Advancing the Development of Ocean Renewable Energy (ADORE

Advancing the Development of
Ocean Renewable Energy (ADORE)
in the Philippines
(UP Diliman project)
Presented by Prof. Angelica M. Baylon, PhD
External Relations Director of the
Maritime Academy of Asia and the Pacific (MAAP )
Special Acknowledgement
VAdm Eduardo Ma R Santos, AFP (Ret)
MAAP President
October 12-14, 2014
Engr. Ma Rosario O. Ang
UP Diliman Project Proponent
TREEDC CONFERENCE
AT TENNESSEE TECH
UNIVERSITY, USA
Maritime Academy of Asia and the Pacific
(MAAP) led by VAdm Eduardo Ma R
Santos, AFP (Ret) served as the link
Dept. of Geodetic Engineering, University
of the Philippines (DGE-UP) is the lead
proponent - Asst. Prof. Engr Ma.
Rosario O. Ang)
cooperating agencies: UP-Marine Science
Institute (UP-MSI) and UP-Dept. of
Mechanical Engineering
Ocean energy represents a significant
resource for clean renewable electricity
generation.
potential ocean energy estimated
at 17,000 MW by Mindanao State University
UP-DGE
The goal of this project is to set the groundwork for the
development of Ocean Renewable Energy (ORE) in the
Philippines.
 assess the country’s resources for tidal in-stream, wave,
salinity gradient, and ocean thermal energy
 assess environmental impact of ORE systems in areas
with potential energy resource; and
 perform modeling of energy conversion and estimation of
energy yield.
Project duration: 3 years
Project estimated total cost: US$ 3.50 Million for 4 projects
ADORE stands for ADVANCING the DEVELOPMENT of
OCEAN RENEWABLE ENERGY IN THE PHILIPPINES
4 specific ADORE projects led by 4 experts from UP Diliman
1. Ocean Pixel: Development of Web-based GIS for ORE
Planning (Project led by Prof. Rosario Ang)
Objective: to develop an MSP tool
Estimated budget: 0.7 Million USD
Implementation schedule: 3 years
Year 1 - GIS Framework, Prototype,
Wave Buoy and ADCP Deployment
Year 2 -Assessment Buoy, Data
Collection & Beta Testing
Year 3- Usability Test and Release
Expected output: a GIS tool for ORE
Planning (Marine Spatial Planning)
http://www.esri.com/software/arcgis/extensions/nautical-solution/index.html
2. Development and Establishment of a Hybrid Renewable
Energy System for Lighting San Juanico Bridge
(Project led by Dr. Allan Nerves)
Objective: to establish a demo site
showcasing hybrid system of TISE
& Solar Energy
Estimated budget: 1 Million USD
Implementation schedule: 3 years
Year 1- Feasibility: RA System
Design and Lab Prototype
Year 2- Installation of Small Scale
System and DAQ/ Telemetry on site
Year 3- Expansion Power System
Installation.
Expected output:
at least 20 lights
powered by
Hybrid TISE and
Solar Energy
3. Environmental Impact Assessment
(Project led by Dr. Laura David)
Objective: to develop EIA procedures and rapid evaluation
techniques for ORE projects
assess the environmental impact of ORE systems in San
Juanico, Matnog (San Bernardino): Tidal In-Stream; Wave
Energy Site, OTEC site.
Estimated budget: 0.5 Million USD
Implementation schedule: 3 years
Year 1- Modeling (for RA: Tidal In-Stream and Wave) and
San Juanico EIA
Year 2- EIA for Tidal (Matnog), & Wave (location?)
Year 3- EIA for OTEC (Zambales) & Salinity Gradient
Expected output: coming of procedures and Rapid Evaluation
Techniques for ORE EIA.
4. Development of a Renewable Energy
(Marine, Solar, & Wind) Test Bed in Matnog
(Project Led by Dr. Michael Pedrasa)
Objective: to Study the Feasibility of RE-based Community
Power System.
Estimated budget: 1.3 Million USD
Implementation schedule: 3 years
Year 1- Solar, wind Lab-Prototype and Feasibility
Year 2- Solar Installation and Tidal Installation
Year 3- Wave Installation and Wind Installation
Expected output: installation of an RE test bed to integrate tidal,
wave, solar, and wind energy to an off-grid community in
Matnog (50 to 100kW)
MAAP shall serve as the external linkage of the
proponents from University of the Philippines (UP)
in Diliman Quezon City - the Department of
Geodetic Engineering (UP-DGE) with the
cooperating agencies from the same university:
Marine Science Institute (UP-MSI) and Department
of Mechanical Engineering (UP-DME)
Project scope includes Resource Assessment
(RA), Environmental Impact Assessment (EIA),
and Simulation and Modeling.
RA and EIA will be conducted by field surveys/
in-site measurements (using Acoustic Doppler
Current Profiler, Echosounder, and other
equipment).
Data gathered will be processed into hydrodynamic models
which will be analyzed through application of GIS.
Modeling of energy conversion and estimation of yield will be
done using ANSYS CFD (software) to constantly update
resource assessment.
Implementation of the project: (3) years
Total budget proposed: US$ 3,200,000.0 – to be sourced out
from the foreign donors/investors with counterpart from the
Philippines (e.g Province of Bataan , Mariveles town in
particular is surrounded by ocean)
Terms of reference, MOA may be discussed in details that are
of mutual benefit for Philippines & the foreign investors.