More efficient renewables can not only power factories, but they can act as “mini-grids” in connecting rural communities. Could more affordable and scalable batteries be a remedy to poverty?
Solar and wind power capacity have been growing at double-digit rates, but the sun sets, and the wind can be capricious. Although every year wind farms get larger and solar cells get more efficient, thanks to advances in materials such as perovskites, these renewable sources of energy still satisfy less than five percent (<3.7 percent in 2013, according to the IEA) of global electricity demand.
In many places, renewables are relegated to niche roles because of the lack of an affordable, reliable technology to store the excess energy that they make when conditions are ideal and to release the power onto the grid as demand picks up. Better batteries could solve this problem, enabling emissions-free renewables to grow even faster — and making it easier to bring reliable electricity to the 1.2 billion people who currently live without it.
Within the past few years, new kinds of batteries have been demonstrated that deliver high enough capacity to serve whole factories, towns or even “mini-grids” connecting isolated rural communities. These batteries are based on sodium, aluminum or zinc. They avoid the heavy metals and caustic chemicals used in older lead-acid battery chemistries. And they are more affordable, more scalable, and safer than the lithium batteries currently used in advanced electronics and electric cars. The newer technology is much better suited to support transmissions systems that rely heavily on solar or wind power.
Last October, for example, Fluidic Energy announced an agreement with the government of Indonesia to deploy 35 megawatts of solar panel capacity to 500 remote villages, electrifying the homes of 1.7 million people. The system will use Fluidic’s zinc-air batteries to store up to 250 megawatt-hours of energy in order to provide reliable electricity regardless of the weather. In April, the company inked a similar deal with the government of Madagascar to put 100 remote villages there on a solar-powered mini-grid backed by zinc-air batteries.
For people who currently have no access to the grid — no light to work by at night, no internet to mine for information, no power to do the washing or to irrigate the crops — the combination of renewable generation and grid-scale batteries is utterly transformative, a potent antidote for poverty. But better batteries also hold enormous promise for the rich world as it struggles to meet the formidable challenge of removing most carbon emissions from electricity generation within the next few decades — and doing so at the same time that demand for electricity is growing.
The ideal battery is not yet in hand. The new technologies have plenty of room for further improvement. But until recently, advances in grid-scale batteries had been few and far between. So it is heartening to see the pace of progress quickening.
This is part of a series on the top 10 emerging technologies of 2016, developed in collaboration with Scientific American.
This piece originally appeared in World Economic Forum Agenda blog.
Top image: The Ecorotr. Credit: GE reports.
Jeffrey Carbeck is Specialist Leader, Advanced Materials and Manufacturing, DC Innovations, with Deloitte.
All views expressed are those of the author.