Energy efficiency evaluation of a centralised wastewater treatment plant in an industrial zone of former Binh Duong province, Vietnam

  • Vinh Thi Nguyen, Le Hung Anh*
Từ khóa: Efficient energy utilisation in wastewater treatment plants is a significant challenge for management, particularly in developing countries. This study presents an integrated approach combining energy auditing, real-time monitoring, and energy assessment to optimise industrial wastewater treatment plant operations in Vietnam, with a treatment capacity of under 4,000 m³/day. The research methodology employs an energy audit approach combined with daily measurements, analysing the plant’s operational data for 2023. Results indicate that the aerobic tank consumes the most energy (56.1% of total plant consumption). Wastewater pumps, blowers, mixers, and sludge pumps consume a substantial amount of electricity (77.6% of total electricity consumption). The average specific energy consumption is 0.93 kWh/m³ of treated wastewater, 10.58 kWh/kg CODremoved, and 59.12 kWh/kg TNremoved, which are 15-20% higher than international benchmarks for similar-scale facilities. Based on the analysis, we propose optimisation strategies: (1) improving operating conditions and flexibility; (2) optimising the blower system for aerobic tanks; (3) upgrading to energy-efficient pumps; (4) enhancing lighting, automatic monitoring, and office systems; (5) integrating renewable energy sources. These interventions could reduce energy consumption by 25- 30% while maintaining treatment efficiency. The research findings will enhance the plant’s energy efficiency, reduce operational costs, and support Vietnam’s goal of achieving net-zero emissions by 2050.

Tóm tắt

Efficient energy utilisation in wastewater treatment plants is a significant challenge for management, particularly in developing countries. This study presents an integrated approach combining energy auditing, real-time monitoring, and energy assessment to optimise industrial wastewater treatment plant operations in Vietnam, with a treatment capacity of under 4,000 m³/day. The research methodology employs an energy audit approach combined with daily measurements, analysing the plant’s operational data for 2023. Results indicate that the aerobic tank consumes the most energy (56.1% of total plant consumption). Wastewater pumps, blowers, mixers, and sludge pumps consume a substantial amount of electricity (77.6% of total electricity consumption). The average specific energy consumption is 0.93 kWh/m³ of treated wastewater, 10.58 kWh/kg CODremoved, and 59.12 kWh/kg TNremoved, which are 15-20% higher than international benchmarks for similar-scale facilities. Based on the analysis, we propose optimisation strategies: (1) improving operating conditions and flexibility; (2) optimising the blower system for aerobic tanks; (3) upgrading to energy-efficient pumps; (4) enhancing lighting, automatic monitoring, and office systems; (5) integrating renewable energy sources. These interventions could reduce energy consumption by 25-30% while maintaining treatment efficiency. The research findings will enhance the plant’s energy efficiency, reduce operational costs, and support Vietnam’s goal of achieving net-zero emissions by 2050.

Tác giả

Vinh Thi Nguyen, Le Hung Anh*

Institute for Environmental Science, Engineering and Management, Industrial University of Ho Chi Minh City,
12 Nguyen Van Bao Street, Hanh Thong Ward, Ho Chi Minh City, Vietnam

điểm /   đánh giá
Phát hành ngày
2025-12-25
In ra
Tập. 67 Số. 4C (2025): DECEMBER 2025 . VOLUME 67 NUMBER 4
Chuyên mục
MATHEMATICS AND COMPUTER SCIENCE