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Oddly this is not in any major news stream other than this thus far.
Hurricane Florence achieves DIRECT HIT on Brunswick nuclear power plant in Southport, NC… pray for our safety
Friday, September 14, 2018 by: Mike Adams
Tags: Brunswick nuclear power plant, Flooding, Fukushima, Hurricane Florence, natural disaster, North Carolina, nuclear, Nuclear Accident, nuclear power, radiation, SHTF, storm, storm surge
(Natural News) Hurricane Florence, which achieved landfall early Friday morning, has achieved a direct hit on the Brunswick nuclear power facility in Southport, NC. The eye of the hurricane — where the winds are the most severe — is right now swirling directly over the nuclear power containment buildings, battering them with 100+ MPH winds.
As Natural News reported earlier, there are at least twelve active nuclear power plants in the direct path of Hurricane Florence. Many Americans are concerned about whether these nuclear power facilities are prepared to survive a worst-case scenario of a direct hit.
Now, we know that direct hit has taken place. Thankfully, hurricane winds dropped from 140 MPH to around 100 MPH over the last 48 hours. This may be the saving grace that prevents these nuclear power plants from being severely damaged or destroyed by the storm.
As the map shows, below, the Brunswick power plant is located just South of Wilmington, North Carolina. This is precisely where the eye of the hurricane made landfall:
This is precisely where the eye of Hurricane Florence made landfall:
Hurricane View
Direct hit on nuclear plant
The Brunswick plant is a “Boiling Water Reactor” just like Fukushima
As this link from the U.S. NRC shows, the Brunswick Steam Electric Plant, Unit 1 is also a “Boiling Water Reactor.” It was originally authorized for operation in 1976 and it licensed to continue operating through 2036. The following diagram shows how BWRs operate, using heat from the nuclear reactions to turn water into steam that drives steam turbines which generate electricity:
Boiling Water Reactor plants must sit at low elevation near rivers or lakes in order to have access to cooling water
BWR nuclear power plants rely on cooling designs that use large bodies of local water (rivers or lakes) to transfer heat from the nuclear power plant to the atmosphere. This heat transfer is necessary to prevent nuclear fuel rods from overheating and melting down in a runaway nuclear reaction. Importantly, this cooling operation relies on electricity to run the cooling pumps that circulate the water.
For this reason, U.S. nuclear power plants are equipped with multiple redundant cooling systems and backup generators that can run the pumps even if the local power grid is cut off. At the Fukushima-Daiichi nuclear power facility, both backup diesel generators and battery power systems were present.
You might wonder, then, how the electricity failed on all accounts, causing the cooling pumps to stop operating, ultimately leading to “criticality” of the fuel rods — i.e. a meltdown. (For the record, the entire U.S. media lied about the Fukushima meltdown, claiming no meltdown had occurred. Only now, years later, does the media admit a nuclear meltdown took place. But in their original reporting, they universally claimed there was no meltdown. Just another example of how the media relentlessly lies about everything, not just politics.)
The answer is found in the storm surge — a massive wave of ocean water that swept through the Fukushima facility, drowning the diesel generators, coolant pumps and backup batteries. In effect, Fukushima was inundated with ocean water, and everything stopped functioning. But the physics of the fuel rods was still operating, and you can’t stop fission reactions just by hoping and wishing. So the fuel rods melted down and a nuclear meltdown took place, producing the Fukushima catastrophe we’re all still suffering under today.
As the Nuclear Regulatory Commission explains on this page:
The reactor’s core contains fuel assemblies that are cooled by water circulated using electrically powered pumps. These pumps and other operating systems in the plant receive their power from the electrical grid. If offsite power is lost, emergency cooling water is supplied by other pumps, which can be powered by onsite diesel generators. Other safety systems, such as the containment cooling system, also need electric power. BWRs contain between 370-800 fuel assemblies.
What the NRC doesn’t explain, however, is what happens when all the electrical power and backup generators fail.
See my full threat analysis and preparedness wisdom in this REAL.video exclusive video:
REAL.video/5833644594001
Real Video Link
Hurricane Florence achieves DIRECT HIT on Brunswick nuclear power plant in Southport, NC… pray for our safety
Friday, September 14, 2018 by: Mike Adams
Tags: Brunswick nuclear power plant, Flooding, Fukushima, Hurricane Florence, natural disaster, North Carolina, nuclear, Nuclear Accident, nuclear power, radiation, SHTF, storm, storm surge
(Natural News) Hurricane Florence, which achieved landfall early Friday morning, has achieved a direct hit on the Brunswick nuclear power facility in Southport, NC. The eye of the hurricane — where the winds are the most severe — is right now swirling directly over the nuclear power containment buildings, battering them with 100+ MPH winds.
As Natural News reported earlier, there are at least twelve active nuclear power plants in the direct path of Hurricane Florence. Many Americans are concerned about whether these nuclear power facilities are prepared to survive a worst-case scenario of a direct hit.
Now, we know that direct hit has taken place. Thankfully, hurricane winds dropped from 140 MPH to around 100 MPH over the last 48 hours. This may be the saving grace that prevents these nuclear power plants from being severely damaged or destroyed by the storm.
As the map shows, below, the Brunswick power plant is located just South of Wilmington, North Carolina. This is precisely where the eye of the hurricane made landfall:
This is precisely where the eye of Hurricane Florence made landfall:
Hurricane View
Direct hit on nuclear plant
The Brunswick plant is a “Boiling Water Reactor” just like Fukushima
As this link from the U.S. NRC shows, the Brunswick Steam Electric Plant, Unit 1 is also a “Boiling Water Reactor.” It was originally authorized for operation in 1976 and it licensed to continue operating through 2036. The following diagram shows how BWRs operate, using heat from the nuclear reactions to turn water into steam that drives steam turbines which generate electricity:
Boiling Water Reactor plants must sit at low elevation near rivers or lakes in order to have access to cooling water
BWR nuclear power plants rely on cooling designs that use large bodies of local water (rivers or lakes) to transfer heat from the nuclear power plant to the atmosphere. This heat transfer is necessary to prevent nuclear fuel rods from overheating and melting down in a runaway nuclear reaction. Importantly, this cooling operation relies on electricity to run the cooling pumps that circulate the water.
For this reason, U.S. nuclear power plants are equipped with multiple redundant cooling systems and backup generators that can run the pumps even if the local power grid is cut off. At the Fukushima-Daiichi nuclear power facility, both backup diesel generators and battery power systems were present.
You might wonder, then, how the electricity failed on all accounts, causing the cooling pumps to stop operating, ultimately leading to “criticality” of the fuel rods — i.e. a meltdown. (For the record, the entire U.S. media lied about the Fukushima meltdown, claiming no meltdown had occurred. Only now, years later, does the media admit a nuclear meltdown took place. But in their original reporting, they universally claimed there was no meltdown. Just another example of how the media relentlessly lies about everything, not just politics.)
The answer is found in the storm surge — a massive wave of ocean water that swept through the Fukushima facility, drowning the diesel generators, coolant pumps and backup batteries. In effect, Fukushima was inundated with ocean water, and everything stopped functioning. But the physics of the fuel rods was still operating, and you can’t stop fission reactions just by hoping and wishing. So the fuel rods melted down and a nuclear meltdown took place, producing the Fukushima catastrophe we’re all still suffering under today.
As the Nuclear Regulatory Commission explains on this page:
The reactor’s core contains fuel assemblies that are cooled by water circulated using electrically powered pumps. These pumps and other operating systems in the plant receive their power from the electrical grid. If offsite power is lost, emergency cooling water is supplied by other pumps, which can be powered by onsite diesel generators. Other safety systems, such as the containment cooling system, also need electric power. BWRs contain between 370-800 fuel assemblies.
What the NRC doesn’t explain, however, is what happens when all the electrical power and backup generators fail.
See my full threat analysis and preparedness wisdom in this REAL.video exclusive video:
REAL.video/5833644594001
Real Video Link
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