Finna Fitriana
School of Mechanical, Aerospace and Civil Engineering
Research Student
Full contact details
School of Mechanical, Aerospace and Civil Engineering
Sir Frederick Mappin Building (Broad Lane Building)
Mappin Street
Sheffield
S1 3JD
- Research interests
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Research Project Title: Mixing in Channels with Patchy Vegetation
The management of water quality in river networks is essential for ecological and human well-being. Predicting the effects of management strategies requires knowledge of the hydrodynamic processes covering spatial scales of a few millimetres (turbulence) to several hundred kilometres (catchments), with a similarly large range of timescales from milliseconds to weeks. Predicting underlying water quality processes and their human and ecological impact is complicated as they are dependent on contaminant concentration.
Current water quality modelling methods for large scale river networks employ one-dimensional (1D) time dependent models, for economic, fast, easy-to-use applications within highly complex situations in river catchments. In these models, the water quality processes, such as BOD and organic chemical degradation, are often described by rate coefficients. These rate coefficients are governed by the channel characteristics and the exchange processes at channel boundaries and interfaces, such as around vegetation patches. To estimate the rate coefficients within a reach an understanding of the mixing mechanisms is required.
Spatial variations in channel characteristics, which could be caused by vegetation, results in 3D variations in the velocity field and hydrodynamics. One challenge is how to incorporate the effects of such 3D variations into 1D models. This proposal focusses on the effect of different configurations of vegetation patches, in affecting the travel time and mixing characteristics within a channel reach.
Interests: Environmental Hydraulics, Water Quality Modelling, Pollution Control
Supervisors
- Publications
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Journal articles
- QUAL2Kw Simulation for Pollution Control Strategies: A Case Study of the Cikakembang River, West Java, Indonesia. Water, Air, & Soil Pollution, 235(11).
- The Assessment of Citarum River Water Quality in Majalaya District, Bandung Regency. Rekayasa Sipil, 17(1), 37-46.
- The Evaluation of Water Loss in The Western North Tarum Irrigation Channel. JURNAL TEKNIK HIDRAULIK, 15(1), 61-74.
- Water Quality Modelling with Industrial and Domestic Point Source Pollution : a Study Case of Cikakembang River, Majalaya District. Journal of the Civil Engineering Forum, 151-162.
- Investigation of Deoxygenation Rate Determination in Cikakembang River, West Java, Indonesia. Journal of the Civil Engineering Forum, 49-58.
- STUDY ON FLOOD CONTROL OF THE CILEUWIBANGKE RIVER DUE TO RESIDENTIAL AREA DEVELOPMENT IN BOGOR CITY, WEST JAVA. JURNAL TEKNIK HIDRAULIK, 14(2), 119-129.
- The Use of Drop-Structures to Increase the Dissolved Oxygen Level along the Cibarani Channel. Journal of the Civil Engineering Forum, 55-66.
Conference proceedings papers
- Application of QUAL2Kw for Water Quality Modeling in the Cibarani Irrigation Channel, Bandung City, Indonesia. IOP Conference Series: Earth and Environmental Science, Vol. 1343(1) (pp 012014-012014)
- Water Quality Modelling of the Cibarani Irrigation Channel, Bandung City. IOP Conference Series: Earth and Environmental Science, Vol. 832(1) (pp 012063-012063)
- QUAL2Kw Simulation for Pollution Control Strategies: A Case Study of the Cikakembang River, West Java, Indonesia. Water, Air, & Soil Pollution, 235(11).
- Research group