SR-71 Blackbird: unique fuel and a new tanker for a special aircraft

Developers at Lockheed Corporation sought to create a machine that could perform tasks that no other aircraft could. But this required a unique energy source with an ultra-low ignition temperature and high thermal stability.

None of the existing U.S. Air Force tanker aircraft could operate on JP-7 fuel. Therefore, the KC-135 tanker had to be modified to accommodate the new fuel source. The result was the KC-135Q model — a completely new version of the tanker aircraft.

Focus translated the article by journalist Harrison Cass about the SR-71 strategic reconnaissance aircraft.

The SR-71 Blackbird is one of the most iconic aircraft in history. Developed during the Cold War for long-range reconnaissance, the SR-71 served both the CIA and the US Air Force and was pushed to the limits of its capabilities.

The SR-71 had a top speed of Mach 3, a ceiling of 82,000 feet, and a rate of climb of 12,000 feet per minute. The supersonic SR-71 could fly so fast and so high that it could easily outrun a surface-to-air missile.

But operating the SR-71 at such speeds and altitudes required a lot of specialized equipment, which in turn required a large investment in research and development, and in some cases, the creation of specialized components that were used only in the SR-71. In particular, the fuel source required special attention, since the SR-71's engines and surfaces became very hot during flight at Mach 3. Consider the fuel requirements for the SR-71.

Starting from scratch

As 19FortyFive reports, “every component of the Blackbird was specialized and unique; the plane had to do something no other plane could do. As a result, the SR-71 had virtually nothing in common with any other plane.” Every part of the SR-71 had to be financed, designed, and built from scratch. As you can imagine, the project was very expensive.

The SR-71's fuel system also demonstrates the aircraft's uniqueness. Most jets in service with the U.S. military could run on JP-4 fuel, and later JP-8, standardized for U.S. and NATO platforms. But neither of these fuels was suitable for the SR-71. Why? The SR-71 generated temperatures that exceeded the ignition temperature of the fuel. This meant that its engine could heat up to a temperature that would ignite the fuel, which would undoubtedly be fatal to everyone on board. Instead, the SR-71 needed a unique power source, designed from the ground up. The answer was Pratt & Whitney's JP-7 fuel, designed with an ultra-low ignition temperature and high thermal stability. Rumor has it that JP-7's ignition temperature was low enough to allow contact with an open flame. But while the low ignition temperature of JP-7 made it possible to safely power the voracious SR-71, the new fuel had another problem: engine ignition. And in this case, it was necessary to develop special equipment that would allow the SR-71, fueled with JP-7, to achieve engine ignition. The solution was to inject triethylborane (TEB) into the SR-71 engines – a complex and expensive procedure that increased the complexity and cost of the entire project.

Refueling with JP-7

None of the existing tanker aircraft of the US Air Force could operate with JP-7 fuel. Therefore, the KC-135 tanker had to be modified to adapt to the new fuel source. The result was the KC-135Q model – a completely new version of the tanker aircraft.

While it may seem excessive to develop a new aircraft just to allow the SR-71 to refuel in the air, it was absolutely necessary for the SR-71 to operate. The Blackbird consumed fuel so steadily (16.3 to 19.9 tons per hour) that without aerial refueling, the SR-71 would have exhausted its fuel supply in only 4,800 km, which would hardly be enough for a long-range reconnaissance aircraft. On the contrary, aerial refueling every 90 minutes was vital to the SR-71's operation.

About the author

Harrison Cass — a defense and national security journalist with over 1,000 articles to his name on international affairs. A lawyer, pilot, guitarist, and professional hockey player, Harrison served as a trainee pilot in the United States Air Force but was discharged due to ill health. He earned a bachelor's degree from Lake Forest College, a juris doctorate from the University of Oregon, and a master's degree from New York University. Harrison listens to the band Dokken.

Natasha Kumar

By Natasha Kumar

Natasha Kumar has been a reporter on the news desk since 2018. Before that she wrote about young adolescence and family dynamics for Styles and was the legal affairs correspondent for the Metro desk. Before joining The Times Hub, Natasha Kumar worked as a staff writer at the Village Voice and a freelancer for Newsday, The Wall Street Journal, GQ and Mirabella. To get in touch, contact me through my natasha@thetimeshub.in 1-800-268-7116