TY - JOUR AV - none N1 - cited By 0; Conference of 1st International Conference on Emerging Smart Cities, ICESC 2022 ; Conference Date: 1 December 2022 Through 2 December 2022; Conference Code:306839 Y1 - 2024/// TI - The Effectiveness of COD Removal from Industrial Effluent Using Treatment Train System KW - Chemical oxygen demand; Effluent treatment; Industrial research; Industrial water treatment; Sewage; Wastewater treatment KW - Bioretention; Chemical-oxygen demands; Concentration; Configuration; Industrial effluent; Industrial wastewaters; Plant; Removal rate; Steel industrial wastewater; Train systems KW - Effluents SP - 321 JF - Lecture Notes in Civil Engineering A1 - Ramli, M.F.M. A1 - Takaijudin, H. A1 - Ali, M.O.M. A1 - Alhamzah, W.A.N. A1 - Zubairi, N.A.A. UR - https://www.scopus.com/inward/record.uri?eid=2-s2.0-85184283840&doi=10.1007%2f978-981-99-1111-0_27&partnerID=40&md5=7fef3183c2ae9aac9ca28216654005f8 EP - 327 VL - 324 N2 - In some cases, the steel industrial effluents may be treated and not be treated before it discharged into water bodies. The purposes of conducting this study are to characterize the steel industrial effluent from past research as a pollutant source benchmark and evaluate the effectiveness of COD removal for industrial effluent in a treatment train system. Three (3) sets of treatment trains (Set A, Set B & Set C) were set up as cascaded (stepped) system with various plant species planted in the engineered soil media. The best performance between the three (3) different configurations was Set C (Soil with� Cordyline Fruiticosa� plant). Set C obtained the highest removal rate than the other two (2) sets which was 98.9. To conclude, the bioretention treatment train was very effective to treat steel industrial effluent and it is suggested that further study involve monitoring the performance of the treatment train system for a longer period of time to observe if the quality of effluent degrades over time. © 2024, Institute of Technology PETRONAS Sdn Bhd. ID - scholars20188 ER -