Pollutant Removal Abilities of Horizontal Subsurface Flow Constructed Wetland

Abstract

With the rapid urbanization, the production of wastewater is increasing day by day. Direct discharge of wastewater in the water bodies/land causes environmental pollutions. Hence, treatment of the wastewater is must, prior to the disposal. Treatment of wastewater through constructed wetlands (CWs) require low cost, less energy consumption, easy construction, and simple operation/maintenance. So, CWs can be the better option for the developing countries such as Nepal. Main objective of the study was to determine the pollutant/nutrient removal abilities of total nitrogen (N), total phosphorous (P), potassium (K+), and biochemical oxygen demand (BOD) in the horizontal subsurface flow (HSSF) CW. The study was carried out in the HSSF CW having gravel as substrate material and common reed (narkat, phragmites karka) as macrophyte. The CW treated domestic wastewater at an average flow rate of 8.64 m3.d−1. The first order removal rate constants were 0.015 m−1 (0.200 d−1) for total N, 0.035 m−1 (0.484 d−1) for total P, 0.004 m−1 (0.052 d−1) for K+, and 0.055 m−1 (0.753 d−1) for BOD5. The influent concentration of total N, total P, K+, and BOD5 ranged from 60-100, 11-13, 34-48, and 60-120 mg.l−1, respectively; effluent concentration from 35-55, 1-3, 31-38, and 4-20 mg.l−1, respectively. Average removal efficiencies of total N, total P, K+, and BOD5 were 50.5, 75.5, 15.0, and 86.9 %, respectively. CW will be a promising option for wastewater treatment.