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Investigation of River Stage Simulation Before and After Bengoh Dam Construction: Case Study of Sarawak River Basin Malaysia

Journal Name:

  • International Journal of Science and Engineering Investigations

Publication Year:

  • 2015

Key Words:

Author NameUniversity of AuthorFaculty of Author
Abstract (2. Language): 
This research was conducted to study river stage behavior at Sarawak River before and after Bengoh Dam construction. The relationships of Bengoh Dam and Sarawak River stage are thoroughly analyzed and discussed based on four scenarios namely a) before dam construction, b) after dam construction and reservoir fully filled with water, c) after dam construction but reservoir empty, and d) constant flow release after dam construction. Besides, each scenario will be further analyzed with the operation of barrage gates at Sarawak River mouth, both in fully opened or closed modes. InfoWorks RS was employed to model Sarawak River using January 2000 hydrological data. The study demonstrated that after construction of Bengoh Dam, river stage level at Sarawak River at upper reach will be reduced and the flood issue can be mitigated. Besides, Sarawak Barrage also plays a significant role in influencing the river behavior. When the barrage gates are closed, the river stage level will rise to certain extent, which severely inundates multiple locations at the river downstream. In contrast, when the barrage gates are opened and sea level is lower than the river level, the river water will flow towards South China Sea at constant rate.
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REFERENCES

References: 

[1] ‘Sarawak hydrological yearbook’, (2007), DID Sarawak, Vol. 34, viewed 20 October 2014.
[2] DID Manual (2009), Volume 1 – Flood Management, Government of Malaysia Department of Irrigation And Drainage.
[3] Duan, Z, Wan, X & Zhao X 2003, Physical model study on the Sarawak river estuary, Malaysia, International Conference on Estuaries and Coasts, viewed 23 September 2014, http://www.irtces.org/pdf-hekou/125.pdf.
[4] Horritt, M. & Bates, P., (2002), ‘Evaluation of 1D and 2D numerical models for predicting river flood inundation’, Journal of Hydrology, pp. 87-99, viewed 29 September 2014, http://www.sciencedirect.com/science/article/pii/S002216940200121X
[5] Kuok, K.K., Harun, S. & Chiu, P.C., (2011), ‘A review of integrated River basin management for Sarawak River’, American Journal of Environment Science, viewed 27 October 2014, http://thescipub.com/PDF/ajessp.2011.276.285.pdf.
[6] Kuok, K.K., Liew, Z.Z. & Chiu, P.C., (2013), Flood map development by coupling satellite maps and three-dimensional drafting software: case study of Sarawak River Basin, viewed 5 November 2014, http://www.ajol.info/index.php/wsa/article/viewFile/87925/77572.
[7] Mah, Y.S., Hii, C.P., Putuhena, F.J. & Lai, S.H., (2011), River modelling to infer flood management framework, viewed 15 September 2014, http://webcache.googleusercontent.com/search?q=cache:H3LvzmGEmOsJ:redac.....
[8] Morison, A.C. & Yeoh, J.S., (2010), ‘Bengoh rcc dam, Sarawak’, viewed 29 September 2014, http://www.britishdams.org/2010conf/synopses/6-5%20Synopsis%20-%20Moriso...
[9] Selaman, OS & Tay, JE 2011, A study on the rainfall and landslides along Sarawak road using the antecedent rainfall analysis, Vol. 2, Journal of Civil Engineering, March 2011, viewed 15 September 2014.

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