- Dr Prasanna Egodawatta
- Senior Lecturer
Science and Engineering Faculty,
Civil Engineering and Built Environment,
- Discipline *
- Civil Engineering, Environmental Engineering
- +61 7 3138 4396
- +61 7 3138 1170
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- Identifiers and profiles
PhD (Queensland University of Technology)
Stormwater Pollution, Stormwater Treatment and Reuse, Urban Hydrology, Water Quality Modelling, Water Sencitive Urban Design, Water System Resilience
Dr Prasanna Egodawatta is a senior lecturer in Water/Environmental Engineering at Queensland University of Technology. He has over fifteen years of experience in both industry and academia. The main foci of Prasanna’s academic contributions are in following areas.
Hydrology and open channel hydraulics;
Hydraulic and hydrologic modelling; and
Resilience and risk based water management.
Urban water pollution;
Water treatment and reuse;
Use of statistical and multivariate analytical techniques in environmental data analysis;
Water sensitive urban design; and
Water quality modelling.
Academic Activities and Leadership
Prasanna has been actively engaged in engineering education. He has completed two QUT Teaching and Learning research projects and one Office for Learning and Teaching (OLT) Innovation and Development (I&D) project in relation to improving flexibility and facilitating use of technology in laboratory based education. Prasanna is currently teaching in following areas:
- Fundamentals in fluid mechanics
- Open channel hydraulics
- Engineering Hydrology
- Water sensitive urban design
Prasanna has published extensively in the fields of environmental science and environmental engineering with key focus on urban hydrology, stormwater quantity and water quantity & quality modelling. Over 75% of his journal publications are in Q1 ranked journals according to SCIMago Journal Ranking. He has co-supervised over 15 Doctoral and Research by Masters students to completion.
Prasanna was the Higher Degree Research Director for the School of Earth, Environmental and Biological Sciences for the period from July 2015 to Jan 2017. This is an administrative role for managing around 120 higher degree research (HDR) students. He also served a member of Research Degree Committee (RDC) representing Science and Engineering faculty from 2015 to 2017. RDC is a University Council committee established to manage research degrees (Masters of Philosophy and Doctor of Philosophy) in QUT.
Prasanna has been served as an external examiner for more than 10 Doctoral and Masters by Research thesis projects from national and international institutions. He has been engaged as a reviewer for a number of journals including, Water Research, Environmental Modelling and Software and the Science of the Total Environment.
Experience and Involvements
Prasanna has received over $600k in research funding for a number of research projects, including an ARC funded Linkage project. Selected set of projects are as listed below:
- Review of Performance of Holcim Jellyfish filter in Mackay/South East Queensland conditions; Client: Holcim (Australia) Pty Limited (Humes).
- Testing of SPEL Environmental product performance – Ormiston; Client: SPEL Environmental Pty Ltd.
- Water sensitive urban design (WSUD) application auditing (Applied Research Project); Client: Gold Coast City Council.
- ARC Linkage project: Adaptation of water sensitive urban design (WSUD) to climate change, changing transport patterns and urban form; Industry partners: Gold Coast City Council and Department of Transport and Main Roads, Queensland.
- Evaluating the performance of water sensitive urban design (WSUD); Industry partners: Gold Coast City Council and Department of Environment and Resource Management, Queensland.
- Stormwater quality modelling at Port of Brisbane; Industry partner: Port of Brisbane Corporation.
Dr Prasanna Egodawatta is teaching following units:
- EGB371 – Engineering Hydraulics
- EGH471 – Advanced Water Engineering
- BEB801 & BEB802 – Civil Engineering Thesis Projects
Contributions to Knowledge
Dr Prasanna Egodawatta has made significant contributions to the advancement of knowledge in relation to stormwater quality modelling. His has contributed significantly to the development of state-of-the-art pollutant processes models; application of processes models in enhanced modelling tools and development of enhanced methodologies for calibration and uncertainty assessment of models.
Prasanna has contributed extensively to the knowledge bases in relation to the processes and pathways of urban toxic pollutants such as heavy metals and polycyclic aromatic hydrocarbons. His research contributions include classification and quantification of toxic pollutants from urban sources, and developing methodologies to predict heavy metals and hydrocarbon contributions based on catchment and traffic characteristic. His recent research work significantly enhanced the knowledge in relation to the assessment of risks posted by toxic pollutants in urban stormwater.
Prasanna’s research outputs also extend the understanding of the factors influencing physical and chemical characteristics of stormwater pollutants, leading to an in-depth understanding of stormwater chemistry and pollutant transformations.
Prasanna has pioneered the application of multivariate analysis techniques and use of statistical tools for the analysis of large and complex databases derived from urban water quality research. Prasanna has also contributed significantly to the development of novel approaches for enhanced stormwater quality management.
(1) Review of Performance of Holcim Jellyfish filter in Mackay/South East Queensland conditions (Client: Holcim (Australia) Pty Limited).
- The project was a comprehensive performance assessment of Jellyfish filter for Queensland climate conditions by translating performance characteristics from Florida USA and using data obtained from a detailed monitoring program.
- The project outcomes helped obtaining conditional approval for installation of Jellyfish filter in Local Council regions.
(2) Testing of SPEL Environmental product performance – Ormiston (SPEL Environmental Pty Ltd.)
- The project is a comprehensive performance assessment of SPEL Stormscak and StormFilter for Queensland climate conditions using data obtained from a detailed monitoring program.
- This is to obtain conditional approval to install SPEL Stormscak and StormFilter within Local Council regions.
(3) Water sensitive urban design (WSUD) application auditing (Applied Research Project) (Gold Coast City Council)
- This project was to assess condition of stormwater treatment systems and organizational strategy within Gold Coast City Council (GCCC) in relation to water sensitive urban design (WSUD) implementations.
- The project enabled direct communication with GCCC WSUD working group, enabling effective transfer of recommendations for supporting policy changes.
(4) ARC Linkage project: Adaptation of water sensitive urban design (WSUD) to climate change, changing transport patterns and urban form (Industry partners: Gold Coast City Council and Department of Transport and Main Roads, Queensland)
- The project developed methodologies to predict changes in future air quality and stormwater quality due to changes in transport patterns and urban form
- The recommendations the project include strategies for adaptation of water sensitive urban design to climate change, changing transport patterns and urban form.
(5) Evaluating the performance of water sensitive urban design (WSUD) (Industry partners: Gold Coast City Council and Department of Environment and Resource Management, Queensland)
- The project involved performance auditing of water sensitive urban design treatment trains under South East Queensland climatic conditions.
- The project developed conceptual models to replicate hydraulic and water quality treatment characteristics of stormwater wetlands and bioretention systems.
(6) Stormwater quality modelling at Port of Brisbane (Industry partner: Port of Brisbane Corporation)
The project evaluated port specific land uses for stormwater pollution based on their pollutant generation and wash-off characteristics.
- Ma Y, Liu A, Egodawatta PK, McGree JM, Goonetilleke AA, (2017) Quantitative assessment of human health risk posed by polycyclic aromatic hydrocarbons in urban road dust, Science of the Total Environment p895-904
- Mahappu Kankanamalage B, Egodawatta PK, McGree JM, Goonetilleke AA, (2016) Assessing uncertainty in stormwater quality modelling, Water Research p10-20
- Amarasinghe P, Liu A, Egodawatta PK, Barnes PH, McGree JM, Goonetilleke AA, (2016) Quantitative assessment of resilience of a water supply system under rainfall reduction due to climate change, Journal of Hydrology p1043-1052
- Nanayakkara Mummullage S, Egodawatta PK, Ayoko G, Goonetilleke AA, (2016) Sources of hydrocarbons in urban road dust: Identification, quantification and prediction, Environmental Pollution p80-85
- Gunawardana C, Egodawatta PK, Goonetilleke A, (2015) Adsorption and mobility of metals in build-up on road surfaces, Chemosphere p1391-1398
- Gunawardana CC, Egodawatta PK, Goonetilleke A, (2014) Role of particle size and composition in metal adsorption by solids deposited on urban road surfaces, Environmental Pollution p44-53
- Mutunacharige Amarawickrama Gu J, Egodawatta PK, Ayoko G, Goonetilleke A, (2013) Atmospheric deposition as a source of heavy metals in urban stormwater, Atmospheric Environment p235-242
- Gunawardana WC, Goonetilleke A, Egodawatta P, Dawes L, Kokot S, (2012) Source characterisation of road dust based on chemical and mineralogical composition, Chemosphere p163-170
- Egodawatta PK, Thomas EC, Goonetilleke A, (2009) Understanding the physical processes of pollutant build-up and wash-off on roof surfaces, Science of the Total Environment p1834-1841
- Egodawatta PK, Thomas EC, Goonetilleke SA, (2007) Mathematical Interpretation of Pollutant Wash-off from Urban Road Surfaces using Simulated Rainfall, Water Research p3025-3031
For more publications by this staff member, visit QUT ePrints, the University's research repository.
Grants and projects (Category 1: Australian Competitive Grants only)
- Adaptation of Water Sensitive Urban Design (WSUD) to Climate Change, Changing Transport Patterns and Urban Form
- Primary fund type
- CAT 1 - Australian Competitive Grant
- Project ID
- Start year
- Stormwater Quality; Urban Water Quality; Water Sensitive Urban Design; Transport Impacts; Climate Change Impacts; Stormwater Infrastructure
Completed supervisions (Doctorate)
- Assessing Uncertainty in Relation to Urban Stormwater Pollutant Processes (2016)
- Source Characterisation of Urban Road Surface Pollutants for Enhanced Water Quality Predictions (2015)
- Resilience of Water Supply Systems in Meeting the Challenges Posed by Climate Change and Population Growth (2014)
- First Flush Behaviour in Urban Residential Catchments (2013)
- Role of Hydraulic Factors in Constructed Wetland and Bioretention Basin Treatment Performance (2013)
- Relating Vehicle Generated Pollutants to Urban Stormwater Quality (2012)
- Impact of Urban Traffic and Climate Change on Water Quality from Road Runoff (2011)
- Influence of physical and chemical properties of solids on heavy metal absorption (2011)
- Influence of rainfall and catchment characteristics on urban stormwater quality (2011)
- Nutrients build-up and wash-off processes in urban land uses (2009)