PG Courses

•         CE 551 - Surface Water Hydrology
•         CE 553 - Advanced Hydraulic Engineering
•         CE 553 - Advanced Hydraulic Engineering Lab
•         CE 554 - Advanced Fluid Mechanics
•         CE 562 - Transient Flow Analysis (Elective)
•         CE 570 - River Engineering (Elective)

UG Courses

•         CE 201 - Surveying
•         CE 213 - Surveying Lab
•         CE 203 - Fluid Mechanics
•         CE 214 - Fluid Mechanics Lab
•         CE 301 - Hydraulics and Control structures
•         CE 312 - Hydraulics and Control structures Lab
•         CE 311 - Hydrology and Water Resources Engineering
•         ME 111- Engineering Drawing

• Urban Flood Modeling
• Infiltration and Artificial Recharge
• Climate Change
• Transient Flow Analysis
• River Mechanics

• Prof. R. J. Garde Research Award-2017 by the Indian Society for Hydraulics (ISH) for outstanding research in the field of Hydraulics and Water Resources.
• Er. C. S. P. Iyer Endowment Prize-2002 by Institution of Engineers (India) for securing first rank in M. Tech. Hydraulics Engineering.
• George Oommen Memorial Medal-2001 by University of Kerala for the outstanding performance in M. Tech.

 International/ National Journals

• Ghosh, B. and Sreeja P. (2019). Effect of Initial Compaction State on Near-Saturated Hydraulic Conductivity, Journal of Irrigation and Drainage Engineering, ASCE, 145 (12), 04019028.
• Ghosh, B. and Sreeja P. (2019). A critical evaluation of measurement induced variability in infiltration characteristics for a river sub-catchment, Measurement, Elsevier, 132, 47-59, DOI: 10.1016/j.measurement.2018.09.018.
• Ghosh, B., Sreeja P., and Yamsani, S. K. (2019). Evaluation of Infiltrometers and Permeameters for Measuring Hydraulic Conductivity, Advances in Civil Engineering Materials, ASTM, 8(1), https://doi.org/10.1520/ACEM20180056.
• Ghosh, B. and Sreeja P. (2019). An Appraisal on the Interpolation Methods Used for Predicting Spatial Variability of Field Hydraulic Conductivity, Water Resources Management, Springer, 33 (6), 2175-2190.
• Ghosh, B. and Sreeja P. (2019). A critical evaluation of the variability induced by different mathematical equations on hydraulic conductivity determination using disc infiltrometer, Acta Geophysica, Springer, 67(3), 863-877.
• Naik, A. P., Ghosh, B. and Sreeja P. (2019). Estimating soil hydraulic properties using mini disc infiltrometer, ISH Journal of Hydraulic Engineering, Taylor and Francis, 25 (1), 62-70.
• Sahoo, S. N. and Sreeja, P. (2018). Detention ponds for managing flood risk due to increased imperviousness: A case study in an urbanizing catchment of India, Natural Hazards Review, ASCE, 19(1): 05017008.
• Sahoo, S. N. and Sreeja, P. (2017). Sensitivity of imperviousness determination methodology on runoff prediction, ISH Journal of Hydraulic Engineering, Taylor and Francis, 23 (3), 276-282.
• Sahoo, S. N. and Sreeja, P. (2016). Relationship between peak rainfall intensity (PRI) and maximum flood depth (MFD) in an urban catchment of Northeast India, Natural Hazards, Springer, 83:1527-1544 DOI:10.1007/s11069-016-2374-1.
• Sahoo, S. N. and Sreeja, P. (2016). Determination of Effective Impervious Area for an Urban Indian Catchment, Journal of Hydrologic Engineering, ASCE, 05016004 (1-10).
• Sahoo, S. N. and Sreeja, P. (2015). Development of Flood Inundation Maps and Quantification of Flood Risk in an Urban Catchment of Brahmaputra River, Journal of Risk and Uncertainty in Engineering Systems, Part A: Civ. Eng., ASCE-ASME, A4015001(1-11).
• Sahoo, S. N. and Sreeja, P. (2014). Determination of urbanization based on imperviousness, Urban Design and Planning, ICE Publishing, Thomas Telford, 167 (2), 49-57.
• Sahoo, S. N. and Sreeja, P. (2014). A methodology for determining runoff based on imperviousness in an un-gauged peri-urban catchment, Urban Water Journal, Taylor and Francis, 11(1), 42-54.
• Sahoo, S. N. and Sreeja, P. (2013). A review of Decision Support System Application in Flood Management, International Journal of Hydrology Science and Technology, Inderscience Publication, 3 (3), 206-220.
• Sahoo, S. N. and Sreeja, P. (2013) Role of rainfall events and imperviousness parameters in urban runoff modeling,  ISH Journal of Hydraulic Engineering, Taylor and Francis, 19 (3), 329-334.
• Bhave, S. and Sreeja, P. (2013). Influence of initial soil condition on infiltration characteristics determined using a disk infiltrometer,  ISH Journal of Hydraulic Engineering, Taylor and Francis, 19 (3), 291-296.
• Chandan Kumar and Sreeja, P. (2013). Reply to Discussion on Evaluation of selected equations for predicting scour at downstream of ski-jump spillway using laboratory and field data, Engineering Geology, Elsevier, 155, 96.
• Chandan Kumar and Sreeja, P. (2013). Reply to Discussion on "Evaluation of selected equations for predicting scour at downstream of ski-jump spillway using laboratory and field data, Engineering Geology, Elsevier, 152, 212.
• Sahoo, S. N., and Sreeja, P. (2012). Application of Geospatial Technologies to Determine Imperviousness in Peri-Urban Areas, International Journal of Remote Sensing Applications, 2(4), 47-51.
• Chandan Kumar and Sreeja, P. (2012). Evaluation of selected equations for predicting scour at downstream of ski-jump spillway using laboratory and field data, Engineering Geology, Elsevier, 129-130, 98-103.
• Sahoo, S. N. and Sreeja, P. (2011). Determination of infiltration parameters for urban flood modeling, Journal on Civil Engineering, imanager publications, India, 1 (3), 7-12.
• Sahoo, S. N. and Sreeja, P. (2011). Total and Effective Impervious Area from low resolution satellite imageries, International Journal of Earth Sciences and Engineering, 4 (6), 334-337.
• Sreeja, P. and Gupta, K. (2008). Transfer Function Formulation of Saint Venant' s Equations for Modeling Drainage Channel Flow : An Experimental Evaluation, Water Resources Management, Springer, 22 (12), 1881-1898.
• Sreeja, P. and Gupta, K. (2007). An Alternate Approach for Transient Flow Modeling in Urban Drainage Systems, Water Resources Management, Springer, 21(7), 1225-1244.
• Sreeja, P. and Gupta, K. (2006). Modeling of Detention Tank-Gate System using Frequency and Time Domain Approach, ISH Journal of Hydraulic Engineering, 12(1), 110-120.
• Sreeja, P. and Gupta, K. (2006). Time and frequency domain approaches for dynamic modeling of detention tank systems, Journal of Applied Hydrology, XIX (4).
• Sreeja, P. and Jyothis Thomas (2006). Evaluation of Linear Perturbation Model for Rainfall-Runoff Transformation, Journal of Applied Hydrology, XIX (1-2), 46-58.

Conference Paper

• Naik, A. P. and Sreeja P. (2019). A Comparative Assessment of Infiltration Characteristics Obtained Using Two Disc Infiltrometers, 16th Annual Meeting on Asian Oceania Geosciences Society (AOGS), Singapore.
• Amrutha S., and Sreeja P. (2019). Impact of Climatic Shift and Dispersion on Analyzing the Climate Change with Crisp Seasonal Boundaries, 16th Annual Meeting on Asian Oceania Geosciences Society (AOGS), Singapore.
• Naik, A. P., and Sreeja, P. (2018). Discrepancy in infiltration equation parameters while using ponded and tension boundary pressure head conditions, HYDRO international, 2018 (Received Best paper Award).
• Amrutha S., and Sreeja P. (2018). Identification of Historical Shift, Dispersion, and Trend of the Monsoon Season for Guwahati City Using Fuzzy Segmentation and Trend Analyses, HYDRO international.
•  Naik, A. P., Ghosh, B. and Sreeja P. (2017). Estimating soil hydraulic properties using mini disc infiltrometer, HYDRO, Dec. 8-10, CWPRS, Pune, India.
• Ghosh, B. and Sreeja, P. (2016), Influence of drainage conditions on infiltration characteristics determined using disc infiltrometers, 21st International conference on Hydraulics, Water Resources, Coastal Engineering, HYDRO, Dec. 8-10, CWPRS, Pune, India.
• Ghosh, B. and Sreeja, P. (2014). Comparative study of double ring and tension infiltrometers to measure infiltration properties and hydraulic conductivity, 19 th International conference on Hydraulics, Water Resources, Coastal and Environmental Engineering, Dec. 18-20, Manit, Bhopal, India.
• Sahoo, S. N. and Sreeja, P. (2013). Flood inundation mapping (FIM): An effective tool for urban flood management, HYDRO-2013, ISH, IIT Madras, India.
• Sahoo, S. N. and Sreeja, P. (2012). Impact of total and effective impervious area on runoff prediction, In Proceedings of ENSURE, February 24- 26, IIT Guwahati, India.
• Sahoo, S. N. and Sreeja, P. (2012). Role of rainfall events and imperviousness parameters in urban runoff modeling, HYDRO-2012, ISH, IIT Bombay, Dec 7-8, India.
• Bhave, S. and Sreeja, P. (2012) Influence of initial soil condition on infiltration characteristics determined using a disk infiltrometer, HYDRO-2012, ISH, IIT Bombay, Dec 7-8, India.
• Sahoo, S. N. and Sreeja, P. (2011). Indirect Determination of Effective Impervious Area (EIA) of an urban city in North East India, In proceedings of World Environmental Water Resources Congress, EWRI, ASCE, May 22 to 26, California.
• Sahoo, S. N. and Sreeja, P. (2011). Determination of Effective Impervious Area in Guwahati city: A Case Study, AMTID, September 28-30, NIT Calicut, Kerala, India.
• Sahoo, S. N. and Sreeja, P. (2011). Total and Effective Impervious Area from low resolution satellite imageries, ACE, October 21-23, KLU, Hyderabad, India.
• Sahoo, S. N. and Sreeja, P. (2010). Evaluation of near saturation infiltration characteristics of a locally available soil, In proceedings of 6th International Congress in Environmental Geotechniques (6ICEG), New Delhi.
• Vijayalakshmi, J., and Sreeja, P. (2010). Study on the scouring behaviour around piers of two parallel bridges, In proceedings of World Environmental Water Resources Congress, EWRI, ASCE, Jan 5-7, Chennai, India.
• Vijayalakshmi, J. and Sreeja, P. (2009). A study on scouring behaviour and flow characteristics due to multiple bridge system, HYDRO 2009, ISH, 17-18 December, CWPRS Pune, India.
• Sreeja, P. and Gupta, K. (2006). Transient Flow Modeling of Urban Drainage System Using Transfer Function Approach, International Conference-An International Perspective on Environmental and Water Resources, ASCE, New Delhi, India.
• Sreeja, P. and Gupta, K. (2005). Dynamic modeling of detention tanks for flood control in urban drainage systems in developing countries, 10th International Conference on Urban Drainage, Denmark.
• Sreeja, P. and Gupta, K. (2005). Dynamic Modeling of Urban Drainage Systems for Controller Design, 5 th International R&D Conference on Developments and Management of Water and Energy Resources, February 15-18, Bangalore.
• Gupta, K. and Sreeja, P. (2004). Urban Flood Management by Non-Structural Measures, Workshop on Flood and Drought Management, CBIP, New Delhi, 16-17 September.
• Sreeja, P. and Gupta, K. (2002). Real time control strategy for urban drainage management in India, International Conference on Water and Wastewater: Perspectives of Developing Countries, Delhi, India, EWRI-ASCE, 11-13 December, 351-358.
• Sreeja, P. and Jyothis Thomas (2001). Application of Rainfall-Discharge Model Achenkovil River Basin, Regional Seminar on Technological Developments for the third Millennium, March 16-17, Thiruvananthapuram.

 Book Chapters

• Sahoo, S, N. and Sreeja, P. (2016). Impact of Total and Effective Imperviousness on Runoff Prediction, In book: Urban Hydrology, Watershed Management and Socio-Economic Aspects, DOI: 10.1007/978-3-319-40195-9_2.
• Sreeja, P. and Jyothis Thomas (2004). Development of Flood frequency Curves- With special reference to Chaliyar river basin, In Integrated Water Resources Planning and Management edited by Raju, K. S., Sarkar, A. K. and Dash, M. L., Jain Publishers, New Delhi.