Fire Erupts at Troubled Reactor; Helicopters May Be Used at Plant

TOKYO — The Japanese government reported early Wednesday that a fire was burning at the No. 4 reactor of the troubled Fukushima Daiichi plant in northeastern Japan.

Utility officials said the fire erupted because a blaze at the plant earlier had not been extinguished.
The announcement came just hours after officials with the Tokyo Electric Power Company said that they would consider using helicopters in an attempt to put cold water into a boiling rooftop storage pool for spent uranium fuel rods. The rods are still radioactive and potentially as hot and dangerous as the fuel rods inside the reactors if not kept submerged in water.

“The only ideas we have right now are using a helicopter to spray water from above, or inject water from below,” a power company official said at a news conference. “We believe action must be taken by tomorrow or the day after.”

Hydrogen gas bubbling up from chemical reactions set off by the hot spent fuel rods produced a powerful explosion on Tuesday morning that blew a 26-foot-wide hole in the outer building of Reactor No. 4 at the Fukushima Daiichi nuclear power plant. A fire there may have been caused by machine oil in a nearby facility, inspectors from the United States Nuclear Regulatory Commission said, according to an American official.
Concern remained high about the storage pools at that reactor and at two other reactors, Nos. 5 and 6. None of those three reactors at the plant, 140 miles northeast of Tokyo, were operating on Friday afternoon when an offshore earthquake with a magnitude now estimated at 9.0 suddenly shook the site. A tsunami with waves up to 30 feet high rolled into the northeast Japanese coastline minutes later, swamping the plant.

At least 750 workers were evacuated on Tuesday morning after a separate explosion ruptured the inner containment building at Reactor No. 2 at the Daiichi plant, which was crippled by Friday’s earthquake and tsunami. The explosion released a surge of radiation 800 times more intense than the recommended hourly exposure limit in Japan.

But 50 workers stayed behind, a crew no larger than would be stationed at the plant on a quiet spring day. Taking shelter when possible in the reactor’s control room, which is heavily shielded from radiation, they struggled through the morning and afternoon to keep hundreds of gallons of seawater a minute flowing through temporary fire pumps into the three stricken reactors, Nos. 1, 2 and 3, where overheated fuel rods continued to boil away the water at a brisk pace.

By early afternoon radiation levels had plunged, according to the International Atomic Energy Agency.

Workers have released surges of radiation each time they bleed radioactive steam from the troubled reactors in an attempt to manage the pressure inside them, but the reactors are not yet releasing high levels of radiation on a sustained basis, Japanese officials said.

  The United States military revised its plans as radiation from the plant worsened. Some American warships that had been expected to arrive at the tsunami-shattered northeast coast of Honshu Island were diverted to the west coast instead because of concerns about radiation, the Navy said.
The Navy also promised to continue relief missions even though several more helicopter crews were testing positive for low-level exposure to radiation, and even as American military personnel and their families at the Yokosuka and Atsugi bases were encouraged to take precautions against radiation exposure.

   Late Tuesday morning, Prime Minister Naoto Kan warned in a nationally televised address of rising radiation.

The chief cabinet secretary, Yukio Edano, urged people who live within about 18 miles of the plant to take
precautions. “Please do not go outside, please stay indoors, please close windows and make your homes airtight,” Mr. Edano said. More than 100,000 people are believed to be in the area.

Yukiya Amano, the director general of the International Atomic Energy Agency, said at a news conference at the organization’s Vienna headquarters that there was a “possibility of core damage” at reactor No. 2, but that the damage “is estimated to be less than 5 percent of the fuel.”

The sudden turn of events, after an explosion on Monday at one reactor and then an early-morning explosion on Tuesday at yet another — the third in four days at the plant — had already made the crisis at the plant the worst nuclear accident since the Chernobyl reactor disaster a quarter-century ago. It had become impossible for workers to remain at many areas within the plant for extended periods, the agency said. Japan has requested assistance from the Nuclear Regulatory Commission and the International Atomic Energy Agency.

In Tokyo, the metropolitan government said Tuesday that it had detected radiation levels 20 times above normal over the city, though it stressed that such levels posed no immediate health threat and that readings had dropped since then. The explosion in Reactor No. 2, a little after 6 a.m. on Tuesday, particularly alarmed Japanese officials and nuclear power experts around the world because it was the first detonation at the plant that appeared to occur inside one of the primary containment buildings. 


Those buildings are fortresslike structures of steel and reinforced concrete, designed to absorb the impact of a plane crash and minimize radiation leaks. After a series of conflicting reports about how much damage the reactor had sustained after that blast, Mr. Edano said, “There is a very high probability that a portion of the containment vessel was damaged.”

Japanese officials subsequently said that the explosion had damaged a doughnut-shaped steel container of water, known as a torus, that surrounds the base of the reactor vessel inside the primary containment building.
Ruptures in the torus are serious, said Michael Friedlander, a senior nuclear power plant operator for 13 years at three plants in the United States, including three years at a General Electric boiling water reactor very similar to the ones in trouble in Japan. But the torus is not as important as the reactor vessel itself, which has 6.7-inch-thick steel walls and 8.4-inch-thick steel for its roof and floor. The vessel is designed to hold very high-pressure steam as well as the uranium fuel rods.

The reactor vessel has 20 safety valves that during a shutdown of the reactor inject steam into a million-gallon “suppression pool” of water in a steel torus immediately underneath it.
“Imagine if you had a big pressure cooker and you had a tube off the pressure cooker into a big tub of water — the suppression pool is the tub of water,” said Mr. Friedlander, a defender of nuclear power who is now a money manager in Hong Kong.

Steam vented into the suppression pool from the reactor vessel is not supposed to be radioactive. But the steam becomes radioactive, and potentially very radioactive, if the fuel rods in the reactor vessel above have begun to melt.

The atmosphere in the primary containment building, around the reactor vessel and above the suppression pool, is supposed to consist of inert nitrogen, with no oxygen at all. An inert atmosphere is used in the primary containment building to avoid the risk of oxygen explosions with hydrogen if the reactor starts producing much larger quantities of hydrogen gas than usual. Hydrogen gas is highly combustible with oxygen.

The blast on Tuesday morning that broke the suppression pool at reactor No. 2 shows that the reactor vessel is producing hydrogen and that oxygen may have somehow entered the atmosphere above the suppression pool, Mr. Friedlander said.

The primary containment building, with its massive steel and concrete walls, is housed with various ducts, electrical equipment and other gear inside a bigger building, the secondary containment building. Explosions at Reactors Nos. 1 and 3 blew the roofs off those reactors’ secondary containment buildings, which are not designed to contain hydrogen explosions, unlike primary containment buildings.

The storage pool blast at reactor No. 4 also appears to have ripped a hole in a secondary containment building, based on initial descriptions from Japanese officials.

A senior nuclear industry executive who insisted on anonymity said that a compromised suppression pool made it much harder to bleed high-pressure steam from an overheating nuclear re