By August 22, 2015 Read More →

50 years of fuel cells started with NASA’s Gemini 5

Fuel cells use hydrogen and oxygen in a chemical reaction – not combustion – to generate electricity

Fifty years ago today, Gemini 5 made history as the first manned spacecraft to utilize fuel cells, allowing the United States to seize the manned spaceflight endurance record from the Soviet Union for the first time, and launching the commercial fuel cell industry, says the Fuel Cell and Hydrogen Energy Association.

fuel cells

Gemini 5 fuel cell.

“Today we are celebrating fifty years of fuel cell deployment, beginning in 1965 with the Gemini 5, the first deployment of fuel cells in a manned flight, achieving the first crucial steps that helped America to land a man on the Moon,” said Association President Morry Markowitz in a press release.

This successful historic mission led to the use of fuel cells on all subsequent American manned space missions throughout the Gemini, Apollo, and Space Shuttle programs.

“The initial support of NASA provided the catalyst needed to launch the commercial fuel cell industry. Fuel cell and hydrogen technology has evolved and improved exponentially since then, moving from the rarity of space travel to everyday power for passenger vehicles, forklifts, utilities, businesses, homes, and more,” said Markowitz.

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Gemini space capsule.

“Today more than 100,000 fuel cell systems generate clean power for people worldwide, a lasting dividend of America’s investment in space.”

Fuel cell power generation for on-board electronics allowed the Gemini 5 to travel in space for eight days, while also providing drinking water for the astronauts. The mission length was selected as it would be the time required for a lunar landing and return trip to Earth.

Fuel cells utilize hydrogen and oxygen in a chemical reaction, not combustion, to generate electricity. The technology was chosen by the National Aeronautics and Space Administration for the Gemini 5 due to the higher efficiency, power density, and reliability, lighter weight, longer runtime, and near-zero emissions compared to other technologies of the time, as well as the added benefit of creating potable water for the astronauts as a by-product, ,said the release.

fuel cells

Fuel Cell and Hydrogen Energy Association President Morry Markowitz.

NASA has continued to support research and development projects using fuel cells and hydrogen fuel to this day, including a fuel cell bus and hydrogen refueling station demonstration by the NASA Glenn Research Center and its Ohio partners.

NASA also is developing a light-weight fuel cell technology to meet the expected energy demands for surface exploration vehicles and energy storage on the surface of the Moon or Mars.

“Fifty years ago, NASA chose fuel cells to help America succeed in space, and spurred the commercial development of this cutting-edge technology. Those initial efforts have now borne fruit across the nation, with consumers driving the first commercial fuel cell electric vehicles in California, and stationary fuel cells providing reliable and efficient power to data centers, utilities, warehouses, businesses, and homes around the country,” said Markowitz.

“Fuel cells continue to support America’s goals to this day, through strengthening our nation’s economic, environmental, and national security.”

The Fuel Cell and Hydrogen Energy Association (FCHEA) is the trade association for the fuel cell and hydrogen energy industry.

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