Philippines : Bataan–Cavite Interlink Bridge Project SHOULD INCLUDE OCEAN CURRENT -TIDAL CURRENT

Philippines: Bataan–Cavite Interlink Bridge Project

Sovereign Project | 52310-001

Status: Approved

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The Bataan-Cavite Interlink Bridge (BCIB) project will provide a permanent road link between the provinces of Bataan and Cavite, the key missing link in the road network of the National Capital Region (NCR), Central Luzon, and CALABARZON. The BCIB will be approximately 32.15 km long, comprising two cable-stayed bridges for navigation channels, 24 km of marine viaducts, and 8 km of approach roads. It will include U-Turn facility near the Corregidor Island for future connection. Under the BCIB project, a capacity building program will be provided for the government to ensure adequate capacity in operation and maintenance and management of the BCIB and future large and complex bridges. A tourist center and supporting facilities will be established at the north approach of BCIB, providing information about the rich ecosystem and diversity of destinations on the Bataan Peninsula and Corregidor Island.

Latest Project Documents

Title Date Bataan-Cavite Interlink Bridge Project: Updated Environmental Impact Assessment Nov 2023Bataan-Cavite Interlink Bridge Project: Report and Recommendation of the President Nov 2023Bataan-Cavite Interlink Bridge Project: Gender Assessment and Social Inclusive Plan

OCEAN CURRENT OR TIDAL CURENT UNDER THE BRIDGE

https://www.dhirubhai.net/pulse/how-model-ocean-current-tidal-power-plant-ocampo-marcial%3FtrackingId=6VUZPPOpNbzLASUE5SENyQ%253D%253D/?trackingId=6VUZPPOpNbzLASUE5SENyQ%3D%3D

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IS IT ADVISABLE TO INCLUDE TIDAL CURRENT POWER PLANT UNDR A BRIDGE ACCROSS A BAY?

As of my last knowledge update in January 2022, tidal current power plants, also known as tidal energy or marine current energy systems, were still in the experimental and developmental stages. The feasibility of installing such a power plant under a bridge across a bay depends on various factors, including the specific site conditions, environmental impact, and engineering considerations.

To determine whether it is advisable to include a tidal current power plant under a bridge, you should consider the following aspects:

1. Tidal Energy Potential: Assess the tidal energy potential at the specific location. Tidal currents need to be strong and consistent enough to generate a significant amount of power.
2. Environmental Impact: Evaluate the environmental impact of the power plant on marine life, ecosystems, and water quality. Some tidal energy technologies may have less impact than others, but it's crucial to conduct thorough environmental assessments.
3. Engineering Challenges: Consider the engineering challenges associated with integrating a tidal current power plant under a bridge. This includes designing turbines, foundations, and other components that can withstand the dynamic underwater environment.
4. Regulatory and Permitting Issues: Check local regulations and permitting requirements. The installation of such infrastructure may involve obtaining approvals from environmental agencies and other relevant authorities.
5. Cost-Benefit Analysis: Perform a cost-benefit analysis to determine the economic viability of the project. Consider the initial investment, maintenance costs, and the potential energy output over the project's lifespan.

To provide more up-to-date information and specific citations, I recommend checking recent literature, research papers, and reports from reputable sources such as academic journals, government agencies, and industry publications. Search for studies related to tidal energy projects, especially those involving installations under bridges or in bay areas.

Keep in mind that the field of renewable energy is rapidly evolving, and there may be new developments or advancements since my last update in January 2022.