This study aims to evaluate the effectiveness of activated carbon derived from sawdust waste, both unactivated and activated, in reducing extreme pH levels, high temperatures, and heavy metals (especially Pb and Cd) in wastewater. Sawdust was converted into charcoal through a carbonization process, then activated using ZnCl₂ solution to enhance its adsorption capacity. Adsorption tests were conducted with variations in adsorbent mass and environmental parameters such as pH and temperature. The results showed that sawdust-based activated carbon significantly reduced Cd concentration, particularly at the optimum mass of 150 mg. Activated carbon performed better compared to non-activated carbon. In addition to reducing heavy metals, the adsorption treatment effectively lowered COD values (from 134.3 mg/L to 67.94 mg/L) and BOD values (from 20.4 mg/L to 14.4 mg/L), demonstrating the adsorbent’s capability to absorb organic compounds. Activation increased surface area and pore volume, thereby making the adsorption process more efficient. Overall, this study concludes that activated carbon from sawdust waste, especially after activation, is a low-cost, effective, and environmentally friendly adsorbent alternative for treating wastewater contaminated with heavy metals and organic matter.

Adsorption, Activated Charcoal, Sawdust, Heavy Metals, Lead (Pb), Cadmium (Cd), Wastewater.

Bija, S., Yulma, Imra, Aldian, Maulana, A., Rozi, A., 2020. Biochoagulant Synthesis Based on Chitosan from Bandeng Fishing Waste and Its Application of Reduction of BOD and COD Value of Tofu Waste In Tarakan City. Jurnal Pengolahan Hasil Perikanan Indonesia, 23(1), 86–92.

Daffa, Widiyanti, L., Erlinawati, Rusnadi, I., Pratiwi, I., 2024. Pengaruh Variasi Massa Tempurung Kelapa dan Waktu Karbonisasi Terhadap Kualitas Arang. Jurnal Redoks, 9(2), 205-212.

Kamarati, K. F. A., Marlon, I. A., Sumaryono, M., 2018. Kandungan Logam Berat Besi (Fe), Timbal (Pb) dan Mangan (Mn) pada Air Sungai Santan. Jurnal Penelitian Sosial dan Ekonomi Kehutanan, 4(1), 49-56,

Kurniawan, A., Asriani, E., 2020. Review: Quorum sensing bakteri dan peranannya pada perubahan nilai pH di kolong pascatambang timah dengan umur berbeda. Jurnal Ilmu Lingkungan, 18(3), 602–609

Rukman, A., Suryani, E., 2020. Karbon Aktif Dan Penerapannya dalam Pengolahan Air dan Udara. Jurnal Teknologi Lingkungan, 15(2), 85-92.

Septiani, M., Darajat, Z., Pasinda, I., Kurniawan, D., 2021. Kajian Perbandingan Efektivitas Adsorben Ampas Kopi dan Fly Ash pada Penurunan Konsentrasi Amonia (Nh3) dalam Limbah Cair Urea. JST (Jurnal Sains Terapan), 7(2), 52–59.

Simón, D., Palet, C., Cristóbal, A., 2024. Cadmium Removal by Adsorption on Biochars Derived from Wood Industry and Craft Beer Production Wastes. Water, 16(13), 1905.

Sudrajat, M., Pari, N., 2021. Pemanfaatan Bahan Dasar Selulosa Untuk Pembuatan Arang Aktif. Jurnal Teknologi Lingkungan, 12(1), 45-51.

Zustriani, A. K., Lajja, N., Faza, Z., 2023. Adsorpsi Logam Cd Pada Limbah Cair Laboratorium Menggunakan Adsorben Arang Aktif Dari Kulit Buah Matoa. Integrated Lab Journal, 11(1), 50–60.