Dependence Of SO2 Of Immissions Measurement Methods For Selected Areas Power Plant Vojany
Dependence Of SO2 Of Immissions Measurement Methods For Selected Areas Power Plant Vojany
PDFAuthors: Jozefína Pokrývková and Emília Micáková
Volume/Issue: Volume 18: Issue 1
Published online: 24 Jul 2015
Pages: 25–29
Abstract
The results of imperfect knowledge of the natural environment’s basic laws show that the negative effects of our actions are manifested in most cases only belatedly, in forms such as: the loss of arable land, the extinction of rare species of plants and animals, the depletion of the ozone layer, the climate change, the deterioration of air quality, the acid rain, the worsening quality of surface and ground water, the surface loss of rainforests and many other negative aspects of our thoughtless actions. For the measurement of sulphur concentration, we chose locality surrounding the power plant Vojany, where we identified two locations for mounting our stands. The first place was the village Tušice, and the second one the area of AMS Leles. This is where we planted in alkaline strips in stands used for this purpose and by the sorption – cumulative method we evaluated concentrations of sulphur amount collected on the strips. In the period 2012–2014, we conducted experiments in regular 30-day intervals; we performed 104 analyses of filter plates using the sorption-cumulative method. The current position of some habitats infestation causes damage to various parts of environment. Therefore, we consider it relevant to continue in monitoring this affliction and quantifying the extent of its negative effects. The proposed procedure with the possibility of a retrospective determination of concentrations of SO2 using mathematical modelling can also be used for the determination of old burdens.
Keywords: pollutants concentration, pollution, methods for measuring pollution
References
BÁREKOVÁ A. – SKLENÁR Š. – TÁTOŠOVÁ L. 2011. Metodika nakladania s tuhým komunálnym odpadom v podmienkach vidieckej zástavby. Prvé vydanie Nitra : SPU 2011 115 s. ISBN 978-80-552-0539-7.
BENSON P. E. 1979. Wersatile Dispersion Model for Predicting Air Pollutants Leveles Near Highmays and Arterial Strets Interin Report Federal Higway Administration Wasshington D. C. 1979.
CRYER S. A. – WESENBEECK I. J. 2001. Predicted 13 dichlorpropene air contentrations resulting from tree and vine applicatons in California. In Journal of Environmental Quality vol. 6 2001 pp. 1887–1895.
FUSKA J. et al. 2013. Assessment of the actual water basin capacity with the use of GIS = Ocena rzeczywistej pojemność zbiornika wodnego z wykorzystaniem GIS. In Acta scientiarum Polonorum vol. 12 2013 no. 3 pp. 3–10. ISSN 1644-0765.
GREŠOVÁ L. et al. 2012. Methods of soil roughness estimation for wind erosion equation. In Acta horticulturae et regiotecturae vol. 15 2012 special number pp. 15–19. ISSN 1335-2563.
HALÁSZOVÁ K. – KLIMENT M. 2005. Legislative access to botton deposits applications of small water reservoir in Kolinany. In Acta horticulturae et regiotecturae vol. 8 2005 pp. 194–197. ISSN 1335-2563.
HÚSKA D. – JURÍK Ľ. – TÁTOŠOVÁ L. 2005. Forest as important part of healthy landscape. V rámci časopisu zborník „International Scientific Symposium: Anti-erosive and water-protective role of the forest and methods its preservation and improvement. In Šumarski list vol. 13 2005 pp. 5244–5245. ISSN 0373-1332.
LAZOR P. et al. Load on selected agroecosystems by nitrogene and sulphur in the region Krompachy. In Acta horticulturae et regiotecturae vol. 8 2005 pp. 240–244. ISSN 1335-2563.
OCHODNICKÝ M. 2012. AMS na meranie kvality ovzdušia [e-mail]. Message for: Róbert Lenárt. 2012-04-18 [quoted: 2012-11-02].
SCHNELLE K. B. 2002. Air Pollution Control Technology Handbook. CSC Press LLC Florida. 389 p. ISBN 0-8493-9588-7.
TORSETH K. et al. 2012. Introduction to the European Monitoring and Evaluation Programme (EMEP) and observed atmospheric composition change during 1972–2009. In Atmospheric Chemistry and Physics vol.12 2012 pp. 5447–5481.