Solar sailing is done in space, not at sea. It involves using solar radiation rather than rocket fuel or nuclear energy to propel spacecraft. Its energy source is nearly unlimited (at least for the next few billion years), its benefits can be substantial, and it demonstrates the innovative use of solar energy to propel modern civilization.
How Solar Sailing Works
A solar sail works the same way that photovoltaic (PV) cells work in a solar panel—by converting light into another form of energy. Photons (light particles) don’t have mass, but anyone who knows Einstein’s most famous equation knows that mass is merely a form of energy.
Photons are packets of energy moving by definition at the speed of light, and because they are moving, they have momentum proportional to the energy they carry. When that energy hits a solar PV cell, the photons disturb the cell’s electrons, creating a current, measured in volts (thus the term photovoltaic). When a photon’s energy hits a reflective object like a solar sail, however, some of that energy is transferred to the object as kinetic energy, just as happens when a moving billiard ball hits a stationary one. Solar sailing may be the only form of propulsion whose source is massless.
Just as a solar panel produces more electricity the stronger the sunlight hitting it, so too a solar sail moves faster. In outer space, unprotected by Earth’s atmosphere, a solar sail is bombarded with portions of the electromagnetic spectrum with more energy (such as gamma rays) than are objects on the surface of Earth, which is protected by Earth’s atmosphere from such high-energy waves of solar radiation. And since outer space is a vacuum, there is no opposition to the billions of photons striking a solar sail and moving it forward. As long as the solar sail remains close enough to the Sun, it can use the Sun’s energy to sail through space.
A solar sail operates just like the sails on a sailboat. By changing the angle of the sail relative to the Sun, a spacecraft can sail with the light behind them or tack against the direction of light. The speed of a spacecraft depends on the relationship between the size of the sail, the distance from the light source, and the mass of the craft. Acceleration can also be enhanced by the use of Earth-based lasers, which carry higher levels of energy than ordinary light. Because the bombardment of the Sun’s photons never ends and there is no resistance, the acceleration of the satellite increases over time, making solar sailing an effective means of propulsion over long distances.
Environmental Benefits of Solar Sailing
Getting a solar sail into space still takes rocket fuel, since the force of gravity in Earth’s lower atmosphere is stronger than the energy that a solar sail can capture. For example, the rocket that launched LightSail 2 into space on June 25, 2019—SpaceX’s Falcon Heavy rocket—used kerosene and liquid oxygen as rocket fuel. Kerosene is the same fossil fuel used in jet fuel, with roughly the same carbon dioxide emissions as home heating oil and slightly more than gasoline.
While the infrequency of rocket launches makes their greenhouse gases negligible, the other chemicals that rocket fuel releases into the upper layers of Earth’s atmosphere can cause damage to the all-important ozone layer. Replacing rocket fuel in outer orbits with solar sails reduces the cost and atmospheric damage caused by burning fossil fuels for propulsion. Rocket fuel is also expensive and finite, limiting the speed and distance that spacecraft can travel.
Solar sailing is impractical in low-Earth orbits (LEOs), due to environmental forces like drag and magnetic forces. And while interplanetary travel beyond Mars becomes more difficult, due to the decreasing energy in sunlight in the outer solar system, spacecraft solar sailing can help reduce costs and limit damage to Earth’s atmosphere.
Solar sails can also be paired with solar PV panels, which convert sunlight into electricity just as they do on Earth, allowing the satellite’s electronic functions to continue working without other external fuel sources. This has the added benefit of allowing satellites to remain in a stationary position over the poles of the Earth, thus increasing the ability to constantly monitor by satellite the effects of climate change on the polar regions. (A “stationary satellite” normally stays in the same place relative to the Earth by moving at the same speed as the Earth’s spin—an impossibility at the poles.)
Key Takeaway
Solar sailing still requires fossil fuels to launch spacecraft into orbit or beyond, but it nonetheless has its environmental benefits, and—perhaps more importantly—demonstrates the potential of solar energy to solve Earth’s most pressing environmental problems.
Fu, Bo, et al. “Solar Sail Technology—A State of the Art Review.” Progress in Aerospace Sciences, vol. 86, 2016, pp. 1–19., doi:10.1016/j.paerosci.2016.07.001
“Carbon Dioxide Emissions Coefficients.” U.S. Energy Information Administration, 2016.
Ross, Martin, and James A. Vedda. “The Policy and Science of Rocket Emissions.” Center for Space Policy and Strategy, 2018.
Ceriotti, Matteo, and Colin R. McInnes. “Hybrid Solar Sail and Solar Electric Propulsion for Novel Earth Observation Missions.” Acta Astronautica, vol. 69, no. 9-10, 2011, pp. 809–811. doi:10.1016/j.actaastro.2011.06.007
Mulligan, P., et al. “Polesitters: Using Solar Sails for Constant Real-Time Sensing of Earth’s Polar Regions.” American Geophysical Union, 2012.
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