Bringing fast, widespread internet to rural Africa has proven vexing for companies that have tried—and largely failed—with strategies ranging from drones to satellites. Now, a sister company of Google says it has the answer: balloons.
Loon, spun out of the search giant’s X innovation lab in July, is teaming up with Telkom Kenya Ltd. to build a network of high-flying balloons to connect people in the east African country starting next year.
The prize for Alphabet Inc., the parent of Google, is the opportunity to profit from advertising and other businesses tied to bringing the web to more of sub-Saharan Africa, where hundreds of millions of people lack net access.
Loon’s Kenyan project is modelled on technology used to temporarily connect people in Puerto Rico after Hurricane Maria last year knocked out power supplies and phone service. In Kenya, Loon says it will start with about a dozen balloons—enough to cover roughly 10 percent of the country—and gauge how many more are needed. Loon has begun work with the operator to install ground stations in Nairobi and the city of Nakuru in the western highlands that will beam signals to the balloons.
“We’re turning what we have been working on for the past six years into a commercial operation,” says Loon Chief Executive Officer Alastair Westgarth. “We’ve proven we can do it
The pumpkin-shaped blimps, almost as big as the bubble over a tennis court, ascend about 20 kilometres into the stratosphere, above planes, birds, and storms. Westgarth says each carries “several tens of kilos” of routers, relays, batteries, antennae, and other electronic gear, and can serve 5,000 square kilometres (1,930 square miles) of land, or 30 times the area of a telecommunications tower.
Signals are beamed up to the balloons, which can relay them back to devices below or pass them on to other balloons. The balloons have solar panels to recharge their batteries and can stay aloft for several months before they must be brought down for servicing.
Loon declines to disclose costs, but says the technology is far cheaper than building power lines and towers to reach sparsely populated areas across difficult-to-access terrain.
Loon’s design places a balloon within a balloon.
The outer bag is inflated with helium to provide lift, and the inner is filled with air—which is heavier—that is added or released to control altitude. Loon can fine-tune the location of a balloon by raising or lowering it to catch winds moving in different directions at various layers of the stratosphere.
Westgarth says the project suffered a litany of woes in its early years, with many false starts exploring ideas such as hundreds of thousands of tiny balloons and various methods of steering the balloons and powering the system.
“The first balloons would fly for a day, then for a week, and then it took us forever to figure out how to fly them for longer than a month,” Westgarth says.