The Harrington power plant, located in the United States of America, is a significant contributor to the energy generation landscape, particularly in the Texas region. Commissioned in 1978, this coal-fired power generation facility has a substantial capacity of 1080 MW, enabling it to play a vital role in meeting the energy demands of local communities. Operated by Southwestern Public Service Co, Harrington utilizes coal as its primary fuel source, complemented by natural gas as a secondary fuel option. This dual-fuel capability enhances the plant’s operational flexibility and reliability, allowing it to adapt to fluctuations in energy demand and fuel availability. The plant's location at coordinates 35.2982, -101.7472 places it strategically within the Texas Panhandle, an area known for its robust energy infrastructure. As part of the regional energy mix, Harrington contributes significantly to the local grid, supporting the growing energy needs of both residential and industrial consumers. The coal technology employed at Harrington is a well-established method of energy generation, known for its ability to produce large amounts of electricity efficiently. Despite the increasing emphasis on renewable energy sources and the gradual shift in energy policy towards more sustainable options, coal remains a critical component of the energy mix in certain regions, including Texas. This is particularly relevant in the context of energy policies that seek to balance energy security, economic growth, and environmental considerations. The Harrington power plant continues to be a cornerstone of energy generation in its region, providing essential services that bolster the overall stability of the energy supply, while also navigating the complexities of a transitioning energy landscape.
1.08 GW
48 years old
United States of America, North America
- Primary Fuel Type
- Coal
- Energy Source
- Non-Renewable
- Country
United States of America- Continent
- North America
- Data Source
- Global Power Plant Database
The Harrington Power Plant is a significant coal-fired power facility located in the United States, with a generation capacity of 1,080 megawatts (MW). Commissioned in 1978, the plant is owned and operated by Southwestern Public Service Company, which is part of the Xcel Energy family. Harrington plays a crucial role in the energy sector of the region, contributing to the electricity supply for millions of consumers while ensuring grid stability and reliability.
Coal serves as the primary fuel for the Harrington Power Plant, a choice that has both advantages and challenges. The combustion of coal in the plant's boilers generates steam that drives turbines to produce electricity. Coal is abundant in the United States, which can provide a relatively stable and cost-effective energy source. However, the use of coal also presents significant environmental considerations, particularly concerning greenhouse gas emissions and air pollutants such as sulfur dioxide (SO2), nitrogen oxides (NOx), and particulate matter. Over the years, the Harrington Power Plant has implemented various emissions control technologies to mitigate its environmental impact, including scrubbers and electrostatic precipitators designed to reduce harmful emissions and improve air quality in the surrounding areas.
As a coal-fired power plant, Harrington has faced increasing scrutiny due to the growing emphasis on renewable energy sources and the need to transition towards cleaner energy systems. The ongoing shift in the energy landscape has prompted discussions about the future of coal in the United States, with many power plants being retired or converted to cleaner alternatives. However, Harrington continues to be an essential component of the regional energy mix, particularly in areas where coal remains a primary source of electricity generation.
The plant's regional significance is underscored by its ability to provide a reliable base-load power supply, which is vital for meeting the demands of residential, commercial, and industrial users. In a time of fluctuating energy needs and challenges in energy supply, the contribution of facilities like Harrington helps stabilize the grid and ensure that consumers have access to electricity at all times. Furthermore, Harrington's economic impact extends beyond energy generation, supporting local jobs and contributing to the economic vitality of the surrounding communities.
In conclusion, the Harrington Power Plant stands as a prominent example of a coal-fired facility within the U.S. energy sector. While it provides substantial electricity generation capacity and plays a key role in the regional energy infrastructure, it also faces challenges related to environmental concerns and the evolving energy landscape. As the country moves towards a more sustainable energy future, the plant's operations and strategies will be critical in balancing energy needs with environmental stewardship.
United States of America — Energy ProfileCoal has long been a cornerstone of electricity generation worldwide, with a significant presence in the global energy landscape. As of recent data, there are approximately 2,608 coal power plants operating across 74 countries, boasting a total installed capacity of 2,257.3 gigawatts (GW). The leading nations in coal power generation include China, with 1,018 plants generating 1,038.0 GW, India with 287 plants at 253.3 GW, and the United States with 291 plants producing 252.0 GW. Other notable contributors include Germany and Japan, with 130 plants and 76.8 GW, and 61 plants and 63.9 GW, respectively. This widespread utilization reflects the essential role coal has played in the development of industrial and residential power systems globally.
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