Department of Environmental Sciences
Extension Number: 589
Office Number: S-133

Brief profile:
Dr. Shinho Chung is Associate Professor at the Department of Environmental Sciences, Forman Christian College (A Chartered University), Lahore, Pakistan. He joined FCCU in 2016. He has served more than 7 years as a lecturer at different universities in Korea. Served as Korea Overseas Volunteer at National Institute of Health, Islamabad, Pakistan (1999~2002), Senior researcher of Institute of Urban Sciences in University of Seoul (2005~2006), Professor of Department of Water and Environmental Engineering, Kabul Polytechnic University, Afghanistan (2007), IT director of Bagram Korean Hospital, Afghanistan (2008~2009), and Deputy Director of Energy and Environment Division, Newentec Co., Korea (2011~2015). Now he is actively doing research work mostly in the topic of Membrane Bioreactor as well as arsenic removal in drinking water.

Education:

• Ph.D. (University of Seoul, Korea).
• Master of Engineering (University of Seoul, Korea).

Research and Publications:

1. Rose, J., Chung, S., Islam, Z. U., Azhar, B., & Oh, H. (2024). Optimum quorum quenching bacteria concentration in the better-quality cell entrapping beads to control biofouling in membrane bioreactor. Biofouling, 1-12.
2. Oh, H., Guk, I., Chung, S., & Lee, Y. (2023). Energy saving through modifications of the parallel pump schedule at a pumping station: A case study. Journal of Water Process Engineering, 54, 104035.  (IF=7.000)
3. Islam, Z. U., Ayub, M., Chung, S., & Oh, H. (2022). Effect of Aeration Intensity on Performance of Lab-Scale Quorum-Quenching Membrane Bioreactor. Membranes, 12(3), 289.  (IF=4.106)
4. Ayub, M., Saeed, N., Chung S., and Nawaz, M.S. (2020) Physical and Economical Evaluation of Lab-scale Membrane Bioreactor by Long-term Relative Cost Benefit Analysis, Journal of Water Reuse and Desalination, (10.3), 239-250.  (IF=2.000)
5. Ahmed, S., Chung, S. Sohail. N., and Qazi, I.A., Justin. A. (2020) Application of Cell Entrapping Beads for Quorum Quenching Technique in Submerged Membrane Bioreactor, Water Science and Technology, (81.4), 744-752.  (IF=1.638)
6. Sohail, N., Ahmed, S., Chung, S., and Nawaz, M.S. (2020) Performance Comparison of Three Different Reactors (MBBR, MBR And MBBMR) for Municipal Wastewater Treatment. Desalination and Water Treatment, (174), 1-8.  (IF=1.234)
7. Islam Z., Rose J., Ahmed S. and Chung S. (2020) Quorum Quenching Cell Entrapping Bead by Polyvinyl Alcohol Method for Biofouling Mitigation in Lab-scale MBR, NUST Journal of Engineering Sciences, 13(1): 29-36, 
8. Chung, S., Lee, H., Yu, M. and Koo, J. (2006) Performance Evaluation of Water Loss Management in Urban Areas Using Different Performance Indicators, Journal of Korean Society of Environmental Engineering 28(2): 117-127
9. Chung, S., Kim, K. and Koo, J. (2005) Selection of the best scaling factor of performance indicator for water distribution network. The Korean Society of Water and Wastewater 2005(-): 119-126
10. Chung, S., Lee, H., Koo, J., Yu, M. and Choi, J. (2004) A study on daily and hourly peak factor of water distribution districts. Korean Society of Water Quality 2004(-): 143-152
11. Chung, S., Jang, M., Lee, H., Koo, J. and Yu, M. (2004) Factors affecting to water usage in residential area. Korean Society of Water Quality. 2004(-): 397-400
12. Chung, S., Lee, H., Koo, J. and Yu, M. (2003) Estimation and application of minimum night flow. Korean Society of Water Quality. 2003(-): 57-60
13. Chung, S., Lee, H., Koo, J. and Yu, M. (2003) Characterization of the ratio of revenue water in the 79 cities by Principal Component Analysis and Clustering Analysis. Korean Society of Water Quality. 2003(-): 133-142
14. Chung, S., Myung, K., Yu, M. and Ryu, S (2002) A study on the optimum operational condition of Power Block Underdrain System. The Korean Society of Water and Wastewater 2002(-): 79-82
15. Chung, S., Park, S. and Yu, M. (1997) Removal of Nitrogen and Phosphorous in Biofilm Process Using Iron Plates as Attached Growth Media. Korean Society of Environmental Engineering 1997(12): 702-705