The Yangju Combined Heat and Power Plant is a key infrastructure asset in South Korea's power generation grid, located on the continent of Asia. Designated as a fossil fuel electricity generation station, the facility features an installed capacity of 524.3 MW. Its primary operation relies on harnessing gas energy resources to generate bulk electricity. Operational management and ownership of the facility are handled by the 대륜발전, which oversees daily maintenance and grid dispatch integration. The facility was officially connected to the commercial grid in 2010, since which it has maintained regular output, playing a structured role in domestic power supply security. In terms of domestic production capacity within South Korea, Yangju Combined Heat and Power Plant occupies the #45 position among all operational gas power plants. Its 524.3 MW capacity represents a 0.69% share of South Korea's total installed gas generating capacity, which currently stands at 76,023 MW. The largest operational gas installation in South Korea is the Taean Thermal Power Plant with an output of 6,446 MW, making the Yangju Combined Heat and Power Plant approximately 12.3 times smaller by comparison. Across all fuel types and electricity generation technologies country-wide, this facility accounts for 0.2051% of South Korea's aggregate generation capacity of 255,681 MW. Based on historical capacity factors characteristic of gas power plants (modeled at 40% for analysis), the facility's expected annual electricity generation is calculated at approximately 1,837,147 MWh. Applying domestic consumption statistics where an average household in South Korea consumes 3 MWh of electricity annually, this level of production is sufficient to meet the energy demands of roughly 612,382 homes. By utilizing traditional thermal power processes, the station delivers reliable dispatchable energy to the grid, supporting grid resilience during periods of low renewable resource availability and satisfying industrial base-load demands. The physical site of the station is located at geographic coordinates 37.8348° latitude and 127.1000° longitude. Analysis of local grid infrastructure shows a density of other assets within a 50-kilometer radius. These nearby facilities include the Dongducheon Power Plant (gas-fired, 1900 MW), the Paju Power Plant (gas-fired, 1800 MW), the Paju Natural Gas Power Station (gas-fired, 1800 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 South Korea.
16 years old
South Korea, Asia
Location
Estimates based on Gas emission factor (490 g CO₂/kWh) and capacity factor (45%). Actual emissions may vary based on operating conditions, efficiency, and fuel quality.
Technical Details
- Primary Fuel Type
- Gas
- Energy Source
- Non-Renewable
- Country
South Korea- Continent
- Asia
- Data Source
- Global Power Plant Database
Yangju Combined Heat and Power Plant: A Key Player in South Korea's Energy Landscape
The Yangju Combined Heat and Power Plant, known in Korean as 양주열병합대륜발전소, stands as a significant facility in South Korea's energy sector, with a capacity of 524.3 megawatts (MW). Owned by Daeryun Power, this gas-fired power plant plays a crucial role in meeting the growing energy demands of the region while also contributing to the country's goals of enhancing energy efficiency and reducing greenhouse gas emissions.
The Yangju plant operates primarily on natural gas, a cleaner alternative to traditional coal and oil-based fuels. Natural gas is known for its lower carbon emissions compared to other fossil fuels, making it an attractive option in the transition towards a more sustainable energy future. The combustion of natural gas produces significantly less particulate matter and sulfur dioxide, which are major contributors to air pollution and environmental degradation. Moreover, the plant's combined heat and power (CHP) technology allows for the simultaneous generation of electricity and useful heat, improving overall energy efficiency and reducing fuel consumption.
The environmental impact of the Yangju Combined Heat and Power Plant is generally considered to be more favorable than that of conventional coal-fired power plants. By utilizing natural gas, the plant minimizes its carbon footprint and aligns with South Korea's commitment to reduce greenhouse gas emissions under international climate agreements. The implementation of advanced emission control technologies further enhances its environmental performance, ensuring compliance with stringent regulations aimed at protecting air quality.
Regionally, the Yangju plant plays a vital role in the local energy landscape. As demand for electricity grows due to urbanization and industrial development, reliable power generation becomes increasingly critical. The plant not only supplies electricity to the local grid but also provides district heating, contributing to the heating needs of nearby residential and commercial areas. This dual functionality of electricity and heat generation supports the region's infrastructure and economic activities, thus fostering local development.
In summary, the Yangju Combined Heat and Power Plant is an integral part of South Korea's energy system. Its use of natural gas, advanced technology for combined heat and power generation, and commitment to environmental sustainability position it as a model for modern energy facilities. As the country continues to seek ways to balance energy demands with environmental responsibilities, the Yangju plant exemplifies the potential of cleaner energy solutions in ensuring a reliable and efficient energy supply for the future.
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Gas Power Generation: An Overview of Its Mechanisms, Benefits, and Future Prospects
Gas power generation is a significant component of the global energy landscape, characterized by the use of natural gas to produce electricity. This process typically involves either gas turbines or combined cycle gas plants. In a gas turbine, compressed air is mixed with natural gas and ignited, producing high-temperature exhaust gases that spin a turbine connected to a generator. Combined cycle plants enhance efficiency by utilizing both gas and steam turbines. After the gas turbine generates electricity, the waste heat is used to produce steam, which drives a steam turbine, thereby maximizing energy extraction from the fuel.
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