Determination of radon-222 concentration and emanation rate of soil from Tasik Paya Bungor, Gambang using solid state nuclear track detector (ssntd) / Maryam Jamilah Mustaffa
Since the decay of radon and its progenies contribute to 50% of naturally occurring radioactive materials and is the second leading cause of lung cancer, an assessment on the radiological risk in the perimeter of Paya Bungor lake, Gambang was carried out using Solid State Nuclear Track Detector (...
Main Author: | |
---|---|
Format: | Student Project |
Language: | English |
Published: |
Faculty of Applied Sciences
2018
|
Subjects: | |
Online Access: | http://ir.uitm.edu.my/id/eprint/24850/ http://ir.uitm.edu.my/id/eprint/24850/1/PPb_MARYAM%20JAMILAH%20MUSTAFFA%20AS%20C%2018_5.PDF |
Summary: | Since the decay of radon and its progenies contribute to 50% of naturally
occurring radioactive materials and is the second leading cause of lung cancer, an
assessment on the radiological risk in the perimeter of Paya Bungor lake,
Gambang was carried out using Solid State Nuclear Track Detector (SSNTD) to
evaluate the radon concentration and emanation rate of the area. A type of
SSNTD, CR-39 was used, where it was exposed to be irradiated by alpha
radiations for a month until retrieval. Etching process was done on the CR-39
using 6.0 M NaOH solution for 6 hours at 70°C after retrieval to enhance the
radon tracks left on the CR-39 which was then its density can be counted under
optical microscope. From the radon track density, radon concentration and its
emanation rate are calculated. The radon concentration in the area yields the
average value of 27.47±2.77 Bq m-3 that ranges from 7.37 Bq m-3 to 63.09 Bq m-3
While for radon emanation rate, the value obtained in this study has the average
value of 0.51±0.051 Bq m-3 day-I, with the range of 0.14 - 1.17 Bq m-3 day-l. On
the other hand, the value of the annual effective dose rate in the area is 0.261±2.77
mSv per year with the range value of 0.070 - 0.600 mSv per year. All of the
values are quite low and does not exceed the world limit of radon concentration,
radon emanation rate and annual effective dose rate recommended by UNSCEAR
which is 200 Bq m-3
,3.43 Bq m-3 day"I, and 1.00 mSv per year respectively. Thus
it can be concluded that the area is still safe for agriculture and plantation of
future use. Other than that, a radiological risk distribution was assessed using
isodose map to illustrate and to have an overview on the highest and lowest value
of radon concentration, radon emanation rate and its annual effective dose rate in
the map. |
---|