energy systems laboratorymelib.pusan.ac.kr/pnumelib/me_eng/images/energy system...
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※Administrative Office: 051)510-3093
Name Major, Interest Laboratory E-mail Phone
Yoon, Soon Hyun
Fluid Engineering Fluid Engineering Lab. [email protected] 510-2314
Kim, Duck Jool,
Thermal Engineering and Sprays
Micro Spray Application Lab. [email protected] 510-2316
Kim, Kyung Chun
Fluid Engineering Multi-Scale Multi-Physics
Measurenents Lab. [email protected] 510-2324
Ha, Man Yeong
Thermo-Fluid Engineering
Large Scale Computational Thermal-Fluid Dynamics Lab
[email protected] 510-2440
Park, Warn Gyu
Computational Fluids Dynamics
Computational Fluid Dynamics Lab.
[email protected] 510-2457
Lee, Dong Geun
Microthermal system NanoParticle Technology Lab [email protected] 510-2365
Jeon, Chung Hwan
Energy Conversion System
Energy Conversion System Lab.
[email protected] 510-3051
Go, Jeung Sang
MicroFluidics, Sensors and Actuators
NExT MEMS Lab. (RIMT 208)
[email protected] 510-3512
Choi, Gyung Min
Combustion Engineering
Clean Energy Lab. [email protected] 510-2476
Jeong, Ji Hwan
Refrigeration and Thermo-Fluid
Refrigeration System &Thermo Fluid Lab.
[email protected] 510-3050
Energy Systems Laboratory
※Administrative Office: 051)510-3093
Name Major, Interest Laboratory E-mail Phone
Kim,Yong Tae
Electrochemical Energy Conversion
and Storage Advanced Power Source Lab. [email protected] 510-1012
Song,Ju Hun Power Generation
Energy System Power Generation System Lab . [email protected] 510-7330
Lim,Hee Chang
Thermo-Fluid, Renewable Energy
Renewable energy Fluid Mechanics Lab.
[email protected] 510-2302
Son,Chang Min
Gas Turbine Heat Transfer and
Aerodynamics Gas Turbine Lab.
510-2321
Energy Systems Division
Energy Systems Division
Research Flow characteristics of dual jets using
PIV
Development of Drag-type Wind Power
System Employing all Flow direction type
vertical axis turbine
Development of a vehicle compressor
Contact Office: Engineering Building #10, 10420
Phone: +82-51-510-2314
E-mail: [email protected]
Introduction Our laboratory interests span a range of topics that revolve around fluid
mechanics with applications to computational / experimental fluid dynamics. We
are working on a variety of problems including the flow characteristics of dual jets
and around two square cylinders using PIV, the development of a vehicle
compressor. For physical and mathematical understanding of the problems, we use
Ansys CFX and a variety of experimental equipments.
Key Word:Jet Flow, Turbulence Distribution, Heat Transfer,Velocity Distribution,
Nozzle Shape
Prof. Yoon, Soon Hyun
Fluid Engineering Laboratory
Introduction Various researches for the simultaneous measurement and analysis of multi-physics
(oxygen concentration / temperature / velocity field) are conducted in multi-scale(from
micro to macro scale) by experiment and CFD analysis.
For the development of energy reduction and renewable energy in the field of automobile /
aerospace / shipbuilding, the researches of VOC recovery system, Marine hybrid power
system, ORC power system and small wind turbine for urban are conducted.
Multi-Scale Multi-Physics Measurement Lab.
Prof. Kim, Kyung Chun Energy System Division
Contact Office: RIMT , 312
Phone: +82-51-510-1536, 3211, 2324
E-mail: [email protected]
Research Micro/Nano Flow Measurement Technique
– PIV/TIRFM/Defocusing technique
Simultaneous Measurement of Oxygen
Concentration/Velocity Field with Functional Particle
High Temperature Field Measurement with
Phosphorescent Thermometry
Organic Rankine Cycle Power Generation System
Spiral Small Wind Turbine for Urban Landscape
Volatile Organic Component Recovery System
Marine Hybrid Power System
Keyword: Simultaneous Measurements of Multi-Physics, Organic Rankine Cycle,
Recovery of VOC, Small Wind Turbine, Green Energy
Energy Systems Division
Energy Systems Division
Research Application of spray techniques
Optimization of etching and cleaning spray systems in LCD or semiconductor process.
Simulation of spray analysis
Developing break-up, drying, impact
Developing the engine of next generation
Characteristic analysis of fuel injection and combustion
Study on material motion with molecular dynamics
Process analysis of evaporation and absorption in the nano-scale surface
Contact Office: Eng. Building #9,9211
Phone: +82-51-510-2316
E-mail: [email protected]
Introduction Our laboratory is studying on micro-spray application, numerical analysis of spray-
phenomenon, advanced automotive engine research and the material behavior with
molecular dynamics.
Study on the evaporative spray measurement with LIEF(Laser Induced Exciplex Fluorescence) - Spray characteristic analysis with PDA and PMAS system. - Developing the model of spray analysis simulation.
- Characteristic analysis of etching in the micro processing systems.
Key Word:Atomization and spray, premixed combustion, nozzle design, etching process, spray diagnostic technology
Prof. Kim, Duck Jool
Micro spray application Lab.
Large Scale Computational Thermal-Fluid Dynamics Lab.
Prof. Ha, Man Yeong 학(부)과명-전공명 (영문명)
Research Computational Fluid Dynamics (FVM, LBM, MD)
Heat Transfer, Heat Exchanger
Thermal Management
Turbulent Flow
Two-Phase Flow
Micro/Nano/Bio Fluidics
Advanced Air-conditioning and Refrigeration
Parallel Computing Technology Development
Contact Office: RIMT,314
Phone: +82-51- 510-2440
E-mail: [email protected]
Introduction Research on the wide field of applied engineering researches using CFD
(Computational Fluid Dynamics). Turbulence analysis using techniques such as DNS, LES, RANS, etc. and
developing various in-house CFD code for Nano/MEMS analysis such as IBM, LBM, MD, etc.
Researches with Rolls-Royce and other domestic companies
Key Word: Computational Fluid Dynamics, Thermal Management, Heat transfer, Heat exchanger, Turbulence flow
Energy Systems Division
Computational Fluid Dynamics Lab.
Prof. Park, Warn Gyu 학(부)과명-전공명 (영문명)
사진
Research Computational Fluids Dynamics(CFD)
Multi-Phase Flow Simulation
Offshore Wind Turbine Technology
Numerical Analysis of Flow-field and
Performance of Turbo/Fluid Machinery
Design and Performance Analysis of
Propeller
Design of Wind Turbine Blade
Contact Office: Engineering Building #9,9212
Phone+82-51-510-2457
E-mail: [email protected]
Introduction The CFD(Computational Fluid Dynamics) lab concentrates the research areas of
numerical flow-field and performance analysis of turbo/fluid machinery, automobile, submarine, torpedo, marine propeller, water-jet, etc. Recently, CFD lab. has been involved in project in the field of offshore wind, which is sponsored by Korea Institute of Energy Technology Evaluation and Planning Especially, the CFD lab plays major role in naval weapon development areas such as new heavy torpedo for next generation, underwater missile, and super-cavitation torpedo, which is sponsored by Korea ADD(Agency for Defense Development), DAPA(Defense Acquisition Program Administration), UVRC(Underwater Vehicle Research Center).
Key Word: CFD, Torpedo, Cavitation, Wind Turbine, Multi-Phase Flow
<Streamline of Automobile> <Simulation of Waterjet Flow> <Pressure Field of Submarine>
<Streamline of Torpedo> <Fluid Machinery Impellers> <Offshore Wind Turbine>
Energy Systems Division
Key Word : Fuel cell, Catalyst, Coal combustion
power plant , Thermite, Nanoparticle
Research Develop new tools for nanoscale phenomena Single Nanoparticle Mass Spectrometry - T-jump Mass Spectrometry One-step continuous synthesis of catalytic composites Nanoscale Simulation on Microstructure control & sintering - Montecarlo Simulation & Lattice Boltzmann Simulation Multiscale simulation on atomization & deposition Kinetics and mechanism of combustion of solid fuels - Pulverized coal & Nano metallic particles or thermites - coworked with Univ of Maryland Basic Research Lab on Direct coal fuel cell
Contact Office : Engineering Building #9,9309 Phone : +82-51-510-2365 E-mail : : [email protected]
NanoParticle Technology Lab
Prof. Lee, Dong Geun Energy Systems Division
Photo
Introduction Our mission is to advance the science and technology of manufacturing and realization of products based on the use of the unique properties achieved at the Nanoscale. Applications of interest that has been studied range from fuel cell catalytic electrode, Ultra insulator, Direct coal fuel cell, Ultra porous gas sensor, Diesel emission detector, Nanoscale Analyzer development, and so on. We hope to foster synergistic collaborative activities between industries and us.
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Energy Systems Division
Energy Systems Division
Research Development of analysis and optimization technology for fuel
combustion system of thermal electric power plant
Combustion kinetics analysis using DTF and LFR
Building up infrastructure of coal combustion analysis such
as apparatus, diagnostic system and simulator etc. for Coal-DB
development.
Measurements of major species and emission including NOx ,
CO, hydrocarbons in high pressure combustor.
Contact Office: Engineering Building #9, 9215
Phone+82-51-510-3051
E-mail: [email protected]
Introduction Our laboratory performs research on coal combustion and CCGT system, coal-
DB development, oxy-fuel combustion, Direct Coal Fuel Cell, and high-pressure
gas turbine through the methodologies of simulation and experiment. We are
developing the next generation technology to achieve optimization of combustion
and low emission of pollutants
Key Word: energy conversion CCT(clean coal technology), coal gasification, ash slagging model, DCFC
Prof. Jeon, Chung Hwan
> 1880 °C
< 700 °C
Gas
Temperature
Conc. Coal F
(Out of Service)
Conc. Coal D
Conc. Coal B
SOFA
Base 1 Base 2 Base 3
> 1880 °C
< 700 °C
Gas
Temperature
> 1880 °C
< 700 °C
Gas
Temperature
Conc. Coal F
(Out of Service)
Conc. Coal D
Conc. Coal B
SOFA
Conc. Coal F
(Out of Service)
Conc. Coal D
Conc. Coal B
SOFA
Base 1 Base 2 Base 3
Energy Conversion System Lab.
Energy Systems Division
Research Developing clean coal combustion techniques Developing the control mechanism for active combustion Developing an environment-friendly combustor and smart injector Computation of chemical reaction and multi-flow in turbulent Developing the simulator for performance test of compressors
Fuel cell(PEMFC)
Contact Office: Engineering Building #9, 9308
Phone: +82-51-510-2476
E-mail: [email protected]
Introduction In our laboratory, we investigate the oxy-fuel and pulverized coal combustion,
coal and biomass gasification, active control of turbulent flow, computation of
multi-flow using DNS and LES, performance test of Fuel-cell(PEMFC), developing
compressor simulator based on the clean coal combustion techniques.
Key Word: turbulent combustion, coal combustion, direct carbon fuel cell, cycle
simulation of thermal system, compressor for air-conditioning
Prof. Choi, Gyung Min
Clean Energy Lab.
학(부)과명-전공명 (영문명)
사진
Contact Office: 208 Research Institute of Mechanical Technology, Pusan National University
Phone+82-51-510-3221
E-mail: [email protected]
Introduction High temperature/high pressure sensing technology
Functional micro/nano capsule fabrication technology
Micro/nano particle separation technology
Key Word: MEMS, Sensors, Actuators, Capsule, Particle separation
NExT MEMS Laboratory
Research High temperature/pressure
sensing technology
-Direct fabrication of temperature sensor on 3D surface -High temperature distribution measurement and analysis -Applications: Electronics, engine of vehicles, ships, aviation
-Production of micro/nano capsules using microchannel flow -Encapsulation of various functions -Applications: Display, cosmetics, drug, textiles
-Ultracentrifugation of particles using microchannel flow -Separation of particles by size and density -Application: Biology, medicine, pharmacy, nuclear
Functional micro/nano capsule fabrication technology
Micro/nano particle separation technology
Energy Systems Division Prof. Go, Jeong sang
Energy Systems Division
Research Refrigeration systems
Heat exchangers for HVAC&R and
industry
CFD application to Nuclear Power Plant
analysis
Boiling/condensation/instability of two-
phase flow
Contact Office: RIMT,116
Phone: +82-51-510-3050
E-mail: [email protected]
Introduction We are interested in how to enhance the efficiency of energy systems such as
heat pumps and power plants. My lab has been specifically working on
refrigeration cycle simulation and compact design of heat exchangers for
refrigerators, air-conditioners, gas turbines, and nuclear power plants.
Fundamental research of heat transfer augmentation, boiling, condensation, and
two-phase instability are of our interest as well.
Key Word: refrigeration and air-conditioning, heat exchanger, tow-phase flow, boiling and condensation, nuclear thermal-hydraulics
Prof. Jeong, Ji Hwan
Refrigeration and Thermo-fluid Lab.
Energy Systems Division
Research PEM Fuel Cell Elctrocatalysts
PEM Fuel Cell GDL
PEM Fuel Cell MEA
PEM Fuel Cell Bipolar Plate
PEM Fuel Cell Operating Condition Optimization
PEM Fuel Cell Water Management
PEM Fuel Cell Power Unit Control
Lithium Ion Battery Electrode Materials
Supercapacitor Electrode Materials
Contact Office: Enigineering Building #3, 3405
Phone: +82-51-510-1012
E-mail: [email protected]
Introduction Our main research interest is on the development of advanced fuel cell
materials and systems, which can lead to the commercialization of fuel cell for
electric vehicle and residential application as soon as possible.
Key Word: Fuel cell, Lithium Secondary, Electrocatalysis, Synchrotron study
Prof. Kim, Yong-Tae
Advanced Power Sources Laboratory
Power Generation Energy System Lab.
Prof. Song, Ju Hun Energy Systems Division
Introduction Our laboratory has studied on various topics relating to the power
generation energy system. The research area ranges from conventional energy conversion system such as coal fired boiler and diesel engine to new advanced system including gasifier and direct coal fuel cell.
Key word: power generation, engine, combustion, gasifier, clean coal technology
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0.6 0.8 1 1.2 1.4
Vol
%
O2/Coal ratio
Under H2O/Coal=1.5
CO2(%)
CO(%)
H2O(%)
H2(%)
CH4(%)
Research Combustion thermodynamics and kinetics of solid fuels Electrochemical behavior of coals in fluidized bed condition Evaluation of viscosity, thermal stability and dispersion of slurry fuels Chemistry and utilization of carbon dioxide Simulation of coal gasifier with low rank coal and biomass
Contact Office : Engineering Build. #9, 9214 Phone +82-51-510-7330 E-mail: : [email protected]
Energy Systems Division
Energy Systems Division
Research Renewable (Wind) Energy
Atmospheric Wind Flow over Complex Real
Fields
Drag reduction using Active/Passive Flow
Control
Modelling Wind Flow over Bluff Bodies
Visualization & ImageProcessing Tech.(PIV/PTV)
Microfluidics/Biofluidics
Development of Numerical Calculation (CFD)
Contact Office: Engineering Build. #9, 9213
Phone: +82-51-510-2302
E-mail: [email protected]
Introduction RFM lab combines academic excellence with an innovative and entrepreneurial approach to research,
supporting a comfortable living and studying that challenges students in their pursuit of learning. The
common goal of all our research programs is to gain a deeper understanding of complex, fascinating flows
using high quality of research techniques. Applications include renewable (wind) energy, aerodynamics,
fluid mechanics, drag reduction, heat transfer, and so on.
Key Word: Fluid mechanics,Wind Energy, Renewable energy, Flow visualization, Microfluidics
Prof. Lim, Hee Chang
Renewable energy & Fluid Mechanics Lab. (RFM Lab.)
Gas Turbine Laboratory
Prof. Son, Chang Min Energy Systems Division
Research Gas Turbine Heat Transfer and Aerodynamics
Gas Turbine System for Aero, Industrial and Marine
Applications
Thermal management for Integrated Power System
High Temperature Research
System Engineering and Innovation
Contact Office: Room 3305, Eng. Building No 3
Phone: +82-51-510-2321
E-mail: [email protected]
Introduction The operating temperatures of energy systems get higher including many other extreme operations such as gas turbine, plasma, nuclear, ramjet rocket, SOFC, solar thermal and etc. Therefore high transfer and aerodynamics of high temperature and high pressure conditions are crucial technologies for the success of the energy systems. Research activities focus on the topics in above, with special interest in gas turbine applications and innovative energy technologies.
Key Word: Gas Turbine, HP Turbine, Heat Transfer, Thermal Management, Hybrid Energy System
Energy Systems Division