“Main B Bus Undervolt”: The Unluckiest Day

In this astonishing view, captured from the command module Odyssey, shortly after separation on 17 April, the full damage to Apollo 13's service module is shockingly apparent. One entire side panel had been lost and the ship's oxygen and electrical supply had been crippled, placing Jim Lovell, Jack Swigert and Fred Haise in dire peril. Photo Credit: NASA

Forty-two years ago, tonight, astronaut Jim Lovell – the commander of Apollo 13 – proudly showed off his spacecraft to an Earthly audience. Starting with the lunar module, which his crew had named ‘Aquarius’, Lovell pointed out the helmets, the hammocks and the tools which he and fellow astronaut Fred Haise would use, a few days hence, to explore the hilly Fra Mauro region of the Moon. At length, Lovell floated back through a connecting tunnel into the command module, ‘Odyssey’, wishing his audience a pleasant night’s sleep. In the background, the theme to 2001: A Space Odyssey thundered from a Walkman. By now, on 13 April 1970, Lovell, Haise and their command module pilot, Jack Swigert, were halfway to the Moon and their mission appeared to be proceeding perfectly. Flight controllers were bored to tears, the only issue appeared to be Swigert having forgotten to file his income tax returns and, every so often, the mischievous Haise would set off the bangof the cabin relief valve to scare his crewmates. Humanity’s third expedition to the lunar surface, so far, was as exciting to most people on Earth as a third-class train ticket. A tiny cryostat would soon turn everyone’s complacency on its head.

Deep within the bowels of the service module were a pair of tanks, filled with liquid oxygen, and two others, filled with liquid hydrogen; together, they fed the spacecraft’s fuel cells, providing electricity, heat and, as a byproduct, drinking water. A few weeks earlier, during a routine test on the launch pad, these tanks had been filled, then drained…and technicians uncovered a problem. For some reason, they were unable to remove all of the liquid oxygen from the No. 2 tank; its quantity dropped to 92 percent and refused to budge any further. Gaseous oxygen was applied in an effort to expel the liquid oxygen, but to no avail. On 27 March 1970, further attempts were made. Again, they were fruitless. The best option, it seemed, was to ‘boil’ off the remaining liquid oxygen with the tank’s electrical heater. This process took eight hours of 65-volt power form the ground equipment, but ultimately proved successful. Lovell and his original command module pilot, Ken Mattingly, were approached for their opinion, and both men agreed that it was safe to fly. They would live to regret the decision.

The No. 2 tank had a troubled history. It was supposed to have flown on Apollo 10, but was removed in late 1968 when it exhibited trouble. In October of that year, it was accidentally dropped – only by a couple of centimetres, but enough to damage the tubing used to fill and drain its propellants – and that problem was now the root cause of why the tank could not be properly emptied. Unknown to everyone, however, there was another problem: a potentially catastrophic design flaw, whose full effects would not be felt until 55 hours into the Apollo 13 mission, but which time the craft was more than 320,000 km from Earth. Apollo was originally designed to operate at 28 volts of electrical power, but was upgraded in 1965 to accept 65 volts from ground equipment. Everything on the spacecraft was modified to accommodate the change…except a small thermostat inside the oxygen tank, which was still rated at only 28 volts. The role of this thermostat was crucial: it would shut off the tank’s heaters when internal temperatures rose above 26 degrees Celsius.

Capcom Jack Lousma (seated, centre) is surrounded by fellow astronauts in Mission Control at the height of the Apollo 13 crisis. Seated to Lousma's left is pipe-smoking backup commander John Young, with the head of flight crew operations, Deke Slayton, seated to his right. Leaning over the console is fellow capcom Vance Brand, whilst Ken Mattingly - who might have been aboard Apollo 13, but for an exposure to German measles - looks on at far left. Photo Credit: NASA

No one picked up the error. When the last traces of liquid oxygen were boiled off in late March 1970, the thermostat was activated and the excess voltage arced and welded its electrical contacts shut. Outside, monitoring the process, the technician was oblivious to anything amiss, since his gauges went no higher than about 30 degrees Celsius. In reality, during the eight hours that it took the tank to boil off all of the oxygen, the temperature inside had soared to more than five hundred degrees! In doing so, it baked and cracked the Teflon covering wires for an electric fan which would stir the tank’s contents in space. When the tank was loaded with liquid oxygen, shortly before launch, there was still Teflon debris and now-bare electrical wiring inside the tank. Teflon itself is not flammable, but, immersed in a pressurised oxygen environment, almost anything would burn. The tank was nothing less than a sitting timebomb.

Two weeks later, at 9:06 pm Houston time on 13 April, Mission Control issued a last request to Jack Swigert, before he retired for the night. He was to flip several switches to stir the oxygen and hydrogen tanks in the service module. Held at super-critical densities at minus 206 degrees Celsius, the slushy liquids became stratified in weightlessness and it was often hard for engineers to gain precise quantity readings. Swigert flipped the switches labelled H2 FANS and O2 FANS. As the reverberation of the switch throws died, all was silent in the command module. Then, without warning, the entire spacecraft shuddered with a dull bang…and fell quiet once more. Jim Lovell was floating back through the tunnel from Aquarius and both he and Swigert thought that Fred Haise had set off the cabin relief valve…until Haise’s eyes convinced them otherwise. In fact, wrote Lovell, in his autobiography, Lost Moon, the bang had left all three of them “truly, wholly, profoundly frightened”.

If they had known what had happened – that the electric fan had caused the bare wiring to short, which caused a spark to ignite the Teflon fragments, which caused a violent explosion to blow the top off the No. 2 tank, which caused a puncturing of the No. 1 tank, and which, together, tore an entire panel away from the service module – the astronauts would surely have been far more frightened. For now, their attention was halted by the sound of the master alarm and a red warning light, whose message was worrying. It read ‘Main Bus B Undervolt’ and its illumination told them that there had been an abrupt power loss from one of the ship’s two main electrical buses. If the warning was for real – and was not an instrumentation glitch – it signalled very bad news. If their life-sustaining oxygen was bleeding away, then Lovell, Swigert and Haise were as good as dead men.

In an image recorded on an earlier mission, this view shows the lunar module's forward instrument panel. In the hours after the explosion, the Apollo 13 crew would retreat to the lunar module, Aquarius, whose electrical power and oxygen reserves would keep them alive for most of the journey back to Earth. The three men would crowd into a space roughly the size of a small broom cupboard. Photo Credit: NASA

Swigert’s shout was the first call to Mission Control. “Hey, we’ve got a problem here.”

“This is Houston,” replied the duty capcom, astronaut Jack Lousma, somewhat puzzled. “Say again, please.”

Now it was Jim Lovell’s voice which crackled across the 320,000 km cislunar gulf, back to the ears of Lousma in Mission Control. “Houston, we’ve had a problem. We’ve had a Main B Bus Undervolt.”

“Roger, main B undervolt,” verified Lousma. “Okay, stand by, 13, we’re looking at it.” The man in charge of ‘looking at it’ was Seymour ‘Sy’ Liebergot, the flight controller in charge of Apollo 13’s electrical, environmental and communications systems. His callsign was ‘EECOM’. Months of training had imbued Liebergot with the skills to identify the tell-tale indicators of problems, before they emerged…and the dangers of missing something had bitten him on several occasions. Any likelihood that the problem facing Apollo 13 was just an instrumentation error was eliminated by the crew, who had not only seen the warning, but they had heard the bang and they had most certainly felt the vibration. It was a sound which Lovell later likened to a thunderclap and Haise, returning to the command module, had seen the walls of the connecting tunnel visibly flex, all around him.

On the ground, controllers could only watch in horror as the quantity and pressure readings for the No. 2 oxygen tank plummeted to zero. From their seats, the astronauts saw the same thing. More warning lights glowed: now two of the three fuel cells were dead and the No. 1 tank’s oxygen was steadily dwindling away. Lovell could not believe his eyes. Oxygen tanks were built with the fewest number of parts possible, to make the likelihood of a breakdown infinitesimally small. Even if one tank failed, its sister would be more than capable of powering all three fuel cells…and, in turn, running both the A and B electrical buses. “The probability of any one of these components failing,” wrote Lovell, “was down in the multi-multi-decimal places. The probability of one tank, two fuel cells and one bus failing, at the same time, was off the numerical charts!”

The lunar module's reserves of electrical power and oxygen, together with its powerful descent engine, would prove crucial in the survival of the Apollo 13 crew. Photo Credit: NASA

The maxim was simple and they had all learned it through their training: structural things don’t break. “Fluid lines and joints can leak,” astronaut Ken Mattingly told the NASA oral historian, “but physical structure doesn’t break. The reason we had that rule is that if you admitted to that, then the number of things you could have to prepare for is infinite. So we never looked at those kinds of implications.”

Now, a calamity of the most dire proportions was unfolding, second by critical second. The bang and associated problems had caused Odyssey’s computer to restart, whilst the high-gain antenna stopped working and switched communications to four smaller omni-directional antennas. Fred Haise knew that Bus B was now virtually dead and quickly set to work reconnecting the command module’s systems to Bus A…only to discover that it, too, was quickly starved of electrical current. Only one fuel cell was now producing current. A landing on the Moon could not occur with only one operational fuel cell. Exploring the hills of Fra Mauro and uncovering the mysteries of Cone Crater was now out of the question. Thirteen minutes after the bang, Lovell was midway through a fruitless effort to stabilise the craft with his hand controller…when, irritated, he floated to the window and craned his neck to look outside.

What he saw sent a chill down his spine.

Twirling away into the blackness, like cigarette smoke, was a thin, whitish cloud of gas, emerging from the side of the service module. As soon as it entered space, it crystallised and formed a vast halo. Apollo 13 was leaking.

“Houston,” Lovell radioed, “we are venting something out into space. It’s a gas of some sort.”

Jack Lousma acknowledged his call. It was at this point, wrote flight director Gene Kranz in his autobiography, Failure Is Not An Option, that all the pieces of the puzzle fell into place. As head of the White Team, Kranz was the most senior of Apollo 13’s four flight directors and the shock which rippled through Mission Control was tangible. “The controllers,” he wrote, “felt they were toppling into an abyss.” An explosion and the venting of oxygen had caused all of the problems which were now being seen, felt and heard. The jolt of the blast had snapped shut the fuel cells’ reactant valves, effectively cutting the supply of cryogens and starving the electrical system. Fuel valves to the thrusters had closed, making it difficult for the astronauts to regain control, and the propulsive effect of the venting oxygen meant that the antenna could not focus properly on Earth. As the evening of the 13th wore on, a new mission was already taking shape…one whose modus operandi had changed from landing on the Moon to dealing with a niggling instrumentation problem to finding a coherent way of getting three men home alive.

Part 3 of this four-part article will appear on Sunday.  

Missions » Apollo »

6 Comments

  1. Ben,
    Once again I will point out that April 1970 did not have a Friday the 13th. You really need to fix this recurring error lest it start a false mythology about the Apollo 13 mission.

    Apollo 13 launched on Saturday April 11 and the explosion was Monday night April 13. Splashdown was Friday April 17. I was 11 years old and remember it well.

  2. Jim,

    This wasn’t Ben’s fault, at least not after his initial correction of the title.

    The WordPress them we use, Atahualpa, has done well by us for the most part. Except where post titles come into effect. It actually has a place to reset the post title with an alternative title in different views, say for example the post view itself. That text is set the first time the post is created and can only be changed by directly editing the field for that setting. Ben was unaware of this issue. It’s been fixed for this post.

    Thanks for correcting this for our site. Sorry it took so long to get it…well, fully fixed.

    Jim Hillhouse
    Editor
    AmericaSpace

  3. Hi Jim,
    Thanks for that explanation and getting it corrected. Hope I don’t come across as a nit picker about pointing these errors out but I would hate for some, especially the younger crowd, to create a false folklore around this and get a false impression of such a remarkable successful failure!

    Regards,
    Jim

  4. I enjoyed the article. But another historical goof: “In the background [in 1970], the theme to 2001: A Space Odyssey thundered from a Walkman.” The Walkman was invented in 1979, and cassette tape players had only been around a few years. Also “Teflon itself is not flammable” needs the qualifier “ordinarily” — obvious it will burn in the right oxidizer environment (NASA photo: http://www.nasaimages.org/luna/servlet/detail/nasaNAS~7~7~34181~138048:Test-showing-Teflon-insulation-burn )

    Thanks!

Behind the Secrecy of Vostok 1

The awards ceremony was held in the rocket garden at the Kennedy Space Center Visitor Complex. Photo Credit: Julian Leek / Blue Sawtooth

NASA Optimus Prime Spinoff Awards Ceremony