Moonyong Lee mainly focuses on Process engineering, Control theory, PID controller, Liquefied natural gas and Liquefaction. His study in Process engineering is interdisciplinary in nature, drawing from both Work, Capital cost, Distillation, Pyrolysis and Efficient energy use. Many of his research projects under Distillation are closely connected to Column with Column, tying the diverse disciplines of science together.
His PID controller study combines topics from a wide range of disciplines, such as Control system, Open-loop controller and Internal model. His research in Liquefied natural gas intersects with topics in Exergy and Process. The concepts of his Liquefaction study are interwoven with issues in Mechanical engineering, Energy, Refrigerant and Nonlinear system.
Moonyong Lee mostly deals with Process engineering, Distillation, Control theory, PID controller and Efficient energy use. Liquefaction and Exergy is closely connected to Refrigerant in his research, which is encompassed under the umbrella topic of Process engineering. His biological study spans a wide range of topics, including Heat pump, Process integration and Operating cost.
Control theory is closely attributed to Control engineering in his research. His work carried out in the field of PID controller brings together such families of science as Setpoint, Open-loop controller, Time constant and Multivariable calculus. His studies deal with areas such as Energy consumption and Retrofitting as well as Efficient energy use.
The scientist’s investigation covers issues in Process engineering, Refrigerant, Liquefaction, Distillation and Liquefied natural gas. He has included themes like Energy consumption, Scientific method and Efficient energy use in his Process engineering study. Moonyong Lee interconnects Batch distillation and Operating cost in the investigation of issues within Refrigerant.
His studies in Liquefaction integrate themes in fields like Waste management, Biogas, Coal, Heat exchanger and Methane. In his study, Raw material is inextricably linked to Process integration, which falls within the broad field of Distillation. His Liquefied natural gas research is included under the broader classification of Natural gas.
Process engineering, Liquefaction, Natural gas, Context and Refrigerant are his primary areas of study. His Process engineering research includes elements of Distillation, Tray, Liquefied natural gas and Current. His Distillation research incorporates elements of Ethanol fuel, Biofuel, Syngas fermentation, Process integration and Biomass.
His studies deal with areas such as Energy consumption and Specific energy as well as Liquefied natural gas. His Liquefaction study combines topics in areas such as Waste management, Biogas and Renewable energy. His research on Refrigerant often connects related topics like Efficient energy use.
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PID controller tuning for desired closed‐loop responses for SI/SO systems
Yongho Lee;Sunwon Park;Moonyong Lee;Coleman Brosilow.
Aiche Journal (1998)
IMC−PID Controller Design for Improved Disturbance Rejection of Time-Delayed Processes
M. Shamsuzzoha;Moonyong Lee.
Industrial & Engineering Chemistry Research (2007)
A COMPARATIVE STUDY ON THE ELECTRICAL CONDUCTION MECHANISMS OF (BA0.5SR0.5)TIO3 THIN FILMS ON PT AND IRO2 ELECTRODES
Cheol Seong Hwang;Byoung Taek Lee;Chang Seok Kang;Jin Won Kim.
Journal of Applied Physics (1998)
PID controller tuning to obtain desired closed loop responses for cascade control systems
Yongho Lee;Sunwon Park;Moonyong Lee.
Industrial & Engineering Chemistry Research (1998)
Depletion layer thickness and Schottky type carrier injection at the interface between Pt electrodes and (Ba, Sr)TiO3 thin films
Cheol Seong Hwang;Byoung Taek Lee;Chang Seok Kang;Ki Hoon Lee.
Journal of Applied Physics (1999)
Independent design of multi-loop PI/PID controllers for interacting multivariable processes
Truong Nguyen Luan Vu;Moonyong Lee.
Journal of Process Control (2010)
Design optimization of single mixed refrigerant natural gas liquefaction process using the particle swarm paradigm with nonlinear constraints
Mohd Shariq Khan;Moonyong Lee.
Knowledge based decision making method for the selection of mixed refrigerant systems for energy efficient LNG processes
Mohd Shariq Khan;Sanggyu Lee;G.P. Rangaiah;Moonyong Lee.
Applied Energy (2013)
Analytical design of enhanced PID filter controller for integrating and first order unstable processes with time delay
M. Shamsuzzoha;Moonyong Lee.
Chemical Engineering Science (2008)
Determination of oil well production performance using artificial neural network (ANN) linked to the particle swarm optimization (PSO) tool
Mohammad Ali Ahmadi;Reza Soleimani;Moonyong Lee;Tomoaki Kashiwao.
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