Introducing Tae Ho Woo article:Real time analysis for atmospheric dispersions for

Fukushima nuclearaccident: Mobile phone based cloud computing

assessment

INSTITUT SUPÉRIEUR DE GESTION DE TUNISDÉPARTEMENT INFORMATIQUE

Enhancing Your Presentation

Introduction The Accident The Solution

4Conclusion

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Introduction

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The Fukushima Daiichi Nuclear Power Plant is a nuclear power reactor located in the north east of Japan.

Composed of 6 boiling water reactors.

Introduction

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THE ACCIDENT

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WHAT HAPPENED?

Friday March 11th @ 2:36 pm local

Magnitude 9.0 earthquake hits the pacific, 231 miles northeast of Tokyo.

Quake is fifth largest in the world (since 1900).

Generated a 14m Tsunami

The Accident

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AS A RESULT :

Earthquake Earthquake Caused Automatic Shutdown of 3 Operating Units Offsite Power Lost

14m Tsunami (less than 1 hour later)

All Emergency Back-up Power Lost8-10 hours later Station Batteries wear out.

The Accident

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SPREAD OUT OF RADIOACTIVE CONTAMINATION IN ATMOSPHERE:

The radioactive contaminatedfallouts reached Korea by rain.

The air stream of the radioactivefallouts had come in from the southern regions by the air circulations.

=> The wind speed and direction has too many uncertainties to predict, in a very short time interval, the contaminated area.

The Accident

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The Solution

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CLOUD COMPUTING:

The cloud computing is developed for the fast and reliable communications using the mobile phone.

Therefore, the data processing is performed by the cloud computing concept where the fast and reliable data transferring is easily done.

The Solution

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SYSTEM DYNAMICS:

Is an approach to understand the behaviour of complexe algorithme over time.

The Solution

data transferring center incorporated with the mobile phone

Earth-quake

fast and continuous randomized data generations

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cloud computing factor.

dispersion of radionuclide,

Atmospheric concentration,,

System dynamics (SD) diagram

CLOUD COMPUTING & SYSTEM DYNAMICS:

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CLOUD COMPUTING & SYSTEM DYNAMICS:

Example of data:

With the using of some mathematical formula like:

pollution rate emission rate

average wind speed

Y possition Z possition

effective stack height

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REFERENCES

USGS, 2012. Earthquake Facts and Statistics, <http://earthquake.usgs.gov/earthquakes/eqarchives/year/eqstats.php>.USNRC, 1993. SECY-93-092, PRA attachment 4. USNRC Commission Papers.Vensim, 2009. Vensim Simulation Software, Ventana Systems, Inc.Shodor, 2012.{The formula in diapo 13} Gaussian plume model, <http://www.shodor.org>.Tae Ho Woo ,2013.All the figure are from the article Real time analysis for atmospheric dispersions for Fukushima nuclearaccident: Mobile phone based cloud computing assessment.

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Conclusion

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CONCLUSION

Thanks to technology we were able to control the contamination due to Fukushima accident, But the big question is, can we expect the next?

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