Sunday, December 4, 2011

ISESEE 2011, Melaka, Malaysia

Assessment of Outdoor Radiation Hazard of Natural Radionuclides in Tourism Beach Areas

Ahmad Saat#1, Zaini Hamzah*2, Hamimah Jamaluddin*, Husna Mardhiah Muda*

#International Education College (INTEC), Universiti Teknologi MARA,

Section 17 Campus, 40200 Shah Alam, Malaysia.

1ahmad183@salam.uitm.edu.my

#Institute of Science,

*Faculty of Applied Sciences,

Universiti Teknologi MARA, 40450 Shah Alam, Malaysia

2drzainihamzah@yahoo.com


AbstractTourism beaches are main attractions visited by members of the public for leisure and holidays. Knowledge of radiation hazard would enable the radiation risk estimation to be made, and suggest mitigation steps if needed. Surface radiation dose, activity concentration of 238U, 232Th and 40K, and radiation hazard index in 18 beaches at eastern, south western and southern coast of Peninsular Malaysia were determined. In-situ surface radiation dose measurements were done using portable radiation survey meter, while gamma-ray activities of sand samples were measured by using gamma-ray spectrometry method. The surface dose rates were found to range between 0.04 to 0.12 mSv hr-1. Mean activity concentration of 238U varies between 7.33 to 51.04 Bqkg-1, 232Th between 5.86 and 58.39 Bqkg-1 while 40K between 32.70 and 1292.9 Bqkg-1 respectively. The corresponding annual effective dose from these natural radiations ranged between 0.014 and 0.301 mSv/y. This average is way below the average worldwide exposure of 2.4 mSv/y. The external radiation hazard index calculated for the eighteen samples ranged between 0.05 and 0.51. No correlation was observed between in-situ dose measurement with the annual effective dose as well as radiation hazard index.

KeywordsGamma-rays, annual effective dose, hazard index.

Solid State Nuclearr Track Detector - CR39


Damage caused by radiation emitted from radioactive materials (especially high energy alphas and neutrons) can be used as detector for the emission. The picture shows the tracks caused by alphas from Radon gas emission (Rn-222) on SSNTD CR39. The surface density of the tracks is directly proportional to the activity of the radiation.

Gunung Ledang Scientific Xpedition, 9-14 Nov 2011

The xpedition was officially launched by the Johore State EXCO in charged of Tourism. Our Senior group members were involved in the preliminary study on radiation surface dose of the area. Soil and mosses samples were also collected for further analysis.

The photos in this posting show some of the amazing locations in the Gunung Ledang National Park.
The top photo shows view at the top of the legendary Gunung Ledang, and followed by two photos of natural architecture found inthe area.