Friday, March 21, 2014

To all who will help make California safe for our children's future

To all who will help make California safe for our children's future,

Public meeting of the new SCE CEP (Community Engagement Panel) about the decommissioning of SONGS will be Tuesday, March 25 from 6 to 9 p.m. . The meeting will be held at the San Clemente Community Center and people will have a 3 minute comment period at some point in this meeting.  San Clemente Community Center is located at 100 North Calle Seville, San Clemente, CA.

This is the start of a very important process for our community and all of Southern California. Please tell your friend and show up to this meeting if at all possible.

Just some of the issues we need talked about are at this meeting:

High burnup fuel at San Onofre 
Waste storage at San Onofre
Dry Cask being storage in the safest way
If problem happens in the Cask what is SCE plan to mitigate this problem, if none exist then SCE needs to develop adequate strategies to detect and mitigate unexpected degradation during dry storage.
transportation casks for HBF does not exist

I will send another email with the latest document from Marvin Resnikoff and Donna Gilmore on High burnup fuel.

Sincerely,
Gene Stone
Residents Organized For a Safe Environment (ROSE)

Wednesday, March 19, 2014

First Community Engagement Panel meeting

1631 Tons of Nuclear Danger In San Clemente

First Community Engagement Panel meeting

Public meeting of the new SCE CEP (Community Engagement Panel) will be Tuesday, March 25 from 6 to 9 p.m. . The meeting will be held at the San Clemente Community Center and people will have a 3 minute comment period at some point in this meeting.
This is the start of a very important process for our community and all of Southern California. Please tell your friend and show up to this meeting if at all possible.
San Clemente Community Center is located at 100 North Calle Seville, San Clemente, CA.


Tuesday, March 11, 2014

Turn Off A Light For Fukushima

http://unplugnuclearpower.com/
Direct Action Strategy

It's time to punish the electric utility companies in the only way that they understand, by taking money away from them. When so many people join this action that the utilities see a measurable drop in their revenue, they will think twice about all the money and resources they have spent keeping nuclear power alive. Join our action, and let us know what level of conservation you will be practising on March 11. Level 1 - Turn off extra lights and power; Level 2 - Severely cut back on electricity use; Level 3 - Use no utility power that day (Caution! requires careful planning!); or Level 4 - Use solar or wind power to put energy back into the grid.


Monday, March 10, 2014

Remembering Fukushima Film Screening Laguna Beach March 11


Remembering Fukushima BC Space Gallery Laguna Beach
Film Screening : March 11 : Metamorphosis by Jun Hori : 7 pm
(3rd Anniversary of the 2011 Earthquake & Tsunami)

Jun Hori is a noted Japanese television journalist and commentator. His documentary video “Metamorphosis” explores the Japanese citizen reaction to the Fukushima reactor meltdowns, and public opposition to government proposals to reopen Japan’s remaining 50 reactors. “Metamorphosis” also explores several nuclear accident sites in the United States, including Three Mile Island. When NHK, Japan’s public television network, refused to broadcast “Metamorphosis,” Jun Hori ended his long-term relationship with NHK.

When San Onofre's nuclear waste generating plant closed last summer, many breathed a sigh of relief. Yet San Onofre still requires a multi-decade 'decommissioning,' with radioactive fuel and components carted away to uncertain disposal, at further expense measured in hundreds of millions of dollars. Who profits and who pays is in dispute.

Plutonium Is Forever

For additional information please contact the gallery or Mark Chamberlain at 949.697.5237

BC Space Gallery
235 Forest Avenue
Laguna Beach, CA 92651
949.497.1880
bcspace@mol.net

Thursday, March 6, 2014

We Shut Down San Onofre! Now Shut Down The Nuke In Your Backyard


As the Fukushima nuclear disaster deepens three years later into a planet-wide emergency, with massive continuous daily radioactive emissions into the air, ocean and biosphere, a new documentary from award-winning filmmakers counters nuclear industry lies and cover-ups. 

It looks at the people, organizations, strategies and factors that forced a powerful corporation to bend to the public will.

It tells the little-known history of the Nuclear Free California Movement.

Its an empowering story of activists, nuclear experts, public officials, whistleblowers, journalists and extraordinary citizens facing up to the threat of Fukushima fallout while working to prevent potential Fukushima-like catastrophes here at home.

Its also a story of the growing solidarity between Japanese and US activists as they unite to challenge the global nuclear establishment.

For more info: http://www.shutdowndoc.tv/


Wednesday, February 12, 2014

Moving forward with Decommissioning San Onofre

“ROSEMEAD, Calif. June 7, 2013 Southern California Edison (SCE) has decided to permanently retire Units 2 and 3 of its San Onofre Nuclear Generating Station (SONGS).”

 It was a great day for many individuals and groups who had come together to work for the greater good and safety of their communities.  From LA to SD and points in between, and in fact across the nation.  At times it was more than interesting to watch so many different individual opinions and ideas and methods coalesce to work together.  The Angeles chapter Sierra Club, Peace Resource Center of SD, San Onofre Safety, Decommission San Onofre, San Clemente Green and ROSE, these working groups & individuals became known as the “Coalition to Decommison San Onofre”.  It was like the universe itself had appointed this time and place for these people and groups to come together and develop a vortex of energy for the purpose of speaking truth to power about the extreme dangers sitting on the California coastline at San Onofre known as San Onofre Nuclear Generating Station (SONGS). Please believe me when I say it was not any one individual or one single group that did this alone. It was in fact everyone who informed themselves on the issues, worked, organized, prayed, donated time and money and showed up to speak at meetings all around Southern California. I am sure these coalition members and individuals are committed to staying strong and working for the continued good of the community.   It seemed this time and place was appointed by something beyond ourselves.

While I was hoping to take some time off to see the grandkids, finish some art pieces, and maybe take care of my health, California Edison called saying we would like someone from the anti-nuclear perspective to sit on their new Community Engagement Panel (CEP) for the decommissioning of SONGS, and would I as founder of ROSE do it? I had hoped as we all did that others from our highly energized coalition would be represented on the new CEP.  At first I reluctantly said yes. But after thinking about it I can only hope that the universe has made a new appointment for us to help develop a new vortex of energy with the new CEP for the safe, sane and economical decommissioning of units 2 and 3 and the safest storage and removal in time of the extremely dangerous toxic nuclear waste sitting near our homes, and finally to restore the land to the pristine conditions for the future generations of Californians to come.

Residents Organized for a Safe Environment (ROSE) Response and Pledge to SCE’s statement of core principles and values for the decommissioning of San Onofre.

ROSE is pleased to see the SCE “Statement of core principles and values for the decommissioning of San Onofre” and is happy to sit on the Community Engagement Panel (CEP) with other community members. ROSE pledges to Southern California residents & SCE to help Southern California Edison keep these principles and core values alive every step along the way during this process. ROSE pledges to help SCE become a model for the nuclear industry in safe and sane decommissioning of our nation’s dangerous and aging nuclear fleet. ROSE pledges to stand for cleaning the SONGS site of radiation to the best degree possible in the most economical way for the ratepayers. ROSE pledges to stand for worker safety in all areas of decommissioning of San Onofre. ROSE pledges to help SCE understand and use best practices in the process even if we have to rethink them. ROSE pledges to stand for the removal of all radioactive materials from the site as soon as it is possible and restore this site to its natural condition.

It is clear that DOE and NRC studies pertaining to the storage of San Onofre’s High Burnup fuel have not been completed at this point in time, and the best practice for dealing with this extremely high radioactive fuel and the timeframe for doing so is unclear and has no consensus in the community and scientists working on this problem.


I hope other members of the newly appointed CEP will join me in this Pledge to the future of all Californians and the many generations to come.

Wednesday, January 8, 2014

NATIONAL ACTION ALERT “HIGH BURNUP FUEL” IS IN YOUR REACTOR NOW.

The intent of this plan is to help you understand and educate yourself about the dangers of “HIGH BURNUP FUEL” in your reactors and the problem they present in waste management and storage of these extremely dangerous fuels.

This plan consists of 3 actions that must be taken:
 1. Education on High Burnup Fuels:
    a. Who to educate, the Congress, activists, communities, all forms of news outlets.
    b. EVERYONE NEEDS TO HEAR ABOUT “HIGH BURNUP FUEL.” Very few people know about it.
   c. This fuel came to your reactor very quietly without the knowledge of the public, plant workers and their unions, only a few top executives seem to be aware this was happening.
 2. Clear and present dangers of High Burnup Fuels:
     a. Reactor problems caused by High Burnup Fuels.
     b. Waste management & storage issues of High Burnup Fuels.
     c. Much higher levels of radiation with High Burnup Fuels that are now sitting near you.
 3. Action Alert process:
     a. Email & phone call campaign to Senators and Congressmen & the 5 NRC Commissioners, state governors and legislators, petitions.

 Residents Organized for a Safe Environment (ROSE) & Coalition Against Nukes (C.A.N.) are taking a group of six activists from around the country to talk with the NRC commissioners and several senators in the third week in January to discuss this important issue. We hope this campaign will provide a minimum of 10,000 phone calls and emails to the groups listed above prior to our arrival to deliver this message.

The use of “HIGH BURNUP FUEL” has gone almost completely unnoticed by everyone and now must be brought to the forefront of our battle to shutdown the remainder of America’s nuclear power plants and to get a handle on our nuclear waste problem that is only magnified by the use of these extremely dangerous fuels. STOP THE PRODUCTION OF MORE NUCLEAR WASTE NOW.

 Below you will find a detailed summary about High Burnup Fuels by Dr. Marvin Resnikoff noted waste management expert and Donna Gilmore.

High Burnup Fuel Fact Sheet High Burnup Nuclear Fuel

Pushing the Safety Envelope by Marvin Resnikoff and Donna Gilmore January 2014

As commercial reactor economics have declined, utilities, with the acquiescence of the Nuclear Regulatory Commission (NRC), have burned nuclear fuel longer and crammed more of it into storage containers. This experiment has unresolved serious safety issues for storage, transportation and disposal of this highly radioactive waste; issues that have been essentially overlooked by nuclear regulators and the general public. 

For high burnup fuel (HBF), the cladding surrounding nuclear fuel, is thinner, more brittle, with additional cracks. In a transportation accident, the cladding could shatter and a large inventory of radioactivity, particularly cesium, could be released. The NRC should stop use of HBF and make solving HBF storage problems one of its highest priorities.

High Burnup Fuel Problems 

Almost all commercial reactors have HBF. Since the 1990’s almost all spent nuclear fuel (SNF) being loaded into dry casks is HBF.[3] HBF is low-enriched uranium that has burned in the reactor for more than 45 GWd/MTU (GigaWatt days per Metric Ton of Uranium).[4] Many Pressurized-Water Reactors have fuel with projected burnup greater than 60 GWd/MTU.[5] Cross Section Fuel Rod Significant Radial Hydride Orientation DE-NE-0000593

Fig. 1. Cladding cracks

The only issue NRC staff consider is the highest heat within a storage cask, but this ignores the fact that the cladding of HBF is thinner, more brittle, with additional cracks, as shown in Fig. 1. Longer cooling time will not solve these problems.

Uranium fuel pellets, stacked within long thin tubes called cladding, are struck by neutrons and fission, producing heat. A collection of these tubes is called a nuclear fuel assembly, shown in Fig. 2. After 3 to 4 years, extremely radioactive and thermally hot fuel assemblies are removed from the reactor and stored underwater in a fuel pool. Following a cooling period of 7 to 20 years, 24 to 32 fuel assemblies are removed from the fuel pool and inserted into a fuel canister, which are then pushed into a concrete overpack shown in Fig. 3. Because of the poor economics of nuclear power, utilities are pushing the limits for how long fuel remains in reactors with dire consequences.

Here are the high burnup fuel issues: 

HBF is dangerously unpredictable and unstable in storage – even short-term. HBF is over twice as radioactive and over twice as hot. The higher the burnup rate and the higher the uranium enrichment, the more radioactive, hotter and unstable fuel and cladding become. Fig. 4 shows the increase of heat output of fuel assemblies as a function of burnup.
HBF requires a minimum of 7 to 20+ years of cooling in spent fuel pools before storage in dry casks. The years of cooling depends on the burnup rate, percent of uranium enrichment and other factors as defined in the dry cask system’s technical specifications.[6] Lower burnup fuel requires a minimum of 5 years. See Fig. 5. HBF requires more storage space between fuel assemblies due to the higher heat, higher radioactivity, and instability,[7] yet the NRC approves high density of fuel assemblies in fuel pools and dry casks systems. San Onofre requested use of a new dry cask system that crowds 32 fuel assemblies into the same space that currently holds 24.[8] Absent a comprehensive safety analysis, the NRC should NOT approve the NUHOMS® 32PTH2 cask system for HBF, but is considering doing so this year. The NUHOMS system consists of a welded canister that holds 24 or 32 fuel assemblies; the canister slips inside a concrete storage overpack, shown in Fig.3. Diablo Canyon now uses a HOLTEC 32 fuel assembly cask system. No transportation casks for HBF have been approved by the NRC,[9] so even if a waste repository were available, HBF could not be relocated. Nuclear fuel is approved for only 20 years storage in dry casks, based on faulty assumptions about how HBF reacts in the first 20 years of storage.[10] There is insufficient data to approve dry casks for over 20 years, per Dr. Robert Einziger, Senior Materials Scientist, NRC Division of Spent Fuel Storage and Transportation.[11] Experimental data show fuel with burnup as low as 30 GWd/MTU have signs of premature failure.[12] As was done at Maine Yankee,[13] all HBF assemblies should be containerized in damaged fuel cans for dry storage. The NRC has no adequate strategies to detect and mitigate unexpected degradation of HBF during dry storage.[14, 15, 16]

HBF has major implications for pool storage before movement to dry storage. The NUHOMS 32 assembly cask requires up to 20 years and longer if HBF is to be transported. As seen in Fig. 4, HBF would require more than 30 years in storage before it could be transported. This has major ramifications for decommissioning reactors. Essentially, reactors cannot be immediately dismantled after ceasing operation. SAFSTOR[17] is the only option. The reactor license must be retained for this period. A longer time is required before HBF can be removed from the reactor site. In addition, the current high spent fuel pool densities present an even greater risk due to inclusion of HBF assemblies.
HBF has major implications for disposal in a repository. If DOE intends to open NUHOMS and HOLTEC canisters and repackage HBF for disposal, major problems may arise. Because the cladding is brittle and has cracks, it may be damaged during transportation and storage. Each HBF assembly may have to be containerized before storage, similar to damaged fuel assemblies.
HBF has major implications for transportation. Transportation issues have not been well examined by NRC in NUREG-2125, the latest transportation risk assessment, a 509 page report with numerous references.[18] But NUREG-2125 does not investigate transportation of HBF, a major oversight, as is discussed below.

NRC Transportation Accident Analysis

Public input on NUREG-2125 was unwisely curtailed at 60 days. The report was sold to the Commissioners by NRC Staff as a way to gather input from stakeholders, but in practice, this did not meaningfully happen. NRC staff required 7 years to produce this report, yet the State of Nevada’s request for an additional 30 days review was denied.
NUREG-2125 should have been critically reviewed. NUREG-2125 is essentially a transportation risk analysis. As the critique by the State of Nevada[19] shows, the NRC picked and chose which of its reports to include as references. Important accident sequences were not included. Here are just 3 examples of many, some of which are discussed in footnote 19.

Transportation casks have impact limiters at each end. Therefore, the most vulnerable position is a side impact, where the impact limiters are avoided, the so-called backbreaker accident. The references not chosen by NRC discuss this accident. NUREG-2125 does discuss a side impact by a train at a RR crossing. If the train sill directly impacts a transportation cask, the forces and accelerations can be great enough to stretch the bolt lids and leave an opening to the cask interior. But cited references do not include the 1-ton impact limiters at each end, which would increase the bending. For HBF, 140 g forces, a 60 mph side impact, would easily shatter the brittle cladding. HBF has over twice the cesium inventory. There are serious unanswered questions about long duration, high temperature fires and effect on cask and fuel cladding. Casks have neutron shielding on the outside, generally boronated plastic, within a thin metal cylinder. Fuel would heat up with this plastic blanket, except for the fact that metal brackets that hold the thin outer metal cylinder in place are heat conductors. But in a fire accident, these metal conductors can serve as heat inputs to the cask. This is not correctly modeled by cask manufacturers.

The State of Nevada has been asking for some time for full cask testing. These double layer casks, a canister within a transportation overpack, should be fully physically tested. Instead cask manufacturers rely on computer simulations and scale models. It is important to benchmark these computer models. Examples of failures by manufacturers to properly evaluate effectiveness can be found in the fire insulation failures throughout the US nuclear fleet due to inaccurate manufacture qualifications. NRC Security Analysis

Finally, malevolent events should be seriously examined. We do not have confidence this has been done. Anti-tank weapons such as the Russian Kornet, or French Milan, can easily penetrate 1 meter of metal. For transportation, the concern is about events that include entrance and exit holes. This is of particular concern with HBF, with large Cesium inventories and suspect fuel cladding. High Burnup Fuel Recommendations It is imperative the NRC Stop approval of high burnup fuel (HBF) use. Stop approval of HBF dry cask storage. Make solving high burnup fuel storage problems one of its highest priorities. The DOE EPRI “Demonstration Project” (EPRI High Burn-up Dry Storage Cask Research and Development Project),[20] that NEI is promoting[21] is not a solution. This project only tests HBF in existing cask technology (TN-32). The TN-32 cask isn’t even approved for HBF.[22] Over ten years after HBF was first produced and stored in dry storage casks, the industry has finally begun to study the consequences. The NRC has been asleep at the switch, allowing this dangerous experiment in the field to proceed. Develop adequate strategies to detect and mitigate unexpected degradation during dry storage. Absent a comprehensive safety analysis, not approve 32 assembly casks for HBF, such as the NUHOMS® 32PTH2 cask system. Require all HBF assemblies be containerized in damaged fuel cans for dry storage. Require full cask testing, rather than computer simulations and scale models. Reject NUREG-2125 Spent Fuel Transportation Risk Assessment as inadequate as it does not address HBF. Time is of the essence. As of 2012, most fuel in pools for future loading is high burnup and approximately 200 loaded-casks contain HBF.[23] Dry cask storage of HBF in the U.S. started about a decade ago: Since 2003, Maine Yankee casks contain HBF up to 49.5 GWd/MTU. (Maine Yankee HBF is in damaged fuel cans, due to unknowns with HBF) Since 2005, HB Robinson casks contain HBF up to 56.9 GWd/MTU Since 2006, Oconee casks contain HBF up to 55 GWd/MTU After 2008, many other sites have casks that contain HBF up to 53.8 GWd/MTU, according to the Nuclear Energy Institute.[24]

Footnotes:
[1] radwaste@rwma.com; http://www.rwma.com [2] dgilmore@cox.net; http://www.SanOnofreSafety.org [3] DOE EPRI High Burn-up Dry Storage Cask Research and Development Project: Draft Test Plan, Contract No.: DE-NE-0000593, September 13, 2013, Page 2-1http://1.usa.gov/1f6LkJH [4] GAO-12-797 SPENT NUCLEAR FUEL Accumulating Quantities at Commercial Reactors Present Storage & Other Challenges, August 2012,http://www.gao.gov/assets/600/593745.pdf. Low-enriched uranium = up to 5% of U-235. GWd/MTU is the amount of electricity produced (gigawatt-days) per metric ton of uranium. [5] Savannah River National Laboratory, “Inventory and Description of Commercial Reactor Fuels within the United States,” SRNL-STI-2011-00228, March 31, 2011http://sti.srs.gov/fulltext/SRNL-STI-2011-00228.pdf [6] CoC No. 1029 Technical Specifications for Advanced NUHOMS® System Operating Controls and Limits, Appendix A Tables 2-9 to 2-16http://pbadupws.nrc.gov/docs/ML0515/ML051520131.pdf [7] RWMA Marvin Resnikoff, PhD: The Hazards of Generation III Reactor Fuel Wastes, May 2010 http://bit.ly/19dVRsY [8] Edison request for NUHOMS® 32PTH2http://pbadupws.nrc.gov/docs/ML1204/ML12046A013.pdf [9] SFPO Interim Staff Guidance 11, Rev 3 Cladding Considerations for the Transportation and Storage of Spent Fuel 11/17/2003 http://www.nrc.gov/reading-rm/doc-collections/isg/isg-11R3.pdf [10] NWTRB Douglas B. Rigby, PhD: The NRC approved the initial 20 year dry cask storage based on assumptions. However, no information was found on inspections conducted on HBFs to confirm the predictions that were made. U.S. Nuclear Waste Technical Review Board, December 2010 report,http://www.nwtrb.gov/reports/eds_rpt.pdf [11] NRC R. E. Einziger, PhD: insufficient data to support licensing dry casks for >20 years, March 13, 2013 http://1.usa.gov/15E8gX5 [12] DOE FCRD-NFST-2013-000132, Fuel Cycle Research & Development-Nuclear Fuel Storage and Transportation-2013-000132, Rev. 1, June 15, 2013 https://www.hsdl.org/?view&did=739345 [13] Maine Yankee Atomic Power Company’s Response to the NRC’s Request for Comments Regarding Retrievability, Cladding Integrity and Safe Handling of Spent Fuel at an Independent Spent Fuel Storage Installation and During Transportation (Docket ID NRC-2013-0004), March 18, 2013http://pbadupws.nrc.gov/docs/ML1309/ML13091A009.pdf [14] Fancy New Lids for Nuclear Waste Casks, As Contents Get Hotter, Jeff McMahon, May 2, 2013 http://www.forbes.com/sites/jeffmcmahon/2013/05/02/fancy-new-lids-for-nuclear-waste-casks-as-contents-get-hotter/?view=pc [15] NRC 10 CFR Part 72: [Docket No. PRM-72-4]: Prairie Island Coalition; Denial of Petition for Rulemaking, Federal Register, v. 66, no. 25 (February 6, 2001): p. 9058. FR Doc No: 01-3025 http://www.gpo.gov/fdsys/pkg/FR-2001-02-06/pdf/01-3025.pdf [16] NRC Acceptance Review of Renewal Application to Materials License No. SNM-2506 for Prairie Island Independent Spent Fuel Storage Installation – Supplemental Information Needed (TAC NO. L24592)http://pbadupws.nrc.gov/docs/ML1204/ML12046A157.pdf [17] Under SAFSTOR, which utilities refer to as “deferred dismantling,” a nuclear facility is maintained and monitored in a condition that allows the radioactivity to decay; afterwards, it is dismantled and the property decontaminated… http://www.nrc.gov/reading-rm/doc-collections/fact-sheets/decommissioning.html [18] Office of Nuclear Materials Safety and Safeguards, Nuclear Regulatory Commission, “Spent Fuel Transportation Risk Assessment, NUREG-2125, May 2012http://pbadupws.nrc.gov/docs/ML1212/ML12125A218.pdf [19] Memo from Marvin Resnikoff to Bob Halstead, 7/18/2013, “NUREG-2125 Review”http://sanonofresafety.files.wordpress.com/2013/06/nureg-2125-review.pdf [20] DOE EPRI High Burn-up Dry Storage Cask Research and Development Project: Draft Test Plan, Contract No.: DE-NE-0000593, September 13, 2013, Page 2-1,http://1.usa.gov/1f6LkJH [21] NEI High Burn-up Used Nuclear Fuel Extended Storage and Transportation Demo, Rod McCullum, INL High Burn-up Used Fuel Demonstration Workshop, August 22-23, 2012 http://www.inl.gov/conferences/highburnupusedfuel/d/extended-storage-and-transportation-demo.pdf [22] TN-32 Generic Technical Specificationshttp://pbadupws.nrc.gov/docs/ML0036/ML003696874.pdf [23] Storage of High Burn-up Fuel, Nuclear Energy Institute (NEI), Marc Nichol, July 25, 2012 NRC Public Meeting, Slide 3,http://sanonofresafety.files.wordpress.com/2013/06/nei-highburnupslide2012-07-25.pdf [24] DOE EPRI High Burn-up Dry Storage Cask Research and Development Project: Draft Test Plan, Contract No.: DE-NE-0000593, September 13, 2013, Page 2-1http://1.usa.gov/1f6LkJH [25] Data from Characteristics for the Representative Commercial Spent Fuel Assembly for Preclosure Normal Operation, Bechtel SAIC Co., May 2007, OOO-PSA-MGRO-OO700-000-00A, Table 3. Thermal Power (Watts) per PWR Fuel Assembly with 4.0% U-235 http://pbadupws.nrc.gov/docs/ML0907/ML090770390.pdf [26] Data from Characteristics for the Representative Commercial Spent Fuel Assembly for Preclosure Normal Operation, Bechtel SAIC Co., May 2007, OOO-PSA-MGRO-OO700-000-00A, Table 3. Thermal Power (Watts) per PWR Fuel Assembly with 4.0% U-235 http://pbadupws.nrc.gov/docs/ML0907/ML090770390.pdf