Tanagawa Daini is a prominent oil-fired power generation facility located in Japan, boasting a capacity of 1200 MW. This power plant plays a significant role in the country's energy mix, particularly in supporting energy generation during peak demand periods when renewable sources may not be sufficient. Positioned at coordinates 34.3216 latitude and 135.1281 longitude, Tanagawa Daini is strategically located to enhance the local grid's reliability and stability. Operated by Kansai, this facility utilizes advanced oil combustion technology to convert fuel into electricity, ensuring efficient energy production. The operational context of Tanagawa Daini is shaped by Japan's broader energy policies, especially following the shift in energy strategies post-Fukushima. The plant serves as an important backup power source, complementing the growing share of renewable energy in Japan's grid. Tanagawa Daini's oil-based generation capacity is particularly crucial during times of limited renewable output, helping to maintain a consistent energy supply. The significance of this power plant extends beyond just its capacity; it plays a vital role in ensuring that the energy needs of local communities and industries are met consistently. As Japan continues to navigate the complexities of transitioning to a more sustainable energy framework, facilities like Tanagawa Daini remain integral to bridging the gap between current energy demands and future renewable ambitions. This highlights the balancing act Japan faces in maintaining energy security while striving to reduce carbon emissions, making Tanagawa Daini a pivotal element in the country's energy infrastructure.
1.20 GW
29 years old
Japan, Asia
- Primary Fuel Type
- Oil
- Energy Source
- Non-Renewable
- Country
Japan- Continent
- Asia
- Data Source
- Global Power Plant Database
The Tanagawa Daini Power Plant is a significant energy facility located in Japan, with a capacity of 1200 megawatts (MW). Owned by Kansai Electric Power Company, this oil-fired power plant plays a crucial role in the country's energy sector, particularly in ensuring a stable supply of electricity in the Kansai region. As Japan has limited domestic energy resources, the reliance on oil power plants like Tanagawa Daini has been essential, especially during periods of increased demand or when other energy sources, such as nuclear or renewable energy, are insufficient to meet the needs of the population.
Operational since the late 20th century, the Tanagawa Daini Power Plant primarily utilizes oil as its fuel source. Oil-fired power generation involves burning oil to produce steam, which drives turbines to generate electricity. This type of fuel is known for its high energy density and relatively quick startup times compared to other fossil fuels, which makes it valuable for meeting peak demand periods. However, the use of oil also raises concerns regarding the sustainability of energy supply and the volatility of oil prices, which can impact operational costs.
From an environmental standpoint, the Tanagawa Daini Power Plant, like many oil-fired plants, has a notable carbon footprint. The combustion of oil releases greenhouse gases, contributing to climate change and air pollution. In response to growing environmental concerns, Japan has been striving to transition towards cleaner energy sources. Nonetheless, oil remains a vital component of the energy mix, particularly in times when renewable energy generation may not be sufficient due to weather conditions or other factors.
Regionally, the Tanagawa Daini Power Plant holds significant importance in supporting the local economy and infrastructure. It serves as a reliable source of power for both residential and industrial consumers in the Kansai region, which includes major cities like Osaka and Kobe. The stability provided by the plant is crucial for economic activities, especially in a region that is heavily dependent on manufacturing and technology sectors. Additionally, the facility contributes to job creation and local employment opportunities, further enhancing its regional significance.
In summary, the Tanagawa Daini Power Plant exemplifies the complexities of energy production in Japan, balancing the need for reliable electricity with the environmental implications of oil use. As the country continues to navigate its energy future amidst evolving demands and environmental priorities, the role of facilities like Tanagawa Daini will remain a key focus in discussions around energy policy and sustainability.
Oil power generation involves the combustion of oil to produce electricity. The process typically begins with the extraction and refining of crude oil, which is then burned in a power plant to create steam. This steam drives turbines connected to generators, converting thermal energy into electrical energy. Oil power plants can vary in design, including steam turbine plants, gas turbine plants, and combined cycle plants, which utilize both gas and steam turbines to enhance efficiency. As of now, there are 2,416 oil power plants worldwide, distributed across 108 countries, with a total installed capacity of 286.9 gigawatts (GW).
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