FN Archimer Export Format PT J TI Resource Assessment of Tidal Stream Power in Pakiputan Strait, Davao Gulf, Philippines BT AF Palconit, E. V. Villanueva, J . R. Enano, N. J. Buhali, M. J. MascariƱas, A. C. Galope, G. E. Tabanguil, J. M. AS 1:1,2;2:1,2;3:1,2;4:2;5:2;6:2;7:1,2; FF 1:;2:;3:;4:;5:;6:;7:; C1 School of Engineering, Ateneo de Davao University | Mindanao Renewable Energy R&D Center, Philippines Mindanao Renewable Energy R&D Center, Philippines C2 UNIV ATENEO DAVAO, PHILIPPINES MINDANAO RENEWABLE ENERGY R&D, PHILIPPINES IN DOAJ TC 2 UR https://archimer.ifremer.fr/doc/00702/81405/85778.pdf LA English DT Article CR DAVAPUS ESTASE II MODEC 1 BO L'Atalante Jean Charcot DE ;tidal energy;ocean renewable energy;resource assessment;Davao Gulf AB During the last years, there are ongoing efforts on the development of tidal energy conversion systems in the Philippines. This study conducts tidal energy resource assessment in the Pakiputan Strait following a methodology outlined as stage 2a tidal resource assessment published by the European Marine Energy Centre (EMEC). The study assessed the preliminary results of the tidal velocities at Pakiputan Strait with a mean spring peak velocity (Vmsp) of 1.7m/s at 3m from the water surface from 15 days of continuous data collection using a seabed-mounted acoustic Doppler current profiler. This corresponded to an estimated Annual Energy Production (AEP) of 1350kWh/y for 1m2 of capture area of the generic device. Sensitivity analysis showed that the spatial distribution of hydrodynamic model results does not vary significantly with variations in certain input parameters. It further showed that a 10% decrease in the nominal value of Vmsp on-site led to a 15% decrease in the nominal value of AEP, while a 10% increase in the nominal value of Vmsp led to a 30% increase in the nominal value of AEP, assuming that the considered Vmsp still corresponded to the velocity distribution from observations. A static survey and the use of computational fluid dynamics modeling are recommended to further enhance the analysis of the study. PY 2021 PD JUL SO Engineering Technology & Applied Science Research SN 2241-4487 PU Engineering, Technology & Applied Science Research VL 11 IS 3 UT 000661413500027 BP 7233 EP 7239 DI 10.48084/etasr.3853 ID 81405 ER EF