We discuss waste, fuels, and air quality with Prof. Czesława Rosik-Dulewska from the PAS Institute of Environmental Engineering and the Department of Land Protection at the University of Opole.

Air quality and climate change, as two crucial environmental emergencies confronting our societies, are still generally viewed as separate problems requiring different research and policy frameworks. However, they should rightfully be viewed as two sides of the same coin. What we truly need to seek, therefore, are “win-win” solutions.

At present. when high particulate matter (PM) concentrations in ambient air cause thousands o Ipremature deaths in Europe and global climate change is becoming the most critical issue in environmental protection, the state-of-the-science air quality and climate models constitute an essential research as well as decision support tools. Recently the great progress has been achieved in this research area. The present paper presents the goals and tools lor Air Quality (AQ) Modeling, and gives overview of' current challenges. including the meteurological. chemistry and climate modeling. The main emphasis is given to the regulatory and the Eulerian grid models. the latter arc currently operating as so called off-line or on-line modeling systems. The issues conncctccl with model implementation and validation is presented as well. finally, the conclusions arc drawn and rccornmcndations lor further development and integration ofAQ and climate modeling in Poland arc presented.

The paper investigates the air quality in the urban area of Warsaw, Poland. Calculations are carried out using the emissions and meteorological data from the year 2012. The modeling tool is the regional CALMET/CALPUFF system, which is used to link the emission sources with the distributions of the annual mean concentrations. Several types of polluting species that characterize the urban atmospheric environment, like PM10, PM2.5, NOx, SO2, Pb, B(a)P, are included in the analysis. The goal of the analysis is to identify the most polluted districts and polluting compounds there, to check where the concentration limits of particular pollutants are exceeded. Then, emission sources (or emission categories) which are mainly responsible for violation of air quality standards and increase the adverse health effects, are identified. The modeling results show how the major emission sources – the energy sector, industry, traffic and the municipal sector – relate to the concentrations calculated in receptor points, including the contribution of the transboundary inflow. The results allow to identify districts where the concentration limits are exceeded and action plans are needed. A quantitative source apportionment shows the emission sources which are mainly responsible for the violation of air quality standards. It is shown that the road transport and the municipal sector are the emission classes which substantially affect air quality in Warsaw. Also transboundary inflow contributes highly to concentrations of some pollutants. The results presented can be of use in analyzing emission reduction policies for the city, as a part of an integrated modeling system.

The accession of Poland to the European Union involved the need or regional air quality assessment and brought radical change in requirements towards the sottware tools used for assessment purposes. According to Polish law, a zone is an agglomeration o rover 250 000 inhabitants, or a poviat (second level or local government administration in Poland), or a group of poviats, and assessment should consider both global and regional inllow or pollutants as well as the impact of local emission sources and significant sources in a voivodeship. These requirements have imposed a model range of over 250 km. Following an analysis or different models operating all over the world, the CALPUFF model together with the CALMET meteorological processor was chosen to be implemented in air quality assessment systems in Polish zones. This paper presents the results or model calculations performed within the air quality assessment in Mazowieckie voivodeship as well as compares them with the measurements obtained at automatic air monitoring stations.

This paper comprehensively presents key issues in design of an original optoelectronic measurement device built to assess amount of suspended particulate matter. The paper is introduced with a short explanation of concerns with a suspended particulate matter, what role it has in the air quality and how it affects health of human population. Then, problems of construction of the measurement device supported by a theoretical explanation on the basis of Mie theory are discussed. Subsequently, it is followed by an analysis of the device operation both in laboratory and in real conditions. Results obtained with the presented device are compared with the professional measurement equipment and an expensive, outdoor measurement station. Paper is concluded with observations of differences in spatio-temporal PM change at very close but significantly different city locations.

People spend most of their time in indoor environments and, consequently, these environments are more significant for the contribution of the daily pollutant exposure than outdoors. In case of children, a great part of their time is spent at school. Therefore, evaluations of this microenvironment are important to assess their time-weighted exposure to air pollutants.

The aim of this study was to assess the children exposure to bioaerosols at schools from two different types of areas, urban and rural. A methodology based upon passive sampling was applied to evaluate fungi, bacteria and pollens, simultaneously with active sampling for fungi and bacterial assessment. Results showed very good correlations between sampling methods, especially for summer season. Passive sampling methodologies presented advantages such as no need of specific and expensive equipment, and they allow achieving important qualitative information.

The study was conducted in different periods of the year to study the seasonal variation of the bioaerosols. Fungi and pollen presented higher levels during the summer time whereas bacteria did not present a seasonal variation. Indoor to outdoor ratios were determined to assess the level of outdoor contamination upon the indoor environment. Levels of fungi were higher outdoor and bacteria presented higher concentrations indoors.

Indoor levels of bioaerosols were assessed in primary schools of urban and rural areas, using the active method along with a passive sampling method. Very good correlations between methods were found which allow the use of the passive sampling method to supply important and reliable qualitative information of bioaerosols concentrations in indoor environments. Seasonal variation in bioaerosols concentrations were found for fungi and pollen. Concentrations of fungi and bacteria above AMV (Acceptable Maximum Value) were found for most of the studied classrooms showing the importance of this microenvironment for the high exposure of children to bioaerosols.

Products of Gaussian noises often emerge as the result of non-linear detection techniques or as parasitic effects, and their proper handling is important in many practical applications, including fluctuation-enhanced sensing, indoor air or environmental quality monitoring, etc. We use Rice’s random phase oscillator formalism to calculate the power density spectra variance for the product of two Gaussian band-limited white noises with zero-mean and the same bandwidth W. The ensuing noise spectrum is found to decrease linearly from zero frequency to 2W, and it is zero for frequencies greater than 2W. Analogous calculations performed for the square of a single Gaussian noise confirm earlier results. The spectrum at non-zero frequencies, and the variance of the square of a noise, is amplified by a factor two as a consequence of correlation effects between frequency products. Our analytic results are corroborated by computer simulations.

The influence of the CO₂ concentration in a local air zone in naturally ventilated residential houses on the residents’ behaviour was numerically investigated. A numerical two-dimensional CFD model of the indoor zone based on experiments performed by the authors was used. Different resident locations in the fluid domain and different inlet velocities imposed by wind were considered in simulations. The overall thermal comfort and IAQ indices were also calculated. The investigations results show that in contrast to the overall air quality, the local CO₂ was strongly dependent upon the resident location, fresh air inlet velocity and ventilation system type.

Air quality in Warsaw is mainly affected by two classes of internal polluting sources: transportation and municipal sector emissions, apart from external pollution inflow. Warsaw authorities prepared strategies of mitigating emissions coming from both these sectors. In this study we analyze effects of the implementation of these strategies by modeling air pollution in Warsaw using several mitigation scenarios. The applied model, operating on a homogeneous discretization grid, forecasts the annual average concentrations of individual pollutants and the related population health risk. The results reveal that the measures planned by the authorities will cause almost 50% reduction of the residents’ exposure to NOx pollution and almost 23% reduction of the exposure to CO pollution due to the transport emissions, while the residents’ exposure reductions due to the municipal sector are 10% for PM10, 15% for PM2.5, and 26% for BaP. The relatively smaller reductions due to municipal sector are connected with high transboundary inflow of pollutants (38% for PM10, 45% for PM2.5, 36% for BaP, and 45% for CO). The implementation of the discussed strategies will reduce the annual mean concentrations of NOx and PM2.5 below the limits of the Ambient Air Quality Directive. Despite the lower exposure reduction, the abatement of municipal sector emissions results in a very significant reduction in health risks, in particular, in the attributable mortality and the DALY index. This is due to the dominant share of municipal pollution (PM2.5 in particular) in the related health effects.

Levels and distribution of selected polybrorninated diphenyl ether congeners in dust samples taken from different indoor environments in Lublin, South-Eastern Poland, are reported. The most abundant congeners, found in the majority of sampling sites, were BOE 47, 100 and 28, respectively. The highest levels of examined congeners were observed in dust samples taken from a computer repair facility and labs. BOE 47, 99 and 100, occurring at highest levels and having the greatest contribution confirm that in Polish indoor environments polymer products contain Penta - BOE technical mixture.

The article discusses the issues of values and social responsibility of universities. On the one hand, the foundations of functioning of universities, which are created by research and education and the role of universities in formation, are recalled. On the other hand, it was reminded that the heart of universities, their DNA, are academic values, defined primarily in the Magna Charta Universitatum, but also in many other documents, such as the Code of Values of the Jagiellonian University. Hence, universities are increasingly often referred to not only as universities of knowledge, but also as universities of wisdom. Together, they are the basis for the social responsibility of universities. However, they alone are not enough for this social responsibility to materialise. Appropriate behaviour and actions are essential. Because knowledge alone is not everything. Such actions are always necessary, but especially when we find ourselves, as a country, humanity and a planet, in a crisis situation related to the climate disaster, which we are already partially experiencing. After the presentation of the most important current facts related to the climate and environmental crisis, the tasks to be undertaken urgently in this context by universities were presented, from broadly understood education, through convincing politicians to ambitious and quick actions, to intensive work on innovative solutions that can contribute to reducing threats brought by the climate and environmental crisis, pointing out, among others, the initiatives proposed by the newly created network of universities U7.