Killen Generating Station

From SourceWatch
Jump to: navigation, search

This article is part of the Coal Issues portal on SourceWatch, a project of CoalSwarm and the Center for Media and Democracy. See here for help on adding material to CoalSwarm.

Killen Generating Station was a coal-fired power station owned and operated by DPL near Manchester, Ohio.

In January 2017 the Sierra Club announced it had reached a deal with DPL to retire the Killen Generating Station and Stuart Generating Station in June 2018 due to economic reasons. In addition DPL announced plans to begin development of new wind and solar energy projects and grid modernization initiatives.[1]

The Killen Generating Station was retired on June 1, 2018.[2]

Loading map...

Plant Data

  • Owner: Dayton Power & Light Company
  • Parent Company: DPL
  • Plant Nameplate Capacity: 666 MW (Megawatts)
  • Units and In-Service Dates: 666 MW (1982)
  • Location: 14869 U.S. 52, Manchester, OH 45144
  • GPS Coordinates: 38.700089, -83.486115
  • Coal Consumption:
  • Coal Source:
  • Number of Employees:

Emissions Data

  • 2006 CO2 Emissions: 4,284,186 tons
  • 2006 SO2 Emissions: 22,825 tons
  • 2006 SO2 Emissions per MWh:
  • 2006 NOx Emissions: 7,185 tons
  • 2005 Mercury Emissions: 222 lb.

Death and disease attributable to fine particle pollution from Killen Generating Station

In 2010, Abt Associates issued a study commissioned by the Clean Air Task Force, a nonprofit research and advocacy organization, quantifying the deaths and other health effects attributable to fine particle pollution from coal-fired power plants.[3] Fine particle pollution consists of a complex mixture of soot, heavy metals, sulfur dioxide, and nitrogen oxides. Among these particles, the most dangerous are those less than 2.5 microns in diameter, which are so tiny that they can evade the lung's natural defenses, enter the bloodstream, and be transported to vital organs. Impacts are especially severe among the elderly, children, and those with respiratory disease. The study found that over 13,000 deaths and tens of thousands of cases of chronic bronchitis, acute bronchitis, asthma, congestive heart failure, acute myocardial infarction, dysrhythmia, ischemic heart disease, chronic lung disease, and pneumonia each year are attributable to fine particle pollution from U.S. coal plant emissions. These deaths and illnesses are major examples of coal's external costs, i.e. uncompensated harms inflicted upon the public at large. Low-income and minority populations are disproportionately impacted as well, due to the tendency of companies to avoid locating power plants upwind of affluent communities. To monetize the health impact of fine particle pollution from each coal plant, Abt assigned a value of $7,300,000 to each 2010 mortality, based on a range of government and private studies. Valuations of illnesses ranged from $52 for an asthma episode to $440,000 for a case of chronic bronchitis.[4]

Table 1: Death and disease attributable to fine particle pollution from the Killen Generating Station

Type of Impact Annual Incidence Valuation
Deaths 17 $120,000,000
Heart attacks 26 $2,800,000
Asthma attacks 260 $14,000
Hospital admissions 12 $280,000
Chronic bronchitis 10 $4,400,000
Asthma ER visits 14 $5,000

Source: "Find Your Risk from Power Plant Pollution," Clean Air Task Force interactive table, accessed February 2011

Coal Waste Sites

Killen ranked 47th on list of most polluting power plants in terms of coal waste

In January 2009, Sue Sturgis of the Institute of Southern Studies compiled a list of the 100 most polluting coal plants in the United States in terms of coal combustion waste (CCW) stored in surface impoundments like the one involved in the TVA Kingston Fossil Plant coal ash spill.[5] The data came from the EPA's Toxics Release Inventory (TRI) for 2006, the most recent year available.[6]

Killen Generating Station ranked number 47 on the list, with 715,435 pounds of coal combustion waste released to surface impoundments in 2006.[5]

Articles and Resources

Sources

Related SourceWatch Articles

External Articles

This article is a stub. You can help by expanding it.