- Office.신소재공학관 301호
- Tel.02-2220-0523
- Email.kiho138@hanyang.ac.kr
- Website.친환경 화학공정 모델링/설계 연구실
Modeling, design, and optimization of chemical, energy, and environmental processes
Energy analysis, optimal design, and process design of desalination systems
Model development and simulation of crystallization systems
Process design and modeling of water-energy nexus systems
수치해석
화공열역학
공업수학3
Korea University, Seoul, Korea (Ph.D. Chemical and Biological Engineering) – through Master and Ph.D. integrated course (Supervisor: Prof. Dae Ryook Yang)
Korea University, Seoul, Korea (B.Eng. Chemical and Biological Engineering)
2024.03~Present: Associate Professor, Department of Chemical Engineering, Hanyang University
2023.04~2024.02: Associate Professor, School of Chemical Engineering, Chonnam National University
2021.03~2023.03: Assistant Professor, School of Chemical Engineering, Chonnam National University
2019.07~2021.01: Research Fellow, Department of Civil Engineering, University of Birmingham
2018.11~2019.06: Research Professor, School of Civil, Environmental and Architectural Engineering, Korea University
2018.03~2018.10: Research Professor, Department of Chemical and Biological Engineering, Korea University
Park, K. et al. Design, modelling and optimisation of a batch reverse osmosis (RO) desalination system using a free piston for brackish water treatment. Desalination 494, 114625 (2020).
Park, K., Jang, Y. H., Kim, M.-g., Yang, D. R. & Hong, S. Comprehensive analysis of a hybrid FO/crystallization/RO process for improving its economic feasibility to seawater desalination. Water Research 171, 115426 (2020).
Park, K. & Davies, P. A. A compact hybrid batch/semi-batch reverse osmosis (HBSRO) system for high-recovery, low-energy desalination. Desalination 504, 114976 (2021).
Park, K., Kim, J. & Hong, S. Brine management systems using membrane concentrators: Future directions for membrane development in desalination. Desalination 535, 115839 (2022).
Park, K. et al. Desalination, Water Re-use, and Halophyte Cultivation in Salinized Regions: A Highly Productive Groundwater Treatment System. Environmental Science & Technology 57, 11863-11875 (2023).
Kim, G. & Park, K. Application of batch reverse osmosis as an appropriate technology for inland desalination: Design, modeling, and operating strategies. Desalination 592, 118185 (2024).
Kim, H. S., Cho, G. S., Park, Y.-G. & Park, K. Energy self-sustainable operation of solar-powered pressure-retarded membrane distillation: Modeling, implementation viability, and economic feasibility study. Desalination 592, 118076 (2024).
Kim, J., Dong, L., Shon, H. K. & Park, K. Current progress in semi-batch reverse osmosis for brackish water desalination. Desalination, 117434 (2024).
Kim, Y., Park, Y.-G. & Park, K. Optimal design strategy, heuristics, and theoretical analysis of multi-stage reverse osmosis for seawater desalination. Desalination 580, 117534 (2024).
Moon, J., Kim, J. H. & Park, K. Cost-based optimization, feasibility study, and sensitivity analysis of forward osmosis/crystallization/reverse osmosis with high-temperature operation for high-salinity seawater desalination. Desalination 580, 117531 (2024).
환경에너지화학공정연구실에서는 화학공학에서 최근 이슈가 되고 있는 환경, 에너지, 화학 공정들에 관한 전반적인 연구를 공정시스템공학 기법을 적용해서 진행한다. 주로 공정 모델링, 공정 설계, 최적 시스템 설계안 도출에 대한 연구를 수행하며 MATLAB과 같은 프로그래밍 언어를 활용, 공정을 모사할 수 있는 시뮬레이션 프로그램을 개발한 후 이를 바탕으로 에너지 및 비용 최적화를 수행한다. 연구 테마로는 해수 및 염수의 고효율/저비용 담수화 시스템 개발, 폐열을 활용한 담수/에너지 동시 생산 기술 개발, 수소 및 담수화의 인프라 연계 기술 개발, 결정화 공정 모델링에 대한 연구가 있다.
Environment and chemical process modeling/design engineering laboratory is focusing on the current issues about energy, environment, and chemical processes using process system engineering approaches. The main research themes are process modeling, process design, and optimization for designing the best operating condition and design candidate in full-scale chemical systems. These researches have been conducted through programming languages such as MATLAB, Simulation programs for describing chemical processes are developed based on the modeling equations. Energy and cost optimization can be carried out from the developed simulation program. Our current research topics are seawater/brackish water desalination system with high energy-efficiency/low cost, water/electricity production system using low-grade thermal energy, hydrogen/water nexus system, and crystallization process modeling.
