Browsing by Author "Hancerliogullari, A"
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Web of Science 3D Neutronic Analysis in MHD Calculations at ARIES-ST Fusion Reactors Systems(2014.01.01) Hancerliogullari, A; Cini, MWeb of Science A New Approach to Load Shedding Prediction in GECOL Using Deep Learning Neural Network(2022.01.01) Abusida, AM; Hancerliogullari, AWeb of Science Advanced Power Conversion Efficiency in Inventive Plasma for Hybrid Toroidal Reactor(2013.01.01) Hancerliogullari, A; Cini, M; Gudal, MWeb of Science Assessment of the Enrichment of Heavy Metals in Coal and Its Combustion Residues(2022.01.01) Altikulac, A; Turhan, S; Kurnaz, A; Goren, E; Duran, C; Hancerliogullari, A; Ugur, FAWeb of Science Comparison of Design Gmrt Wind Turbine Plant Effectively with other Power Wind(2017.01.01) Hancerliogullari, A; Sener, YA; Unal, S; Karadeniz, M; Hancerliogullari, G; Kurnaz, A; Cetiner, MA; Ashufat, SA; Madee, YGA; Karatay, SWeb of Science Determination of concentrations of non-volatile elements in fly ash released from coal combustion using EDXRF(2022.01.01) Altikulac, A; Turhan, S; Kurnaz, A; Hancerliogullari, AWeb of Science Determination of elemental concentrations of radionuclides in Turkish bentonite and calculation of radiogenic heat generation(2022.01.01) Turhan, S; Metin, O; Hancerliogullari, A; Kurnaz, A; Duran, CWeb of Science Determination of energy spectra by using proper quantization rule of woods-saxon potential(2021.01.01) Rezaeizadeh, R; Zoghi Foumani, N; Ghasemizad, A; Hancerliogullari, AWeb of Science Determining of energy multiplication in the APEX hybrid reactor by using THF4 and UF4 heavy metal salts(2012.01.01) Hancerliogullari, APublication Determining of energy multiplication in the APEX hybrid reactor by using THF4 and UF4 heavy metal salts(2012-12-01) Hançerliogullari A.; Hancerliogullari, AIn the APEX (Advanced Power Extraction) studies, the conventional first solid wall facing the plasma is replaced with a fast flowing layer of a thin liquid wall. The concept of a free-surface first liquid wall concept is a revolutionary concept. The first liquid wall flows very fast and detains charged particles, and is followed by the thick liquid wall (blanket) which flows slowly and absorbs generated energy and converts it to heat. In the study, the flowing molten salt (i.e., first wall and blanket) is composed of Flibe (Li2BeF4) and is considered the main constituent mixed with different mole fractions (0-12%) of heavy metal salt (ThF4 or UF4) to increase the energy multiplication. Self-sufficient tritium breeding ratio (TBR>1.05) was taken into account to determine the upper limit of the fraction of heavy metal salt in the mixture. Design and calculations of APEX were carried out as 3-D torus by using MCNP-4B computer code. © 2011 John Wiley & Sons, Ltd.Web of Science Different Mechanisms for Establishing Liquid Walls in Advanced Reactor Systems(2013.01.01) Hancerliogullari, A; Cini, MWeb of Science Distribution of Elemental Compositions of Muscovite Quarries in Turkey(2022.01.01) Krista, EMA; Turhan, S; Kurnaz, A; Hancerliogullari, AWeb of Science Distribution of elemental compositions of muscovite quarries in Turkey(2022.01.01) Krista, EMA; Turhan, S; Kurnaz, A; Hancerliogullari, AWeb of Science Ecological assessment of heavy metals in soil around a coal-fired thermal power plant in Turkey(2020.01.01) Turhan, S; Garad, AMK; Hancerliogullari, A; Kurnaz, A; Goren, E; Duran, C; Karatasli, M; Altikulac, A; Savaci, G; Aydin, AWeb of Science Evaluation of radiological health risk due to ingestion and inhalation of radon in commercial packaged fruit juices consumed in Turkey(2023.01.01) Jamasali, YD; Turhan, S; Bakir, TK; Altuner, EM; Duran, C; Hancerliogullari, A; Kurnaz, AWeb of Science Exploration of a Stirling engine and generator combination for air and helium media(2019.01.01) Shufat, SA; Kurt, E; Cinar, C; Aksoy, F; Hancerliogullari, A; Solmaz, HWeb of Science Impact of toxic metal pollution on surface water pollution: a case study of Tohma stream in Sivas, Turkey(2021.01.01) Turhan, S; Duran, C; Kurnaz, A; Hancerliogullari, A; Metin, O; Altikulac, AWeb of Science Implementation of a Real Time Analog Secure Image Communication System via a Chaotic Circuit(2019.01.01) Hancerliogullari, A; El Hadad, KM; Kurt, EWeb of Science Innovative Fusion Tokamak Powerplant and the Basic Engineering for Mhd Theory(2014.01.01) Hancerliogullari, APublication Innovative fusion tokamak powerplant and the basic engineering for Mhd theory(2014-06-01) Hancerliogullari A.; Hancerliogullari, AAll around the world an endeavour to develop the fusion process as a major alternative energy has been going on for about a half century. Aries-St is the spherical tokamak (St) a innovative fusion reactor engineering. This toroidal reactor is a type of system that facilitates the occurrence of the nuclear fusion and fission events together (Tillack et al. in Fusion Energ Des 65:215-261, 2003; El-Guebaly in Fusion Energ Des 65:263-284, 2003). The Aries-St power core consist of the components directly surrounding the burning plasma and serves important functions. In fusion applications, liquid metals are traditionally considered to be the best working fluids. Sufficient tritium breed amount must be TBR >1.1 for Aries-St fusion tokamak power plant (Tillack et al. in Fusion Energ Des 65:215-261, 2003; El-Guebaly in Fusion Energ Des 65:263-284, 2003). The Aries-St power core has designed for correlation with an optimized St plasma that develop through the investigation of extensive range of plasma magnetohydrodynamic (Mhd) equations. In this study, the engineering design plasma parameters are described with respect to Mhd equilibrium and nuclear analysis, stability, radiation heat transfer conditions, current drive, and safety. In addition, turbulence model extended to an incompressible Mhd flows and monte carlo simulation are used for modeling of low-conductivity fluid. In this study the modeling of aries-st tokamak reactor produced by using aries design technology, has performed by using the monte carlo code and Endf/b-V-VI nuclear data. Monte carlo method is the general name for the solution of experimental and statistical problems with a random approach. © 2014 Springer Science+Business Media New York.
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