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BP Solar 1

SolarRenewable

The BP Solar 1 is a key infrastructure asset in Vietnam's power generation grid, located on the continent of Asia. Designated as a renewable electricity generation station, the facility features an installed capacity of 0 MW. Its primary operation relies on harnessing solar energy resources to generate bulk electricity. Operational management and ownership of the facility are handled by the BP Solar, which oversees daily maintenance and grid dispatch integration. The facility was officially connected to the commercial grid in 2013, since which it has maintained regular output, playing a structured role in domestic power supply security. In terms of domestic production capacity within Vietnam, BP Solar 1 occupies the #17 position among all operational solar power plants. Its 0 MW capacity represents a 0.00% share of Vietnam's total installed solar generating capacity, which currently stands at 1,616 MW. The largest operational solar installation in Vietnam is the Dau Tieng with an output of 420 MW, making the BP Solar 1 approximately 1.0 times smaller by comparison. Across all fuel types and electricity generation technologies country-wide, this facility accounts for 0.0000% of Vietnam's aggregate generation capacity of 78,648 MW. Based on historical capacity factors characteristic of solar power plants (modeled at 18% for analysis), the facility's expected annual electricity generation is calculated at approximately 0 MWh. Applying domestic consumption statistics where an average household in Vietnam consumes 3 MWh of electricity annually, this level of production is sufficient to meet the energy demands of roughly 0 homes. As a clean and sustainable energy project, BP Solar 1 contributes to the direct displacement of greenhouse gases, preventing substantial quantities of carbon dioxide from entering the atmosphere and helping Vietnam advance toward its renewable energy integration targets. The physical site of the station is located at geographic coordinates 11.5407° latitude and 108.8729° longitude. Analysis of local grid infrastructure shows a density of other assets within a 50-kilometer radius. These nearby facilities include Ninh Thuận 2 Nuclear Power Plant (nuclear, 4,000 MW), Vinh Tan 2 (coal, 1,244 MW), Phước Nam (solar, 330 MW), representing a cluster of localized power assets. This geographic placement is vital for reinforcing regional distribution infrastructure and minimizing transmission line losses across this sector of Vietnam.

Capacity
0 MW
Commissioning Year
2013

13 years old

Owner
BP Solar
Location
11.5407°, 108.8729°

Vietnam, Asia

Location

Coordinates:: 11.540743, 108.872938
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Carbon Footprint

Zero Direct Emissions

BP Solar 1 is a solar power plant producing approximately 0 GWh of clean electricity per year with zero direct CO₂ emissions during operation.

Lifecycle emissions: ~41 g CO₂/kWh (manufacturing, transport, decommissioning)

Technical Details

Primary Fuel Type
Solar
Energy Source
Renewable
Country
Vietnam
Continent
Asia
Data Source
Global Power Station Database

VietnamEnergy Profile

326
Total Stations
78.7 GW
Total Capacity
HydroCoalGasNuclear
Top Fuels

An Overview of Solar Power Generation: Harnessing the Sun's Energy

Solar power generation is a method of converting sunlight into electricity, utilising photovoltaic (PV) cells or solar thermal systems. The most common technology used in solar power plants is photovoltaic solar panels, which contain numerous cells made from semiconductor materials, such as silicon. When sunlight hits these cells, it excites electrons, creating an electric current. This direct current (DC) is then converted into alternating current (AC) using an inverter, making it suitable for use in homes and businesses or for feeding into the grid. In addition to PV systems, solar thermal power plants use mirrors or lenses to concentrate sunlight, generating heat that can be used to produce steam and drive turbines for electricity generation. As of now, there are approximately 10,853 solar power plants worldwide, yielding a total installed capacity of 195.4 gigawatts (GW) across 93 countries. The leading countries in solar power generation include China, with 1,326 plants and 54.8 GW of capacity; the United States, with 3,293 plants and 38.2 GW; India, with 852 plants and 25.5 GW; the United Kingdom, with 1,192 plants and 8.8 GW; and Spain, with 255 plants and 7.1 GW. This global expansion reflects the increasing adoption of solar energy as a viable and sustainable energy source. The advantages of solar power are numerous. Firstly, it is a renewable energy source, meaning it is inexhaustible and can be harnessed as long as the sun shines. This leads to reduced dependence on fossil fuels, helping to lower greenhouse gas emissions and combat climate change. Solar power also provides significant economic benefits, including job creation in manufacturing, installation, and maintenance sectors. Additionally, solar systems can be deployed at various scales, from small residential installations to large utility-scale solar farms, offering flexibility in energy generation. However, solar power generation does have its disadvantages. The initial installation costs can be high, although prices have been decreasing steadily over the years. Solar energy is also intermittent; it can only be harnessed during daylight hours, necessitating the development of energy storage solutions or supplementary energy sources to ensure a consistent power supply. Moreover, the manufacturing process of solar panels involves the use of certain materials that can be harmful to the environment if not managed properly. The environmental impact of solar power is generally positive, as it significantly reduces carbon emissions compared to traditional energy sources. However, land use for large solar farms can lead to habitat disruption and other ecological concerns. The production of solar panels can generate waste and pollution, but advancements in recycling technologies are helping mitigate these issues. Global trends indicate a robust growth trajectory for solar power generation. Investment in solar technology continues to rise, driven by declining costs, technological advancements, and supportive government policies aimed at reducing carbon footprints. The International Energy Agency (IEA) projects that solar power will become the dominant source of electricity generation by the mid-21st century, driven by increasing efficiency and storage capabilities. Looking towards the future, the outlook for solar power generation is bright. Continued innovation in solar technology, such as bifacial panels and building-integrated photovoltaics (BIPV), promises to enhance efficiency and integration into urban environments. The expansion of energy storage solutions will also play a crucial role in overcoming the intermittency challenge, enabling solar power to provide a reliable energy supply. As countries strive to meet climate targets, solar energy will undoubtedly remain a cornerstone of the global transition to a sustainable energy future.

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