Ali Palizdar | Natural gas liquefaction | Best Researcher Award

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Dr. Ali Palizdar | Natural gas liquefaction | Best Researcher Award

Dr. Ali Palizdar, Institute of Liquefied Natural Gas (ILNG), University of Tehran, Tehran, Islamic Republic of Iran

Dr. Ali Palizdar is a researcher at the Institute of Liquefied Natural Gas (ILNG), University of Tehran, Iran. He holds a Master’s (2012) and Ph.D. (2019) in Chemical Engineering and completed a postdoctoral research fellowship at the University of Tehran. With over 10 years of experience in natural gas liquefaction, his research focuses on LNG processing, helium separation, and gas conversion. Dr. Palizdar has authored 17 publications and supervised 15 graduate theses. He has contributed significantly to Iran’s LNG industry through various research and consultancy projects. 🌍💡📚

Publication Profile

Google Scholar

Academic and Professional Background

Dr. Ali Palizdar holds a Master’s (2012) and Ph.D. (2019) in Chemical Engineering from the University of Tehran and Tarbiat Modares University, respectively. Following his postdoctoral research at the University of Tehran, his work has focused on natural gas liquefaction, helium separation, and conversion. With over 10 years of experience at the Institute of Natural Gas Liquefaction, Dr. Palizdar has developed a deep expertise in LNG technologies, both in Iran and globally. He has supervised 15 graduate theses and authored 17 research publications in prestigious journals and conferences. 📚💡

Research and Innovations

Dr. Ali Palizdar has led numerous groundbreaking research projects in the field of natural gas liquefaction (LNG) and energy optimization. His work includes categorizing LNG standards in Iran, developing small-scale LNG units, and conducting environmental studies on LNG as fuel for maritime and road transportation. He has overseen the design of a 15-tonne/day LNG liquefaction plant and developed a master plan for an LNG research institute. Dr. Palizdar has also contributed to optimizing sport venues, exergy analysis for fuel cells, and investigating mixed refrigerant processes for LNG liquefaction. 🌍💡🔋

Areas of Research 🌍🔬

Dr. Ali Palizdar’s research primarily focuses on natural gas liquefaction and cryogenics, crucial for advancing energy solutions. His work in alternative fuels explores sustainable energy sources, particularly in the transportation sector, by examining the use of liquefied natural gas (LNG) as an eco-friendly fuel for both maritime and road transport. With deep expertise in cryogenic processes, he aims to improve LNG production, storage, and transportation efficiency. Through these innovative areas, Dr. Palizdar contributes significantly to energy sustainability and environmental impact reduction. 🌱💡🚗

Publication Top Notes

  • Advanced exergetic analysis of five natural gas liquefaction processes – A Vatani, M Mehrpooya, A Palizdar, Energy Conversion and Management 78, 720-737 (Cited by: 225) 📊 (2014)
  • Energy and exergy analyses of five conventional liquefied natural gas processes – A Vatani, M Mehrpooya, A Palizdar, International Journal of Energy Research 38 (14), 1843-1863 (Cited by: 145) 🔋 (2014)
  • Energy and exergy analysis and optimal design of the hybrid molten carbonate fuel cell power plant and carbon dioxide capturing process – J Yazdanfar, M Mehrpooya, H Yousefi, A Palizdar, Energy Conversion and Management 98, 15-27 (Cited by: 87) ⚡ (2015)
  • Catalytic upgrading of biomass pyrolysis oil over tailored hierarchical MFI zeolite: effect of porosity enhancement and porosity-acidity interaction on deoxygenation reactions – A Palizdar, SM Sadrameli, Renewable Energy 148, 674-688 (Cited by: 62) 🌱 (2020)
  • Catalytic upgrading of beech wood pyrolysis oil over iron-and zinc-promoted hierarchical MFI zeolites – A Palizdar, SM Sadrameli, Fuel 264, 116813 (Cited by: 61) 🌳 (2020)
  • Thermodynamic evaluation of three mini-scale nitrogen single expansion processes for liquefaction of natural gas using advanced exergy analysis – A Palizdar, T Ramezani, Z Nargessi, S AmirAfshar, M Abbasi, A Vatani, Energy Conversion and Management 150, 637-650 (Cited by: 42) 🔥 (2017)
  • Advanced exergoeconomic evaluation of a mini-scale nitrogen dual expander process for liquefaction of natural gas – A Palizdar, T Ramezani, Z Nargessi, S AmirAfshar, M Abbasi, A Vatani, Energy 168, 542-557 (Cited by: 34) 💡 (2019)
  • Conventional and advanced exergoeconomic analyses applied to ethylene refrigeration system of an existing olefin plant – A Palizdar, SM Sadrameli, Energy Conversion and Management 138, 474-485 (Cited by: 25) 🔧 (2017)
  • Simulation and optimization of sweetening and dehydration processes in the pretreatment unit of a mini-scale natural gas liquefaction plant – F Zarezadeh, A Vatani, A Palizdar, Z Nargessi, International Journal of Greenhouse Gas Control 118, 103669 (Cited by: 12) 🌍 (2022)
  • Design and analysis of a novel self-refrigerated natural gas liquefaction system integrated with helium recovery and CO2 liquefaction processes

 

Jeongseog Oh | Aluminum water splitting | Best Researcher Award

Posted on by Best Paper Award

Dr. Jeongseog Oh | Aluminum water splitting | Best Researcher Award

Doctorate at Korea Institute of Energy Research (KIER), South Korea

Summary:

Dr. Jeongseog Oh is a Principal Researcher at the Korea Institute of Energy Research (KIER) and an expert in combustion engineering, chemical engineering, and system engineering. He received his Ph.D. in Mechanical and Aerospace Engineering from Seoul National University and has since contributed to numerous projects and research initiatives, particularly in the areas of combustion stability, energy systems, and reaction kinetics. He has held positions in both academia and industry, including a tenure as an Affiliated Professor and a Senior Researcher. His work has been recognized with several awards, including commendations from national agencies in Korea.

Professional Profile:

👩‍🎓Education:

Ph.D. in Mechanical and Aerospace Engineering

  • Seoul National University, Korea (2010)
  • Focus: Experimental Combustion and Propulsion Engineering
  • Adviser: Youngbin Yoon

M.B.A. in Business Administration

  • Chungnam National University, Korea (2016)
  • Focus: Management of Technology
  • Adviser: Yoonsoo Lim

M.S. in Mechanical Engineering

  • Pusan National University, Korea (2005)
  • Focus: Experimental Combustion Engineering
  • Adviser: Youngjoon Chang

B.S. in Mechanical Engineering

  • Dong-A University, Korea (2002)
  • Adviser: Joongwan Kim

🏢 Professional Experience:

Dr. Jeongseog Oh has been a Principal Researcher in the Energy Convergence System Research Department at the Korea Institute of Energy Research (KIER) since April 2011. In addition, he served as an Affiliated Professor at the Division of Energy System Engineering at the KIER School, University of Science and Technology from 2016 to 2019. Before joining KIER, he was a Senior Researcher in the Propulsion Research Team at Hyundai ROTEM Company from 2010 to 2011. He has also been a Teaching Assistant at the School of Mechanical and Aerospace Engineering at Seoul National University and a Visiting Student at the Propulsion Engineering Research Center at Pennsylvania State University.

Research Interests:

Combustion Engineering:

  • Turbulent non-premixed hydrogen jet flames
  • Liquid jet in cross flow for ramjet engines
  • Combustion instability in gas turbine combustors
  • Oxy-fuel and oxygen-enhanced combustion in industrial furnaces

Chemical Engineering:

  • Particle separation in gasification processes
  • Reduction of iron oxide particles in steelmaking processes
  • Reaction kinetics of gas, liquid, and solid fuels

System Engineering:

  • Smart Farm Energy Systems
  • Thermal Energy Storage Systems (ATES, etc.)
  • Aluminum-Air Battery & Aluminum-Alkali Reaction Systems

Laser Diagnostics:

  • Simultaneous measurements of PIV/OH PLIF
  • Optical patternator (PLLIF)

Computational Tools:

  • Numerical simulation using FLUENT, TRANSYS, SolidWorks, REFPROP, and CHEMKIN

Awards:

Commendation from Minister: Ministry of Trade, Industry, and Energy, Korea (2021)

Commendation from Director: Korea Institute of Planning and Evaluation for Technology in Food, Agriculture and Forestry (IPET), Korea (2021)

Grand Prize: Annual Outstanding Paper Award, Korea Institute of Energy Research (KIER), Korea (2014)

Top Noted Publication:

Development of an Oxygen-Enhanced Combustor for Scrap Preheating in an Electric Arc Furnace

  • Authors: Oh, J., Lee, E., Noh, D.
  • Journal: Applied Thermal Engineering
  • Year: 2015
  • Volume: 91
  • Pages: 749–758
  • Citations: 9

Pyrolysis Characteristics of Glass Fiber-Reinforced Plastic (GFRP) under Isothermal Conditions

  • Authors: Yun, Y.M., Seo, M.W., Ra, H.W., Lee, J.G., Kim, J.H.
  • Journal: Journal of Analytical and Applied Pyrolysis
  • Year: 2015
  • Volume: 114
  • Pages: 40–46
  • Citations: 30

Numerical Simulation of an Internal Flow Field in a Uniflow Cyclone Separator

  • Authors: Oh, J., Choi, S., Kim, J.
  • Journal: Powder Technology
  • Year: 2015
  • Volume: 274
  • Pages: 135–145
  • Citations: 68

Flame Characteristics of a Non-Premixed Oxy-Fuel Jet in a Lab-Scale Furnace

  • Authors: Oh, J., Noh, D.
  • Journal: Energy
  • Year: 2015
  • Volume: 81
  • Pages: 328–343
  • Citations: 31

Particle Separation with the Concept of Uniflow Cyclone

  • Authors: Oh, J., Choi, S., Kim, J., Lee, S., Jin, G.
  • Journal: Powder Technology
  • Year: 2014
  • Volume: 254
  • Pages: 500–507
  • Citations: 14