Your search keyword '"Karlo Nad"' showing total 7 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. 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

6. 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

7. 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