Analysis of snow-cap pollution for air quality assessment in the vicinity of an oil refinery

Krastinytė, Viktorija; Baltrėnaitė, Edita; Lietuvninkas, Arvydas

doi:10.1080/09593330.2012.715758

Cited by 18 publications

(6 citation statements)

References 6 publications

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“…Furthermore, the US Environmental Protection Agency (USEPA) sets limits on certain air pollutants, including trace elements such as Pb and Hg, by the implementation of different laws and regulations (e.g., the 1990 Clean Air Act). As a result, several protocols regarding the way in which these elements must be determined have been established in the last few decades (e.g., Aas et al, 2009;Alonso-Rodríguez et al, 2007;Krastinyt _ e et al, 2013). The most common approach for measuring trace elements in the total atmospheric deposition involves the use of traditional or physicochemical methods.…”

Section: Introductionmentioning

confidence: 99%

Do moss bags containing devitalized Sphagnum denticulatum reflect heavy metal concentrations in bulk deposition?

Ares

Aboal

Carballeira

et al. 2015

Ecological Indicators

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Section: Introductionmentioning

confidence: 99%

Do moss bags containing devitalized Sphagnum denticulatum reflect heavy metal concentrations in bulk deposition?

Ares

Aboal

Carballeira

et al. 2015

Ecological Indicators

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“…It is known that the largest amounts of metals of aerogenic origin in the liquid form can be found at the distance by about three times larger from the source of pollution than the highest concentration of non-soluble (i.e. found in the dust) metals [24,30]. Metals of aerogenic origin, which are typomorphic with respect to the source of pollution, are, usually, of higher concentration in the soil [25].…”

Section: The Influence Of Metals Of Aerogenic Origin On Self-purificamentioning

confidence: 99%

“…6). It should be emphasised that the above-mentioned dust load (32.4 mg/ m 2 ) is referred to lower than average and less dangerous loads [2,24,43], though, in the long term (after the period of 200 years), it can cause the increase of metals' concentration in soil up to 39 % (in the case of Pb). Therefore, larger loads of mineral dust or higher concentration of metals in it will cause not a proportional, but a larger load of metals of aerogenic origin.…”

Section: The Influence Of Metals Of Aerogenic Origin On Self-purificamentioning

confidence: 99%

Modelling the Balance of Metals in the Amended Soil for the Case of ‘Atmosphere–Plant–Soil’ System

Baltrėnaitė

Lietuvninkas

Baltrėnas

2016

Environ Model Assess

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Changing the concepts of economic development and introducing new amendments can hardly decrease the accumulation in the soil of such pollutants as metals, remaining there for a long time. The predictive models for describing the balance of metals in the soil, which are based on the 'atmosphere-plant-soil' system and reflect the complicated physical-chemical nature of the metals' migration, expressed by coefficients obtained in long-term observations in natural conditions, allow for evaluating long-term concentration of metals in the soil. The model BALANS evaluates selfpurification of soil, taking into account the uptake of metals of aerogenic origin by the soil together with amendments, their physical-chemical migration and the type of microrelief determining its intensity as well as the absorbed biomass of plants and the removal of metals with crops. In this model, the half-period of metals' washing out from the soil, found for the microrelief characteristic of low places, exceeds 200 years for Ni, Cr and Pb and makes 90 and 150 years for Zn and Cu, respectively.

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“…Among chemical industries, oil refineries have been identified as large emitters of a wide variety of pollutants (Baltrėnas et al 2011). The oil refinery in Mažeikiai is the only industry of this type not only in Lithuania but also in the entire Baltic region; therefore, this area has been the subject of ongoing scientific research for many years (Čeburnis et al 1997;Čeburnis et al 2002;Kadūnas et al 2005;Baltrėnas et al 2011;Krastinytė et al 2013;Baltrėnaitė et al 2014). During the refining of crude oil and processing of its downstream products in petrochemical complexes, a variety of gaseous pollutants (e. g. benzene (C 6 H 6 ), carbon monoxide (CO), nitrogen oxides (NO x ), sulphur dioxide (SO 2 ) and volatile organic compounds (VOC)) along with the accompanying odours (Cetin et al 2003;McCoy et al 2010;Alonso-Hernández et al 2011), fly ashes and metalliferous particles are released into the atmosphere (Sánchez de la Campa et al 2011).…”

Section: Introductionmentioning

confidence: 98%

“…During the refining of crude oil and processing of its downstream products in petrochemical complexes, a variety of gaseous pollutants (e. g. benzene (C 6 H 6 ), carbon monoxide (CO), nitrogen oxides (NO x ), sulphur dioxide (SO 2 ) and volatile organic compounds (VOC)) along with the accompanying odours (Cetin et al 2003;McCoy et al 2010;Alonso-Hernández et al 2011), fly ashes and metalliferous particles are released into the atmosphere (Sánchez de la Campa et al 2011). Around the oil refinery in Mažeikiai, various investigations were conducted, mostly investigations on heavy metals in different medium, such as moss (Čeburnis et al 1997;Čeburnis et al 2002;Baltrėnaitė et al 2014), snow melt water and snow dust (Kadūnas et al 2005;Krastinytė et al 2013;Baltrėnaitė et al 2014), soil (Kadūnas et al 2005;Baltrėnaitė et al 2014) and pine bark (Baltrėnaitė et al 2014). But there are too little investigations on air quality (air composition) (Baltrėnas et al 2011) carried out near petrochemical complex of Mažeikiai.…”

Section: Introductionmentioning

confidence: 98%

Investigation of NO2 Behaviour in the Temperate Continental Climate Road Environment

Šerevičienė

Baltrėnas

Baltrėnaitė

et al. 2014

Water Air Soil Pollut

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During an extended period from 2010-2012 ambient air quality researches, concentration of nitrogen dioxide (NO 2 ) in the air was measured applying the passive method. In order to evaluate the spatial distribution of pollutants and the major sources, 12 sampling sites across the region were chosen. Additionally, the seasonal changes of this pollutant under different meteorological conditions (air temperature, humidity, wind speed and direction) were investigated. The long-term study showed 3.8 times higher NO 2 concentrations in the Mažeikiai urban area (24.2 μg m −3 ) as compared to other locations in the region (6.3 μg m −3 ). This confirms the assumption that the main source of NO 2 in this area is motor vehicle exhaust fumes. The analysis of the results obtained in different seasons showed a significant difference (p<0.05) in NO 2 concentrations under different meteorological conditions. The increase in NO 2 concentrations was recorded in the winter and late autumn seasons, due to reduced solar radiation and lower temperatures. Cluster analysis results showed that sampling sites can be grouped into different classes based on NO 2 main source, motor vehicles and traffic intensity.

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Analysis of snow-cap pollution for air quality assessment in the vicinity of an oil refinery

Cited by 18 publications

References 6 publications

Do moss bags containing devitalized Sphagnum denticulatum reflect heavy metal concentrations in bulk deposition?

Do moss bags containing devitalized Sphagnum denticulatum reflect heavy metal concentrations in bulk deposition?

Modelling the Balance of Metals in the Amended Soil for the Case of ‘Atmosphere–Plant–Soil’ System

Investigation of NO2 Behaviour in the Temperate Continental Climate Road Environment

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