KAJIAN KOMPOSISI LIGNIN DAN SELULOSA DARI LIMBAH KAYU SISA DEKORTIKASI RAMI DAN CANGKANG KULIT KOPI UNTUK PROSES GASIFIKASI DOWNDRAFT

Main Article Content

Veni Aprilia Lestari
Trisaksono Bagus Priambodo

Abstract

Gasification of biomass can be used to produce fuel gas that could potentially be used as a power
source for the sustainable development. The main aim of this study is to determine the effect of lignin,
cellulose, proximate and ultimate of ramie wood chip biomass and shell coffee to produce gas and the
potential for regional electricity generated. Research carried out by the analysis of lignin and cellulose,
proximate and ultimate, calorific value, gasification, composition gases and energy potential. From the
research results, the waste of coffee shells and ramie wood chips were used as a new energy source to
produce syngas by means of the gasification process. The highest lignin content was for 45.10% coffee
shell and the lowest for flax wood chips was 18.26. Meanwhile, the highest cellulose content was hemp
wood chips 44.82% and the lowest was coffee skin shell 17.93%. The potential energy produced from
gasified gas provides a correlation with levels of lignin and cellulose. The higher the lignin content and
the greater the cellulose content, the higher energy that occurs in the coffee shell shells of 5.78 kW, and
vice versa what happens to hemp wood chips with low lignin levels and high cellulose content provides
a potential energy of 4. 64 kW

Article Details

How to Cite
Aprilia Lestari, V. ., & Bagus Priambodo, T. . (2020). KAJIAN KOMPOSISI LIGNIN DAN SELULOSA DARI LIMBAH KAYU SISA DEKORTIKASI RAMI DAN CANGKANG KULIT KOPI UNTUK PROSES GASIFIKASI DOWNDRAFT. Jurnal Energi Dan Lingkungan (Enerlink), 16(1), 1–8. https://doi.org/10.29122/jel.v16i1.4572
Section
ARTICLE
Author Biographies

Veni Aprilia Lestari, Universitas Padjadjaran

Program Studi Sarjana Biologi , Fakultas Matematika dan Ilmu Pengetahuan Alam

Trisaksono Bagus Priambodo, Badan Pengkajian dan Penerapan Teknologi (BPPT)

Pusat Teknologi Sumberdaya Energi dan Industri Kimia, BPPT

References

Affendi, M., Sugiyatno, Iman, D., dan Haifa, W. 2010. Uji Variasi

Beban Listrik dan Rasio Gas Hasil Gasifikasi Sekam Padi

Pada Mesin Diesel Dual Fuel. Seminar Rekayasa Kimia dan

Proses 2010.

Akudo, C. O. and Theegala, C. S. 2014. Quantification of Tars,

Particulates, and Higher Heating Value in Gases Produced

from a Biomass Gasifier. BioResources 9 (3) : 5627-5635.

Anis, S., Karnowo, Wahyudi, Sri. M. B. R. 2010. Studi

Eksperimen Gasifikasi Sekam Padi pada Updraft Circulating

Fluidized Bed Gasifier. Jurnal Universitas Negeri Semarang.

Arisanty, Y. R., Yuni, K., dan Annisa, W. U. 2009. Gasifikasi

Limbah Kulit Biji Kopi dalam Reaktor Fixed Bed dengan

Sistem Inverted Downdraft Gasifier : Distribusi Temperatur.

Simposium Nasional RAPI VIII.

Badan Pusat Statistik. 2017. Produksi Perkebunan Per Tahun.

Bandung: BPS Provinsi Jawa Barat.

Barmina, I., Agnese, L., Raimonds,V. , and Maija, Z. 2013.

Effects Of Biomassa Composition Variations On Gasification

and Combustion Characteristics. Engineering for Rural

Development.

Brebu, M. and Vasile, C. 2010. Thermal Degradation of Lignin-A Review. Cellulose Chemistry and Technology 44 (9) : 353-

Campbell, I. M. 1983. Biomass, Catalysts, and Liquid Fuels.

Technomic Publishing Co., Inc.

Chesson, A. 1981. Effects of Sodium Hydroxide on Cereal

Straws in Relation to the Enhanced Degradation of Structural

Polysaccharides by Rumen Microorganisms. Journal of

Science FoodAgriculture. Vol. 32, Hal 745-758.

Davidson, R.M. (1994) "Nitrogen in Coal", IEA Coal

Perspectives, January.

Fengel, D dan G. Wagener. 1984. Kayu Kimia, Ultrastruktur,

Reaksi-Reaksi. Gadjah Mada University Press. Yogyakarta.

Giudicianni, P., Giuseppe, C., and Raffaele, R. 2013. Cellulose,

Hemicellulose and Lignin Slow Steam Pyrolysis: Thermal

Decompositionof Biomass Components Mixtures. Journal

ofAnalytical andApplied Pyrolysis 100 (2013) 213–222

Iskandar, T dan Siswati, N. D. 2012. Pemanfaatan Limbah

Pertanian Sebagai Energi Alternatif Melalui Konversi

Thermal. Buana Sains Vo?.12 No.1 : 117-122

Jakle, R. 2006. Uji Performansi Downdraft Gasifier (Reaktor

Hasifikasi) Biomass Tipe Imbert dengan Gas Cooler sebagai

Salah Satu Unit Pemurniannya. [Skripsi] Fakultas Teknologi

Pertanian IPB.

Kumar, H., Prashant, B., Pankaj,A., and S. C. Soni. 2014. Effedt

of Moisture Content on Gasification Efficiency in Downdraft

Gasifier. International Journal of Scientific Engineering and

Technology Volume No.3 Issue No.4 : 411-413.

Waldheim, L., Nilsson, T., 2001. Heating Value Of Gases From

Biomass Gasification: Report prepared for: IEA Bioenergy

Agreement, Task 20 - Thermal Gasification of Biomass TPS

Termiska Processer. Sweden,May.

Palonen, H., 2004, Role of Lignin in The Enzymatic Hydrolysis

of Lignocellulose. VTT Biotechnology, Helsinki University of

Technology, Finland.

Parikh, J., Channiwala, S. A., and Ghosal, G. K. 2005. A

Correlation for Calculating HHV from Proximate Analysis of

Solid Fuels. Elsevier Fuel 84 : 487-494

Purnomo, S.E. 2010. Pembuatan Arang Aktif dari Kulit Biji

Kopi dan Aplikasinya sebagai Adsorben Zat Warna

Metilen Biru dan Naphtol Yellow. Fakultas Sains dan

Teknologi, Universitas Islam Negeri Sunan Kalijaga

Yogyakarta.

Purwati, R. D. 2010. Strategi Pengembangan Rami (Boehmeria

nivea Gaud). Perspektif Vol.9 No.2 : 106-118.

Rajvanshi, A. K. 2014. Biomass Gasification. Text Book

Gasification Research at Nimbar Agricultural Research

Institute, India.

Sadaka, Samy. 2006. Gasification. Nevada : Department of

Agricultural and Biosystem Engineering Lowa State

University.

Simanihuruk, K. dan Sirait. 2010. Silase Kulit Buah Kopi

sebagai Pakan Dasar pada Kambing Boerka sedang

Tumbuh. Seminar Nasional Teknologi Peternakan dan

Veteriner. Sumatera Utara.

Sjostrom, E. 1991. Kimia Kayu Dasar-dasar dan Penggunaan.

Terjemahan. Yogyakarta: Gadjah Mada University Press.

Tasma, D., Krisztina, U., and Tanase, P. 2013. The Effect of

Excess Air Ratio on Syngas Produced by Gasification of

Agricultural Residues Briquettes. Journal University of Galati

Romania.

Tasma, D., Tanase, P., Jorge, M., Krisztina, U., and Catalin, M.

Experimental Study of a Downdraft Fixed Bed Gasifier.

Journal University of Galati Romania.

Tenaya. I. G. N. P., I. Nyoman. S. W., dan I. Nyiman. E. G. 2015.

Genset dengan Bahan Bakar Gasifikasi Downdraft Kulit Kopi

dan Batu Bara. Proceeding Seminar Nasional Tahunan

Teknik Mesin XIV (SNTTM XIV).

Ummatin, C. dan Alfiarty, A. 2015. Optimalisasi Proses

Gasifikasi dari Limbah Kulit Kopi (Coffee robusta) Menjadi

Fenol Berupa Asap Cair dengan Variasi dan Ukuran Partikel

Bahan. ITN Malang. Journal of Chemical Engginering.

Widyotomo, S. 2013. Potensi Dan Teknologi Diversifikasi

Limbah Kopi Menjadi Produk Bermutu Dan Bernilai Tambah.

Review Penelitian Kopi dan Kakao 1 (1) 2013, 63-80

Wulandari. A. P. 2015. Rami : Prospeksi Serat dan Limbah.

Unpad Press.