Treatment of Flue Gas from the Combustion of Refuse Derived Fuel and Sawdust Using a Spray Tower Scrubber

Authors

DOI:

https://doi.org/10.56862/irajtma.v4i1.190

Keywords:

flue gas, refuse derived fuel, sawdust, spray tower, opacity, temperature

Abstract

The growing volume of waste has encouraged the use of fuel derived from waste as an alternative energy source. However, its combustion releases flue gas containing harmful pollutants. This study assesses the effectiveness of a spray tower in reducing the opacity and temperature of flue gas generated from the combustion of a mixture of waste-based fuel and sawdust. Experiments used three fuel masses and three system setups: no sprayer, two sprayers, and four sprayers. Results showed that the spray tower reduced opacity from 33 per cent to about 15 per cent with two sprayers and 11.2 per cent with four sprayers. Gas temperature decreased from 65 degrees Celsius to 39 degrees and 35 degrees Celsius. A higher number of sprayers led to greater pollutant reduction. This technology shows promise as an environmentally friendly method for controlling emissions.

References

Abdullah, I., Y. N. Manik, B. Barita, J. Jufrizal, S. Supriatno, dan E. Eswanto. 2019. "Desain Insinerator Menggunakan Bahan Bakar Cangkang Kelapa Sawit." Jurnal Rekayasa Material, Manufaktur dan Energi 2(1): 34–43.

Abdullah, Ilmi, Bagus Giri Yudanto, Arjanggi Nasution, dan Rendi Andiko. 2022. "Analisa Performansi Bahan Bakar Biogas dan Bensin terhadap Kualitas Pembakaran pada Engine Genset 4 Tak 1 Silinder Kapasitas 80 Cc." IRA Jurnal Teknik Mesin dan Aplikasinya (IRAJTMA) 1(1): 66–74. https://doi.org/10.56862/irajtma.v1i1.9.

Abnisa, Faisal, Wan Mohd Ashri Wan Daud, Mohd Kamaruzzaman Sopian, dan Mohammad Azizan Abu Bakar. 2013. "Characterization of Bio-Oil and Bio-Char from Pyrolysis of Palm Oil Wastes." BioEnergy Research 6: 830–840.

Akhirullah, A., U. N. Harahap, dan M. Fazri. 2023. "Rancangan Perbaikan Kualitas Toko Sepatu West Store Medan Berdasarkan Pendekatan Servqual dan QFD." IRA Jurnal Teknik Mesin dan Aplikasinya (IRAJTMA) 2(2): 69–80. https://doi.org/10.56862/irajtma.v2i2.63.

Alwan, Hafid. 2019. "Model Gasifikasi Biomassa Menggunakan Pendekatan Kesetimbangan Termodinamika Stokiometris dalam Memprediksi Gas Produser." Jurnal Integrasi Proses 8(1): 31–38.

Ashworth, Danielle C., James W. Gibbons, Irene L. Cherrie, dan David W. S. Williams. 2016. "Comparative Assessment of Particulate Air Pollution Exposure from Municipal Solid Waste Incinerator Emissions." Dalam Air Quality, 87–116. Oakville, Canada: Apple Academic Press.

Bhargava, Akshey, dan A. Bhargava. 2016. "Wet Scrubber—Design of Spray Tower to Control Air Pollutants." International Journal of Environmental Planning and Development 2. www.journalspub.com.

Chaerul, Mochammad, dan Yahdini Qornin Mardiyah. 2019. "Anaerobic Digestion untuk Pengolahan Sampah Organik: Analisis Multikriteria Menggunakan Metode Analytic Network Process." Jurnal Serambi Engineering 4(2).

Dorokhov, G., D. Nyashina, D. Shvedov, dan P. Strizhak. 2024. "Physical Characteristics and Combustion Behavior of Pellets from Sawdust and Refuse-Derived Fuel." Fuel 377: 132810.

Fazil, S. Kumar, dan S. M. Mahajani. 2023. "Gasification and Co-gasification of Paper-Rich, High-Ash Refuse-Derived Fuel in Downdraft Gasifier." Energy 263: 125659.

Fitriana, Anita. 2020. Studi Kinerja Insinerator Pengolah Limbah Cair B3 di Industri Kimia. Disertasi, Institut Teknologi Sepuluh Nopember.

Firdaus, N. A., B. M. Wulandari, dan R. Novembrianto. 2023. "Analisa Efisiensi Unit Bag Filter dan Wet Scrubber terhadap Parameter Partikulat, SO₂, NO₂, dan Opasitas pada Industri Besi dan Baja di Surabaya." Environmental Engineering Journal ITATS 3(1): 57–64.

Hermansyah, Hermansyah, dan Hernawati Hernawati. 2017. "Rancang Bangun Insinerator Dua Tahap (Solusi Mengatasi Polusi Udara pada Pembakaran Sampah)." JFT: Jurnal Fisika dan Terapannya 4(1): 38–48.

Kanhar, Altaf Hussain, Shaoqing Chen, dan Fei Wang. 2020. "Incineration Fly Ash and Its Treatment to Possible Utilization: A Review." Energies 13(24): 6681.

Marosin, Riyanto. 2004. "Karakteristik Emisi Gas Buang Insinerator Medis di Rumah Sakit Jiwa Dadi Makassar Sulawesi Selatan." Jurnal Teknologi Lingkungan BPPT 5(1): 143303.

Naryono, Eko, Budi Hartono, Yuniarto, dan Sudibyo. 2015. "Simulasi dan Evaluasi Insinerasi Sampah Organik Rumah Tangga pada Reaktor Unggun Tetap (Fixed Bed)." The Indonesian Green Technology Journal 4(2): 28–35.

Noverianto, M. A. 2015. Desain Wet Scrubber untuk Pengendalian Partikulat pada Industri Pengolahan Kelapa Sawit. Skripsi, Program Studi Teknik Lingkungan, Fakultas Teknik Sipil dan Lingkungan, Institut Teknologi Bandung.

Praseyadi. 2018. "Teknologi Penanganan Emisi Gas dari Insinerator Sampah Kota." Teknologi Sistem Informasi dan Komputer 11(2): 85–93.

Raju, Muhammad, Armansyah Halomoan Tambunan, dan Radite Praeko Agus Setiawan. 2016. "Karakterisasi Arang dan Gas-Gas Hasil Pirolisis Limbah Kelapa Sawit." Jurnal Keteknikan Pertanian 4(2).

Rahmawati, F., B. P. Samadikun, dan M. Hadiwidodo. 2020. "Evaluasi Efisiensi Kinerja Alat Pengendali Partikulat Cyclone dan Wet Scrubber Unit Paper Mill 7/8 PT. Pura Nusapersada Kudus." Jurnal Presipitasi: Media Komunikasi dan Pengembangan Teknik Lingkungan 17(2): 144–153.

Rizal, Adi Moh, dan Indah Nurhayati. 2017. "Pengolahan Limbah Bahan Berbahaya dan Beracun (B3) dengan Insinerator Tipe Reciprocating Grate Incinerator." Waktu: Jurnal Teknik Unipa 15(2): 21–27.

Said, Hernawati M. L. 2017. "Rancang Bangun Insinerator Dua Tahap (Solusi Mengatasi Polusi Udara pada Pembakaran Sampah)." JFT: Jurnal Fisika dan Terapannya 4(1).

Sahwan, Firman L. 2012. "Analisis Proses Komposting pada Pengelolaan Sampah Berbasis Masyarakat Skala Kawasan (Studi Kasus di Kota Depok)." Jurnal Teknologi Lingkungan 13(3): 253–260.

Sari, Novi Purnama, Dewi Lestari, M. Ridwan, dan Dede Mulyadi. 2024. "Perencanaan Pengembangan Kemasan Detergen Bubuk Menggunakan Metode Kansei Engineering." Dalam Seminar Nasional Inovasi Vokasi, Vol. 3.

Simamora, Junjungan. 2025. Pengolahan Flue Gas dari Pembakaran Residue Derived Fuel (RDF) Dicampur dengan Sawdust: Menggunakan Spray Tower Scrubber. Disertasi, Universitas Sumatera Utara.

Sukrorini, Tri, Siti Aminah, dan Sri Wahyuningsih. 2014. "Kajian Dampak Timbunan Sampah terhadap Lingkungan di Tempat Pembuangan Akhir (TPA) Putri Cempo Surakarta." Jurnal Ekosains 6(3).

Wasilah, Andi Hildayanti, dan Muhammad Zaldi Suradin. 2017. "Inovasi Gedung Pengolahan Sampah Berbasis Insinerasi yang Ramah Lingkungan." Prosiding Temu Ilmiah IPLBI 500: 085.

Wiyono, A., dkk. 2021. "Enhancement of Syngas Production via Co-gasification and Renewable Densified Fuels (RDF) in an Open-Top Downdraft Gasifier: Case Study of Indonesian Waste." Case Studies in Thermal Engineering 27: 101205.

Yuliani, Manis. 2016. "Insinerasi untuk Pengolahan Sampah Kota." Jurnal Rekayasa Lingkungan 9(2): 89–96.

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Published

2025-04-30

How to Cite

Ilmi, I., Simamora, J. ., Suherman, S., & Siregar, Z. H. . (2025). Treatment of Flue Gas from the Combustion of Refuse Derived Fuel and Sawdust Using a Spray Tower Scrubber. IRA Jurnal Teknik Mesin Dan Aplikasinya (IRAJTMA), 4(1), 136–146. https://doi.org/10.56862/irajtma.v4i1.190

Issue

Vol. 4 No. 1 (2025): April

Section

Scientific Article

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