Posts Tagged nuclear power
Once upon a time, people thought the atom was the key to the future. It may have just been the ultimate threat to human existence at the time, but Cold War engineers thought nuclear power had plenty of utility as well.
Using a small chunk of metal to power a city for decades seems like a good deal, as long as you don’t consider radiation and the occasional bout of China Syndrome. Before people started thinking about those little foibles, they came up with some pretty creative uses for nuclear power.
A functioning nuclear-powered car was never actually built, but Ford toyed with the idea. The company’s 1958 Nucleon concept was a 3/8 scale model intended to show what a production atomic car could look like.
The Nucleon had the cab-forward look of the Dodge Deora (of Hot Wheels fame), but instead of a pickup bed for storing surfboards, it had a rear-mounted nuclear reactor. While it would have made an interesting rival for the Porsche 911, it’s probably best that the Nucleon never made it to production.
During the 1950s, ships took their place in the triad of strategic defense thanks to nuclear power, so it’s not surprising that the American and Soviet air forces wanted to extend that success to their strategic bombers.
Strategic bombers patrolled enemy airspace in anticipation of a nuclear strike, a la Dr. Strangelove. A bomber with the unlimited range of a nuclear submarine would definitely have been an asset.
While a nuclear reactor never powered a plane, both Cold War rivals sent them aloft in conventional aircraft to see if they and their heavy shielding could be lifted. The Americans built the Convair NB-36H, a variant of the B-36 Peacemaker, and the Soviets converted a TU-95 into the TU-95LAL.
General Electric also built a prototype reactor in Idaho for the follow-up to the NB-36H, the X-6, but thankfully it proved unnecessary. Advances in Intercontinental Ballistic Missiles (ICBMs) eventually negated the need for a long range nuclear-powered bomber.
If a nuclear wing aircraft couldn’t work, what about one with the Hindenburg’s propensity for spontaneous combustion? The airship was out of vogue by the 1950s, but that didn’t stop The U.S. Navy’s Bureau of Naval Weapons from proposing an atomic version as part of the Eisenhower Administration’s “Atoms for Peace” program.
The Navy reasoned that an airship’s low power requirements would allow it to use a lighter reactor, and that it serve as a “flying aircraft carrier,” defending itself with its own fighter planes.
An even more ambitious proposal appeared in a 1956 Mechanix Illustrated article. Author Frank Tinsley envisioned an airship 1,000 feet in length (nearly twice the length of the Hindenburg) that could be used to publicize the Atoms for Peace program.
Ike ended up building the nuclear cargo ship Savannah instead, and that’s probably for the better. Given large airships’ inability to stay aloft (the entire U.S. airship fleet of the 1930s was lost in crashes), it’s probably best that one didn’t take to the skies with a nuclear reactor on board.
Before GPS, lighthouses were all that kept mariners from crashing into rocky shorelines and underwater obstacles. To keep the lights on, keepers needed to make sure there was plenty of fuel or electricity at the lighthouses’ remote locations.
That must have seemed like too much of a hassle to the Russians, who built a few lighthouses powered by radioisotope thermoelectric generators (RTGs), the same type of generator that powers the Curiosity Mars rover.
Unlike nuclear reactors, RTGs rely solely on the energetic decay of a piece of radioactive material. As the material decays, it emits energy that is converted into electricity.
A box of plutonium might generate plenty of power for an otherwise inaccessible structure, but is it really a good idea to leave said plutonium unsupervised?
If you think the all-seeing Predator drone is scary, wait ‘til you meet “Project Pluto.” An atomic nightmare, it was a pilotless nuclear powered cruise missile that could launch its own nuclear weapons.
Known as a Supersonic Low-Altitude Missile (SLAM), Project Pluto’s mission profile exemplifies Cold War desperation. The reactor powered a ramjet, heating air fed into the craft as it moved and expanding it to produce thrust. this would have allowed a Pluto missile to travel at speeds up to Mach 3 and stay airborne for months at a time, allowing it to deliver a payload of hydrogen bombs to multiple targets.
It gets better though: Pluto’s unshielded nuclear reactor would spread radiation as it traveled along, making it pretty dangerous to the country that launched it. Developers believed low altitude supersonic shockwaves could also be dangerous to bystanders, but that didn’t stop them from testing a prototype nuclear ramjet engine in 1961.
In his memoir, Silent War, Navy special projects director John Craven recalls hoping that a defect would be found in the engine, shelving Project Pluto. To his (and my) relief, the military eventually gave up on its atomic death machine.