Application of Nano Bubble Aeration Technology in Domestic Wastewater Treatment: Optimization of Gas Flow and Reaction Time
Pham Thi Thom *
Faculty of Natural Resources and Environment, BacGiang Agriculture and Forestry University, Vietnam.
Le Dinh Hai
Faculty of Agronomy, BacGiang Agriculture and Forestry University, Vietnam.
Nguyen Tuan Khoi
Faculty of Agronomy, BacGiang Agriculture and Forestry University, Vietnam.
*Author to whom correspondence should be addressed.
Abstract
Nano bubble aeration is an emerging technology with significant potential in wastewater treatment, particularly for removing suspended solids and organic matter. This study investigates the application of nano bubble aeration in the treatment of domestic wastewater, focusing on the reduction of chemical oxygen demand (COD) and total suspended solids (TSS). Nano bubbles, with diameters ranging from tens of nanometers to a few micrometers, exhibit slower rising velocities and prolonged stability in water due to their negatively charged surfaces. Various nano bubble air flow rates were tested over 90-minute intervals to determine the optimal treatment conditions. The results indicate that a flow rate of 2 liters per minute achieves the highest treatment efficiency, reducing COD by 84.73% and TSS by 77.51%. Increasing the flow rate beyond this level showed minimal improvement, demonstrating that 2 liters per minute is the optimal flow rate for efficient wastewater treatment using nano bubble aeration. This research highlights the advantages of nano bubble technology in enhancing the treatment efficiency of suspended solids and organic matter in wastewater.
Keywords: Nano bubble aeration, domestic wastewater treatment, gas flow optimization, reaction time, treatment efficiency