Dieses Bild zeigt Hayati Kadir Pazarlioglu

Hayati Kadir Pazarlioglu

M.Sc.

Wissenschaftlicher Mitarbeiter
Institut für Thermodynamik der Luft- und Raumfahrt

Kontakt

Pfaffenwaldring 31
70569 Stuttgart
Deutschland
Raum: 1-116

Fachgebiet

Wärmeübertragung: Experimentelle und numerische Untersuchung der Kondensation in wasserverstärkten Turbofans

  1. Pazarlioglu, H. K., & Ekiciler, R. (2024). EFFECT OF THE NANOFLUID FLOW AND EXTENDED SURFACES ON AN ABRUPT EXPANSION TUBE REGARDING THERMODYNAMIC IRREVERSIBILITY. Heat Transfer Research, 55(1), Article 1. https://doi.org/10.1615/heattransres.2023048288
  2. Hasan, I. S., PAZARLIOGLU, H. K., ARSLAN, K., & Ekiciler, R. (2024). Efficiency Determination of Solar Chimney Power Plant Retrofitted with Novel Finned Collector under Real-Time Solar Irradiance. Heat Transfer Research, 55(4), Article 4. https://doi.org/10.1615/heattransres.2023049428
  3. Gürsoy, E., Pazarlioğlu, H. K., Gürdal, M., Gedik, E., Arslan, K., & Dağdeviren, A. (2024). Investigation of magneto-convection characteristics in a sudden expanding channel with convex surface geometry under thermally developing flow conditions. International Journal of Numerical Methods for Heat & Fluid Flow, ahead-of-print(ahead-of-print), Article ahead-of-print. https://doi.org/10.1108/HFF-11-2023-0703
  4. Gürsoy, E., Pazarlıoğlu, H. K., Gürdal, M., Gedik, E., & Arslan, K. (2024). Parametric analysis of different Al2O3 nanoparticle shapes and expansion angles for sudden expanded tube regarding the first law of thermodynamics. International Journal of Thermal Sciences, 197, 108759. https://doi.org/10.1016/j.ijthermalsci.2023.108759
  5. Pazarlioglu, H. K., Tepe, A. U., & Arslan, K. (2023). Thermohydraulic performance assessment of new alternative methods for anti-icing application against current application in an aircraft. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering. https://doi.org/10.1177/09544089231190182
  6. TASKESEN, E., DIRIK, M., TEKIR, M., & PAZARLIOGLU, H. K. (2023). Predicting heat transfer performance of Fe3O4-Cu/water hybrid nanofluid under constant magnetic field using ANN. Journal of Thermal Engineering, 811--822. https://doi.org/10.18186/thermal.1300854
  7. Gürdal, M., Gürsoy, E., Pazarlıoğlu, H. K., Arslan, K., & Gedik, E. (2023). An innovative approach of alternating magnetic field diversified with different wave types and magnet positions for ferrofluid flow in dimpled tube. Journal of Magnetism and Magnetic Materials, 581, 170975. https://doi.org/10.1016/j.jmmm.2023.170975
  8. Pazarlıoğlu, H. K., Ekiciler, R., Arslan, K., & Adil Mohammed Mohammed, N. (2023). Exergetic, Energetic, and entropy production evaluations of parabolic trough collector retrofitted with elliptical dimpled receiver tube filled with hybrid nanofluid. Applied Thermal Engineering, 223, 120004. https://doi.org/10.1016/j.applthermaleng.2023.120004
  9. Pazarlioglu, H. K. (2023). Parametric Analyses of Finned Heatsink Filled with Fe3O4/water Regarding Thermodynamic Irreversibility. Düzce University Journal of Technical Sciences, 1(1), Article 1. https://dergipark.org.tr/en/pub/duted/issue/81799/1366695
  10. Gürsoy, E., Pazarlıoğlu, H. K., Gürdal, M., Gedik, E., & Arslan, K. (2023). Entropy generation of ferronanofluid flow in industrially designed bended dimpled tube. Thermal Science and Engineering Progress, 37, 101620. https://doi.org/10.1016/j.tsep.2022.101620
  11. Gursoy, E., Pazarlioglu, H. K., Gurdal, M., Gedik, E., & Arslan, K. (2023). Farklı Nanopartikül Şekillerinin Entropi Üretimine Etkisinin Ani Genişlemeli Kanalda İncelenmesi.
  12. Pazarlioglu, H. K., Arslan, K., & Tepe, A. U. (2023). Combination of Active and Passive Techniques Applied on NACA0015 for Aerospace Applications Regarding Anti-Icing Issues. https://www.researchgate.net/publication/375379125_Combination_of_Active_and_Passive_Techniques_Applied_on_NACA0015_for_Aerospace_Applications_Regarding_Anti-Icing_Issues
  13. Pazarlıoğlu, H. K., Gürsoy, E., Gürdal, M., Tekir, M., Gedik, E., Arslan, K., & Taşkesen, E. (2023). The first and second law analyses of thermodynamics for CoFe2O4/H2O flow in a sudden expansion tube inserted elliptical dimpled fins. International Journal of Mechanical Sciences, 246, 108144. https://doi.org/10.1016/j.ijmecsci.2023.108144
  14. Gürsoy, E., Pazarlioglu, H. K., Gürdal, M., Gedik, E., & Arslan, K. (2023). Effect of DC Magnetic Field Strength on Volumetric Entropy Generation in Sudden Expansion Tube with Dimpled Fin. https://www.researchgate.net/publication/375379056_Effect_of_DC_Magnetic_Field_Strength_on_Volumetric_Entropy_Generation_in_Sudden_Expansion_Tube_with_Dimpled_Fin
  15. Gurdal, M., Tekir, M., Pazarlioglu, H. K., Arslan, K., & Algbourie, N. I. (2023). Effects of Twisting Ratio, Diagonal Length, and Pitch Ratio of Hexagonal Pin Fins on Thermo-hydraulic Performance of Heat Sink. https://www.researchgate.net/publication/371148596_Effects_of_Twisting_Ratio_Diagonal_Length_and_Pitch_Ratio_of_Hexagonal_Pin_Fins_on_Thermo-hydraulic_Performance_of_Heat_Sink
  16. Gürsoy, E., Gürdal, M., Pazarlıoğlu, H. K., Dağdeviren, A., Tekir, M., Arslan, K., Gedik, E., Adriana Minea, A., & Kurt, H. (2023). Effect of magnetic field locations on thermo-magnetic convection performance of Fe3O4/H2O ferrofluid flowing in a novel dimpled tube: An experimental study. Applied Thermal Engineering, 226, 120305. https://doi.org/10.1016/j.applthermaleng.2023.120305
  17. Calar, E., Arslan, K., Pazarlioglu, H. K., & Tepe, A. U. (2022). Optimization of Influencing Parameters on Thermal Efficiency of Solar Air Heater with Elongated Impinging Jets and Dimpled Fin. https://www.researchgate.net/publication/365210981_Optimization_of_Influencing_Parameters_on_Thermal_Efficiency_of_Solar_Air_Heater_with_Elongated_Impinging_Jets_and_Dimpled_Fin
  18. Pazarlioglu, H. K., Gürdal, M., Tekir, M., Arslan, K., & Gedik, E. (2022). IMPACT OF TWISTED DUCTS WITH DIFFERENT TWIST RATIOS ON HEAT TRANSFER AND FLUID CHARACTERISTICS OF NiO/WATER NANOFLUID FLOW UNDER MAGNETIC FIELD EFFECT. Heat Transfer Research, 53(4), Article 4. https://doi.org/10.1615/heattransres.2022041263
  19. Tekir, M., Gedik, E., Arslan, K., Pazarlıoğlu, H. K., Aksu, B., & Taskesen, E. (2022). Hydrothermal behavior of hybrid magnetite nanofluid flowing in a pipe under bi-directional magnetic field with different wave types. Thermal Science and Engineering Progress, 34, 101399. https://doi.org/10.1016/j.tsep.2022.101399
  20. Altunay, F. M., Arslan, K., Tekir, M., Pazarlioglu, H. K., & Majdi, A. M. A. (2022). A Numerical Investigation on the Thermo-Hydraulic Performance of Ferro-Nanofluid Flow in Conical Helical Tube Under the Influence of Magnetic Field. https://www.researchgate.net/publication/365210890_A_Numerical_Investigation_on_the_Thermo-Hydraulic_Performance_of_Ferro-Nanofluid_Flow_in_Conical_Helical_Tube_Under_the_Influence_of_Magnetic_Field
  21. Gürdal, M., Pazarlıoğlu, H. K., Tekir, M., Arslan, K., & Gedik, E. (2022). Numerical investigation on turbulent flow and heat transfer characteristics of ferro-nanofluid flowing in dimpled tube under magnetic field effect. Applied Thermal Engineering, 200, 117655. https://doi.org/10.1016/j.applthermaleng.2021.117655
  22. Gürsoy, E., Pazarlıoğlu, H. K., Dağdeviren, A., Gürdal, M., Gedik, E., Arslan, K., & Kurt, H. (2022). Energy analysis of magnetite nanofluid flowing in newly designed sudden expansion tube retrofitted with dimpled fin. International Journal of Heat and Mass Transfer, 199, 123446. https://doi.org/10.1016/j.ijheatmasstransfer.2022.123446
  23. Pazarlıoğlu, H. K., Ümit Tepe, A., Tekir, M., & Arslan, K. (2022). Effect of new design of elongated jet hole on thermal efficiency of solar air heater. Thermal Science and Engineering Progress, 36, 101483. https://doi.org/10.1016/j.tsep.2022.101483
  24. Pazarlioglu, H. K., Gurdal, M., Tekir, M., Altunay, F. M., & Arslan, K. (2022). A NUMERICAL INVESTIGATION ON THE THERMO-HYDRAULIC PERFORMANCE OF DIMPLED FIN CONFIGURATIONS IN A RECTANGULAR CHANNEL. Proceeding of Proceedings of CONV-22: Int. Symp. on Convective Heat and Mass Transfer June 5 – 10, 2022, Turkey. https://doi.org/10.1615/ichmt.2022.conv22.760
  25. Altunay, F. M., Ali, M. A. M., Gurdal, M., Pazarlioglu, H. K., Arslan, K., & Gedik, E. (2022). EFFECT OF NANOPARTICLE SHAPE ON NANOFLUID FLOW IN CONICAL HELICAL TUBE. Proceeding of Proceedings of CONV-22: Int. Symp. on Convective Heat and Mass Transfer June 5 – 10, 2022, Turkey. https://doi.org/10.1615/ichmt.2022.conv22.650
  26. Pazarlioglu, H. K., Tepe, A. U., & Arslan, K. (2022). Heat Transfer Performance of Punched Holes on Fin Surface for the Flat Tube Bank Heat Exchanger. https://www.researchgate.net/publication/365211189_Heat_Transfer_Performance_of_Punched_Holes_on_Fin_Surface_for_the_Flat_Tube_Bank_Heat_Exchanger
  27. Gurdal, M., Pazarlioglu, H. K., & Arslan, K. (2022). Impact on the Heat Transfer and Flow Behavior of Fin Geometry in a Rectangular Channel. https://www.researchgate.net/publication/365210982_Impact_on_the_Heat_Transfer_and_Flow_Behavior_of_Fin_Geometry_in_a_Rectangular_Channel
  28. Tasken, E., Tekir, M., Pazarlioglu, H. K., Gurdal, M., Gedik, E., & Arslan, K. (2022). The effect of MHD flow on hydrothermal characteristics of ferro-nano-fluid in circular pipe. Experimental Heat Transfer, 617–631. https://doi.org/10.1080/08916152.2022.2065384
  29. Gurdal, M., Pazarlioglu, H. K., Tekir, M., Arslan, K., Gedik, E., & Taskesen, E. (2022). Experimental investigation on thermo hydraulic performance of ferronanofluid flow in a dimpled tube under magnetic field effect. Experimental Heat Transfer, 312–330. https://doi.org/10.1080/08916152.2022.2027575
  30. Altunay, F. M., Pazarlıoğlu, H. K., Gürdal, M., Tekir, M., Arslan, K., & Gedik, E. (2022). Thermal performance of Fe3O4/water nanofluid flow in a newly designed dimpled tube under the influence of non-uniform magnetic field. International Journal of Thermal Sciences, 179, 107651. https://doi.org/10.1016/j.ijthermalsci.2022.107651
  31. Gürdal, M., Pazarlıoğlu, H. K., Tekir, M., Altunay, F. M., Arslan, K., & Gedik, E. (2022). Implementation of hybrid nanofluid flowing in dimpled tube subjected to magnetic field. International Communications in Heat and Mass Transfer, 134, 106032. https://doi.org/10.1016/j.icheatmasstransfer.2022.106032
  32. Gursoy, E., Calar, E., Dagdeviren, A., Pazarlioglu, H. K., Gedik, E., & Arslan, K. (2022). Thermo-hydraulic Performance Analysis of Al2O3/water Nanofluid Flow in a Tube Extended by Twisted Tape. INTERNATIONAL JOURNAL OF THERMAL-FLUID ENGINEERING AND MODERN ENERGETICS, 1(1), Article 1. https://doi.org/10.51558/2831-0527.2022.1.1.34
  33. Pazarlioglu, H. K. (2022). Effect of Circular and Slot Jet Impingement Design on Anti-Icing System of An Aircraft Wing Leading Edge [Karabuk University]. In Effect of Circular and Slot Jet Impingement Design on Anti-Icing System of An Aircraft Wing Leading Edge. https://www.researchgate.net/publication/372288900_Effect_of_Circular_and_Slot_Jet_Impingement_Design_on_Anti-Icing_System_of_An_Aircraft_Wing_Leading_Edge
  34. Dadeviren, A., Gedik, E., Kecebas, A., Pazarlioglu, H. K., Arslan, K., & Alsabery, A. I. (2022). Effect of Al2O3SiO2/Water Hybrid Nanofluid Filled in a Square Enclosure on the Natural Convective Heat Transfer Characteristics: A Numerical Study. Journal of Nanofluids, 11(5), Article 5. https://doi.org/doi:10.1166/jon.2022.1881
  35. PAZARLIOGLU, H. K., TEPE, A. Ü., & ARSLAN, K. (2022). Optimization of Parameters Affecting Anti-Icing Performance on Wing Leading Edge of Aircraft. European Journal of Science and Technology. https://doi.org/10.31590/ejosat.1062495
  36. Pazarlioglu, H. K., Ekiciler, R., & Arslan, K. (2021). NUMERICAL ANALYSIS OF EFFECT OF IMPINGING JET ON COOLING OF SOLAR AIR HEATER WITH LONGITUDINAL FINS. Heat Transfer Research, 52(11), Article 11. https://doi.org/10.1615/HeatTransRes.2021037251
  37. Pazarlioglu, H. K., Gurdal, M., Arslan, K., & Gedik, E. (2021). Numerical Investigation on Heat Transfer and Flow Behaviours of NiO/H2O Nanofluid Flowing in Dimpled Tube. https://www.researchgate.net/publication/354506955_Numerical_Investigation_on_Heat_Transfer_and_Flow_Behaviours_of_NiOH2O_Nanofluid_Flowing_in_Dimpled_Tube
  38. ALGBURI, N. I. H., PAZARLIOGLU, H. K., & ARSLAN, K. (2021). Effect of Pitch Ratio and Diagonal Length of Pin Fin of Heat Sink on Convective Heat Transfer for Turbulent Flow Condition. European Journal of Science and Technology. https://doi.org/10.31590/ejosat.1009980
  39. Gurdal, M., Pazarlioglu, H. K., Arslan, K., & Gedik, E. (2021). ÇUKUR KANATÇIKLI DAİRESEL KESİTLİ BİR KANAL İÇERİSİNDEKİ LAMİNER AKIŞIN DENEYSEL VE SAYISAL OLARAK İNCELENMESİ. https://www.researchgate.net/publication/354523480_CUKUR_KANATCIKLI_DAIRESEL_KESITLI_BIR_KANAL_ICERISINDEKI_LAMINER_AKISIN_DENEYSEL_VE_SAYISAL_OLARAK_INCELENMESI
  40. PAZARLIOGLU, H. K., & TEKIR, M. (2021). Impact of Fe3O4/water on Natural Convection in Square Enclosure. European Journal of Science and Technology. https://doi.org/10.31590/ejosat.1010066

ÜBERBLICK


Hayati Kadir PAZARLIOGLU ist wissenschaftlicher Mitarbeiter am Institut für Thermodynamik der Luft- und Raumfahrt an der Universität Stuttgart. Derzeit arbeitet er an klimaneutralen Turbofan-Systemen.

DERZEITIGE AKTIVITÄTEN

Kadir arbeitet mit Prof. Dr. Bernhard Weigand an seinem Promotionsprojekt. Seine Dissertation befasst sich mit dem WET (Water Enhanced Turbofan) System & SWITCH (Sustainable Water-Injecting Turbofan Comprising Hybrid-Electrics) Projekt für die Luft- und Raumfahrt.

 

HINTERGRUND

Kadir machte 2013 seinen Abschluss an der Mechatronikabteilung der Technischen Hochschule. Nach seinem Abschluss an der mechatronischen Abteilung der Technischen Hochschule im Jahr 2013 begann Kadir 2017 bei der Türkischen Republikanischen Eisenbahngesellschaft (TCDD) als Signalisierungstechniker zu arbeiten. Während seiner Zeit bei der TCDD sammelte Kadir unschätzbare Erfahrungen in der Wartung und Reparatur von Signalisierungssystemen, die im Schienenverkehr eingesetzt werden, und erwarb 2020 seinen Bachelor-Abschluss in Maschinenbau an der Karabük-Universität. Er setzte sein Studium an derselben Universität fort, wo er einen Master-Abschluss in Maschinenbau mit Schwerpunkt Thermodynamik/Wärmeübertragung erwarb, den er 2022 abschloss.


Während seines Masterstudiums führte Kadir umfangreiche Forschungsarbeiten zu einer Reihe von Themen durch, darunter Kühlung elektronischer Geräte, Enteisungsschutzsysteme für Flugzeuge, Nanopartikel, auftreffende Düsen, Solarenergiesysteme, Wärmesenken, Magnetohydrodynamik und Wärmetauscher. Für seine Forschung wurde er drei Jahre in Folge (2021-2023) mit dem TUBITAK Scientific Publication Award ausgezeichnet.


Kadirs Leidenschaft für das Wissen hat ihn auch dazu gebracht, zahlreiche Forschungsaufgaben zu übernehmen, unter anderem als Freiwilliger an der Karabuk-Universität zwischen 2017 und 2023. Sein Engagement in seinem Fachgebiet blieb nicht unbemerkt, und Kadir wurde zwischen 2022 und 2023 als Product Support Engineer bei ASELSAN Inc. und schließlich als Forschungsassistent im ITLR (Institut für Luft- und Raumfahrtthermodynamik) angestellt.

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