The palm oil processing industry in which produces Crude Palm Oil (CPO) generally uses boilers. The combustion process with a boiler will produce pollutants in the form of particulates (dust), and gases such as NO₂ and SO₂. There are two palm oil processing industries in Muaro Jambi District that use different fuels: coal and oil palm shell. The purpose of this study was to determine the ratio of SO₂, NO₂ and particulate concentration in industries that use coal and oil palm shell.  Primary data taken in the form of concentrations of SO₂, NO₂ and particulates also meteorological data. Secondary data taken in the form of map area, height and diameter of the boiler, and production capacity. Sampling time is in the morning, afternoon and evening which is repeated in 3 times. The results showed that the comparison of NO₂ and SO₂ concentrations produced from coal-fired boilers was higher than shell-fired boilers, but both were still below the quality standard. Particulate concentrations in the palm oil processing industry that use coal-fired boilers are above the quality standard, while shell-fired boilers still meet quality standards.

Furqon, M. dan Sugiyana D. (2012). Pengaruh Karakteristik Batubara dan Proses Pembakaran pada Boiler Batubara Bubuk (Pulverized Coal) terhadap Emisi Nox di Industri Tekstil. Jurnal Ilmiah Arena Tekstil. 27(1), 1-5.

Komariah, Leily Nurul, et.al. (2014). Analisa Emisi NOx Pada Boiler Firetube Berbahan Bakar Biodiesel Sawit. Jurnal Teknik Kimia. 20(3), 49-56.

Nugrainy, G. S., et. al. (2015). Upaya Penurunan Emisi SO2 Dari Bahan Bakar Batubara Kualitas Rendah (Tipe: Subbituminous) dengan Campuran Batu Kapur (Limestone) pada Proses Pembakaran. Jurnal Teknik Lingkungan. 4(1), 1-12.

Peraturan Menteri Negara Lingkungan Hidup Nomor 07 Tahun 2007 Tentang Baku Mutu Emisi Sumber Tidak Bergerak Bagi Ketel Uap.

Samiaji, T. (2012). Karakteristik Gas N2O (Nitrogen Oksida) di Atmosfer Indonesia. Berita Dirgantara. 13(4), 147-154.

Septifan, N. (2010). Pencegahan dan Penanggulangan Pencemaran Lingkungan, Departemen Perindustrian R.I. Jakarta.

Setiawan, Y., Surahman, A., Kailani, Z. (2012). Pencemaran Emisi Boiler Menggunakan Batubara Pada Industri Tekstil Serta Kontribusinya Terhadap Gas Rumah Kaca (GRK). Jurnal Ilmiah Arena Tekstil. 27(2), 55-101.

SNI 19-7117.3.1-2005 . Emisi gas buang – Sumber Tidak Bergerak –Bagian 3: Oksida-oksida sulfur (SOX) –Seksi 1: Cara Uji Dengan Metoda Turbidimetri Menggunakan Spektrofotometer.

SNI 19-7117.5-2005. Emisi gas buang – Sumber Tidak Bergerak –Bagian 5: Cara uji oksida-oksida nitrogendengan metoda Phenol Disulphonic Acid (PDS) Menggunakan Spektrofotometer.

SNI 19-7117.12-2005. Emisi gas buang – Sumber Tidak Bergerak –Bagian 12: Penentuan Total Partikel Secara Isokinetik

Sugiarti. (2009). Gas Pencemar Udara Dan Pengaruhnya Bagi Kesehatan Manusia. Jurnal Chemica. 10(1), 50-58.

Syafriuddin dan Hanesya R. (2012). Perbandingan Penggunaan Energi Alternatif

Bahan Bakar Serabut (Fiber) dan Cangkang Kelapa Sawit Terhadap Bahan

Bakar Batubara dan Solar Pada Pembangkit Listrik, dipresentasikan pada prosiding Seminar

Nasional Aplikasi Sains & Teknologi (SNAST) Periode III (Yogyakarta, 3 November 2012), 162-170. ISSN: 1979-911X.