In the near future, public toilets will be able to use their wastewater to generate power for lighting, thanks to a mini generator made by 2 university students in Da Nang.

Propeller power: For the mini generator, the idea is to put a propeller and motor in a water pipe. The water flow will push the propeller to rotate and the motor will generate power. This model can be installed in almost all types of water pipes or faucets in not only public toilets.

Nguyen Cong Tin, a fresh graduate majoring in Electrical Engineering and Electronics, and Nguyen Thi Thanh, a third-year student majoring in Business Administration, together have successfully created a mini generator and urine battery that runs on wastewater.

The project surpassed another 5 entrants, and won Viet Nam Regional Finals of Go Green In The City in late June, a competition aimed at seeking sustainable energy solutions.

“Da Nang has several public toilets that dump large amounts of wastewater into the sea. However, these toilets also need power for lighting at night, so we decided to examine the use of this wastewater to create power,” said Thanh.

Success: With the toilet mini generator project, Nguyen Cong Tin (2nd, left) and Nguyễn Thị Thanh (1st, left) won the Viet Nam Regional Finalists of Go Green in the City competition. — Photos courtesy of Nguyen Thi Thanh

Tin first came up with the idea of a mini generator in early 2017 and invited Thanh, who has special interest in environmental issues to join his project.

With his strength in technical knowledge, Tin is in charge of designing and modelling the product whilst Thanh conducted her research activities into the benefits and environmental impact of their product.

There are a total of more than 5,000 public toilets in urban areas, which need an estimated total of 875,000 kWh per year, equivalent to more than 60,000USD in total, according to Thanh's research results.

“This is costly and also causes pollution,” said Thanh.

“For the mini generator, the idea is to put a propeller and motor in a water pipe.  The water flow rotates the propeller and generates power.  This model can be installed in almost all types of water pipes or faucets, not just public toilets.

“Meanwhile, an advantage of the urine battery is that it uses urine as the main material to generate power. For toilet that is used frequently, the material will be refilled continuously,” said Thanh.

“Power generated from these two devices will be stored and reserved for lighting.  This is useful and convenient especially in toilets where lighting is yet unavailable,” Thanh added.

It took 3 months for Thanh and Tin to finish the project.  By June this year, they released their mini generator and urine battery.

“At the beginning we found it very hard to clarify the idea. We tried different models, working very hard while still having to focus on studying at our university, to decide on a mini generator for toilet,” said Thanh.

“I believe the device will help reduce our dependence on fossil fuel and hydroelectric power as well as encourage the use of eco-friendly batteries,” Thanh told Viet Nam News.

“By using this device, every one of us can be a green energy maker,” Thanh added.
Water flowing at 600-5000 litres per hour in a 27-millimetre-diameter pipe can generate 0.01-1.8W, according to Thanh.

Successful duo: With his strength in technical knowledge, Tin (right) is in charge of designing and modelling the product while Thanh researched the economic benefits as well as environmental impact.

About 60kWh will be generated in each toilet per year, saving more than $14. If a mini generator and urine battery are installed in 5,000 public toilets, about $72,000 will be saved per year.

In June, the 2 students registered to participate in the ‘Go Green In The City’ competition, a global business case challenge for business and engineering students on green energy solutions for smarter cities launched by Schneider Electric, a company in energy management and automation.

“The Vietnamese finalists are all competitive, the competitors’ ideas are also interesting and worth being learned.  Being winner of Viet Nam Regional Finalist is such a big pleasure for us,” said Thanh.

“The success of the project at the ‘Go Green in the City’ competition can be attributed to the unique and creative idea, successful demo and potential economic benefits of the product as well as the full knowledge about the product of the two students,” Professor Ha Dac Binh, dean of Faculty of Electrical

Engineering and Electronics of the Duy Tan University, who is also instructor of Thanh and Tin for the project, told Viet Nam News.

“The orientation to develop this device will be to reduce the cost of product as well as increase the energy generating capacity.  Besides, they can also combine with other sources, like generating energy from sewage to increase the amount of energy,” said Binh.

(Source: VNS/ DA NANG Today)