1 / 31

THE MARCH 11, 2011 EARTHQUAKE-TSUNAMI DISASTER IN JAPAN REMEMBERING: PART 1

THE MARCH 11, 2011 EARTHQUAKE-TSUNAMI DISASTER IN JAPAN REMEMBERING: PART 1 . Walter Hays, Global Alliance for Disaster Reduction, University of North Carolina, USA. M9.0 TOHOKU EARTHQUAKE/TSUNAMI DEVASTATED JAPAN TSUNAMI WAVES REACHED PACIFIC RIM COUNTRIES.

kaethe
Download Presentation

THE MARCH 11, 2011 EARTHQUAKE-TSUNAMI DISASTER IN JAPAN REMEMBERING: PART 1

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. THE MARCH 11, 2011 EARTHQUAKE-TSUNAMI DISASTER IN JAPAN REMEMBERING: PART 1 Walter Hays, Global Alliance for Disaster Reduction, University of North Carolina, USA

  2. M9.0 TOHOKU EARTHQUAKE/TSUNAMI DEVASTATED JAPANTSUNAMI WAVES REACHED PACIFIC RIM COUNTRIES 4TH LARGEST QUAKE EVER 3 – 10 M TSUNAMI WAVES 2:46 pm MARCH 11, 2011

  3. IT WAS A TSUNAMI AND RADIATION- RELEASE DISASTER THAT KILLED APPROXIMATELY 20,000 AND DEVASTATED JAPAN

  4. TSUNAMI WAVES:NATON MYIAGI PREFECTURE

  5. OARAI INUNDATED BY TSUNAMI

  6. TSUNAMI WAVES REACHED COAST OF NORTHERN JAPAN IN 15 MIN.

  7. FIRE: NEAR SENDAI AIRPORT

  8. SENDAI AIRPORT

  9. SENDAI AIRPORT: COVERED WITH MUD FROM TSUNAMI

  10. SENDAI AIRPORT: COVERED WITH CARS, MUD, & DEBRIS

  11. SEARCH AND RESCUE: RIKUZENTAKADA

  12. SEARCH AND RESCUE: TOYOMA

  13. THE RADIATION LEAKS MADE IT A VERY DIFFICULT YEAR FOR JAPAM

  14. AERIAL VIEW: THE FUKUSHIMA NUCLEAR FACIULITY

  15. FUKUSHIMA NUCLEAR FACILITY HAD 3 FAILURES

  16. THE FUKUSHIMA NUCLEAR FACILITY Radiation leaks and threats of partial melt down developed in four of the six reactors as a result of the quake/tsunami.

  17. RADIATION CLOUD AT THE FUKUSHIMA NUCLEAR FACIULITY

  18. NO-FLY ZONE ABOUT FUKUSHIMA

  19. DRY SPENT FUEL POOLS • By days 6-7, Japanese efforts were focused on the pools used to store spent nuclear fuel, now dry or nearly so, because the consensus was that the dry rods could heat up and spew intense radiation.

  20. WORKING TO AVERT DISASTER • Emergency workers tried helicopter water drops, heavy-duty fire trucks, and water cannons to cool down Japan's dangerously overheated nuclear reactors and spent-fuel pools.

  21. HELICOPTERS COLLECT SEA WATER TO DROP ON FUKUSHIMA REACTORS

  22. A RACE AGAINST TIME • 140,000 people within a 33 km radius of the plant were evacuated; meanwhile the increased risk from radiation stymied search and rescue operations, already beyond the “golden window,” and slowed humanitarian assistance.

  23. GOAL: PREVENT A MELT DOWN AT THE FUKUSHIMA NUCLEAR FACILITY WHOSE NORMAL COOLING SYSTEM WAS COMPROMIZED BY THE EARTHQUAKE AN TSUNAMI

  24. MARCH 25: WORKERS REMOVED AFTER EXPERIENCING RADIATION

  25. WORKERS BEING TREATED • The workers were trans-ferred by ambulance on Friday to a specialized hospital.

  26. ON THE INSIDE OF THE FACILITY • Inside, work continued in the frantic effort to bring automated cooling systems back on line in order to prevent any worsening of the radiation leak.

  27. OUTSIDE HELP • Pure water and pumps supplied by the United States military was brought to Fukushima-1 to cool the reactors.

  28. ON THE INSIDE OF THE FACILITY • Pure water replaced the sea water that was used earlier on Day 12 to cool the rods; the sea water was causing corrosion because of the accumulation of salt.

  29. WHAT DID WE LEARN

  30. DISASTERS OCCUR WHEN A NATION’S PUBLIC POLICIES ALLOW IT TO BECOME … UN—PREPARED UN—PROTECTED UN—ABLE TO RESPOND EFFECTIVELY NON—RESILIENT AFTER A DISASTER

  31. FOUR PILLARS OF RESILIENCE • NATURAL HAZARDS • INVENTORY • VULNERABILITY • LOCATION • PREPAREDNESS • PROTECTION • EMERGENCY RESPONSE • RECOVERY IENCE RISK ASSESSMENT ACCEPTABLE RISK RISK UNACCEPTABLE RISK GOAL: DISASTER RESILIENCE DATA BASES AND INFORMATION A NATION OR A COMMUNITY HAZARDS: GROUND SHAKING GROUND FAILURE SURFACE FAULTING TECTONIC DEFORMATION TSUNAMI RUN UP AFTERSHOCKS

More Related