Browsing by Author "Isinkaralar, K"
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Web of Science Web of Science Activated carbon production from horse chestnut shells for hydrogen storage(2022.01.01) Isinkaralar, K; Gullu, G; Turkyilmaz, A; Dogan, M; Turhan, OWeb of Science Adsorption Behavior of Multi-Component BTEX on the Synthesized Green Adsorbents Derived from Abelmoschus esculentus L. Waste Residue(2023.01.01) Isinkaralar, K; Meruyert, KWeb of Science Assessing the possibility of airborne bismuth accumulation and spatial distribution in an urban area by tree bark: A case study in Duzce, Turkiye(2023.01.01) Isinkaralar, K; Isinkaralar, O; Koc, I; Ozel, HB; Sevik, HWeb of Science Assessment of Cr and Zn deposition on Picea pungens Engelm. in urban air of Ankara, Turkiye(2022.01.01) Sulhan, OF; Sevik, H; Isinkaralar, KWeb of Science Atmospheric Cd, Cr, and Zn Deposition in Several Landscape Plants in Mersin, Turkiye(2022.01.01) Isinkaralar, K; Koc, I; Erdem, R; Sevik, HPublication Atmospheric deposition of Pb and Cd in the Cedrus atlantica for environmental biomonitoring(2022-07-01) Isinkaralar K.; Isinkaralar, KAtmospheric heavy metal deposition is widely occurring due to anthropogenic effects such as industrial activities and motor vehicles. As a result, it has increased significantly and reached a level that threatens human health and the environment. Among these deposition factors, it is of great importance to monitor the atmospheric concentrations of heavy metals that do not easily degrade in nature, tend to bioaccumulate, and can be toxic even at low concentration levels. Biomonitoring is one of the most impressive passive methods in determining the change of heavy metal concentrations in the atmosphere. This study investigates the effect of anthropogenic emission sources in urban areas using tree rings as a biomonitor. Cedrus atlantica was selected, because it is generally preferred in parks, roadside and landscape design. Samples were collected from parks near the road, densely populated, and close to the small-scale industry in Kastamonu, Türkiye. Atmospheric deposition of Lead (Pb) and Cadmium (Cd) in organs were analyzed based on years and directions. Their accumulation in the outer bark was determined to be quite high (Cd value is 2226.2 ppb and Pb value is 38201.1 ppb) compared to other organs. As a result, the traffic density and industrial emissions affect the Pb and Cd concentrations. This study will provide beneficial information for atmospheric heavy metal deposition in landscape plants.Web of Science Atmospheric deposition of Pb and Cd in the Cedrus atlantica for environmental biomonitoring(2022.01.01) Isinkaralar, KWeb of Science Climate-related spatial reduction risk of agricultural lands on the Mediterranean coast in T & uuml;rkiye and scenario-based modelling of urban growth(2023.01.01) Isinkaralar, O; Isinkaralar, K; Yilmaz, DPublication Web of Science Web of Science Comparison of the rate of certain trace metals accumulation in indoor plants for smoking and non-smoking areas(2023.01.01) Ghoma, WEO; Sevik, H; Isinkaralar, KWeb of Science Detection of landscape species as a low-cost biomonitoring study: Cr, Mn, and Zn pollution in an urban air quality(2022.01.01) Yayla, EE; Sevik, H; Isinkaralar, KWeb of Science Determination of heavy metal levels using Betulapendula Roth. under various soil contamination in Southern Urals, Russia(2022.01.01) Isinkaralar, K; Koc, I; Kuzmina, NA; Menshchikov, SL; Erdem, R; Aricak, BWeb of Science Equilibrium study of benzene, toluene, ethylbenzene, and xylene (BTEX) from gas streams by black pine cones-derived activated carbon(2023.01.01) Isinkaralar, K; Turkyilmaz, A; Lakestani, SWeb of Science Experimental evaluation of benzene adsorption in the gas phase using activated carbon from waste biomass(2023.01.01) Isinkaralar, KWeb of Science Experimental study of formaldehyde and BTEX adsorption onto activated carbon from lignocellulosic biomass(2022.01.01) Isinkaralar, K; Gullu, G; Turkyilmaz, AWeb of Science Publication High-efficiency removal of benzene vapor using activated carbon from Althaea officinalis L. biomass as a lignocellulosic precursor.(2022-09-01T00:00:00Z) Isinkaralar, Kaan; Isinkaralar, KBenzene is a primary air pollutant commonly found widespread in the indoor environment. It has always been a research focus on the environment due to the causes of significant human health concerns. It has been widely utilized in the synthesis of solvent production, which can rarely be found in high concentrations in outdoor air or high amounts in indoor air, depending on its sources. It is aimed to remove different initial benzene concentrations (from 5 to 1500 ppm) with the production of activated carbon as an excellent adsorbent with a high surface area to be used in these situations. Lignocellulosic wastes have great potential for activated carbon for their advantages (abundant, recycled, and low-cost materials, etc.). This study aimed to evaluate biowaste material for activated carbon production from Althaea officinalis L. biomass by chemical activation (HSO, LiOH, and ZnCl) at temperatures between 500 and 900 °C. Newly developed powdered activated carbons (Ao-ACs) are also tabulated as Ao-AC1-45 for easy reference. Benzene vapor was collected into Tenax TA® tubes by automatic thermal desorption in conjunction with a capillary gas chromatography-mass spectrometry (TD-GC/MS). The significant surface area and production yield of Ao-ACs were obtained at 1424 m/g (Ao-AC43) and up to 40.32%, respectively. The maximum gas-phase benzene adsorption capacity was 140 mg/g at 270 min. This research has focused on adsorption gas-phase benzene removal onto Ao-ACs as a low-cost adsorbent from the Althaea officinalis L. biomass. Conspicuously, more study is needed to perform the enhanced adsorption of airborne pollutants capacity with inexpensive activated carbon from waste biomass materials.