, pp. 68-94, 3// 2012.

S. C. a. A. V. Bridgwater, "Overview of Applications of Biomass Fast Pyrolysis Oil," Energy & Fuels, vol. 18, pp. 590-598, 2004.

E. Suñen, B. Fernandez-Galian, and C. Aristimuño, "Antibacterial activity of smoke wood condensates against Aeromonas hydrophila, Yersinia enterocolitica andListeria monocytogenes at low temperature," Food Microbiology, vol. 18, pp. 387-393, 8// 2001.

R. T. T. a. R. Paul J. Milly, "Determination of Minimum Inhibitory Concentrations of Liquid Smoke Fractions," Journal of Food Science, vol. 70, pp. M12–M17, 2005.

F. a. J. Leroi, J.J., "Salt and smoke simultaneously affect chemical and sensory quality of cold-smoked salmon during 5oC storage predicted using bactorial design," Journal of Food Protection, vol. 63, pp. 1222-1227., 2000.

L. M. Rørvik, "Listeria monocytogenes in the smoked salmon industry," International Journal of Food Microbiology, vol. 62, pp. 183-190, 12/20/ 2000.

A. V. Bridgwater and G. V. C. Peacocke, "Fast pyrolysis processes for biomass," Renewable and Sustainable Energy Reviews, vol. 4, pp. 1-73, 3// 2000.

C. D. Blasi, "Modelling the fast pyrolysis of cellulosic particles in fluid-bed reactors," Chemical Engineering Science, vol. 55, pp. 5999-6013, 12// 2000.

B. V. Babu and A. S. Chaurasia, "Pyrolysis of biomass: improved models for simultaneous kinetics and transport of heat, mass and momentum," Energy Conversion and Management, vol. 45, pp. 1297-1327, 6// 2004.

K. Luo, Y. Li, C. Zheng, X. Gao, and J. Fan, "Numerical simulation of temperature effect on particles behavior via electrostatic precipitators," Applied Thermal Engineering, vol. 88, pp. 127-139, 9/5/ 2015.

D. Mohan, C. U. Pittman, and P. H. Steele, "Pyrolysis of wood/biomass for bio-oil: a critical review," Energy & Fuels, vol. 20, pp. 848-889, 2006.

D. E. Daugaard, "The transport phase of pyrolytic oil exiting a fast fluidized bed reactor," 2003.

M. L. Williams, "CRC Handbook of Chemistry and Physics, 76th edition," Occupational and Environmental Medicine, vol. 53, pp. 504-504, 1996.

R. J. Westerhof, N. J. Kuipers, S. R. Kersten, and W. P. van Swaaij, "Controlling the water content of biomass fast pyrolysis oil," Industrial & Engineering Chemistry Research, vol. 46, pp. 9238-9247, 2007.

A. A. Boateng, D. E. Daugaard, N. M. Goldberg, and K. B. Hicks, "Bench-scale fluidized-bed pyrolysis of switchgrass for bio-oil production," Industrial & Engineering Chemistry Research, vol. 46, pp. 1891-1897, 2007.

M. Predel and W. Kaminsky, "Pyrolysis of rape-seed in a fluidised-bed reactor," Bioresource technology, vol. 66, pp. 113-117, 1998.

A. V. Bridgwater, D. Meier, and D. Radlein, "An overview of fast pyrolysis of biomass," Organic Geochemistry, vol. 30, pp. 1479-1493, 12// 1999.

E. K. Christian Lindfors, Anja Oasmaa, Yrjö Solantausta, and Vesa Arpiainen, "Fractionation of Bio-Oil," Energy & Fuels, vol. 28, p. 5785−5791, 2014.

J. Lédé, F. Broust, F.-T. Ndiaye, and M. Ferrer, "Properties of bio-oils produced by biomass fast pyrolysis in a cyclone reactor," Fuel, vol. 86, pp. 1800-1810, 2007.

A. S. Pollard, M. R. Rover, and R. C. Brown, "Characterization of bio-oil recovered as stage fractions with unique chemical and physical properties," Journal of Analytical and Applied Pyrolysis, vol. 93, pp. 129-138, 1// 2012.

R. Yin, R. Liu, Y. Mei, W. Fei, and X. Sun, "Characterization of bio-oil and bio-char obtained from sweet sorghum bagasse fast pyrolysis with fractional condensers," Fuel, vol. 112, pp. 96-104, 2013.

A. Tumbalam Gooty, D. Li, F. Berruti, and C. Briens, "Kraft-lignin pyrolysis and fractional condensation of its bio-oil vapors," Journal of Analytical and Applied Pyrolysis, vol. 106, pp. 33-40, 3// 2014.

A. Tumbalam Gooty, D. Li, C. Briens, and F. Berruti, "Fractional condensation of bio-oil vapors produced from birch bark pyrolysis," Separation and Purification Technology, vol. 124, pp. 81-88, 3/18/ 2014.

J.-l. Zheng, W.-m. Yi, and N.-n. Wang, "Bio-oil production from cotton stalk," Energy Conversion and Management, vol. 49, pp. 1724-1730, 2008.

Z. Luo, S. Wang, Y. Liao, J. Zhou, Y. Gu, and K. Cen, "Research on biomass fast pyrolysis for liquid fuel," Biomass and Bioenergy, vol. 26, pp. 455-462, 5// 2004.

H. Sui, H. Yang, J. Shao, X. Wang, Y. Li, and H. Chen, "Fractional Condensation of Multicomponent Vapors from Pyrolysis of Cotton Stalk," Energy & Fuels, vol. 28, pp. 5095-5102, 2014.




DOI: https://doi.org/10.22219/sentra.v0i2.1774

Refbacks

  • There are currently no refbacks.


Seketariat

Fakultas Teknik

Universitas Muhammadiyah Malang Kampus III

Jl. Raya Tlogomas 246 Malang, 65144