A Single Drop of Water

A Single Drop of Water

We are now one step closer to efficiently generating electricity from A Single Drop of Water!

A research team led by scientists from the City University of Hong Kong (CityU) has developed a droplet-based electricity generator (DEG): a device that can power up to 100 small LED bulbs simply by harnessing the power of a raindrop.

The device uses a field-effect transistor (FET)-like structure that allows for high energy-conversion efficiency and instantaneous power density increased by thousands times compared to its counterparts without FET-like structure.

Hydropower is nothing new. About 70% of the earth’s surface is covered by water. Yet low-frequency kinetic energy contained in waves, tides, and even raindrops are not efficiently converted into electrical energy due to limitations in current technology.

The team found that the continuous droplets impinging on PTFE, an electret material with a quasi-permanent electric charge, provides a new route for the accumulation and storage of high-density surface charges. They found that when water droplets continuously hit the surface of PTFE, the surface charges generated will accumulate and gradually reach a saturation. This new discovery helped to overcome the bottleneck of low charge density encountered in previous work.

“Our research shows that a drop of 100 microliters (1 microliter = one-millionth of a liter) of water released from a height of 15 centimeters can generate a voltage of over 140V—and the power generated can light up 100 small LED light bulbs,” said Professor Wang.

He added that the increase in instantaneous power density does not result from additional energy, but from the conversion of kinetic energy of water itself, a single drop of water.

“The kinetic energy entailed in falling water is due to gravity and can be regarded as free and renewable,” he said. “It should be better utilized.”

Their research also shows that the reduction in relative humidity does not affect the efficiency of power generation. Also, both rainwater and seawater can be used to generate electricity.

Professor Wang hoped that the outcome of this research would help to harvest water energy to respond to the global problem of renewable energy shortage. “Generating power from raindrops instead of oil and nuclear energy can facilitate the sustainable development of the world,” he added.

He believes that in the long run, the new design could be applied and installed on different surfaces, where liquid is in contact with solids, to fully utilize the low-frequency kinetic energy in water. This can range from the hull surface of a ferry or a coastline to the surface of umbrellas or even the insides of water bottles.

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