Your search keyword '"Karlo Nad"' showing total 32 results

1. Bulk Sample Analysis Using Associated Alpha Particle Neutron Generator and Artificial Neural Network.

Author

Hadi Shahabinejad, Davorin Sudac, Miltiadis Alamaniotis, Karlo Nad, and Jasmina Objodas

Published

2023

2. The application of electrochemical processes in oily wastewater treatment: a review

Author

Morana Druskovic, Ivan Halkijević, Hana Posavčić, Drazen Vouk, and Karlo Nad

Subjects

Environmental Engineering, Sewage, medicine.medical_treatment, Advanced oxidation process, Industrial Waste, General Medicine, Wastewater, Contamination, oily wastewater, treatment, efficiency, electrochemical processes, advanced oxidation process, electrocoagulation, electrodes, COD, oil and grease, current density, Pulp and paper industry, Electrochemistry, Waste Disposal, Fluid, Electrocoagulation, Water Purification, chemistry.chemical_compound, chemistry, medicine, Environmental science, Phenol, Process optimization, Turbidity, Electrodes, Oils

Abstract

Oily wastewater is becoming a concern worldwide due to its quantities and the presence of contaminants and its sustainable treatment should be cost-effective and meet all requirements so the contaminants are not transferred to the environment. The paper reviews the state-of-the- art in the oily wastewater treatment by electrochemical processes such as electrochemical advanced oxidation processes and electrocoagulation. Efficiency of oily wastewater treatment has been thoroughly investigated with its expression as a function of the main technological (process) parameters. Fe and Al electrodes, as well as their combination have proven to be very effective in oily wastewater treatment with slightly better performance of Al electrodes. Higher current densities and longer reaction times result with higher COD, TOC, turbidity, phenol and oil and grease removal efficiencies, but with resulting increase in wastewater temperature and energy consumption, so there is a strong need for the process optimization. There is a need for further research on the treatment efficiencies of different contaminants (heavy metals, total hydrocarbons, organic halogens, cyanides, etc.). A lack of research is presented on the treatment efficiency with electrodes of different materials as well as the analyses of the sludge production and its further treatment and use or disposal.

Published

2021

3. Container Inspection Utilizing 14 MeV Neutrons

Author

Jasmina Obhodas, Vladivoj Valkovic, Karlo Nad, and Davorin Sudac

Subjects

Physics, Nuclear and High Energy Physics, 010308 nuclear & particles physics, business.industry, Astrophysics::High Energy Astrophysical Phenomena, Neutron imaging, Gamma ray, Neutron scattering, 010403 inorganic & nuclear chemistry, 01 natural sciences, 6. Clean water, 0104 chemical sciences, Neutron capture, Optics, Nuclear Energy and Engineering, Neutron generator, Activation analysis, container inspection, gamma ray spectra, neutron absorption, neutron scattering, neutrons, radiography, x-ray backscattering, 0103 physical sciences, Container (abstract data type), Forensic engineering, Neutron, Electrical and Electronic Engineering, Neutron activation analysis, business

Abstract

A proposal for an autonomous and flexible ship container inspection system is presented. This could be accomplished by the incorporation of an inspection system on various container transportation devices (straddle carriers, yard gentry cranes, automated guided vehicles, trailers). The configuration is terminal specific and it should be defined by the container terminal operator. This enables that no part of the port operational area is used for inspection. The inspection scenario includes container transfer from ship to transportation device with the inspection unit mounted on it. The inspection is performed during actual container movement to the container location. A neutron generator without associated alpha particle detection is used. This allows the use of higher neutron intensities ( $5\times {10^9} - {10^{10}} \ \text{n/s}$ in $4\pi $ ). The inspected container is stationary in the “inspection position” on the transportation device while the “inspection unit” moves along its side. The following analytical methods will be used simultaneously: neutron radiography, X-ray radiography, neutron activation analysis, (n, $\gamma $ ) and (n,n’ $\gamma $ ) reactions, neutron absorption. and scattering, X-ray backscattering. The neutron techniques will utilize “smart collimators” for neutrons and gamma rays, both emitted and detected. The inspected voxel is defined by the intersection of the neutron generator and the detectors solid angles. The container inspection protocol is based on identification of discrepancies between the cargo manifest, elemental “fingerprint” and radiography profiles. In addition, the information on container weight is obtained during the container transport and screening by measuring of density of material in the container.

Published

2016

4. Detoxification of polluted marine sediments using water treatment sludge

Author

Ivan Halkijević, Višnja Oreščanin, Marin Kuspilić, Robert Kollar, and Karlo Nad

Subjects

Geologic Sediments, Environmental Engineering, Iron, 0211 other engineering and technologies, Amendment, Germination, 02 engineering and technology, Thermal treatment, 010501 environmental sciences, 01 natural sciences, Water Purification, Leachate, 0105 earth and related environmental sciences, 021110 strategic, defence & security studies, Sewage, Chemistry, Sediment, Hordeum, General Medicine, Zinc, Copper, Hordeum vulgare L, inertization, polluted sediments, thermal treatment, waste sludge, zinc, Biodegradation, Environmental, Environmental chemistry, Seeds, Water treatment, Hordeum vulgare, Leaching (metallurgy), Environmental Pollution, Water Pollutants, Chemical, Aluminum

Abstract

The purpose of this study was development of the optimal conditions for the inertization of the polluted marine sediments using groundwater treatment sludge highly enriched in iron and aluminum. For that purpose fine-grained sediment (>85% clay and silt fraction) highly enriched in copper and zinc was amended with the waste sludge (from 10% to 50%). The sample with the optimum percentage of the waste sludge was further subjected the thermal treatment at 200–800 C. The efficiency of the treatment was determined by the leaching tests and toxicity testing using Hordeum vulgare L. as biosystem. The percentage of the seed germination, the root elongation, and the germination index before and following the treatment were determined. Untreated sediment leachate caused significant arrest in the percentage of the seed germination (6.7 § 6.7%), the root elongation (1.9 § 2.2%), and the germination index (0.2 § 0.3%) with EC50 of 24.9%, suggesting a significant toxic potential of the sediments. After amendment with 30% of the waste sludge the concentrations of the considered micropollutants decreased below regulated values while all three toxicological parameters showed no significant difference compared to the negative control. The toxicity of the sediment was completely removed following the thermal treatment at 400 C.

Published

2018

5. Improved System for Inspecting Minefields and Residual Explosives

Author

Vladivoj Valkovic, Jasmina Obhodas, G. Vrcelj, S. Majetic, Karlo Nad, and Davorin Sudac

Subjects

Nuclear and High Energy Physics, Materials science, Explosive material, business.industry, Physics, Detector, 010502 geochemistry & geophysics, 010403 inorganic & nuclear chemistry, 01 natural sciences, Neutron temperature, 0104 chemical sciences, Demining, Antipersonnel landmine detection, associated particle imaging, fast neutrons, multisensor, Optics, Nuclear Energy and Engineering, Neutron generator, Ground-penetrating radar, Explosive detection, Electrical and Electronic Engineering, business, 0105 earth and related environmental sciences, Neutron activation

Abstract

A next generation system, as an upgrade of a robotic mobile system for anti-personnel landmine clearance, was considered. In contrast to the first generation system where the fast neutron activation method and the associated alpha particle imaging (API) was supposed to be used for finding the residual explosives and/or landmines, in the next generation system fast neutrons (FN) was considered to be used only for the confirmation of the explosive in the suspected object previously found by the ground penetrating radar (GPR), metal detector (MD) and infrared imaging (IR). Such system is expected to have the acceptable price and the optimal demining vehicle speed of 10 cm/s. In contrast to the previous system only one neutron generator (NG) is needed. In order to study the possibility of FN to confirm the presence of TNT explosive in the real environment the tests were made with the soil of different moisture contents. Comparative study was done by using the $7.62~hbox{; ; cm}; ; times 7.62~hbox{; ; cm}; ; $ BGO, $7.62~hbox{; ; cm}; ; times 7.62~hbox{; ; cm}; ; {; ; rm LaBr}; ; _{; ; 3}; ; :{; ; rm Ce}; ; $ and $7.62~hbox{; ; cm}; ; times 7.62~hbox{; ; cm}; ; $ NaI(Tl) gamma-ray detectors. Although nitrogen was easily detected in larger amount of TNT explosive, its signal was weak in detection of Anti-Personal (AP) mine like DLM2.4. The presences of soil additionally diminish the possibility of nitrogen detection even in the Anti-Tank mines (AT).

Published

2014

6. Removal of arsenic, phosphates and ammonia from well water using electrochemical/chemical methods and advanced oxidation: A pilot plant approach

Author

Karlo Nad, Štefica Findri Guštek, Ivan Halkijević, Višnja Oreščanin, Marin Kuspilić, and Robert Kollar

Subjects

Environmental Engineering, Ultraviolet Rays, Iron, Inorganic chemistry, chemistry.chemical_element, Arsenic, Phosphates, Water Purification, chemistry.chemical_compound, Ammonia, Ozone, Turbidity, Hydrogen peroxide, Electrodes, Groundwater, Suspended solids, heavy metals, arsenic, ammonia, electrocoagulation, ozonation, iron anode, aluminum anode, hydrogen peroxide, UV, waste sludge, Hydrogen Peroxide, General Medicine, Contamination, Mercury (element), Pilot plant, chemistry, Environmental chemistry, Oxidation-Reduction, Water Pollutants, Chemical, Aluminum

Abstract

The purpose of this work was to develop a pilot plant purification system and apply it to groundwater used for human consumption, containing high concentrations of arsenic and increased levels of phosphates, ammonia, mercury and color. The groundwater used was obtained from the production well in the Vinkovci County (Eastern Croatia). Due to a complex composition of the treated water, the purification system involved a combined electrochemical treatment, using iron and aluminum electrode plates with simultaneous ozonation, followed by a post-treatment with UV, ozone and hydrogen peroxide. The removal of the contaminant with the waste sludge collected during the electrochemical treatment was also tested. The combined electrochemical and advanced oxidation treatment resulted in the complete removal of arsenic, phosphates, color, turbidity, suspended solids and ammonia, while the removal of other contaminants of interest was up to 96.7%. Comparable removal efficiencies were obtained by using waste sludge as a coagulant.

Published

2014

7. Electroplating wastewater treatment by the combined electrochemical and ozonation methods

Author

Karlo Nad, Ivanka Lovrenčić Mikelić, Višnja Oreščanin, and Robert Kollar

Subjects

Flocculation, Environmental Engineering, medicine.medical_treatment, Inorganic chemistry, ozonation, electrochemical treatment, wastewater, electroplating, heavy metals, TOC, COD, iron anode, aluminum anode, Hypochlorite, chemistry.chemical_element, Portable water purification, General Medicine, Electroplating, Chloride, Electrocoagulation, Water Purification, chemistry.chemical_compound, Ozone, Wastewater, chemistry, Electrochemistry, medicine, Chlorine, Water Pollutants, Chemical, medicine.drug

Abstract

This article presents a pilot-plant study of the electroplating wastewater treatment by the processes of electroreduction with iron electrode plates, and electrocoagulation/ozonation with aluminum electrode set, followed by the process of ozonation. The initial effluent was found to be highly enriched in heavy metals and to possess the elevated levels of organic contaminants. The values of Cr(VI), Fe, Ni, Cu, Zn, Pb, TOC, and COD exceeded the upper permissible limits of 63, 220.2, 1.1, 7, 131.3, 1.7, 12.3, and 11.4 times, respectively. The heavy metal removal was forced either by the coagulation/flocculation using Fe(II), Fe(III), and Al(III) ions released into the treated solution by the electrochemical corrosion of the sacrificial iron and aluminum electrodes, or the precipitation of the metal hydroxides as well as co-precipitation with iron and aluminum hydroxides. The principle organic matter destruction mechanisms were ozone oxidation and the indirect oxidation with chlorine/hypochlorite formed by the anodic oxidation of chloride already present in the wastewater. Following the combined treatment, the removal efficiencies of Cr(VI), Fe, Ni, Cu, Zn, Pb, TOC, and COD were 99.94%, 100.00%, 95.86%, 98.66%, 99.97%, 96.81%, 93.24%, and 93.43%, respectively, thus complying with the regulated values.

Published

2013

8. A combined CaO/electrochemical treatment of the landfill leachate from different sanitary landfills in Croatia

Author

Nenad Mikulic, Karlo Nad, Robert Kollar, Damir Ruk, and Višnja Oreščanin

Subjects

Environmental Engineering, Croatia, Iron, Landfill leachate, CaO, electrocoagulation, electrooxidation, electroreduction, stainless steel, iron, aluminum anode, medicine.medical_treatment, Electrocoagulation, chemistry.chemical_compound, Electrochemistry, medicine, Organic matter, Leachate, Turbidity, Calcium oxide, Effluent, chemistry.chemical_classification, Suspended solids, Waste management, Oxides, General Medicine, Calcium Compounds, Decomposition, Refuse Disposal, chemistry, Environmental chemistry, Oxidation-Reduction

Abstract

The aim of this research was development of appropriate procedure for the treatment of landfill leachate taken from the Visevac, Mraclinska Dubrava and Piskornica sanitary landfills. Due to the complex nature of the effluents a combined treatment approach was applied. The pretreatment step included simultaneous treatment with calcium oxide and electrocoagulation/electrooxidation by stainless steel electrode set. The main treatment included electrocoagulation/electrooxidation using the set of stainless steel, iron and aluminum electrodes. The pretreatment allowed the destruction and/or coagulation of the high molecular weight organic substances as well as optimization of pH values for the formation of reactive oxidative species, and the transformation of NH(4)-N into volatile NH(3)-N. In the presence of added calcium oxide and electrochemically generated coagulant the removal of the fluorides, phosphates and heavy metals occur through the formation of poorly soluble fluorapatite, hydroxyl apatite, and various hydroxides. During the main treatment electrochemically generated reactive oxidative species carried out rapid decomposition of the organic matter and ammonia, resulting in the removal of COD from 74.9% to 94.2%, color from 98.8% to 99.7%, turbidity from 98.4% to 99.3%, suspended solids from 97.1% to 99.3%, and ammonia from 99.6% to 99.7%. Slightly better results for the removal efficiency of color, turbidity and suspended solids were obtained in the case of Piskornica landfill compared with the other two landfills, while the COD removal efficiency decreases in the following order: Piskornica >Mraclinska Dubrava >Visevac. This could be related to the age of the landfill, which increases in the same order. Consequently, with the increasing age of the landfill the degree of degradability of the organic matter reduces significantly. Applied treatment approach resulted in clear, colorless and odorless effluent with the values of all measured parameters significantly lower compared to the upper permissible limit for discharge into the environment.

Published

2012

9. Measuring the density of different materials by using the fast neutron beam and associated alpha particle technique

Author

Karlo Nad, Jasmina Obhodas, Zeljko Orlic, Vladivoj Valkovic, and Davorin Sudac

Subjects

Nuclear and High Energy Physics, Astrophysics::High Energy Astrophysical Phenomena, Nuclear Theory, 010403 inorganic & nuclear chemistry, 01 natural sciences, Neutron time-of-flight scattering, 030218 nuclear medicine & medical imaging, Nuclear physics, 03 medical and health sciences, 0302 clinical medicine, Optics, Neutron generator, Neutron cross section, Neutron detection, Neutron, Electrical and Electronic Engineering, Nuclear Experiment, Bonner sphere, Physics, business.industry, Neutron radiation, Neutron temperature, 0104 chemical sciences, Domestic safety, neutrons, nuclear imaging, Nuclear Energy and Engineering, business

Abstract

It was demonstrated in the previous work that various threat materials could be detected inside the sea going cargo container by measuring the three variables, carbon and oxygen concentration and density of investigated material. Density was determined by measuring transmitted neutrons, which is not always practical in terms of setting up the instrument geometry. In order to enable more geometry flexibility, we have investigated the possibility of using the scattered neutrons in cargo material identification. For that purpose, the densities of different materials were measured depending on the position of neutron detectors and neutron generator with respect to the target position. One neutron detector was put above the target, one behind and one in front of the target, above the neutron generator. It was shown that all three positions of neutron detectors can be successfully used to measure the target density, but only if the detected neutrons are successfully discriminated from the gamma rays.

Published

2016

10. New neutron log for small scale variations in carbon/oxygen ratio

Author

Davorin Sudac, Vladivoj Valkovic, Karlo Nad, and Jasmina Obhodas

Subjects

Nuclear and High Energy Physics, Materials science, Physics, Detector, Gamma ray, chemistry.chemical_element, Mineralogy, carbon, carbon/oxygen ratio, gamma ray spectra, neutrons, oil fields, oxygen, small scale variations, Alpha particle, Nuclear physics, Formation fluid, Time of flight, Nuclear Energy and Engineering, Neutron generator, chemistry, Neutron, Electrical and Electronic Engineering, Carbon

Abstract

The aim of the research reported here is the development of a methodology for the measurement of small scale variations in chemical elements concentrations, in particular of carbon to oxygen ratio. Knowledge of the C/O ratio is of importance to many problems in various fields. Here we single out the application in obtaining important information about the oilfields. The most fundamental reservoir parameters-oil, gas and water content-are critical factors in determining how each oilfield should be developed. It is well established that carbon to oxygen ratio log yields accurate and repeatable data that can be used to identify and monitor reserves depletion. Recent improvements in neutron generator and gamma detector technologies resulted in small devices which allowed through-tubing measurements. Although the ratio of carbon and oxygen yields is a measure of the amount of oil around the tool it should be realized that a carbon signal can originate from several sources including the borehole, the cement behind the casing, the formation rock and the formation fluid. In order to evaluate these contributions individually we are proposing the modification of the neutron generator by insertion of segmented associated alpha particle detector. From the measurement of neutron time of flight spectra (alpha particle detector-start signal ; gamma ray detector-stop signal) it would be possible to determine the location of gamma-ray production voxel and in such a way to determine radial variations in chemical elements concentrations, in particular of C/O ratio.

Published

2015

11. Utilization of Bauxite Slag for the Purification of Industrial Wastewaters

Author

Višnja Oreščanin, Karlo Nad, Stipe Lulić, Luka Mikelić, and Nenad Mikulic

Subjects

Flocculation, Environmental Engineering, Waste management, Chemistry, General Chemical Engineering, engineering.material, Raw material, Red mud, Bauxite, Repeated treatment, Pilot plant, engineering, Environmental Chemistry, Leaching (metallurgy), Safety, Risk, Reliability and Quality, Dissolution

Abstract

Production of the coagulant using bauxite waste (red mud and waste base) as raw material and the results of the testing of this new product in laboratory and field condition (pilot plant, full scale plant) were presented. Results showed that red mud could be used as a low-coast solution for heavy metals removal from its own waste base and other industrial wastewaters after partial dissolution with diluted sulphuric acid and neutralization with the waste base. This coagulant is especially suitable for the treatment of the wastewaters generated from the pressure washing of boats in the marinas. The coagulant produced from the red mud has few advantages compared to the commercial Fe and Al salts:(1) Coagulation/flocculation process could be done in one step without coagulant aid or any other chemical addition.(2) pH measurement during the purification could be avoided due to the negligible pH variations of the treated solution.(3) Allow one step removal of the cationic and anionic species from the wastewater.(4) One dose of coagulant is sufficient for five repeated treatment cycles.(5) Negligible leaching of heavy metals from the waste mud under normal environmentalconditions.(6) Safe for the transport, storage and handling.

Published

2006

12. Purification of Electroplating Wastewaters Utilizing Waste By-Product Ferrous Sulfate and Wood Fly Ash

Author

Višnja Oreščanin, Mirta Rubčić, Karlo Nad, Gordana Pavlović, Luka Mikelić, Nenad Mikulic, and Stipe Lulić

Subjects

Chromium, Conservation of Natural Resources, electroplating wastewater, ferrous sulfate, wood fly ash, heavy metals, Environmental Engineering, Municipal solid waste, Waste management, Incineration, General Medicine, Electroplating, Waste Disposal, Fluid, Wood, Water Purification, Ferrous, Metals, Heavy, Fly ash, By-product, Environmental science, Water Pollutants, Sewage treatment, Ferrous Compounds, Valorisation

Abstract

A new procedure for electroplating waste water treatment using waste by-product (ferrous-sulfate) and waste (wood fly ash) is presented. Ferrous-sulfate was employed for Cr(VI) reduction whereas neutralization and heavy metals removal from electroplating waste waters was performed using wood fly ash. Heavy metal removal efficiency varied from 97.5% for Cu to 99.973% for Zn. Satisfying results can be achieved already at the pH 8. The method is suitable for the purposes of waste water treatment and disposal in compliance with environmental laws. Furthermore, it is technically simple, cost-efficient and requires less space compared to the classical methodology. According to the composition of its water extractable fraction remaining waste ash could be safely deposited on domestic waste repositories.

Published

2004

13. Physical, Chemical, and Genotoxic Properties of Waste Mud By-product of Waste Water Treatment

Author

Ksenija Durgo, J. Franekic-Colic, Karlo Nad, Vlado Valkovic, and Višnja Oreščanin

Subjects

Chemistry, Pulp and paper industry, medicine.disease_cause, Red mud, Analytical Chemistry, Ames test, Waste treatment, parasitic diseases, Toxicity, medicine, By-product, Sewage treatment, Leaching (metallurgy), Waste mud, Waste waters, Heavy metals, Genotoxicity, Cytotoxicity, Ames assay

Abstract

The physical, chemical and genotoxic properties of the activated red mud and its waste mud remained after waste water treatment were studied. The sequential leaching of waste mud under different conditions was investigated, as well as the toxic effect of its water extract, in order to discover a safe way for the handling and disposal of this waste material. Furthermore, in order to reduce the amount of waste material, the possibility of its regeneration and re-usage was also studied. Heavy metals content and other parameters, as well as the genotoxicity of water extract of new coagulant produced for industrial waste water treatment, were investigated to confirm its non-toxicity before its commercial production and usage. For the toxicity investigation, two strains of Salmonella typhimurium, TA98 and TA100 were used as a test system. Tested samples were not cytotoxic or mutagenic for S. typhimurium TA98/TA100 in the presence/absence of the metabolic activation. Promising results were also obtained...

Published

2003

14. Trace Element Analysis of Water and Sediment Before/After Passing a Waste Water Treatment Plant

Author

D. Sudac, A. Gajski, Višnja Oreščanin, Karlo Nad, Vlado Valkovic, and L. Kukec

Subjects

Biofouling, Flocculation, Sediment Analysis, Waste management, Wastewater, Chemistry, Sediment, Turbidity, Red mud, treatment plant, coagulation/occulation, waste waters, antifouling, Analytical Chemistry, Filter (aquarium)

Abstract

A system for waste water cleaning using activated red mud is described in this paper. This system was originally developed for heavy metals and turbidity removal from the waste water generated by pressure washing of the boats coated with antifouling paints. The major parts of the system are described. After the treatment clear water can be discharged directly into the sea and the remaining waste mud with high amount of Cu, Zn, and Pb is filtered through the filter bag and stored. It is possible to carry out five cycles with the same dose of coagulant. Untreated water and sediment analysis was done and concentrations of heavy metals in the treated water are lower than the allowed concentrations prescribed for the technological waste water that could be discharged into the environment.

Published

2003

15. Exploring and Monitoring of Methane Hydrate Deposits

Author

Jasmina Obhodas, Karlo Nad, Davorin Sudac, and Vladivoj Valkovic

Subjects

Nuclear and High Energy Physics, 010504 meteorology & atmospheric sciences, QC1-999, Earth science, Geochemistry, Climate change, chemistry.chemical_element, 010501 environmental sciences, 010502 geochemistry & geophysics, Permafrost, 01 natural sciences, Methane, chemistry.chemical_compound, fast neutrons, Electrical and Electronic Engineering, Quartz, associated alpha particle imaging, 0105 earth and related environmental sciences, Physics, methane hydrate and hydrocarbon energy sources, Sediment, 04 agricultural and veterinary sciences, Nuclear Energy and Engineering, chemistry, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Environmental science, Imaging technique, Water ice, Energy source, Hydrate, Carbon, Earth (classical element)

Abstract

Relatively recently, in the last 20 years, it was discovered that methane hydrate (MH) deposits are globally distributed in the permafrost and oceans. Before 1965 when first deposits were discovered in nature, it was believed that MH can occur only in laboratory conditions or in vast parts of the Universe. Presently it is presumed that this solid crystalline compounds in which CH4 molecules occupies the water ice lattices (nominal chemical formula of MH is C4H62O23) can serve as an energy source favorably to the all of the world remaining conventional hydrocarbon sources. The worldwide estimates of MH deposits range from 2x1014 m3 to 3.053x1018 cubic meters. This uncertainty partly results from our limitations in geological understanding of the MH deposits, which is due to the relatively bad quality of data obtained by presently available seismic and electromagnetic techniques. Moreover, MH deposits can become vulnerable to climate changes, which were already occurring in geological past whit tremendous consequences for the global life on Earth. Thus, further development of advanced techniques is needed to enhance our abilities to better characterize, quantify and monitor the MH deposits. In the work presented 14 MeV neutrons and associated alpha particle imaging (API) where used to quantify the amount of MH in the sample. Samples were prepared from sea sediment, quartz sand and MH simulant. MH simulant with chemical formula C4H46O23 was made from sucrose (25 % by mass) and water. MH quantity was measured by measuring the carbon content in the sample [1-8].

Published

2018

16. Treatment of winery wastewater by electrochemical methods and advanced oxidation processes

Author

Ivanka Lovrenčić Mikelić, Karlo Nad, Višnja Oreščanin, Robert Kollar, and Štefica Findri Guštek

Subjects

Environmental Engineering, Materials science, Ultraviolet Rays, medicine.medical_treatment, Sonication, Iron, Wine, Wastewater, Waste Disposal, Fluid, Electrocoagulation, Phosphates, chemistry.chemical_compound, Ozone, Ammonia, Nephelometry and Turbidimetry, medicine, Electrochemistry, Water Pollutants, Turbidity, Hydrogen peroxide, winery wastewater, electrochemical treatment, ultrasound, ozonation, H2O2, COD, SS electrode, iron anode, aluminum anode, Effluent, Biological Oxygen Demand Analysis, Suspended solids, Sulfates, Metallurgy, General Medicine, Hydrogen Peroxide, Oxidants, chemistry, Oxidation-Reduction, Copper, Waste disposal, Nuclear chemistry

Abstract

The aim of this research was development of new system for the treatment of highly polluted wastewater (COD = 10240 mg/L; SS = 2860 mg/L) originating from vine-making industry. The system consisted of the main treatment that included electrochemical methods (electro oxidation, electrocoagulation using stainless steel, iron and aluminum electrode sets) with simultaneous sonication and recirculation in strong electromagnetic field. Ozonation combined with UV irradiation in the presence of added hydrogen peroxide was applied for the post-treatment of the effluent. Following the combined treatment, the final removal efficiencies of the parameters color, turbidity, suspended solids and phosphates were over 99%, Fe, Cu and ammonia approximately 98%, while the removal of COD and sulfates was 77% and 62%, respectively. A new approach combining electrochemical methods with ultrasound in the strong electromagnetic field resulted in significantly better removal efficiencies for majority of the measured parameters compared to the biological methods, advanced oxidation processes or electrocoagulation. Reduction of the treatment time represents another advantage of this new approach.

Published

2013

17. Preparation of drinking water used in water supply systems of the towns Zrenjanin and Temerin by electrochemical methods

Author

Robert Kollar, Višnja Oreščanin, Karlo Nad, and Nenad Mikulic

Subjects

Chromium, Environmental Engineering, medicine.medical_treatment, Iron, chemistry.chemical_element, Electrocoagulation, Arsenic, Water Purification, Ammonia, chemistry.chemical_compound, Ozone, Metals, Heavy, medicine, Turbidity, Electrodes, Groundwater, Pollutant, Biological Oxygen Demand Analysis, Suspended solids, Sulfates, Drinking Water, Environmental engineering, General Medicine, Electrochemical Techniques, Pilot plant, chemistry, arsenic, heavy metals, ammonia, ozonation, electrocoagulation/electroreduction, iron anode, aluminum anode, UV, Environmental chemistry, Serbia, Copper, Water Pollutants, Chemical

Abstract

The aim of this work was the development and application of the pilot plant with the capacity of 1000 L/day for the purification of groundwater used for human consumption characterized with high concentration of arsenic and increased values of organic pollutants, ammonia, nitrites, color and turbidity. For that purpose, groundwater from the production wells supplying the towns Zrenjanin and Temerin (Vojvodina, Serbia) was used. Due to its complex composition, the purification system required the combination of the electroreduction/electrocoagulation, using iron and aluminum electrode plates with/without ozonation, followed by the electromagnetic treatment and the finally by the simultaneous ozonation/UV treatment. The electroreduction was used for the removal of nitrates, nitrites, and Cr(VI), while the removal of arsenic, heavy metals, suspended solids, color and turbidity required the application of the electrocoagulation with simultaneous ozonation. Organic contaminants and ammonia were removed completely in the last treatment step by applying the simultaneous ozonation/UV treatment. All measured parameters in the purified water were significantly lower compared to the regulated values. Under the optimum treatment conditions, the removal efficiencies for color, turbidity, suspended solids, total arsenic, total chromium, Ni(II), total copper, sulfates, fluorides, chemical oxygen demand, ammonia, nitrates, and nitrites were 100%. The removal efficiencies of the total manganese and iron were 85.19% and 97.44%, respectively, whilst the final concentrations were 4 and 7 μg/L, respectively.

Published

2013

18. Small scale variations in carbon oxygen ratio

Author

Davorin Sudac, Karlo Nad, Jasmina Obhodas, and Vladivoj Valkovic

Subjects

Materials science, Detector, Gamma ray, chemistry.chemical_element, Mineralogy, Formation fluid, Nuclear physics, Time of flight, chemistry, Neutron generator, Neutron source, Neutron detection, 3rd International Conference on Advancements in Nuclear Instrumentation, Measurement Methods and their Applications, Carbon

Abstract

The aim of the research reported here is the development of a methodology for the measurement of small scale variations in chemical elements concentrations, in particular of carbon - oxygen ratio. Knowledge of the C/O ratio is of importance to many problems in various fields. Here we single out the application in obtaining important information about the oilfields. The most fundamental reservoir parameters - oil, gas and water content - are critical factors in determining how each oilfield should be developed. It is well established that carbon to oxygen ratio log yields accurate and repeatable data that can be used to identify and monitor reserves depletion. Recent improvements in neutron generator and gamma detector technologies resulted in small devices which allowed through-tubing measurements. Although the ratio of carbon and oxygen yields is a measure of the ammount of oil arround the tool it should be realized that a carbon signal can originate from several sources including the borehole, the cement behind the casing, the formation rock and the formation fluid. In order to evaluate these contributions individualy we are proposing the modification of the neutron generator by insertion of segmented associated alpha particle detector. From the measurement of time of flight spectra (alpha particle detector - start signal; gamma ray detector - stop signal) it would be possible to determine the location of gamma ray producing voxel and in such a way to determine radial variations in several chemical elements concentrations, in particular of carbon to oxygen ratio.

Published

2013

19. Corrosion monitoring of reinforced concrete structures by using the 14 MeV tagged neutron beams

Author

Vladivoj Valkovic, Jasmina Obhodas, Karlo Nad, and Davorin Sudac

Subjects

Materials science, Neutron generator, Bar (music), Corrosion monitoring, Tube (container), Underwater, Composite material, Concrete cover, Neutron temperature, Corrosion

Abstract

The maintenance and repair of reinforced concrete structures, especially those submerged in the sea-water, require effective inspection and monitoring techniques for assessing the state of corrosion in reinforcement material. An underwater inspection system was developed which is able to monitor the reinforcement corrosion. The system is ROV equipped with the sealed tube neutron generator (NG). By rotating the NG and by using the associated alpha particle technique it is possible to measure the concrete cover depth together with the reinforcing bar diameter. The possibility to estimate the carbon and chloride content in the concrete was investigated. Iron plates of different thickness, covered by 6 cm thick concrete block, were successfully detected and the thickness of the concrete cover was estimated. In addition, reinforced bar of one and three centimeters in diameter was identified and measured.

Published

2012

20. Characterization and electrochemical treatment of landfill leachate

Author

Karlo Nad, Robert Kollar, Damir Ruk, and Višnja Oreščanin

Subjects

Biological Oxygen Demand Analysis, Suspended solids, Environmental Engineering, Ozone, medicine.medical_treatment, X-Rays, Color, General Medicine, Electrochemistry, Waste Disposal, Fluid, Electrocoagulation, Water Purification, Ammonia, chemistry.chemical_compound, chemistry, Environmental chemistry, medicine, Leachate, Turbidity, Effluent, Landfill leachate, COD, ammonia, ozonation, electrocoagulation/electroreduction, iron anode, aluminum anode, Oxidation-Reduction, Water Pollutants, Chemical

Abstract

A combined treatment approach using advanced oxidation, electrochemical methods and microwaves was developed and applied for the treatment of landfill leachate taken from Piskornica (Koprivnica, Croatia) sanitary landfill. Due to the complex nature of the effluent and extremely low bio-degradability (BOD(5)/COD ratio = 0.01) the purification of the leachate started with pre-treatment with ozone followed by simultaneous ozonation and electrocoagulation/electrooxidation using the set of iron and aluminum electrodes, and finally, the degradation of organic residue and ammonia with microwaves. Applied treatment approach resulted in clear, colorless and odorless effluent with the values of all measured parameters significantly lower compared to the upper permissible limit for discharge into the environment. The removal percentages of the parameters: color, turbidity, suspended solids, ammonia, COD and iron following the combined treatment were 98.43%, 99.48%, 98.96%, 98.80%, 94.17% and 98.56%, respectively.

Published

2012

21. Inspection of Objects on the Sea Floor Utilizing 14 MeV Tagged Neutrons

Author

Dario Matika, Robert Kollar, Zeljko Orlic, Karlo Nad, Jasmina Obhodas, Davor Sudac, and Vladivoj Valkovic

Subjects

Nuclear and High Energy Physics, Engineering, business.industry, education, Remotely operated vehicle, humanities, sea floor utilizing, Nuclear Energy and Engineering, Neutron generator, Tube (fluid conveyance), Neutron, Human safety, Electrical and Electronic Engineering, Underwater, business, Seabed, Remote sensing

Abstract

Variety of objects found on the sea floor need to be inspected for the presence of materials that represent threat to the environment and human safety. We have demonstrated that a sealed tube 14 MeV neutron generator, with the detection of associated alpha particles, can be used underwater when mounted inside a remotely operated vehicle equipped with hydraulic legs and a variety of sensors for the inspection of such objects for the presence of threat materials.

Published

2012

22. Inspection of the objects on the sea floor for the presence of explosives

Author

Zoran Domitran, Robert Kollar, Karlo Nad, Vladivoj Valkovic, Davor Sudac, Jasmina Obhodas, Thomas Broach J., and Holloway, John H.

Subjects

Ammunition, neutrons, gamma spectroscopy, underwater ROV, explosive detection, Explosive material, Chemical agents, Environmental science, Explosive detection, Remotely operated underwater vehicle, Seabed, Coastal sea, Marine engineering

Abstract

An ROV constructed for the inspection of objects lying on the coastal sea floor has been described. In order to establish if an object on the sea floor contains some sort of threat material (explosives, chemical agent), a system using a neutron sensor installed within ROV has been developed. We describe the maritime properties of ROV and show that the measured gamma spectra for commonly found ammunition charged with TNT explosives are dominated by C, O and Fe peaks enabling the determination of the presence of explosives inside an ammunition shell.

Published

2012

23. The electrocoagulation/advanced oxidation treatment of the groundwater used for human consumption

Author

Višnja Oreščanin, Karlo Nad, and Robert Kollar

Subjects

Environmental Engineering, medicine.medical_treatment, Color, World Health Organization, Electrocoagulation, Arsenic, Water Purification, Ammonia, chemistry.chemical_compound, Fluorides, Nephelometry and Turbidimetry, Metals, Heavy, medicine, Electrochemistry, Water Pollutants, Turbidity, Nitrogen Compounds, Groundwater, Heavy metals, ammonia, ozonation, electrocoagulation/electroreduction, iron anode, aluminum anode, UV, Biological Oxygen Demand Analysis, Suspended solids, Sulfates, Drinking Water, Environmental engineering, Spectrometry, X-Ray Emission, General Medicine, Contamination, chemistry, Environmental chemistry, Composition (visual arts), Oxidation-Reduction

Abstract

The purpose of this work was development and application of the purification system suitable for the treatment of groundwater used for human consumption, satisfying following criteria: (a) no need for external addition of the chemicals ; (b) simultaneous removal of wide range of contaminants present in the treated water ; (c) low sensitivity to the changes in the composition of the treated water ; (d) high quality of treated water with regards to all measured parameters. Therefore the well water from the 60 m deep water layer situated near the city of Osijek (Eastern Croatia) with elevated values of heavy metals, color, turbidity, suspended solids, ammonia and organic contaminants was processed. Due to the complex composition of the treated water, the purification system required the combination of electroreduction/electrocoagulation, using iron and aluminum electrode plates followed by the simultaneous ozonation/UV treatment. The electroreduction/electrocoagulation approach was used for the removal of heavy metals, suspended solids, color and turbidity, while the organic contaminants and ammonia were removed by the ozonation/UV treatment. Allmeasured parameters in the purified water were significantly lower compared to the regulated values. Under the optimum treatment conditions, the removal efficiencies for color, turbidity, nickel and arsenic were 100%. The removal efficiencies of V, Cr, Mn, Fe, Cu, Zn, Pb, ammonia, fluorides, sulfates and COD were 94.5%, 96.0%, 98.3%, 99.6%, 99.7%, 97.8%, 96.7%, 96, 7%, 93.4%, 51.4%, 72.2% and 93.8%, respectively, increasing with the increased initial concentrations.

Published

2011

24. The application of the ozonation/electrocoagulation treatment process of the boat pressure washing wastewater

Author

Karlo Nad, Višnja Oreščanin, and Robert Kollar

Subjects

Flocculation, Environmental Engineering, Chemistry, medicine.medical_treatment, Metallurgy, chemistry.chemical_element, Hypochlorite, General Medicine, ozonation, electrocoagulation, wastewater, antifouling paints, heavy metals, TOC, COD, stainless steel anode, aluminum, Chloride, Waste Disposal, Fluid, Electrocoagulation, Water Purification, chemistry.chemical_compound, Ozone, Wastewater, Metals, Heavy, medicine, Chlorine, Organic Chemicals, Effluent, medicine.drug, Waste disposal, Nuclear chemistry

Abstract

This paper provides the information on the optimum conditions of the treatment process of the boat pressure washing wastewater (BPWW) by the combination of the ozonation and electrochemical (EC) methods developed on the laboratory and pilot plant scale. The initial effluent was highly enriched in heavy metals and elevated levels of organic contaminants. The concentrations of V, Cr, Fe, Cu, Zn, TOC, and COD exceeded the upper permissible limits of 22, 20, 6, 112, 17, 4, and 2 times, respectively. The main mechanisms of the organic matter destruction were the ozone oxidation and the indirect oxidation with chlorine/hypochlorite formed by the anodic oxidation of chloride already present in the wastewater. The heavy metal removal was forced by the coagulation/flocculation using Fe(2+), Fe(3+), and Al(3+) ions released into the treated solution by electrochemical corrosion of the sacrificial stainless steel and aluminum electrodes. At the optimum conditions obtained with the pilot plant, the removal efficiencies of the parameters V, Cr, Fe, Ni, Cu, Zn, Pb, TOC, and COD were 100.00 %, 99.35 %, 99.51 %, 87.31 %, 99.83 %, 99.65 %, 100.00 %, 88.46 %, and 76.28 %, respectively. All the parameters in the final effluent were in agreement with regulated values. The advantages of this system compared to its physico-chemical counterparts are as follows: (1) no need for the external addition of flocculating agents since they are electrochemically generated inside the treatment tank; (2) minimal pH changes during the treatment process not requiring pH adjustment by acids/basis; (3) a significantly lower amount of sludge since only Fe and Al ions were released in the solution; (4) flocs formed by the electrocoagulation can be easily separated by the filtration due to their higher stability, lower content of the bound water and larger surface compared to chemical flocs; (5) the final EC effluent is clear, colourless and odourless, containing the less total dissolved solids and organics, thence more suitable for the reuse compared to the one obtained by the standard chemical treatment.

Published

2011

25. Inspection of the objects on the sea floor by using 14 MeV tagged neutrons

Author

Dario Matika, Karlo Nad, Zeljko Orlic, Vladivoj Valkovic, Davor Sudac, Robert Kollar, and Jasmina Obhodas

Subjects

Nuclear physics, Optics, Explosive material, Neutron generator, business.industry, Detector, Neutron, Alpha particle, Underwater, Neutron radiation, Remotely operated underwater vehicle, business

Abstract

Variety of objects found on the sea floor needs to be inspected for the presence of materials which represent the threat to the environment and to the safety of humans. We have demonstrated that the sealed tube 14 MeV neutron generator with the detection of associated alpha particles can be used underwater when mounted inside ROV equipped with the hydraulic legs and variety of sensors for the inspection of such objects for the presence of threat materials. Such a system is performing the measurement by using the NaI gamma detector and an API-120 neutron generator which could be rotated in order to maximize the inspected target volume. The neutron beam intensity during the 10–30 min. measurements is ussually 1×107 n/s in 4π. In this report the experimental results for some of commonly found objects containing TNT explosive or its simulant are presented. The measured gamma spectra are dominant by C, O and Fe peaks enabling the determination of the presence of explosives inside the ammunition shell. Parameters influencing the C/O ratio are discussed in some details.

Published

2011

26. The underwater Detection of TNT Explosive

Author

Vladivoj Valkovic, Karlo Nad, Jasmina Obhodas, and Davorin Sudac

Subjects

Nuclear reaction, Nuclear and High Energy Physics, Materials science, Explosive material, Mineralogy, chemistry.chemical_element, associated particle technique, fast neutron interrogation, underwater explosive detection, Nuclear physics, Nuclear Energy and Engineering, Neutron generator, chemistry, Neutron source, Tube (fluid conveyance), Neutron, Electrical and Electronic Engineering, Underwater, Carbon

Abstract

Tagged neutron inspection system was used for the underwater detection of explosives. Neutrons were produced in the d + t nuclear reaction with API 120 sealed tube neutron generator. Five kilograms of TNT explosive were measured in a pool filled with water. Measurements were done in target in, target out configuration. Also, a sandwich made of 6 mm thick iron plates with explosive placed between two layers of sea sediments was measured under the same conditions. Sediments were collected in the Adriatic Sea. Measurements were repeated with TNT explosive replaced by rocks of similar size and shape. Neutron tube was rotated in order to find the position of explosive (rocks) in the sandwich. It was found that TNT can be detected underwater and that is possible to distinguish TNT from the sea rocks placed between 6 mm thick iron plates or between layers of sediments by their ratios of carbon and oxygen.

Published

2011

27. A combined treatment of landfill leachate using calcium oxide, ferric chloride and clinoptilolite

Author

Ivanka Lovrenčić Mikelić, Karlo Nad, Nenad Mikulic, Višnja Oreščanin, Damir Ruk, and Robert Kollar

Subjects

Time Factors, Environmental Engineering, Croatia, Color, Ferric Compounds, Chloride, Water Purification, Ammonia, chemistry.chemical_compound, Chlorides, Nephelometry and Turbidimetry, Metals, Heavy, medicine, Leachate, Turbidity, Calcium oxide, Biological Oxygen Demand Analysis, Suspended solids, Clinoptilolite, Chemistry, landfill leachate, CaO, ferric chloride, clinoptilolite, Temperature, Environmental engineering, Spectrometry, X-Ray Emission, Oxides, General Medicine, Calcium Compounds, Zeolites, Ferric, Water Pollutants, Chemical, medicine.drug, Nuclear chemistry

Abstract

The aim of this research was development of appropriate procedure for treatment of landfill leachate taken from old sanitary landfill Piskornica (Koprivnica, Croatia). Due to complex nature of the effluent a combined treatment approach was applied. Samples were treated with calcium oxide followed by ferric chloride and finally with clinoptilolite. The optimum amount of treating agents and contact time were determined. Application of calcium oxide (25 g/L, 20 min. contact time) resulted in the reduction of color, turbidity, suspended solids and ammonia for 94.50%, 96.55%, 95.66% and 21.60%, respectively, while the removal efficiency of Cr (VI), Fe, Ni, Cu, Zn and Pb was 75.00%, 95.34%, 56.52%, 78.72%, 73.02% and 100.00%, respectively. After addition of ferric chloride (570 mg Fe(3+)/L, 20 min. contact time) removal efficiency of color, turbidity, suspended solids and ammonia increased to 96.04%, 99.27%, 98.61%, and 43.20%, respectively. Removal of ammonia (81.60%) increased significantly after final adsorption onto clinoptilolite (25 g/L, 4 h contact time). Removal of COD after successive treatment with calcium oxide, ferric chloride and clinoptilolite was 64.70%, 77.40% and 81.00%, respectively.

Published

2011

28. Inspecting the inside of the objects lying on the seafloor

Author

Vladivoj Valkovic, Jasmina Obhodas, Robert Kollar, Davorin Sudac, Karlo Nad, Harmon, Russell S., Holloway, John H., and Broach, J. Thomas

Subjects

Explosive material, Neutron generator, Magnetometer, law, Submarine, Sonar, Geology, Seabed, Seafloor spreading, Object detection, associated alpha particle method, detections, Explosive, fast neutrons, threat material, law.invention, Remote sensing

Abstract

In order to demonstrate the possibility of identifying the material within the objects on the sea floor we have performed tests with the 14 MeV sealed tube neutron generator incorporated inside a small submarine, SURVEYOR, submerged in the test basin filled with sea water. The materials inside the investigated objects were identified by measuring the gamma ray spectra and by using the window on the measured alpha- gamma time spectrum. In addition, we describe our field test facility and measurements done at this location in the framework of the EU FP7 project UNCOSS. The existence of a data base of potentially explosive devices on the floor of coastal sea, especially ports and waterways, is of paramount importance. However, the sea floor is littered by number of different objects and the water is not very transparent on such locations. This makes the identification of objects extremely difficult even on known locations. We discuss how to position the SURVEYOR when the object investigated for the presence of explosive has been identified by other sensors (camera, sonar, magnetometer, etc.).

Published

2010

29. Underwater detection of a TNT explosive

Author

Vladivoj Valkovic, Davorin Sudac, Jasmina Obhodas, and Karlo Nad

Subjects

Materials science, Explosive material, chemistry, Neutron generator, Aluminium, Environmental security of ports, chemistry.chemical_element, Neutron source, Mineralogy, Tube (fluid conveyance), Neutron, Underwater, Carbon

Abstract

Tagged neutron inspection system was used for the detection of explosive in water. Neutrons were produced in d+t nuclear reaction with API 120 sealed tube neutron generator. Five kilograms of the TNT explosive were measured in a pool filled with water. Measurements were done in target in, target out configuration. In addition, a sandwich made of 6 mm thick iron plates with explosive in between was placed between two layers of sea sediments and measured underwater. Sediments were collected in the Adriatic Sea. Measurements were repeated with TNT explosive replaced by rocks of similar size and shape. Neutron tube was rotated in order to find the position and dimension of explosive (rocks) in the sandwich. It was found that TNT can be detected in the water. Morover, TNT and, sea rocks have had distinguished ratio of carbon and oxygen while measured between 6 mm thick iron plates and placed between layers of sediments.

Published

2009

30. Toxicological characterization of the new water cleaning product and its waste by-product

Author

Jasna Franekić Čolić, Ksenija Durgo, Snjezana Ramić, Nevenka Kopjar, Vladivoj Valkovic, Verica Garaj Vrhovac, Karlo Nad, and Višnja Oreščanin

Subjects

Salmonella typhimurium, Environmental Engineering, Industrial Waste, Lymphocyte proliferation, medicine.disease_cause, Waste Disposal, Fluid, Industrial waste, Ames test, Water Purification, medicine, Mitotic Index, Humans, Water Pollutants, Lymphocytes, coagulant, water extracts, genotoxicity, micronucleus test, mitotic index, zinc, lead, Chromatography, Micronucleus Tests, Waste management, Chemistry, Flocculation, General Medicine, Red mud, Kinetics, Zinc, Lead, Micronucleus test, Zinc toxicity, Safety, Genotoxicity, Cell Division, Waste disposal

Abstract

Water extracts genotoxicity of the coagulant produced from industrial waste (red mud and waste base) and its waste mud remained after waste water treatment by the coagulation/flocculation process were studied. Tests were conducted in order to confirm nontoxicity of this new product prior to commercial production and usage and also to recommend a safe way for a handling and disposal of the remaining waste material. The toxicity investigation included (i) determining frequency of the cell survival, (ii) the Ames assays, (iii) micronucleus assay, and (iv) cell proliferation kinetics (expressed as mitotic index). These techniques were also employed in toxicity testing of the different concentrations of metal salts, zinc chloride, and lead nitrate in this case since these two elements were present in high concentrations in the waste water intended for the purification with the new coagulant. Mixture of metal salts in the concentrations that represent maximum allowed values for water extracts of technological waste was also tested. Two strains of Salmonella typhimurium, TA98, and TA100 were used for determining cytotoxicity and for the Ames test, while the cytogenetic investigations were performed on human peripheral blood lymphocytes. Water extracts of the coagulant and its waste mud did not induce a significant increase of the micronuclei in human peripheral blood lymphocytes. They also did not disturb lymphocyte proliferation kinetics in vitro. As regards lead nitrate it proved not to be cytotoxic on bacterial strains in the tested concentration range (1-100 mg/L), whereas zinc chloride showed cytotoxic effect for the concentrations above 25 mg/L. The Ames test results for the noncytotoxic concentrations of these metals were negative. Comparing to the negative control a significantly higher number of the micronuclei was determined after the treatment of the whole blood with 100 mg/L of zinc chloride, as well as with 10 and 100 mg/L of lead nitrate. A linear, dose dependent increase was obtained for both salts. Similar results were obtained on the basis of the mitotic index.

Published

2004

31. Distribution of trace elements in the coastal sea sediments: Punat bay in the Northern Adiatic

Author

Nenad Mikulic, Karlo Nad, Vlado Valkovic, Jasmina Obhodas, and Višnja Oreščanin

Subjects

Open sea, Environmental chemistry, Pelite, Environmental science, Sediment, Fraction (chemistry), Composition (visual arts), Bay, Soil contamination, marine sediments, heavy metals, antifouling paints, enrichment factors, Analytical Chemistry, Coastal sea

Abstract

Distributions of trace elements in the coastal sea sediments of Punat Bay in the Northern Adriatic have been investigated. The concentrations of 16 elements (Ca, Ti, V, Cr, Mn, Fe, Ni, Cu, Zn, As, Br, Rb, Sr, Y, Zr and Pb) were measured by energy dispersive XRF. Two predominant types of sediments were observed: the first (sediment “A”), which consists of 87% pelitic fraction and the second (sediment “B”), where coarse-grained fraction (0.315–0.1 mm) prevails. Enrichment factors had elevated values in two upper-most segments for the elements Cu, Zn and Pb in sediment “A.” The highest percentage of exchangeable fraction with respect to the total composition was characteristic for Cr, Cu and Zn in both types of sediments. By means of the linear regression analysis it was established that metals present in the antifouling paints were dispersed all over the bay because of an inefficient cleaning mechanism, poor communication with the open sea, and the good mixing of water and suspended mater in the ba...

Published

2002

32. Red mud and waste base: Row materials for Coagulant Production

Author

Karlo Nad, Olivio Meštrovic, Vladivoj Valkovic, Nenad Mikulic, and Višnja Oreščanin

Subjects

Flocculation, Chemistry, Mineralogy, Raw material, Pulp and paper industry, Red mud, Industrial waste, Analytical Chemistry, law.invention, Waste treatment, Filter press, law, parasitic diseases, EDXRF, Waste base, Coagulant, Antifouling paints, Coagulation/flocculation, Turbidity, Filtration

Abstract

Proposal for coagulant production using red mud and waste base as row material, by-products of abandoned alumina factory near Obrovac in Croatia, is described. Basic physico-chemical characteristics of red mud and waste base were also given. Elemental concentrations of red mud, waste base and wastewaters before and after treatment were measured using tube excited EDXRF method. Coagulant production consist of partial dissolution of red mud with diluted sulphuric acid (30% wt), separation of liquid from residual red mud by centrifugation or filtration through the filter press, and neutralisation of acid red mud (pH = 0) with the waste base to pH = 8. This process of red mud neutralisation results in heavy metals removal and also neutralisation of waste base to pH = 8, which could be, after treatment, discharged directly into the environment. Resulting red mud, after neutralisation, is in gel-like state and is suitable for heavy metals and turbidity removal from industrial wastewaters. As an example, wastewaters from pressure washing of boats coated with antifouling paints were used and promising results were obtained. With one dose of coagulant (activated red mud), five cycles of heavy metals removal could be done.

Published

2001