Forthcoming articles

International Journal of Environment and Pollution

International Journal of Environment and Pollution (IJEP)

These articles have been peer-reviewed and accepted for publication but are pending final changes, are not yet published and may not appear here in their final order of publication until they are assigned to issues. Therefore, the content conforms to our standards but the presentation (e.g. typesetting and proof-reading) is not necessarily up to the Inderscience standard. Additionally, titles, authors, abstracts and keywords may change before publication. Articles will not be published until the final proofs are validated by their authors.

Forthcoming articles must be purchased for the purposes of research, teaching and private study only. These articles can be cited using the expression "in press". For example: Smith, J. (in press). Article Title. Journal Title.

Articles marked with this shopping trolley icon are available for purchase - click on the icon to send an email request to purchase.

Register for our alerting service, which notifies you by email when new issues are published online.

Open AccessArticles marked with this Open Access icon are freely available and openly accessible to all without any restriction except the ones stated in their respective CC licenses.
We also offer which provide timely updates of tables of contents, newly published articles and calls for papers.

International Journal of Environment and Pollution (24 papers in press)

Regular Issues

  • The leaching behaviour of Cu, Zn and Pb from waste printed circuit boards by [BSO4HPy]HSO4   Order a copy of this article
    by Mengjun Chen, Sha Zhang, Jiqin Wang, Bin Wang, Jinxiu Huang, Shu Chen 
    Abstract: Currently, researches are mainly focused on how to recycle valuable metals from waste printed circuit boards (WPCBs), but rarely against the toxic substances, such as zinc and lead, during the recycling process. In this research, the effect of zinc and lead during the process of leaching copper from WPCBs by an acidic ionic liquid, N-sulfobutylpyridinium hydrosulfate ([BSO4HPy]HSO4), was investigated in detail. Results showed that copper and zinc could be successfully leached out by [BSO4HPy]HSO4. When 1 g of 0.1-0.25 mm WPCBs powder was leached by 25 mL 80% (v/v) ionic liquid and 10 mL 30% hydrogen peroxide at 40 oC for 2 h, copper and zinc leaching rate could be up to 99.75% and 93.02%, respectively. The added amount of H2O2, the solid-liquid ratio and the temperature significantly impact the leaching rate of copper and zinc. On the contrary, the lead leaching rate is hardly influenced by these factors, maintaining at around 2%. Thus, during the leaching process, zinc could significantly influence the leaching of copper, which is totally different for lead. Leaching kinetics analysis indicated that the leaching of copper and zinc is controlled by solid film diffusion, and the leaching of lead is controlled by chemical reaction.
    Keywords: WPCBs; ionic liquid; copper; N-sulfobutylpyridinium hydrosulfate.

  • A meteorological discourse on extreme storm events driven by Asian slum emissions   Order a copy of this article
    by Sat Ghosh, Alan Gadian, Steve Dobbie, Arkayan Samaddar, Anuj Sharma, Pranav Chandramouli, Aditi Palsapure 
    Abstract: Increasingly the world over, climate modellers have suggested that local emissions may well affect cyclonic storms. The eastern coast of India, home to mega cities, is routinely battered by such storms over the period from October to December. Additionally, these cities house millions of slum dwellers who cook their meals from unseasoned firewood, yielding substantial amounts of biomass particles. These particles chemically age within a polluted air mass, rendering them active as cloud condensation nuclei (CCN). This first study shows the genesis, progression and evolution of one such tropical disturbance, Hurricane Thane, which was modulated by these transient emissions, devastating the coast of Tamil Nadu on 30 December 2011. We show that auto-conversion rates converting cloud water to rain water are significantly altered by up to 12% when such emissions are included. Carefully designed numerical experiments using the Weather Research and Forecasting (WRF) model show an increase of 20.5% in the cloud water amounts, when these effects are included. Emissions from Asian slums may well alter cyclonic activity elsewhere in South Asia. This study, using a state of the art numerical weather prediction model, indicates how local effects can be quickly obtained through offline modelling. In a nation of continental proportion where millions of underprivileged persons live close to the most vulnerable coastal locations, quick alerting mechanisms by local institutions with limited resources (Government Colleges and Engineering Institutes) may well form a support system linking ordinary citizens with the local coastguard for purposes of mass evacuation well in advance.
    Keywords: aerosols and particles; cloud physics and chemistry; pollution; urban and regional; precipitation.

  • The strategy for protecting threatened forest species richness in northeastern China from the effects of climate change   Order a copy of this article
    by Ji-Zhong Wan, Chun-Jing Wang, Shi-Jie Han, Li-Hua Wang, Jing-Hua Yu 
    Abstract: Climate change has the potential to severely threaten the plant species in the forests of northeastern China. The field surveys performed for this study spanned four years and identified the endangered species present in the forests of northeastern China. We conducted a detailed investigation of 2884 study plots and selected 29 nationally protected plant species (sample sizes ≥ 5), namely, threatened species for further analysis. We modelled and mapped the potential distributions of these 29 threatened species, and found that the species richness hotspots are currently distributed in the eastern and northeastern areas of the studied region and will move geographically. This study focused on the strategy for protecting threatened forest species richness by analysing the change trend of species richness and planning of PPAs due to climate change.
    Keywords: species richness; climate change; Maxent; zonation; nature reserve; forest plants.
    DOI: 10.1504/IJEP.2019.10021675
  • Biological denitrification and dephosphorization of a fixed bed reactor packed with long-term carbon release composite under magnetic field   Order a copy of this article
    by Shuchen Tu, Fengzhu Lv, Zilin Meng, Rui Zhang, Yihe Zhang 
    Abstract: A novel multiple-component carbon source mainly with hemp fibre (HF) and biodegradable polybutylene succinate (PBS) was prepared and filled into two fixed bed bioreactors to remove nitrate nitrogen and phosphorus from simulated groundwater. A 121 days monitoring indicates the denitrification and dephosphorisation of bacteria are influenced by temperature. But a magnetic field can decrease the influence. As the operation temperature was 30-36 oC, the average nitrate nitrogen and total phosphorus (TP) removal degree in reactor 1 (without electromagnetic field) was 91.05% and 71.34%, while nitrite remained at low levels (less than 0.2 mg/L). As a magnetic field was introduced, the average nitrogen and phosphorus removals were improved to 93.18% and 78.68%, respectively. Meanwhile, the average effluent concentration of chemical oxygen demand (COD), decreased from 51.2 mgL-1 to 30.8 mgL-1. The morphology and the biofilm attaching amount measurement indicated more bacteria were attached onto the composite and more composite was consumed correspondingly but inhomogeneously. These data show that a magnetic field could improve the growth of bacteria and their attachment onto the composites. The prepared composite is a long-term carbon-release material and the fabricated fixed bed reactors are high performance reactors for NO3-N removal.
    Keywords: denitrification; biofilm; magnetic field; carbon sources; water treatment.

  • Identification of dust transport patterns and sources by using MODIS: a technique developed to discriminate dust and clouds   Order a copy of this article
    by Zaibun Nisa, Salman Atif, Faheem Khokhar 
    Abstract: This study focuses on exploring the meteorological factors behind dust emergence and spread over Baluchistan in the post-monsoon season, as much of the existing research has been done on spring episodes. With the integration of remote sensing and meteorological methods, efforts were made to explore the relationship of dust storms with land-atmospheric conditions, such as surface temperature and aerosol optical depth (AOD) in the selected season. To map dust spatial distribution, a cloud-free product of Brightness Temperature Difference (BTD) composite from MODIS terra level 1B emissive bands were prepared and classified using the maximum likelihood technique. Two case studies of October 2004 and December 2011 exhibited the short-term cooling effect on the surface due to increased AOD. Dominant synoptic patterns of cold trough front formation with low-pressure centre development over eastern Iran were found as a significant feature of dust mobility towards warmer Baluchistan. Back trajectory analysis revealed that dust from south western Kazakhstan and eastern Europe converged over land of Kyrgyzstan and Tajikistan, which may have instigated its uplift over Helmand Basin. Evidence of a dominant effect of air masses from Middle East, Iran and Iraq was found in post-monsoon dust episodes.
    Keywords: dust transport; dust-enhanced composite; aerosol thickness; back trajectories; dust storm meteorology; Pakistan.

  • A Lagrangian dispersion model with a stochastic equation for the temperature fluctuations   Order a copy of this article
    by Andrea Bisignano, Enrico Ferrero, Stefano Alessandrini 
    Abstract: A new plume rise scheme for the Lagrangian stochastic model SPRAYWEB is developed and tested. The plume rise scheme is based on a stochastic differential equation for the potential temperature fluctuations coupled with the equations for the wind velocity fluctuation components. The new approach is tested against measured data from a water tank experiment (Weil et al., 2002). The results are discussed in term of statistical indices and scatter plots. For the sake of comparison, the new scheme performance is compared with the algorithm used in SPRAYWEB formerly proposed by Anfossi et al. (1993) which doesnt account for the temperature fluctuations. The results obtained with the novel plume rise scheme are generally satisfactory. A better agreement is found for the vertical standard deviation with respect to the results given by the Anfossi et al. (1993) scheme.
    Keywords: plume rise; Lagrangian stochastic dispersion model; buoyancy; temperature fluctuations.

  • A theoretical study on the mechanism and kinetic of toxic PCDDs destruction by OH radical   Order a copy of this article
    by Zhengcheng Wen, Shengji Li, Heping Li, Yuan Li 
    Abstract: The mechanism and kinetics of toxic PCDDs destruction by OH radicals is investigated in detail, employing quantum chemistry in this paper. Theoretical results show that OH radicals degrade toxic PCDDs via substituting chlorine at the 2,3,7,and 8 positions. The kinetic parameters of the reactions are also calculated by transition state theory. By comparison, the rate constant of OCDD destruction by OH is found to be in agreement with the experimental result, especially at 298 K. This indicates that the quantum chemistry study in this paper is reliable. The rate constant of 2,3,7,8-TCDD destruction is obviously lower than that of other toxic PCDDs. The reason is analysed and discussed by using NBO charge analysis. Owing to the effect of Cl atoms at 1,4,6,and 9 positions, Cl atoms at 2,3,7,and 8 positions have more positive charge. At aromatic rings, the more positive charge chlorine has, the easier chlorine is to be substituted. The quantum chemistry study can be believed to supply an important theoretical basis for the further investigation on the removal of toxic PCDDs by using the catalytic oxidation technology.
    Keywords: PCDDs; OH radical; quantum chemistry; destruction mechanism; kinetic parameters.

  • Complex analysis of heavy metals mobility in the soils of the border town of Blagoveshchensk (Far East, Russia)   Order a copy of this article
    by Valentina Radomskaya, Nina Borodina, Lyudmila Pavlova 
    Abstract: A comprehensive assessment of the degree of heavy metals mobility in the soils of Blagoveshchensk was carried out, based on research on heavy metals fractional composition and mathematical statistics of the analysis of the data obtained. It was shown that the majority of Cu, Cr, Ni, Co and Pb accumulates in residual fraction components and that Mn, Cd and Zn accumulate in Fe- and Mn-hydroxides and the residual fraction. Under the increased technogenic addition of Zn contaminants, Pb was fixed in soil due to unstable specific absorption, Cd due to specific absorption and in hydroxide fraction. Cu was bound to an organic fraction, and Cr, Co and Ni to organic and hydroxide fractions. In urban soils compared with background soil, there was increased potential for the mobility of Zn, Pb, Ni, Cu, Cr and Cd. Among the elements studied, Zn, Mn and Cd, whose potential mobility corresponds to a high level of danger, posed the greatest danger. For Pb, Ni and Co, there is moderate risk of inclusion in the food chain.
    Keywords: heavy metals; mobility; fractional composition; urban soils.

  • Urban emission inventory optimisation using sensor data, an urban air quality model and inversion techniques   Order a copy of this article
    by David Carruthers, Amy Stidworthy, Dan Clarke, Jo Dicks, Rod Jones, Ian Leslie, Olalekan Popoola, Martin Seaton 
    Abstract: An optimisation scheme has been developed that applies a Bayesian inversion technique to a high resolution (street-level) atmospheric dispersion model to modify pollution emission rates based on sensor data. The scheme minimises a cost function using a non-negative least squares solver. For the required covariance matrices assumptions are made regarding the magnitude of the uncertainties in source emissions and measurements and the correlation in uncertainties between different source emissions and different measurement sites. The scheme has been tested in an initial case study in Cambridge, UK, using monitored data from four reference monitors and twenty AQMesh sensor pods for the period, 30 June 2016 30 September 2016. Hourly NOx concentrations from road sources modelled using ADMS-Urban and observed concentrations were processed using the optimisation scheme and the adjusted emissions were re-modelled. The optimisation scheme reduced average road emissions on average by 6.5% compared to the original estimates, changed the diurnal profile of emissions and improved model accuracy at four reference sites.
    Keywords: inversion; optimisation; emissions; ADMS-Urban; sensors.

  • Independent analysis of time-varying hydrogen cyanide gas exposures on rats using toxic load-based modelling   Order a copy of this article
    by Alexander Slawik, James Silva, Kevin Axelrod, Jeffry Urban, Nathan Platt 
    Abstract: The US Defence Threat Reduction Agency (DTRA) sponsored a two-year set of experiments, conducted in 2012 and 2013, that were designed and executed by the US Armys Edgewood Chemical and Biological Center (ECBC) and the Naval Medical Research Unit Dayton (NAMRU-D) to explore time-varying inhalation exposures of hydrogen cyanide gas on rats. Our analysis, detailed in a separate paper, finds that a single set of fitted parameters for the toxic load model (i.e., the toxic load exponent n, probit slope m, and median lethal exposure TL50) cannot accurately model the single exposure experimental data across the experiments full range of time from 2.3 to 30 minutes but can on the longer timescales of 10 to 30 minutes. However, none of the toxic load models that we considered fit the experimental data for the novel, time-varying exposures well, with the Average Concentration and Griffiths-Megson models providing the least inaccurate casualty predictions.
    Keywords: casualty assessment; consequence assessment; Haber’s law; toxic load modelling.

  • Rising environmental awareness in Central Asia: an empirical study from Nursultan, Kazakhstan   Order a copy of this article
    by Ferhat Karaca, John Machell, Ali Turkyilmaz, Dina Kaskina, Kamshat Tussupova 
    Abstract: This paper is the first comprehensive study to assess public environmental awareness on drinking water, household waste management practices, urban air quality, and other environmental issues in Kazakhstan. It aims to assess the findings of an investigation into public environmental awareness within the local society in Nursultan (formerly known as Astana), the capital city of Kazakhstan, and defines major environmental problems, as perceived by the public, using a survey-based research methodology. A series of crossover assessments were carried out to evaluate the level of public awareness on the major environmental issues. Almost a quarter of the respondents stated that they have already begun waste separation, even though there is no penalty system if the waste is not separately collected or recycled. Almost all the respondents agreed that hazardous substances should be treated separately from other waste types. It was also found that the public perception of tap water quality is strongly related to personal experiences, which correspondingly influences the use of tap water as drinking water. As a result of the perceived water quality, bottled water is the preferred alternative drinking water option among the householders. As for peoples perception regarding the major sources of air pollution in their cities, half of respondents, 50%, recognised motor vehicles as the main cause of pollution. Industrial sources, waste disposal, and power plants were considered as other contributors with 35%, 11%, and 11%, respectively.
    Keywords: environmental awareness; waste management; household waste; drinking water; water quality; urban air quality; Kazakhstan.

Special Issue on: Challenges in the Development of Large-scale Pollution Models

  • Urban areas parameterisation for CFD simulation and cities air quality analysis.   Order a copy of this article
    by Maria Grazia Badas, Luca Salvadori, Michela Garau, Giorgio Querzoli, Simone Ferrari 
    Abstract: The aim of this work is to highlight the importance of a site-specific characterisation of urban areas needed for Computational Fluid Dynamics (CFD) simulations and urban air quality studies. As a case study, we consider Cagliari, an Italian town, whose heterogeneous urban form can be representative of many European historical towns, quite different from large American cities that are generally analysed in the literature. Basic steps needed to compute the main morphometric and fluid dynamics parameters from Digital Elevation Models (DEM) are reviewed and some possible caveats on using gridded DEM analysis are highlighted. Results show how site-specific analysis provides quite different parametrisations from those obtained by literature results, which cannot be transposed to other urban contexts. Morphometric site-specific analysis represents a key issue in urban numerical simulations, since the application of non-representative morphometric input data may dramatically affect their results.
    Keywords: morphometric parameters; urban aerodynamic roughness; urban canopy model.
    DOI: 10.1504/IJEP.2020.10022368
  • On convergence of difference schemes for Dirichlet IBVP for two-dimensional quasilinear parabolic equations   Order a copy of this article
    by Piotr Matus, Dmitriy Poliakov, Dorota Pylak 
    Abstract: For the Dirichlet initial boundary value problem (IBVP) for two-dimensional quasilinear parabolic equations, a monotone linearised difference scheme is constructed. The uniform parabolicity condition is assumed to be fulfilled for the sign-alternating solution only in the domain of exact solution values (unbounded nonlinearity). On the basis of the proved new corollaries of the maximum principle not only two-sided estimates for the approximate solution y but also its belonging to the domain of exact solution values are established. We assume that the solution is continuous and its first derivatives have discontinuities of the first kind in the neighborhood of the finite number of discontinuity lines. An existence of a time derivative in any sense is not assumed. Convergence of the approximate solution to a generalized solution of differential problem in the grid norm L2 is proved.
    Keywords: difference schemes ; generalised solution ; initial boundary valuernproblem ; 2D quasilinear parabolic equation ; unbounded nonlinearity ; two-sided estimates.

  • The treatment method of general heat treatment of waste water from metal manufacturing based on photocatalysis   Order a copy of this article
    by Ning Qiu 
    Abstract: Photocatalytic treatment of emulsified waste liquid after pretreatment is carried out using TiO2 as catalyst, and the influence of crystal structure, particle size, amounts of catalyst and the initial pH value on the removal ratio of the chemical oxygen demand (COD) are studied. The results show that in the conditions that 0.5% quality point, P25-1 photocatalyst, 6.5 pH value and 90 min processing, the treatment effect is most ideal.
    Keywords: heat treatment cleaning; emulsion; photocatalysis; post-treatment.

  • Assaying SARIMA and generalised regularised regression for particulate matter PM10 modelling and forecasting   Order a copy of this article
    by Snezhana Gocheva-Ilieva, Atanas Ivanov 
    Abstract: Two different predictive modelling approaches classical SARIMA time series methodology and the new Generalized PathSeeker (GPS) regularized regression method - supported by stochastic gradient boosting trees, RuleLearner and other data mining techniques, are used to examine the concentration of particulate matter PM10 in the town of Kardzhali, Bulgaria. Empirical models are developed to simulate and forecast pollution levels based on hourly PM10 data from 1 January 2011 to 28 February 2014 in dependence on six meteorological variables. The constructed models have been used for 5-days-ahead hourly forecasts, compared with actual data from 1 to 5 March 2014. The obtained SARIMA and GPS models fit very well to historical data with coefficients of determination R2 = 90% and 82%, and root mean square error RMSE = 0.114 and 0.151, respectively. But in forecasting GPS models outperform SARIMA approach. This could be explained by the preliminary classification provided by the data mining techniques and cross-validation procedure.
    Keywords: air pollution; particulate matter PM10; seasonal ARIMA; generalised PathSeeker regularised regression; stochastic gradient boosting; data mining; forecasting.

  • An approach for selection of solid waste disposal site by rapid impact assessment matrix and environmental performance index analysis   Order a copy of this article
    by Nekram Rawal 
    Abstract: The selection of a suitable landfill site for disposal of municipal solid waste is an important challenge for the engineered system. The physical, biological, sociological and economic aspects should be examined with the aim to measure the overall impact of the waste disposal issues before the selection of an appropriate landfill site. In this study, the selection procedure of appropriate landfill site among four landfill sites, i.e Kareli, Alopibagh, Phaphamau and Ganja landfill sites for disposal of waste in Allahabad (India) is highlighted. A questionnaire comprising physical/chemical, biological/ecological, social/cultural and economic/operational aspects was prepared. A survey was conducted among the residents and local public residing near all four landfill sites. The responses were analysed with the Rapid Impact Assessment Matrix (RIAM) tool to quantify the intangible effects in terms of environmental score. The results were used to compare the cumulative impacts in a rational manner. Environmental Performance Index (EPI) was computed for all four sites to intelligibly ascertain the efficacy of the systems/methodologies involved in the solid waste disposal facility. The results revealed that Ganja landfill site was the best site compared with the Kareli, Alopibagh and Phaphamau landfill sites. The EPI of four sites, viz., Kareli, Alopibagh, Phaphamau and Ganja, were -110.315, -123.541, 98.867 and -54.586, respectively. The EPI of all the four sites had negative values indicating that these are not appropriate for landfilling or dumping.
    Keywords: municipal solid waste; waste disposal; rapid impact assessment matrix; environmental score; environmental performance index.

  • Advanced algorithms for studying the impact of climate changes on ozone levels in the atmosphere   Order a copy of this article
    by Istvan Farago, Zahari Zlatev, Ivan Dimov, Agnes Havasi, Krassimir Georgiev 
    Abstract: The problem caused by the rapid climate changes is very challenging for modern society. The steady increase of the global temperature, especially in the Arctic areas, has different consequences. Most of them are at least potentially dangerous. Some aspects of the impact of the increased temperature on some pollution levels, which could be harmful for some groups of human beings (primarily for people suffering from asthmatic diseases) has been studied by developing climate scenarios and by running them over a period of 16 consecutive years. The mathematical model used in the experiments is a system of nonlinear partial differential equations (PDEs) and the space domain contains the whole of Europe together with some of its surroundings. Difficult computational problems will arise after the direct discretisation of the spatial derivatives, because this results in huge systems of linear algebraic equations, containing often hundreds of millions of equations, which have to be handled numerically during many time-steps for each of the selected scenarios and for each of the chosen years. The enormous computational problems can be treated successfully only by resolving simultaneously five important tasks. More precisely, it is necessary (a) to apply accurate and efficient numerical algorithms, (b) to select an appropriate splitting procedure, (c) to develop parallel codes, (d) to use high-speed computers in the runs, and (e) to exploit as well as possible the cache memories of the available parallel computer. Selected numerical results will be presented in this paper in order to illustrate both the fact that the developed code is efficient and the fact that the future climate changes will result in consistent increase of some pollution levels.
    Keywords: large-scale environmental models; systems of non-linear PDEs; numerical algorithms; splitting techniques; parallel codes; high-speed computers; climate changes; ozone levels; damaging effects.

  • Applying WRF-CMAQ models for assessment of sulphur and nitrogen deposition in Bulgaria for the years 2016 and 2017   Order a copy of this article
    by Dimiter Syrakov, Maria Prodanova, Emilia Georgieva, Elena Hristova 
    Abstract: Wet, dry and total depositions of sulphur (S) and nitrogen (N) in Bulgaria are simulated on an annual and seasonal basis for the years 2016 and 2017 using WRF-CMAQ (9 km grid resolution). The mean annual values for wet depositions are about 1300 kg km-2, the dry depositions are slightly lower for S and significantly lower for N (180 kg km-2). The highest modelled wet depositions are in the western and south-western part of the country, and the highest dry depositions are in the northern and eastern parts. The comparison for the wet depositions at three sites with precipitation chemistry data indicates overestimation. A precipitation bias adjustment applied to the modelled depositions results in decrease of the normalised mean bias by a factor of 3. Comparison with modelled deposition data from literature for this region of the country is also provided.
    Keywords: depositions; WRF-CMAQ; precipitation chemistry; Bulgaria; comparison; bias adjustment.

  • Analysis of regional climate model simulations for Central Europe as a potential tool to assess weather-related air quality conditions   Order a copy of this article
    by Ildiko Pieczka, Rita Pongracz, Csilla Peline Nemeth, Timea Kalmar 
    Abstract: Potentially adverse air quality is discussed in the present paper via its relation with wind conditions and boundary layer thickness. The main goal of the study is to evaluate different RegCM simulations (using two different model versions) for the 1981-1990 period, driven by either reanalysis data or global climate models output. For the validation purpose, wind speed, temperature, planetary boundary layer (PBL) height, and a derived index, the so-called Holst stagnation index are analysed and compared with the reference data. According to the results, wind is overestimated throughout the year, temperature is overestimated in the plain areas, whereas it is underestimated in the mountains. The height of the PBL is generally overestimated, and substantial differences are identified between RegCM4.5 and RegCM4.3 simulations. Consequently, these result in the substantial underestimations of the Holst stagnation index, and the frequency of potential adverse air quality, although the annual cycles are reproduced well. In order to prepare reliable projections, newer RegCM model versions and/or different model setups must be further tested as to whether they are able to reproduce past meteorological conditions related to air quality. We found potential in using a different PBL parameterisation scheme instead of the previously widely used Holtslag scheme.
    Keywords: planetary boundary layer; wind; Holst stagnation index; RegCM; regional climate model; validation; air pollution; Carpathian Basin; Central Europe.

  • Current trends in nanotechnology for bioremediation   Order a copy of this article
    by Stephen Rathinaraj Benjamin, Fabio De Lima, Eridan Orlando Pereira Tramontina Florean, Maria Izabel Florindo Guedes 
    Abstract: Nanotechnology is an emerging field to produce nano-scale products with more efficient reactivity and larger surface area than the bulk phase. These unique attributes of nanoparticles offer immense potential for their application to clean up sites contaminated with petroleum hydrocarbons, pesticides, and metals. Compared with the conventional physicochemical methods of remediation of contaminated sites, bioremediation has been drawing increasing attention owing to its economic, eco-friendly and self-propelling attributes. Nanoparticles (NPs) can be applied directly for removal of organic contaminants through adsorption or chemical modification. They can also serve as a facilitator in microbial remediation of contaminants either by immobilising or through the induced production of remediating microbial enzymes. The present review provides an overview of different types of nanotechnology with biological and plant-based bioremediation approaches.
    Keywords: bioremediation; nanotechnology; genetic engineering; recombinant DNA technology.
    DOI: 10.1504/IJEP.2020.10023170
  • Assessment of fluoride hazard in groundwater of Palghat District, Kerala: a GIS approach   Order a copy of this article
    by Thangavelu Arumugam, R. Prabitha, K. Sapna 
    Abstract: Groundwater is a dynamic and replenishable natural resource all over the Earth's surface. Groundwater moves downward due to the pull of gravity and it can also move up because it will flow from higher pressure areas to lower pressure areas. The rate of groundwater flow is controlled by two properties of the rocks present: the porosity and the permeability. Generally, the groundwater quality depends on the quality of recharged water, atmospheric precipitation, inland surface water and subsurface geochemical processes. Fluoride contamination of groundwater is a growing problem in many parts of the world. The major sources of fluoride in groundwater are fluoride-bearing minerals, such as fluorspar, cryolite, fluorapatite and hydroxylapatite, in rocks. The problem of high fluoride concentration in groundwater resources has now become one of the most important toxicological and geo-environmental issues in India.
    Keywords: groundwater; fluoride; GIS; IDW; statistical analysis.

  • Global climate-driven effects on urban air pollution simulations using very high spatial resolution   Order a copy of this article
    by Roberto San Jose, Juan L. Perez, Libia Perez, Rosa M. Gonzalez 
    Abstract: The city's response to future climate scenarios is an important issue to which this study contributes an attempt to improve the understanding of the relationships between climate and air quality in urban areas. A dynamic downscaling tool has been implemented that uses global climate data with 1
    Keywords: dynamical downscaling; CFD; climate scenario; air pollution.

Special Issue on: HARMO 18 Harmonisation within Atmospheric Dispersion Modelling for Regulatory Purposes

  • Application of degree-day factors for residential emission estimates and air quality forecasting   Order a copy of this article
    by Maciej Kryza, Małgorzata Werner, Anthony Dore 
    Abstract: Results of air quality modelling are strongly influenced by the emission inventory that is used for modelling. This is related both to spatial and temporal allocation of emission. In Poland, the share of residential combustion in total emission of PM2.5 and PM10 is very large, and the temporal profile of emission from this sector is strongly influenced by meteorological conditions (mainly air temperature). In this work, we show the performance of the WRF-Chem model forecasts, running for the area of Poland with two different approaches to temporal distribution of emission from residential combustion. For the first run, emissions are distributed temporally using the monthly, daily and hourly emission factors provided by the GENEMIS project (base run). For the second run, the model uses the heating degree-day (HDD) factors approach for SNAP sector 2 (residential combustion). The forecasts cover the period 11.02.2017-25.02.2017, during which poor air quality was observed at the beginning of the period, followed by unusually warm days with lower concentrations of pollutants. We show that both approaches result in similar model performance for both PM10 and PM2.5. However, the HDD approach leads to better forecasts for the warm days, whereas the base run forecasts often show too high concentrations of atmospheric pollutants for such periods. The mean bias is reduced for the warm period from 2.89 and 2.45 (PM10 and PM2.5 respectively) for the baserun to -2.03 and -1.18 for the HDD run. Correlation coefficients increase from 0.48 to 0.51 for PM10 and from 0.59 to 0.62 for PM2.5.
    Keywords: air quality forecasts; particulate matter; residential combustion; Poland.

Special Issue on: Dioxins, Sources and Effects, Formation and Abatement

  • GC-HRMS analysis for POPs and new POPs with GC-Tof/MS techniques
    by Takumi Takasuga 
    Abstract: .
    Keywords: .