Research & Reviews: Journal of Physics

In order to meet the growing demand forof electricity, coal- based thermal power plants are widely used all over the world. These thermal power plants produce a huge amount of fly ash as a by- product of coal combustion. The disposal and management of this ash become a challenging problem for the environmentalist and scientist. Coal ash contains an enhanced level of radionuclides along with some other elements, that are toxic and it aeffect the surrounding environment of the dumping site. So, health and hygiene consciousness promote the present study of dwellings near the fly ash dumping site situated in Faridabad, Haryana, India. Twin cup dosimeters were used for the measurements during the four seasons of a year. Measurements show that the minimum and maximum value of radon and thoron concentration varies from 6.70±0.31 Bqm^-3during summer to 139.79±2.93 Bqm^-3during winter, 1.36±0.12 Bqm^-3 during summer to 78.37±2.16 Bqm^-3during winters respectively. The PAEC due to radon and thoron, annual exposure due to radon and thoron collectively varyies from 0.72±0.03 mWL during summer to 15.11±0.32 mWL during winter,55.66×10^-3WLM to 642.25×10^-3 WLM respectively.  Annual effective varies from 0.21 mSv to 2.46 mSv. The measurements indicate that the radon concentration was below the safety levels (action levels) as recommended by various regulatory bodies. The maximum value of 139.79±6.55 Bqm^-3 was found inside the cave of a temple, where there was no ventilation. The different values of radon concentrations are due to different ventilation conditions, house structures and the distance of dwellings from the dumping site. The radon concentration was found to decrease with the increase in distance of the dwelling from the fly ash dumping site.

Keywords: Radon, Thoron, Fly ash, dDumping site, dwellings,. fly ash, Radon, thoron

Gokhan B, Saygılı A.A new technique to reduce the radioactivity of fly ash utilizedin the construction industry,Fuel.2011;90: 1612–7p, Doi:10.1016/j.fuel.2011.01.006

Adriano D, Page A L, Elseewi A A, et al. Utilization and disposal of fly ash and other coal residues in terrestrial ecosystems: a review., Journal of Environmental Quality.1980; 9: 333–44p.

Alam J, Akhtar MN. Fly ash utilization in different sectors in India scenario, International journal of emerging trends in Engineering and Development. 2011; 1(1):1-14p

Kumari V, Physicochemical Properties of Fly ash from Thermal Power Station and Effects on Vegetation, Global Journal of Environmental Research, 2009; 3(2): 102-5p

Sahu KC, Power plant pollution cost of coal combustion. The Hindu Survey of theEnvironment,1994;

BEIR V, Health effects of exposure to low levels of ionizing radiation, Report of the Committee on the Biological effects of Ionizing Radiation,1990; Natl. Acad. of Sciences. Natl. Acad. Press., Washington, DC

BEIR VI, The health effects to exposure to indoor radon. Biological effects of ionizing radiation (BEIR) VI report, National Academy of Science, 1999;Washington

Lubin JH, Boice JDJr,Lung cancer risk from residential radon: meta-analysis of eight epidemiologic studies. J Natl Cancer Inst1997; 89(1):49–57p. doi:10.1093/jnci/89.1.49

Ramsiya M, Joseph A, JojoPJ, “Estimation of indoor radon and thoron in dwellings of Palakkad, Kerala, India using solid state nuclear track detectors”, Journal of Radiation Research and Applied Sciences.2017; 10; 269-72p.

Ningappa C, Hamsa K S, Reddy K U, et al.Study on Radon Concentration at the Work places of Mysuru, Bengaluru and Kolar Districts of Karnataka state, South India.Radiation Protection Dosimetry.2016; 1–4p, doi:10.1093/rpd/ncw058.

Sharma A, Mahur AK, Sonkawade RG.et al. Measurement of indoor Radon, Thoron in dwelling of Delhi, India using double dosimeter cups with SSNTDS, Physics Procedia.2015; 80: 125 – 7p.

Mehta V, Singh SP, Mudaha GS, et al. Radon, Thoron And Their Progeny Levels In Some Dwellings Of Union Territory Chandigarh, India, Using SSNTDs, ISST Journal of Applied Physics.2014; 5(2): 33-35p.

Kumar A, Chauhan RP, Joshi M, et al. Implications of variability in Indoor radon/thoron levels: a study of dwellings in Haryana, India, Environ Earth Sci.2015; 73(8): 4033-42p. DOI 10.1007/s12665-014-3688-5

Dung BD, Giap TV, Kovacs T, et al. Indoor Radon Concentration Measurements at the Locations of the First Nuclear Power Plants Of Vietnam Rom. Journ. Phys.2013; 58, S108–S114p

Hadad K, Hakimdavoud MR,Hashemi-Tilehnoee M. Indoor radon survey in Shiraz-Iran using developed passive measurement method.Iran. J. Radiat. Res. 2011; 9(3): 175-182p.

Bochicchio F.The radon issue: considerations on regulatory approaches and exposure evaluations on the basis of recent epidemiological results. ApplRadiatIsot. 2008; 66(11): 1561–6p. doi: 10.1016/j.apradiso.2007.11.019

Kant K, SonkawadeRG, ChakarvartiSK. The radiological impact of the presence of radon, thoron and their progeny in the environment of a liquid petroleum gas bottling plant, International Journal of Low Radiation.2008; 5(3): 228-36p.

Puskin JS, James AC, Radon exposure assessment and dosimetry applied to epidemiology and risk estimation. Radiat Res. 2006; 166(1):193–208p. doi:10.1667/RR3308.1.

Lubin JH, Wang ZY, Boice JD Jr, et al. Risk of lung cancer and residential radon in China: pooled results of two studies. Int J Cancer.2004; 109(1):132–37p. doi:10.1002/ijc.11683.

Brugmans MJP, Rispens SM, Bijwaard H.et al. Radon-induced lung cancer in French and Czech miner cohorts described with a two-mutation cancer model. Radiat Environ Biophys.2004; 43:153–63p. doi: 10.1007/s00411-004-0247-6.

Tomasek L. Czech miner studies of lung cancer risk from radon. J RadioProt.2002; 22(3A):A107–A112p. doi:10.1088/0952- 4746/22/3A/319.

UNSCEAR, Sources, effects and risks of ionizing radiation, United Nations scientific committee on the effects of atomic radiation, report to the general assembly. United Nations Publication, (2000) New York.

Field RW, Steck DJ, Smith BJ, et al. Residential radon gas exposure and lung cancer: the Iowa radon lung cancer study. Am J Epidemiol. 2000; 151(11):1091–1102p.

Darby S, Whitley E, Silcocks P, et al. Risk of lung cancer associated with residential radon exposure in South-West England: a case-control study. Br J Cancer.1998; 78:394–408p. doi: 10.1038/bjc.1998.506

Sahu SK, Bhangare RC, Ajmal PY, et al. Characterization and quantification of persistent organic pollutants in fly ash from coal fueled thermal power stations in India, Journal of Microchemical.2009; 92: 92-6p.

Mayya YS, Eappen KP, Nambi KSV.Methodlogy for mixed field inhalation in monazite areas using a twin-cup dosimeter with three- track detectors, Radiat. Prot. Dosim.1998; 77(3):177-84p.

Fleischer RL. Radon in the environment—Opportunities and hazards, International Journal of Radiation Applications and Instrumentation. Part D. Nuclear Tracks and Radiation Measurements.1988; 14(4): 421–35p.

Jonsson G. The angular sensitivity of Kodak LR-film to alpha particles. NuclInstrum Methods Phys Res. 1981; 190(2): 407–14p. doi:10.1016/0029-554X(81)90306-2

Ramachandran TV, Lalit BY, Mishra UC. Measurement of radon permeability through some membranes. Nucl Tracks Radiat Meas.1987; 13:81‑4p.

Arafa W. Permeability of radon-222 through some materials. Radiation Measurement. 2002; 35:207–211p.

Cross WG, Tommasino L. Rapid Reading Technique for Nuclear Particle Damage Tracks in Thin Foils, Radiation Effects. 1970; 5(1): 85–89p.

Sannappa J, Chandrashekara MS, Sathish LA. Study of background radiation dose in Mysore City, Karnataka State, India.Radiat. Meas.2003;37(1): 55–65p.

Sonkawade RG, Ramola RC, Kant K. et al. Dosimetry in the environment of 15 UD pelletron accelerator using plastic track detectors, Rad. Protection and Environment.2005; 28(1–4): 156–59p.

UNSCEAR. United Nations Scientific Committee on the Effect of Atomic Radiation, Sources and Effectsof Ionizing Radiation,1999; United Nations, New York.

International Commission on Radiological Protection (ICRP).Limits for Inhaled Radionuclides by Workers, ICRP Publication No. 32,1981; Oxford: Pergamon Press.

International Commission on Radiological Protection (ICRP).Protection against Radon–222 at Home and at Work, ICRP Publication No. 65, 1993; Oxford: Pergamon Press.