Application of Morphologic Analysis to Quantify Diversion of Flood Waterflow and Potential Electrical Energy
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As significant catchment of flood water, this study examined important morphological structures of Lake Buhi (LB) catchment area which is a part of Bicol River Basin Area (BRBA). The information taken was used to derive a mathematical model which was then used in analysing the hydrologic event in the area. Different scenarios were investigated to provide solutions and avoid major risks and damages in BRBA during extreme precipitation. The method used to gather the data are Geographical Information System (GIS), digital elevation modelling (DEM), hydrologic modelling, site visit, and remote sensing. It was found that the morphology is well structured to collect and impound vast amount of rainwater flow and form huge body of water known as the LB. The area has immense number of streams that directs surface runoff into the impounded body of water having low drainage density. Enormous amount is needed to discharge away and prevent high water level rise and stop flood in the nearby villages. The capacity of the outflow river is sufficient in most cases of the forecasted precipitation while during the time of typhoon event was found insufficient. However, there are three options to divert away the accumulated floodwater and become a potential source of electrical energy.
Robyn Johnston & Vladimir Smakhtin, (2014), Hydrological modeling of large river basins: how much is enough? Water Resource Management, 28, 2695-2730
Bhagu R. Chahar and Suman K. Dhaka, (2013), Groundwater Modeling of Banas River Basin, Paper presented in World Environmental and Water Resources Congress, May 2013, 450-459
Raymond Sunday, A comprehensive collation of river basins in Nigeria: benefits and river basin development planning and management, International Journal of Scientific & Engineering Research, 8(11), 1587-1595
S.S. Nandargi and A. Shelar, (2018), Rainfall and Flood Studies of the Ganga River Basin in India, Annals of Geographical Studies,1(1), 34-50
Ramon Abracosa & Leonard Ortolano, (1988), Lessons from Eia for Bicol River Development Project of the Philippines. Journal of Water Resources and Planning in the Philippines, 114(5),
J.D. Meigh & J.M. Bartlett, (2010), Integrated river basin management in Southeast Asia, Journal of flood risk management, 3(2010), 201-209
Eeswaran Rasu, Amor V.M. Ines, Eunjin Han, Bradfield Lyon, Kye Baroang & Agnes Rola, (2017), Modeling water management options for Lake Buhi in Bicol River Basin of the Philippines under climate change scenarios, Paper presented in ASA-CSSA-SSSA Annual Meeting, Tampa Florida, October 23-25, 2017
Zoleta, D. (1987). From the mountains to the lakebed: resource problems and prospects in Buhi Watershed, Camarines Sur, Philippines, Yearbook of the Association of Pacific Coast Geographers, 49, 139-153
Sujiy S. Chougale and Jagdish B. Sapkale, (2017), Morphometric Analysis of Kadvi River basin, Maharashtra using geospatial techniques, Current World Environment, 12(3), 635-645
Ashok S. Sangle & Pravin L. Yannawar, (2014), Morphometric Analysis of Watershed using GIS and RS: A Review, International Journal of Engineering Research & Technology, 3(11), 599-602
David M. Bjerklie, Charon M. Birkett, John W. Jones, Claudia Carabajal, Jennifer A. Rover, John W. Fulton, & Pierre-André Garambois, (2018), Satellite remote sensing estimation of river discharge: Application to the Yukon River Alaska, Journal of Hydrology, 561, 1000-1018
Frank Lynch, (1977). The role of a social science research organization in the Bicol river basin development rogram. Philippine Sociological Review, 25(1/2), 33-37
G.J. Arcement & V.R. Schneider, (1989), Guide for selecting Manning’s roughness coefficient for natural channels and floodplains, United States Geological Survey Water Supply Paper 2339
Municipal Disaster Risk Reduction Management Office Nabua, Flood Warning: Lake Buhi Update, January 2, 2021
Nevena Dragičević, Barbara Karleuša and Nevenka Ožanić, (2019), Different approaches to estimation of drainage density and their effect on the erosion potential method, Water, 11(3), 593
Lila Mahato1, Sri Sanjit Mahanta, (2018), Catchment area analysis of Tarafeni River based on morphometric characteristics, West Bengal, India, International Journal of Science and Research,
Patel Ajay, Khalid Mahmood, Singh Vijay, Thakkar Paru P, Jose Joy, Patel Nayan & Kalubarme, M.H., (2014), Morphometric and land use analysis for watershed prioritization in Gujarat State, India, International Journal of Scientific & Engineering Research, 5(2)
Mayuri Khakhlari, Arunima Nandy, (2016), Morphometric Analysis of Barapani River Basin In Karbi Anglong District, Assam, International Journal of Scientific and Research Publications, 6(10), 238-249
Hongkai Gao, Huayang Cai & Zheng Duan (2018), Understanding the impacts of catchment characteristics on the shape of the storage capacity curve and its influence on flood flows, 49(1), 90-106
Gayathri K Devi, Ganasri B P, & Dwarakish G S, (2015), A Review on Hydrological Models, Aquatic Procedia, 4, 1001 – 1007
Arthur W. Sichangi & Godfrey Ouma Makokha, (2017), Monitoring water depth, surface area and volume changes in Lake Victoria: integrating the bathymetry map and remote sensing data during 1993–2016, Modeling Earth Systems and Environment 3(2),
Mines and Geoscience Bureau, Landslide Bulletin No. 3 for Typhoon Ulyses, DENR, Region 5, November 11, 2020
R.V. Romero, M.A. Iglesia, A.S.Pempena, N.V. Romero and F.B. Romero, (2019), Estimating Channel Cross Section Runoff Overflow Using Fuzzy Rule Based System: A Hydrologic Analysis of Mt. Isarog Watershed, Journal of Soft Computing in Civil Engineering, 3(3), 37-46
J. Sitterson, C. Knightes, R. Parmar, K. Wolfe, M. Muche & B. Avant, An Overview of Rainfall-Runoff Model Types. U.S. Environmental Protection Agency, Washington, DC, EPA/600/R-17/482, 2017
Varsha V Deshpande and K Janardhana, (2019), Stability Analysis of Overflow Dam using STAAD.Pro, International Journal of Engineering Research & Technology, 7(8), 2019, 674-676
Rebecca Doble, Philip Brunner, James McCallum & Peter G Cook, (2012), An analysis of river bank slope and unsaturated flow effects on bank storage, Ground Water, 50(1), 77-86
Frasson, R. P. d. M., Pavelsky, T. M.,Fonstad, M. A., Durand, M. T. Allen, G. H., Schumann, G., et al.(2019). Global relationships between river width, slope, catchment area,meander wavelength, sinuosity, and discharge, Geophysical Research Letters, 46, 3252–3262.
Ndzana Benoit, Biya Motto Frederic, Nganhou Jean and Eloundou Banack Hervé Joseph, (2013), Discharge Structure, Flood Discharge Sluice Gate and Floating Debris Sluice Design for the Mekin Hydropower Project, Research and Reviews: Journal of Engineering and Technology, 2(2), 38-42
Elham Sirjani & Majid Mahmoodabadi, (2012), Effects of sheet flow rate and slope gradient on sediment load, Arabian Journal of Geosciences, 7(1), 203-210
Melese Chanie Shumie, (2018), River Slope and Roughness Impact on Downstream Hydraulic Structures, Journal of Earth Science & Climatic Change, 9(11), 1-7
A. D. Gronewold, J. Bruxer, D. Durnford, J. P. Smith, A. H. Clites, F. Seglenieks, S. S. Qian, T. S. Hunter & V. Fortin, (2016), Hydrological drivers of record‐setting water level rise on Earth's largest lake system, Water Resource Research, 4026-4042
Iver Johansen (2018), Scenario modelling with morphological analysis, Technological Forecasting and Social Change, 126, 116-125
Grutas, M.B. & Noblefrancia L.P. (2013), Save Lake Buhi now, in M.L.C. Aralar, A.S. Borja, A.L. Palma, M.M. Mendoza, P.C. Ocampo, E.V. Manalili & L.C. Darvin (Eds), LakCon2011: Building on the Pillars of Integrated Lake Basin Management (Second National Congress of the Philippine Lakes) pp. 31-32, Los Banos, Laguna Philippines: PCAARRD-DOST
Akiyuki Kawasaki, Genki Kawamura, Win Win Zin, (2020), A local level relationship between floods and poverty: A case in Myanmar, International Journal of Disaster Risk Reduction, 42,
J. Ji, H. Kim, M. Yu1, C. Choi1, J. Yi & J. Kang, (2014), Reservoir system operation using a diversion tunnel, WIT Transactions on Ecology and The Environment, 184, 87-98
Jibin B Shaji, Lysha. L, Raveen Baburaj, Roshin Mathew Sam, Pinky Merin Philip, (2020), Underground water diversion system as a flood mitigation method: a review, International Research Journal of Engineering and Technology, 7(6), 3605-3614
Guohua Fang, Xiaohua Zhu, & Xianfeng Huang, (2019), Risk analysis of floodwater resources utilization along water diversion project: a case study of the Eastern Route of the South-to-North Water Diversion Project in China, Water Supply, 19(8), 2464–2475
Witt, T., Stahlecker, K. and Geldermann, J. (2018), "Morphological analysis of energy scenarios", International Journal of Energy Sector Management, 12(4), 525-546.
