TY  - CONF
N2  - River inflow works as fuel for hydroelectric plants (HEPs) and it drive the energy output from HEPs. This study is carried out to predict changes in Balui river inflow due to potential climate changes. A hydrological model was developed to simulate river inflows at Bakun HEP. Model was calibrated using observed river inflows and then further used for long term river flow generation for future period of 2011-2070 by projected CanESM2 future rainfall. It is noted, under CanESM2 RCPs, low flow (Q95) at Bakun HEP would increase by 35 to 42, median flow (Q50) would increase by 6 to 10 and high flow (Q5) would decrease by 9 to 11. From Q30 to Q100, the inflow to the Bakun Dam would significantly improve especially under RCP 8.5, which would result improvement in Bakun HEP future reservoir operation. © 2016 Taylor & Francis Group, London.
PB  - CRC Press/Balkema
AV  - none
UR  - https://www.scopus.com/inward/record.uri?eid=2-s2.0-85009726792&doi=10.1201%2fb21942-56&partnerID=40&md5=3381a952b7b142d82c8ea972e7e88474
Y1  - 2016///
EP  - 288
A1  - Mustafa, M.R.
A1  - Hussain, M.
A1  - Yusof, K.W.
ID  - scholars7600
TI  - Climate change impact on water resources of Bakun hydroelectric plant in Sarawak, Malaysia
SN  - 9781138029781
SP  - 283
KW  - Hydroelectric power plants; Offshore oil well production; Reservoirs (water); Rivers
KW  -  Climate change impact; Energy output; High flow; Hydroelectric plant; Hydrological modeling; Reservoir operation; River flow; River inflow
KW  -  Climate change
N1  - cited By 2; Conference of 3rd International Conference on Civil, offshore and Environmental Engineering, ICCOEE 2016 ; Conference Date: 15 August 2016 Through 17 August 2016; Conference Code:180169
ER  -