Search

Your search keyword '"Touraj Nasrabadi"' showing total 22 results
Start Over Author "Touraj Nasrabadi" Topic environmental chemistry
22 results on '"Touraj Nasrabadi"'

4. Dilution of PAHs loadings of particulate matter in air, dust and rivers in urban areas: A comparative study (Tehran megacity, Iran and city of Tübingen, SW-Germany)

Author

Seyed Hossein Hashemi, Peter Grathwohl, Marc Schwientek, Touraj Nasrabadi, Hermann Ruegner, and Ali Ghadiri

Subjects
Sand mining, Air Pollutants, Environmental Engineering, Desert climate, Dust, Iran, Particulates, Risk Assessment, Pollution, humanities, Dilution, Megacity, Congener, Rivers, Environmental chemistry, Environmental Chemistry, Environmental science, Aeolian processes, Particle, Particulate Matter, Polycyclic Aromatic Hydrocarbons, Waste Management and Disposal, Environmental Monitoring
Abstract

PAHs (polycyclic aromatic hydrocarbons) in urban areas are usually bound to particles. Concentrations are different in different compartments (airborne particles, street dust, suspended sediments in rivers and channels). This study follows concentrations of PAHs from particles in air to street dust and finally suspended sediments in the city of Tehran, Iran compared to Tubingen, Germany. Data sets are based on own investigations (PAHs on suspended sediments), or taken from literature studies (PAHs in street dust and airborne particles). Based on a cross-comparison of concentrations of PAHs on particles, and their congener distribution patterns, the occurrence, interrelation (exchange and mixing processes), as well as possible dilution processes among PAHs in the different particle classes are disentangled. Results show that for Tehran and Tubingen PAHs in airborne particles are very high (in the range of 500 mg kg−1). However, in street dust and suspended sediments PAHs concentrations on particles are around 100 times lower. Surprisingly concentrations in street dust and suspended sediments are 5 to 10 times lower in Tehran (average 0.5 mg kg−1) than in Tubingen (average 5 mg kg−1). Since it is unlikely that PAHs emissions are lower in the Tehran megacity, an effective dilution of the atmospheric signal by uncontaminated (background) particles is hypothesized. Uncontaminated particles may stem from wind erosion of bare surfaces, construction and sand mining sites or even dust from the desert areas, which are frequent in arid climate in Tehran.

Published
2022
Full Text
View/download PDF

5. Investigating the pattern of soil metallic pollution in urban areas (case study: a district in Tehran city)

Author

Touraj Nasrabadi, Abdolreza Karbassi, N. Eghbal, and Lobat Taghavi

Subjects
Pollution, geography, Cadmium, Environmental Engineering, geography.geographical_feature_category, Soil test, media_common.quotation_subject, chemistry.chemical_element, 010501 environmental sciences, Contamination, 01 natural sciences, Sink (geography), chemistry, Environmental chemistry, Environmental Chemistry, Ecotoxicology, Environmental science, Dominance (ecology), General Agricultural and Biological Sciences, Enrichment factor, 0105 earth and related environmental sciences, media_common
Abstract

Exposure to toxic metals has been increased during recent decades, especially in megacities where various anthropogenic sources discharge loads of pollution to overcrowded urban districts. Soil as a simultaneous sink and source of metallic pollution is considered as an optimum media for monitoring such pollution. In this study, 41 surface soil samples were collected from a district in south of Tehran megacity. Despite determination of bulk metal concentrations (Ni, Cu, Cr, Zn, Co, Cd, Pb Mn, Fe, Ca and Na), a single-step extraction scheme was used for determination of anthropogenic portions. Enrichment factor and geo-accumulation (Igeo)/pollution (Ipoll) indices were calculated to estimate the enrichment class and degree of contamination, respectively. Except for Cd and Pb, other toxic metals showed no or negligible exceedance of reference values. Descending order of anthropogenic contribution from bulk metal concentrations was detected to be as: Cd > Pb > Mn > Cr > Zn > Co > Cu > Ni. Cadmium and lead were detected by all three indices to be in extreme and moderate/significant classes. Relatively high concentrations of Na were attributed to intense salt spraying for streets deicing during winter time when sampling occurred, while Ca concentrations were justified by geogenic source mainly dominance of limestones (dolomites). A prompt decision should be made to avoid further exposure of metals of concern to citizens in this overcrowded district of Tehran megacity.

Published
2018
Full Text
View/download PDF

6. Evaluating the main sources of groundwater pollution in the southern Tehran aquifer using principal component factor analysis

Author

Hooman Ghahremanzadeh, Roohollah Noori, Akbar Baghvand, and Touraj Nasrabadi

Subjects
Pollution, Environmental Engineering, media_common.quotation_subject, 0208 environmental biotechnology, Sewage, Aquifer, 02 engineering and technology, 010501 environmental sciences, 01 natural sciences, Geochemistry and Petrology, Metals, Heavy, Groundwater pollution, Environmental Chemistry, Groundwater, Effluent, 0105 earth and related environmental sciences, General Environmental Science, Water Science and Technology, media_common, Hydrology, Principal Component Analysis, geography, geography.geographical_feature_category, business.industry, Agriculture, General Medicine, Hydrogen-Ion Concentration, Total dissolved solids, 020801 environmental engineering, Environmental science, Water quality, Water Microbiology, business, Water Pollutants, Chemical
Abstract

Determining the main sources of pollution (MSP) in groundwater is crucial to improve water quality (WQ) status. Field studies were conducted in this research, where five sampling campaigns were carried out from 36 wells in the southern Tehran aquifer. In all samples, WQ parameters were measured and evaluated regarding the Iranian drinking water standard (IDWS). Finally, by using the principal component factor analysis (PCFA), the probable MSP in the aquifer were determined. The results showed that all ions, total hardness, and total dissolved solids were above the IDWS. To analyze the PCFA results, only the first four of twenty rotated principal factors (RPFs) that conserved a high percentage of the variance of the data (about 90%) were considered. The results of the first PRF revealed that the geological structure was the MSP in the aquifer. Furthermore, the second RPF was mainly affected by nutrients (nitrate and orthophosphate) and microbial parameters (fecal and total coliforms), indicating the importance of agricultural activities and sewage effluents as another MSP in the aquifer. Finally, the remarkable share of heavy metals and pH in formation of the third and fourth RPFs, respectively, reflected the role of industrial activities as a probable MSP of groundwater.

Published
2017
Full Text
View/download PDF

7. Using total suspended solids (TSS) and turbidity as proxies for evaluation of metal transport in river water

Author

Marc Schwientek, Z.Z. Sirdari, Hermann Ruegner, Touraj Nasrabadi, and Peter Grathwohl

Subjects
Pollutant, Sand mining, Hydrology, Cadmium, geography, Suspended solids, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Drainage basin, chemistry.chemical_element, Sediment, 010501 environmental sciences, 01 natural sciences, Pollution, chemistry, Geochemistry and Petrology, Environmental chemistry, Environmental Chemistry, Environmental science, Turbidity, 0105 earth and related environmental sciences, Total suspended solids
Abstract

The present study was carried out in Haraz basin (Iran) that is located in south of the Caspian Sea. The goal of this study was to establish correlations amongst total suspended solids concentration (TSS) and turbidity with total pollutant concentrations to evaluate the dissolved and particle-bound concentrations of major toxic metals. It also aimed to validate TSS and/or turbidity measurements as proxies to monitor pollutant fluxes. Eight metals, namely nickel, lead, cadmium, copper, zinc, cobalt, arsenic and strontium were analyzed for dissolved and total concentrations in water at ten locations within the catchment. TSS and turbidity were also measured. Sampling campaigns were designed to cover both the rainy (December) and the dry (May) season within the basin. The robust relationship between TSS (202–1212 mg/l) and turbidity (63–501 NTUs) in both seasons warranted their interchangeable potential as proxies within the observed ranges. Total element concentrations were plotted in separate attempts versus TSS and turbidity for all locations and both events. Very good linear correlations were attained where the slopes represent the metals concentration on suspended solids and the intercept the dissolved concentration in water. The results achieved by these linear regressions were in very good agreement with independently measured values for dissolved concentration and concentrations on river bed sediments taken at the same locations. This demonstrates that turbidity and/or TSS measurements may be used for monitoring of metal loads if once calibrated against total concentration of metals. The results also revealed that in the lower Haraz catchment metal concentrations on suspended and river bed sediment were homogeneously distributed along the investigated river stretch. This is assumed to be due to intensive gravel and sand mining activities in the upper and middle part of the catchment.

Published
2016
Full Text
View/download PDF

8. The role of the estuarine zone on the river particulate toxicity

Author

Abdolreza Karbassi, Ali Marefat, and Touraj Nasrabadi

Subjects
Pollution, Geologic Sediments, Health, Toxicology and Mutagenesis, media_common.quotation_subject, 010501 environmental sciences, Iran, 01 natural sciences, Rivers, Desorption, Metals, Heavy, Environmental Chemistry, Ecotoxicology, Cluster Analysis, Trace metal, Seawater, 0105 earth and related environmental sciences, media_common, geography, geography.geographical_feature_category, Chemistry, Sediment, Estuary, General Medicine, Particulates, Oxygen, Environmental chemistry, Caspian Sea, Particulate Matter, Adsorption, Absorption (chemistry), Estuaries, Oxidation-Reduction, Water Pollutants, Chemical, Environmental Monitoring
Abstract

Annually, a great volume of sediment and suspended particulate matters (SPMs) enters into the seas through estuaries. In the estuarine zone, metals present in SPMs may undergo conservative or non-conservative changes. In the present study, oxidation-reduction potential (ORP) as the most complex chemical parameter of open sea water and its relationship with the behavior of t metals in the estuarine area were investigated. Dissolved oxygen was used as a strong oxidant to increase the ORP. According to the absorption and desorption experiment, Mn and Cu are desorbed from SPMs during estuarine mixing. However, Zn and Pb are absorbed into the SPMs. In addition, the analysis results were indicative of the conservative behavior of Ni. The results of the three-step chemical partitioning of the SPMs revealed that Mn and Cu are desorbed from the SPMs physically, whereas Zn is absorbed into the SPMs chemically. Also, results showed that Pb is physically desorbed from the SPMs, while it is absorbed into SPMs chemically. All metals, except for Ni and Zn, whose reactions with the SPMs are not affected by an increase in the ORP, are affected by the escalation of this parameter.

Published
2018

9. Analyzing the quantitative risk and hazard of different waterborne arsenic exposures: case study of Haraz River, Iran

Author

N. Shirani Bidabadi, S. Solgi, Touraj Nasrabadi, M. Tajik, P. Abbasi Maedeh, and Z. Z. Sirdari

Subjects
Pollution, Global and Planetary Change, media_common.quotation_subject, Environmental engineering, Soil Science, chemistry.chemical_element, Geology, Hazard, Hazard quotient, Toxicology, chemistry, Dry weight, Environmental Chemistry, Paddy field, Rainbow trout, Risk assessment, Arsenic, Earth-Surface Processes, Water Science and Technology, media_common
Abstract

In this study, arsenic concentration of Haraz River water at 20 stations and relative risk and hazard levels regarding ingestion and dermal exposure routes are evaluated. Furthermore, the quantitative threat caused by the consumption of Rainbow trout muscle from the area is also analyzed. The concentration of arsenic increases from upstream areas towards the downstream estuarine zone with a substantial rise in the central part. Arsenic-containing drainage discharged from the Central Alborz coal mine, hot spring spas, as well as municipal (Amol city) and agricultural (numerous rice paddies) land uses that become denser towards downstream are considered as major pollution sources. The inhabitants are not exposed to a significant hazard or risk regarding dermal exposure. However, for the oral ingestion exposure route, all 20 samples present hazard quotient values greater than unity and risk values greater than one in ten thousand. The results show that if the river water is used for drinking, a high-risk status would be imposed on consumers. Finally, the concentration of arsenic in muscle tissues of ten Rainbow trout fish samples was found to range from 0.48 to 1.30 μg/kg of dry weight which is below the allowed daily intake. However, if we consider that lots of other constituents in the total daily intake within the study area contain arsenic, estimated values may be interpreted as a trigger for further health threats.

Published
2015
Full Text
View/download PDF

10. Bulk metal concentrations versus total suspended solids in rivers: Time-invariantcatchment-specific relationships

Author

Shahin Fazel Valipour, Touraj Nasrabadi, Peter Grathwohl, Jeremy Bennett, Marc Schwientek, and Hermann Ruegner

Subjects
010504 meteorology & atmospheric sciences, Drainage basin, lcsh:Medicine, Marine and Aquatic Sciences, 010501 environmental sciences, 01 natural sciences, Mathematical and Statistical Techniques, Turbidity, lcsh:Science, Water pollution, Sedimentary Geology, Multidisciplinary, geography.geographical_feature_category, Geology, Pollution, 6. Clean water, Chemistry, Metals, Physical Sciences, Regression Analysis, Engineering and Technology, Estuaries, Statistics (Mathematics), Environmental Monitoring, Research Article, Freshwater Environments, Pollutants, Environmental Engineering, Linear Regression Analysis, Research and Analysis Methods, Rivers, Suspensions, Surface Water, Environmental Chemistry, Statistical Methods, 0105 earth and related environmental sciences, Total suspended solids, Petrology, Hydrology, geography, lcsh:R, Ecology and Environmental Sciences, Water Pollution, Sediment, Aquatic Environments, Estuary, 15. Life on land, Sedimentation, Bodies of Water, 13. Climate action, Earth Sciences, Environmental science, lcsh:Q, Surface water, Water Pollutants, Chemical, Mathematics
Abstract

Suspended particles in rivers can act as carriers of potentially bioavailable metal species and are thus an emerging area of interest in river system monitoring. The delineation of bulk metals concentrations in river water into dissolved and particulate components is also important for risk assessment. Linear relationships between bulk metal concentrations in water (CW,tot) and total suspended solids (TSS) in water can be used to easily evaluate dissolved (CW, intercept) and particle-bound metal fluxes (CSUS, slope) in streams (CW,tot = CW + CSUS TSS). In this study, we apply this principle to catchments in Iran (Haraz) and Germany (Ammer, Goldersbach, and Steinlach) that show differences in geology, geochemistry, land use and hydrological characteristics. For each catchment, particle-bound and dissolved concentrations for a suite of metals in water were calculated based on linear regressions of total suspended solids and total metal concentrations. Results were replicable across sampling campaigns in different years and seasons (between 2013 and 2016) and could be reproduced in a laboratory sedimentation experiment. CSUS values generally showed little variability in different catchments and agree well with soil background values for some metals (e.g. lead and nickel) while other metals (e.g. copper) indicate anthropogenic influences. CW was elevated in the Haraz (Iran) catchment, indicating higher bioavailability and potential human and ecological health concerns (where higher values of CSUS/CW are considered as a risk indicator).

Published
2017

11. Groundwater quality assessment in southern parts of Tehran plain, Iran

Author

Touraj Nasrabadi and P. Abbasi Maedeh

Subjects
Pollution, Hydrology, Global and Planetary Change, media_common.quotation_subject, Soil Science, Geology, Chloride, Salt lake, Salinity, chemistry.chemical_compound, chemistry, medicine, Environmental Chemistry, Environmental science, Water quality, Sulfate, Groundwater quality, Groundwater, Earth-Surface Processes, Water Science and Technology, medicine.drug, media_common
Abstract

The hydrochemical characteristics of groundwater in the southern parts of Tehran Province are considered. Twenty-three sampling stations were selected and major anions/cations, electrical conductivity and pH were detected. Sulfate and chloride were found as major anions, while no specific dominant cation was determined. More than half of the samples were found to be unsuitable for drinking purposes, due to high concentrations of anions/cations. Regarding agricultural use, almost all samples were classified as having high-risk levels of salinity, while for alkali hazard considerable risks were observed in most cases. Generally, an increasing trend of salinity is observed from northwest to southeast of the study area. Such increase may be justified by the adjacency of the Iran central desert and salt lake to the southern boundaries of the study area. Extended use of sulfate-containing fertilizers may also play a key role in justifying the high sulfate concentration in comparison to other anions.

Published
2013
Full Text
View/download PDF

12. Groundwater quality degradation of urban areas (case study: Tehran city, Iran)

Author

P. Abbasi Maedeh and Touraj Nasrabadi

Subjects
Hydrology, geography, Irrigation, Environmental Engineering, geography.geographical_feature_category, Soil salinity, business.industry, Aquifer, Saline water, Wastewater, Agriculture, Salt marsh, Environmental Chemistry, Environmental science, General Agricultural and Biological Sciences, business, Groundwater
Abstract

Groundwater quality of Tehran city is considered in this study. Nine sampling stations were selected, and composite sampling campaign was performed in summer 2012. Groundwater sampled from northern stations appeared to have acceptable characteristics for agricultural and drinking uses. The southern station samples did not meet the required guidelines. Concentration of SO4 2−, Na+ and Cl− obey a sharp ascending trend southwards. Accordingly, the electrical conductivity of the last station at the very southern areas is more than fifteen times greater than that of the first northern station. Tehran city is located in a semi-arid climate and experiences long hot summers. High rates of evapo-transpiration within urban green spaces and agricultural lands facilitate the salinization phenomenon in root zones. As a result, excess irrigation water eases the consequent percolation into aquifers. Furthermore, saline water intrusion from salt marshes located down south of the city is an expected consequence of wells overpumping. Such case is especially remarkable in hot seasons when an increased urban water demand is observed. Remarkable sulfate concentrations in saline water are mainly justified by percolation of sulfate containing fertilizers which are broadly used by local farmers in an uncontrolled manner. Surface run-offs and municipal wastewater leakage may also trigger the salinization process.

Published
2013
Full Text
View/download PDF

13. Impact of oil excavation activities on soil metallic pollution, case study of an Iran southern oil field

Author

Abdolreza Karbassi, F. Afkhami, Ali Vosoogh, and Touraj Nasrabadi

Subjects
Pollution, Global and Planetary Change, media_common.quotation_subject, Metallurgy, Soil Science, Geology, Excavation, Contamination, Metal, Environmental chemistry, Drilling fluid, visual_art, Reference values, visual_art.visual_art_medium, Environmental Chemistry, Oil field, Enrichment factor, Earth-Surface Processes, Water Science and Technology, media_common
Abstract

The Ahvaz oil field located in southern Iran has been identified as a possible point of elemental pollution, since elevated levels of metallic pollution (As, Cd, Cr, Ni, Cu, Zn, Pb and V) have been introduced to the adjacent environment through the oil excavation activities. The concentration of metals Cr, Ni, Cu, Pb and Zn are far below all reference values while that of As, Cd and V are remarkably above limits. Enrichment factor (EF) reports the mean waste status to be enriched by all three elements As, Cd and V while the Igeo values manifest the strongly polluted condition for Cd and moderately polluted for As and V. In order to quantify the association of metal concentrations with various Acid soluble, reducible, oxidizable and pseudo-total phases and consequently to estimate the potential mobility of existent metallic pollution, the sequential chemical partitioning technique was used for the samples collected from clean soil, drilling mud and wastage pit. According to the results achieved by chemical partitioning analysis, Cd seems to be mobile. Similar conditions exist for V with relatively lower risk level. Regarding As, the potential mobility is estimated to be low as a remarkable portion of bulk concentration (more than 70 %) is accumulated in the pseudo-total phase. Paying attention to the bulk and partitioning concentrations of three enriched elements in the drilling mud, it is concluded that the main cause of wastage pit contamination may be attributed to the nature of drilling mud utilized in excavation activities. Additionally, the geological texture in different depths may also play a role in this scenario.

Published
2013
Full Text
View/download PDF

14. Metallic pollution of soil in the vicinity of National Iranian Lead and Zinc (NILZ) Company

Author

Toktam Shahriari, Touraj Nasrabadi, and S. Karbassi

Subjects
Pollution, Soil test, media_common.quotation_subject, 0211 other engineering and technologies, Soil Science, chemistry.chemical_element, 02 engineering and technology, Zinc, 010501 environmental sciences, 01 natural sciences, Environmental Chemistry, Arsenic, 0105 earth and related environmental sciences, Earth-Surface Processes, Water Science and Technology, media_common, Pollutant, 021110 strategic, defence & security studies, Global and Planetary Change, Cadmium, Topsoil, Environmental engineering, Geology, chemistry, Enrichment factor
Abstract

Evaluating the metallic risky pollution of soil in the vicinity of National Iranian Lead and Zinc Company in Zanjan Province, Iran is considered in this study. Twenty-six composite samples were collected from the surface soil of the study area including two lead and zinc depots. Total concentration of elements lead, zinc, chromium, cadmium, cobalt, arsenic, iron and manganese were analyzed. To envisage a more realistic view of the environmental risks, anthropogenic and bioavailable fraction of total concentration values were also detected. Total concentration values of arsenic, cadmium, lead and zinc were higher than that of shale and mean earth crust. Bioavailable and anthropogenic fractions analysis showed that Cd may be considered as the most threatening bioavailable pollutant. Lead and arsenic were also introduced as elements of concern. Enrichment factor assessed As and Cd to be significantly and Pb to be moderately enriched in topsoil samples while pollution index categorized Pb in moderately polluted status. Hierarchical cluster analysis indicates a probable kind of analogy in origin, behavior and destiny of mentioned elements. Because of their remarkable biological and anthropogenic fractions in soil samples, current abandoned open-dumped depots are potential pollution sources within the area. Strict monitoring procedure should be performed to prevent further mobility of metallic pollutants toward food chain.

Published
2016
Full Text
View/download PDF

15. Impact of major organophosphate pesticides used in agriculture to surface water and sediment quality (Southern Caspian Sea basin, Haraz River)

Author

Abdolreza Karbassi, Gholamreza Nabi Bidhendi, Touraj Nasrabadi, Peter Grathwohl, and Nasser Mehrdadi

Subjects
Hydrology, Global and Planetary Change, Environmental engineering, Soil Science, Sediment, Geology, Pesticide, Pollution, Soil water, Erosion, Environmental Chemistry, Paddy field, Environmental science, Water quality, Surface water, Groundwater, Earth-Surface Processes, Water Science and Technology
Abstract

Organophosphate pesticides are compounds that are not only toxic to both humans and wildlife but also difficult to degrade under natural environmental conditions. In Iran, agricultural practices are strongly dependent on the use of pesticides due to climatic and soil conditions, thus posing a potential risk to groundwater quality standards. Evaluating the concentration of organophosphate pesticides namely diazinon, fenitrothion, dichlorvos, ethion, profenofos, malathion and azinphos methyl in water samples in May (low precipitation rate), December (high precipitation rate) as well as the concentration in sediments along the Haraz River is taken into consideration in this study. Generally the pesticides concentration in water samples are relatively higher in May in comparison with that in December; this fact may be due to two major reasons: the first reason is attributed to the prompt raining after the treatment period of most orchards and dry farming lands that will terminate in more wash out of such pesticides towards the branches and main river channel, while the second reason may be considered as the less river water dilution rate in May because of lower precipitation rate. Furthermore, the relatively higher concentrations in downstream stations may be contributed to more intensified agricultural (specially rice paddies), urban and rural land uses in this region in comparison with upstream areas which contain mainly dry farming, grazing lands and orchards with relatively lower loads of pesticides. Additionally, as the Henry’s law constant of all pesticides considered in this study are relatively low, volatilization may not be regarded as an important route of dissipation. Diazinon, azinphos methyl and dichlorvos showed the highest water concentrations in comparison with other pesticides that may be justified by their extended use within the basin during last decades. Based on the chemical properties as well as remarkably higher values in sediment samples in comparison with water ones, it is concluded that the two pesticides, ethion and fenitrothion, persist in the environment due to non-degradable tendencies. Although the concentration of mentioned pesticides is not so high in the water samples, more precautions must be considered in their future use. Regarding the sorption coefficient variation alongside the river, the higher values in upstream and central parts may be attributed to the higher potential of different types of erosion regarding deeper slopes and also sand, gravel and carbonate mining activities at the banks and also river bed in such regions which is considered as an anthropogenic disturbance. In case of central parts, in addition to mentioned reasons, the existence of coal outcrops in the geologic texture of the study area may also be considered as a key role in augmentation of the sorption coefficient. Finally, the dominant clayey and loamy soils containing more organics may be attributed as the major reason of sorption tendency in downstream.

Published
2010
Full Text
View/download PDF

16. Partitioning of metals in sediments of the Haraz River (Southern Caspian Sea basin)

Author

Abdolreza Karbassi, Touraj Nasrabadi, Nasser Mehrdadi, and Gholamreza Nabi Bidhendi

Subjects
Hydrology, Pollution, Global and Planetary Change, Cadmium, geography, geography.geographical_feature_category, media_common.quotation_subject, Soil Science, chemistry.chemical_element, Sediment, Geology, Estuary, chemistry, Environmental chemistry, Tributary, Environmental Chemistry, Alluvium, Water pollution, Base metal, Earth-Surface Processes, Water Science and Technology, media_common
Abstract

The Haraz River flows northwards through the Iranian Alborz mountains in the central region of Mazandaran province and empties into the Caspian Sea. This area has been a rich source of minerals from times immemorial. About 45 mines (coal, limestone, sand and gravel, etc.) have been operational for the last eight decades. Towards the estuary, the river receives a discharge of industrial, agricultural and urban wastes. Eight sediment samples from the Haraz River and its main tributaries were collected and analyzed for base metals as well as Sr and Fe. The chemical partitioning of metals (Cu, Zn, As, Cd, Pb, Fe, Ni, Cr, Co and Sr) in each sample was determined in four fractions (acid-soluble, reducible, oxidizable and residual). The total content of each metal was also determined. The results showed relatively higher concentrations of Cd, As, Sr and Pb in comparison to that of shale. However, based on the chemical partitioning of metals, it is found that Pb, Co, Cd and Sr are the most mobile metals. In spite of the high As concentrations in sediments, it is not likely that this element is a major hazard for the aquatic environment, since it is found mainly in the residual fraction. Cadmium is the metal that showed the highest percentages in the acid-soluble fraction (the most labile) and the lowest in the residual fraction. However, Fe, Cr and Ni are present in the greatest percentages in the residual fraction, which implies that these metals are strongly linked to the sediments.

Published
2009
Full Text
View/download PDF

17. Influence of Sungun copper mine on groundwater quality, NW Iran

Author

Hamid Pezeshk, G. R. Nabi Bidhendi, Abdolreza Karbassi, I. Nasrabadi, Touraj Nasrabadi, Farshad Rashidinejad, and Hassan Hoveidi

Subjects
geography, geography.geographical_feature_category, Groundwater flow, Chemistry, General Engineering, Alkalinity, Environmental engineering, Aquifer, Piper diagram, Earth and Planetary Sciences (miscellaneous), General Earth and Planetary Sciences, Environmental Chemistry, Water quality, Water pollution, Dissolution, Groundwater, General Environmental Science, Water Science and Technology
Abstract

Sungun mine is the largest open-cast copper mine in northwest of Iran and is in the primary stages of extraction. The influence of mining activity on the quality of regional groundwater has been taken in to consideration in this study. Accordingly, sampling was done from 22 springs in the study area. The concentrations of major anions and cations as well as Al, Cu, Cd, Cr, Fe, Mn, and Zn were determined for all 22 spring samples in mid-August 2005. The results showed that the concentrations of most of these elements were below the USA Environmental Protection Agency (EPA) limits; however, Al and Fe concentrations are considered to be more than limits in a couple of samples. Despite the fact that geological formations are highly weathered and fractured, the dissolution of minerals within the study area is low. This may be justified by the relatively high alkalinity of local underground water which keeps metals in solid phase and does not let them enter dissolved phase. Additionally, this may be attributed to the high velocity of groundwater flows, which do not give enough time for minerals to dissolve. Correlation coefficients among water chemistry components were determined and the weighted-pair group method was chosen for cluster analysis. Accordingly, high correlation among Al, Fe and Cr, Cd ,and Cu, sodium absorption ratio (SAR) and Na as well as total hardness (TH), Ca, and Mg were observed. The chemical characteristics of water compositions on the basis of major ion concentrations were evaluated on a Schoeller and Piper diagram. Accordingly, the dominant type of water in the region is considered to be Ca-HCO3 (calcium-bicarbonate type). However, this type of water is also rich in Na, K, and especially Mg. Regarding Schoeller diagram, the current status of local underground water is good for drinking purposes. By commencing mining excavation with designed capacity in near future, the minerals will come into contact with air and water resulting in dissolution, especially in ponds, which, in turn, will increase the concentration of toxic metals in groundwater. Considering future uses of this water including for drinking, irrigation, industrial purposes, etc., precautions must be taken in to consideration.

Published
2008
Full Text
View/download PDF

18. Use of horizontal flow roughing filtration in drinking water treatment

Author

G. R. Nabi Bidhendi, Touraj Nasrabadi, R. Habibi, Hassan Hoveidi, and A. Jafari Dastanaie

Subjects
Environmental Engineering, Waste management, business.industry, Environmental engineering, Water supply, Baffle, law.invention, Filter (aquarium), law, Environmental Chemistry, Environmental science, Water treatment, Turbidity, General Agricultural and Biological Sciences, business, Surface water, Filtration, Total suspended solids
Abstract

In order to evaluate the feasibility of implementation of horizontal-flow roughing filtration for drinking water treatment a pilot was designed and run at the bank of Zayandehroud river near the village of Chamkhalifeh. Pilot running was performed in summer 2003 (July, August and September), when the quality of river water was in relatively worst condition. The filter is comprised from three different parts which are separated with perforated baffles. Each compartment is filled with some local sand and gravel considering a special decreasing size regime. The overall function of the filter in removing turbidity and total suspended solids is acceptable. Additionally, iron, manganese and color and coliform removal are also been covered to some extent. Achieved results in this study shows that horizontal-flow roughing filtration may be considered as a packed, low-cost and efficient pretreatment process incase surface water is used as water supply for treatment. Furthermore, when small scale societies are considered and when no major pollutants exist in the water supply as the case in this study_ this system may be posed as a total treatment system, in which treated water exited from the filter may be sent to distribution network after a simple post chlorination.

Published
2007
Full Text
View/download PDF

19. Influence of copper mine on surface water quality

Author

G. R. Nabi Bidhendi, Abdolreza Karbassi, Touraj Nasrabadi, and Hassan Hoveidi

Subjects
Irrigation, Environmental Engineering, Chemistry, Environmental engineering, chemistry.chemical_element, Copper, Dilution, Current (stream), Piper diagram, Environmental Chemistry, Water quality, General Agricultural and Biological Sciences, Dissolution, Surface water
Abstract

Aras water basin is located in northwest of Iran. Sungun mine which is the largest open-cast copper mine of Iran is located in this region and is in the primary stages of extraction. The influence of mining activity on the quality of regional surface water has been taken in to consideration in this study. Accordingly, sampling was done from 5 local streams in the study area. In order to consider the effect of flow quantity on the amount of different parameters, sampling was done in July and November 2005 when the local streams had the minimum and maximum flow rate respectively. The concentrations of major anions and cations as well as As, Mo, Al, Cu, Cd, Cr, Fe, Mn and Zn were determined. The results showed that the concentrations of metallic ions like aluminum, chromium, copper, manganese, molybdenum and iron in samples collected in July are above USEPA (Environmental Protection Agency) limits; however, mentioned concentrations are lessened remarkably in the samples collected in November. This fact is justified considering dilution of ions concentration via more amount of water in November. The chemical characteristics of water compositions on the basis of major ion concentrations were evaluated on a Schoeller and Piper diagram. Accordingly, the dominant type of water in July and November is considered to be Ca-HCO3 (calcium-bicarbonate type). Regarding Schoeller diagram, despite relatively high concentration of calcium, the current status of local surface water is acceptable for drinking purposes. By commencing mining excavation with designed capacity in near future, the minerals will come in to contact with air and water resulting in dissolution, especially in ponds, which, in turn, increases the concentration of heavy metals in surface water. Considering consequent uses of this water including drinking, irrigation, industrial, etc. precautions must be taken in to consideration.

Published
2007
Full Text
View/download PDF

20. Biological nitrate removal from water resources

Author

H. Hoveidi, G. R. Nabi Bidhendi, H. R. Sharif Vaghefi, and Touraj Nasrabadi

Subjects
geography, Environmental Engineering, geography.geographical_feature_category, Chemistry, Environmental engineering, chemistry.chemical_element, Inlet, Nitrogen, Water resources, chemistry.chemical_compound, Nitrate, Carbon source, Environmental Chemistry, Methanol, Turbidity, General Agricultural and Biological Sciences, Groundwater
Abstract

During the recent decades, the increasing trends in nitrate ion concentration in ground water sources have meant more research to find effective procedures for the prevention of even more water contamination by nitrogen sources. In this study a pilot was designed to examine the application of biological method for eliminating nitrate from the water of well No.903 of Mehrabad Airport, Tehran, Iran. Design, installation and running processes were done from April to November 2003. A fixed biological bed containing five-centimeter trunk pipes 16 mm in diameter were installed in the reactor and the system was operated with upflow current. Instead of Methanol, Acetic acid was used as the carbon source because of its easier acceptance by the public, lower price and availability as well as easier storage. The pilot was run in different hydraulic retention times from 48 h up to one hour. Considering economical, operational and maintenance factors, retention time of 2 h was determined to be optimum, in which 77% nitrate removal was achieved. Considering a ratio of 2 for COD/N, inlet COD of about 140 mg/L and the optimum retention time, COD removal of about 80% is also accomplished in this process. The amount of nitrite concentration, pH values, COD and turbidity is also evaluated versus different hydraulic retention times.

Published
2006
Full Text
View/download PDF

21. Evaluating the efficiency of sediment metal pollution indices in interpreting the pollution of Haraz River sediments, southern Caspian Sea basin

Author

Abdolreza Karbassi, Nasser Mehrdadi, Touraj Nasrabadi, and Gholamreza Nabi Bidhendi

Subjects
Pollution, Geologic Sediments, media_common.quotation_subject, Oceans and Seas, chemistry.chemical_element, Management, Monitoring, Policy and Law, Rivers, Water pollution, General Environmental Science, media_common, Hydrology, Cadmium, geography, geography.geographical_feature_category, Trace element, Sediment, Estuary, General Medicine, chemistry, Metals, Environmental chemistry, Enrichment factor, Surface water, Geology, Water Pollutants, Chemical, Environmental Monitoring
Abstract

The Haraz River is one of the most significant rivers in the southern Caspian Sea basin. Towards the estuary, the river receives discharges of industrial, agricultural, and urban wastes. In the present investigation, bulk concentrations of Cu, Zn, As, Cd, Pb, Fe, Ni, Cr, Co, and Sr in Haraz River (Iran) bed sediments were measured from several sample locations. In addition, association of studied metals with various sedimentary phases was assessed to determine the proportions of metals in different forms. The intensity of sediment contamination was evaluated using an enrichment factor (EF), geo-accumulation index (Igeo), and a newly developed pollution index (Ipoll). Both EF and Igeo formulae compare present concentrations of metals to their background levels in crust and shale, respectively. In a specific area with its own geological background like Haraz River water basin where naturally high concentrations of metals may be found, such a comparison may lead to biased conclusions regarding levels of anthropogenic contamination. Accordingly, chemical partitioning results are substituted for the mean crust and shale levels in the new index (Ipoll). The Pearson correlation coefficient between the anthropogenic portion of metallic pollution in Haraz river-bed sediments with Ipoll showed much more value in comparison with those of geochemical accumulation index and enrichment factor. The order of metals introduced by anthropogenic activities are as follows: Sr > Pb > Co > Cd > Zn > Cu > Ni > As > Cr > Fe. The results showed relatively higher concentrations of Cd, As, Sr, and Pb in comparison with those of shale. However, based on the chemical partitioning of metals, it is found that Sr, Pb, Co, and Cd are the most mobile metals. In spite of the high As concentrations in sediments, it is not likely that this element is a major hazard for the aquatic environment since it is found mainly in the residual fraction. Also, Fe, Cr, and Ni are present in the greatest percentages in the residual fraction, which implies that these metals are strongly linked to the sediments.

Published
2009

Catalog

Books, media, physical & digital resources
See catalog results