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U L A P D S

UNIFIED LOCAL ALTERNATIVE POWER DELIVERY SYSTEM

Presentation Design

S O C I A L I N N O V A T I O N P R O J E C T P R E S E N T A T I O N

CONTENT TODAY

Introduction and the Background of the

Project

Advantages of the Project

Target Future Development

Cost-Benefit Analysis

The Barangay Bilog Bilog in Tanauan City, Batangas, Philippines, is particularly affected by power outages, which greatly hinders the community's ability to manage crisis situations. The local government, residents, and businesses are struggling to cope with this problem. To address this issue, we propose a localized energy sources such as hydro, solar, and wind. By power system that relies on renewable having a power source within reach, the reliability of the power supply can be assured, and maintenance and repair can be done more efficiently. Furthermore, the cost of operations can be lowered, and the charge for electricity can be lowered for the people, making power generation manageable and empowering local governments economically.

BACKGROUND

U L A P D S - U N I F I E D L O C A L A L T E R N A T I V E P O W E R D E L I V E R Y S Y S T E M

OF THE PROJECT

Our proposed solution involves using electrolysis, a

promising technology that converts electrical energy

into chemical energy. This process involves the

transfer of energy from an electrical current into the

energy of a chemical reaction. During the process of

electrolysis, an electrolyte, when either molten or

dissolved, is used to conduct electricity, resulting in a

chemical reaction known as electrolysis. This reaction

deposits an electrolyte, and the electrode, solution, or

something dissolved in it could be the substance to be

converted. Alternatively, the substance could be

dissolved in it. The cathode is the part of the electrode

that is charged with electric current. Solution

components make their way to the cathode, where

they join with the electrons and undergo

transformation.

INNER WORKINGS OF THE PROJECT

Initial Investment: Both solar and hydrogen fuel technologies require significant initial investment to set up the necessary infrastructure for energy production and distribution. This includes the cost of solar panels, electrolyzers, storage tanks, and distribution systems. Maintenance Costs: The maintenance costs for solar and hydrogen fuel systems are generally lower than those of fossil fuel systems, but they are still significant and must be factored in. Land Use: Solar energy requires large amounts of land to be dedicated to solar panels, while hydrogen fuel production requires land for the production and storage of hydrogen. Energy Storage: Both solar and hydrogen fuel systems require efficient energy storage systems, which can be costly.

A cost-benefit analysis compares the costs and benefits of different options to help make a decision. In this case, we will compare the costs and benefits of using solar and hydrogen fuels versus conventional fossil fuels.

Costs of Solar and Hydrogen Fuels:

COST-BENEFIT ANALYSIS OF THE PROJECT

Renewable Energy: Solar and hydrogen fuels are renewable energy sources, meaning they do not deplete natural res Environmental Benefits: Both solar and hydrogen fuel systems have minimal to no emissions, reducing greenhouseources and can provide long-term energy security. gases and air pollution. Economic Benefits: Solar and hydrogen fuels can create jobs in the renewable energy industry and reduce dependency on foreign oil. Energy Security: By reducing dependence on imported oil, solar and hydrogen fuel can provide long-term energy security and stability.

Benefits of Solar and Hydrogen Fuels

COST-BENEFIT ANALYSIS OF THE PROJECT

Conclusion

Overall, the cost-benefit analysis indicates that solar and hydrogen fuels have significant benefits in terms of

renewable energy, environmental impact, and energy security, but they require significant initial investment and

ongoing maintenance costs. Fossil fuels have some benefits in terms of energy density, infrastructure, and

affordability, but they have significant environmental, economic, and geopolitical costs.

Therefore, while there is no single solution that can replace fossil fuels completely, transitioning to renewable

energy sources like solar and hydrogen fuels can provide significant benefits and help address the challenges of

resource depletion, environmental damage, and energy security.

COST-BENEFIT ANALYSIS OF THE PROJECT

TARGET FUTURE DEVELOPMENT OF THE PROJECT