Earthquakes in Japan

Download Report

Transcript Earthquakes in Japan

EARTHQUAKES IN JAPAN
MATEA GRGUREVIĆ
ZNANOSTI O OKOLIŠU
LOCATION
• JAPAN HAS A TOTAL OF 6,852 ISLANDS
EXTENDING ALONG THE PACIFIC COAST OF
EAST ASIA.
• THE COUNTRY, INCLUDING ALL OF THE
ISLANDS IT CONTROLS, LIES BETWEEN
LATITUDES 24° AND 46°N, AND
LONGITUDES 122° AND 146°E.
• THE MAIN ISLANDS, FROM NORTH TO
SOUTH, ARE HOKKAIDO, HONSHU,
SHIKOKU AND KYUSHU.
• THE RYUKYU ISLANDS, WHICH INCLUDE
OKINAWA, ARE A CHAIN TO THE SOUTH OF
KYUSHU.
• TOGETHER THEY ARE OFTEN KNOWN AS
THE JAPANESE ARCHIPELAGO.
BIGGEST EARTHQUAKES IN JAPAN
• 5 - SANRIKU EARTHQUAKE, 1933
• THE EPICENTER WAS 290KM OFFSHORE
• 8.4 MAGNITUDE
• A LOT OF AFTERSHOCKS FOLLOWED
• RESULTED IN A TSUNAMI THAT CAUSED THE
MAJORITY OF THE DAMAGE
• THE TSUNAMI REACHED 28.7M IN HEIGHT
• THE TSUNAMI WAS ALSO RECORDED IN HAWAII
WITH A HEIGHT OF 2.9M
BIGGEST EARTHQUAKES IN JAPAN
• 4 - ANSEI-NANKAI EARTHQUAKE, 1854
• 8.4 MAGNITUDE
• AT THE TIME, THE QUAKE WAS BLAMED ON A GIANT
CATFISH, CALLED NAMAZU
• ANSEI IS THE NAME FOR THE JAPANESE ERA SPANNING
FROM 1854 TO 1860.
• NANKAI IS THE NAME OF THE TROUGH WHERE THE
EARTHQUAKE RUPTURED, SOUTH OF HONSHU.
• THIS QUAKE HIT JUST ONE DAY AFTER SIMILARLY SIZED
ANSEI-TOKAI EARTHQUAKE, WHICH KILLED 2,000 PEOPLE.
• ONE YEAR LATER, THE ANSEI EDO QUAKE, A 6.9
MAGNITUDE, WOULD KILL 6,600 PEOPLE.
BIGGEST EARTHQUAKES IN JAPAN
• 3 - MEIJI-SANRIKU EARTHQUAKE,
1896
• MAGNITUDE 8.5
• NEARLY IN THE SAME LOCATION AS THE 1933
EARTHQUAKE
• THE EARTHQUAKE ITSELF WAS TOO FAR OFF-SHORE TO
CAUSE MUCH DAMAGE, BUT IT TRIGGERED A MASSIVE
TSUNAMI.
• THE TSUNAMI TRAVELED ACROSS THE PACIFIC OCEAN
TO HAWAII AND CALIFORNIA.
BIGGEST EARTHQUAKES IN JAPAN
• 2 - HOEI EARTHQUAKE, 1707
• MAGNITUDE 8.6 QUAKE
• TRIGGERED A TSUNAMI AND AT LEAST ONE LANDSLIDE
• THE EARTHQUAKE RUPTURED ALL SEGMENTS OF THE NANKAI
FAULT, THE ONLY EARTHQUAKE KNOWN TO HAVE DONE SO.
• IT TRIGGERED AN ERUPTION OF MOUNT FUJI NEARLY 50 DAYS
LATER
BIGGEST EARTHQUAKES IN JAPAN
• 1 - TOHOKU EARTHQUAKE, 2011
• MAGNITUDE 9
• LASTED FOR ~6 MINUTES
• SANDAI WAS THE NEAREST CITY TO THE
EARTHQUAKE, ROUGHLY 130KM FROM THE
EPICENTER
• THE EARTHQUAKE WAS PRECEDED BY A NUMBER OF
LARGE FORESHAKES AND A LOT OF AFTERSHAKES
• WARNINGS WERE SENT OUT 1MINUTE BEFORE IT
WAS FELT IN TOKYO, 8 SECONDS AFTER THE 1ST PWAVE WAS DETECTED AND ABOUT 31 SECONDS
AFTER THE EARTHQUAKE OCCURED
BIGGEST EARTHQUAKES IN JAPAN
• HTTP://WWW.JAPANQUAKEMAP.COM/
BIGGEST EARTHQUAKES IN JAPAN
• THE MEGATHRUST EARTHQUAKE WAS THE RECURRING
MECHANISM OF THE SANRIKU EARTHQUAKE IN 1869
• THE EARTHQUAKE OCCURRED WHERE THE PACIFIC PLATE IS
SUBDUCTING UNDER THE PLATE BENEATH NORTHERN HONSHU
• THE ENERGY RELEASED FROM THE EARTHQUAKE COULD
POWER A CITY OF THE SIZE OF LOS ANGELES FOR A YEAR
BIGGEST EARTHQUAKES IN JAPAN
• 15891 CONFIRMED DEATHS, 2500 PEOPLE STILL MISSING
• UNDER 2 HOURS AFTER THE EARTHQUAKE THE TSUNAMI HIT THE COASTLINE
• UP TO 39M IN HEIGHT AT MIYAKO CITY AND TRAVELED UP 10KM INLAND IN SENDAI
• THE TSUNAMI FLOODED APPROXIMATELY 561 SQUARE KM
• THE TSUNAMI CAUSED A COOLING SYSTEM FAILURE AT THE FUKUSHIMA DAIICHI NUCLEAR POWER PLANT,
WHICH RESULTED IN A LEVEL-7 NUCLEAR MELTDOWN AND RELEASE OF RADIOACTIVE MATERIALS.
• IN JAPAN, BUILDING STANDARD ACT HAS BEEN STRICTLY REVIEWED EVERY TIME THERE WAS A LARGE
EARTHQUAKE.
• ALL BUILDINGS ARE STRICTLY REQUIRED TO HAVE AN EARTHQUAKE RESISTANT STRUCTURE.
• WITHOUT RIGOROUS COMPLIANCE TO EARTHQUAKE PROOF STANDARDS SET BY A LAW, ONE CAN NEVER GET
AN APPROVAL OF CONSTRUCTION OF A BUILDING FROM A PUBLIC ADMINISTRATION OFFICE IN JAPAN.
• IT IS SAID THAT THE COLLAPSE RATIO OF THE BUILDING AS A RESULT OF A POWERFUL EARTHQUAKE IS
EXTREMELY LOW IN JAPAN COMPARED TO ANY OTHER COUNTRIES.
LEVEL OF EARTHQUAKE RESISTANCE BY STRUCTURE
OF BUILDING
• EARTHQUAKE RESISTANT STRUCTURE
• IT IS THE MOST COMMON STRUCTURE FOR DETACHED HOUSES IN JAPAN.
• ALL BUILDINGS BUILT AFTER 1981 MUST FOLLOW THE NEW ANTI-SEISMIC STRUCTURE
STANDARD, REQUIRING BUILDINGS TO HAVE AN EARTHQUAKE RESISTANT STRUCTURE.
• IN SUCH BUILDINGS, THE MAIN STRUCTURES (POSTS, WALLS AND FLOORS) RECEIVE
SEISMIC MOTIONS. THE STRUCTURES CAN BE DIVIDED INTO RIGID STRUCTURES WHICH
PREVENT THE BUILDING FROM COLLAPSING AND FLEXIBLE STRUCTURES THAT CAN BEND
IN ORDER TO SPREAD THE FORCE OF SEISMIC MOTIONS.
• DAMPING STRUCTURE
• IT PLACES DAMPING WALLS THAT ABSORB SEISMIC ENERGY WITHIN THE BUILDING IN
ORDER TO MINIMIZE SEISMIC MOTIONS.
• DAMPING STRUCTURES CAN BE DIVIDED INTO THE ACTIVE TYPE THAT USES ENERGY
SUCH AS ELECTRICITY AND THE PASSIVE TYPE THAT USES PHYSICAL FORCES.
• THE STRUCTURE REDUCES THE SEISMIC INTENSITY DOWN BY UP TO 70 - 80%
• SEISMIC ISOLATION STRUCTURE
• THE STRUCTURE IS COMMONLY USED FOR HIGH-RISE BUILDINGS.
• IT PLACES QUAKE-ABSORBING DEVICES (ISOLATORS) THAT BLOCK SEISMIC MOTIONS
FROM REACHING THE BUILDING, AS PART OF THE FOUNDATION OF THE BUILDING.
• THE QUAKE-ABSORBING DEVICES INCLUDE LEAD, SPRING, DAMPER, BALL BEARINGS, ETC.
FURTHERMORE, NEWLY INVENTED CONSTRUCTION METHODS USE COMBINATION OF
THESE MATERIALS.
• THE STRUCTURE REDUCES THE SEISMIC INTENSITY DOWN TO 1/3 TO 1/5