Re: What "might happen" with the Japanese Nuclear plants?
P.S.: Here is a site with excellent before and after pictures (up to June 10th) of Fort Calhoun and Cooper Nuclear stations. It also shows the 1993 flood at Cooper nuclear which got into the basement of the reactor building, shorted out the power driving the cooling water in the reactor core, causing the plant operator to do an emergency shutdown.
http://cryptome.org/eyeball/ne-npp-f...-npp-flood.htm
P.S. P.S. -- I forgot to mention that the bladder protecting the reactor, security and admin building is NOT protecting the 'mausoleum' holding the spent fuel rods. The pool was so full in 2009, they were sealing the fuel rods up in dry casks and sticking them in an on-site ‘mausoleum’, instead of putting them in the cooling pool.
On June 16, however, a U.S. Nuclear Regulatory Commission (NRC) event report involving penetration and potentially water pumps at the Ft. Calhoun Nuclear Station: “Potential flooding issue in the Intake Structure,”: “There is one penetration of concern” that could impact water pumps. The report included:
"Operations identified a potential flooding issue in the Intake Structure 1007 ft. 6 in. level. The area of concern is a the hole in the floor at the 1007 ft. 6 in. level where the relief valve from FP-1A discharge pipe goes through the raw pump bay and discharges into the intake cell. There is one penetration of concern. Flooding through this penetration could have impacted the ability of the station’s Raw Water (RW) pumps to perform their design accident mitigation functions."
In the Licensee Event Report 2011-003, Revision 1, for the Fort Calhoun Station, NRC, May 16, 2011, it was reported, "As a result of a Nuclear Regulatory Commission (NRC) inspection conducted from January 1 to June 21, 2010, the NRC determined that Fort Calhoun Station (FCS) did not have adequate procedures to protect the intake structure and auxiliary building against external flooding events."
The May 16 report furthered:
"During identification and evaluation of flood barriers (condition report (CR) 2010-2387), in response to NRC findings previously noted, unsealed through wall penetrations in the intake structure were identified that are below the licensing basis flood elevation. These penetrations were installed during the installation of upgrades to the plant fire protection system. As a result of the penetrations not being sealed, the intake structure was vulnerable to water inflow during an extreme flooding event. This inflow had the potential to affect the operability of both trains of safety related raw water pumps (ultimate heat sink)...."
In case you didn't catch it, the UHS is the source of cooling water provided to dissipate reactor decay heat and essential cooling system heat loads after a normal reactor shutdown or a shutdown following an accident, including a loss-of-coolant accident (LOCA).
The Fort Calhoun reactor was shut down in April BUT they only removed 1/3rd of the spent fuel rods and, as you know, shutting down a reactor doesn't mean it instantly cools off. It needs to be continually cooled for over a year after it's chain reaction is stopped in order for most of the short half-life daughter products to decay and their heat dissipate.
So, the short story is that the two Nuke plants are hanging on by the skin of their teeth, and the Forth Calhoun plant is especially vulnerable, even more so now that the Gavins Point Dam has jacked up its release rate to 160,000 cfs.
P.S.: Here is a site with excellent before and after pictures (up to June 10th) of Fort Calhoun and Cooper Nuclear stations. It also shows the 1993 flood at Cooper nuclear which got into the basement of the reactor building, shorted out the power driving the cooling water in the reactor core, causing the plant operator to do an emergency shutdown.
http://cryptome.org/eyeball/ne-npp-f...-npp-flood.htm
P.S. P.S. -- I forgot to mention that the bladder protecting the reactor, security and admin building is NOT protecting the 'mausoleum' holding the spent fuel rods. The pool was so full in 2009, they were sealing the fuel rods up in dry casks and sticking them in an on-site ‘mausoleum’, instead of putting them in the cooling pool.
On June 16, however, a U.S. Nuclear Regulatory Commission (NRC) event report involving penetration and potentially water pumps at the Ft. Calhoun Nuclear Station: “Potential flooding issue in the Intake Structure,”: “There is one penetration of concern” that could impact water pumps. The report included:
"Operations identified a potential flooding issue in the Intake Structure 1007 ft. 6 in. level. The area of concern is a the hole in the floor at the 1007 ft. 6 in. level where the relief valve from FP-1A discharge pipe goes through the raw pump bay and discharges into the intake cell. There is one penetration of concern. Flooding through this penetration could have impacted the ability of the station’s Raw Water (RW) pumps to perform their design accident mitigation functions."
In the Licensee Event Report 2011-003, Revision 1, for the Fort Calhoun Station, NRC, May 16, 2011, it was reported, "As a result of a Nuclear Regulatory Commission (NRC) inspection conducted from January 1 to June 21, 2010, the NRC determined that Fort Calhoun Station (FCS) did not have adequate procedures to protect the intake structure and auxiliary building against external flooding events."
The May 16 report furthered:
"During identification and evaluation of flood barriers (condition report (CR) 2010-2387), in response to NRC findings previously noted, unsealed through wall penetrations in the intake structure were identified that are below the licensing basis flood elevation. These penetrations were installed during the installation of upgrades to the plant fire protection system. As a result of the penetrations not being sealed, the intake structure was vulnerable to water inflow during an extreme flooding event. This inflow had the potential to affect the operability of both trains of safety related raw water pumps (ultimate heat sink)...."
In case you didn't catch it, the UHS is the source of cooling water provided to dissipate reactor decay heat and essential cooling system heat loads after a normal reactor shutdown or a shutdown following an accident, including a loss-of-coolant accident (LOCA).
The Fort Calhoun reactor was shut down in April BUT they only removed 1/3rd of the spent fuel rods and, as you know, shutting down a reactor doesn't mean it instantly cools off. It needs to be continually cooled for over a year after it's chain reaction is stopped in order for most of the short half-life daughter products to decay and their heat dissipate.
So, the short story is that the two Nuke plants are hanging on by the skin of their teeth, and the Forth Calhoun plant is especially vulnerable, even more so now that the Gavins Point Dam has jacked up its release rate to 160,000 cfs.
explosion
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