Benefits of Renewable Energy Use
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Benefits of Renewable Energy Use
Renewable energy can supply a significant proportion of the United States energy needs, creating many public benefits for the nation and for states and regions, including environmental improvement, increased fuel diversity and national security, and regional economic development benefits.
Environmental Benefits
Using fossil fuels–coal, oil and natural gas–to make electricity dirties the nations air, consumes and pollutes water, hurts plants and animal life, creates toxic wastes, and causes global warming. Using nuclear fuels poses serious safety risks. Renewable energy resources can provide many immediate environmental benefits by avoiding these impacts and risks and can help conserve fossil resources for future generations. Of course, renewable energy also has environmental impacts. For example, biomass plants produce some emissions, and fuel can be harvested at unsustainable rates. Wind farms change the landscape, and some have harmed birds. Hydro projects, if their impacts are not mitigated, can greatly affect wildlife and ecosystems. However, these impacts — which are discussed in Appendix A — are generally much smaller and more localized than those of fossil and nuclear fuels. Care must nevertheless be taken to mitigate them.
Air Pollution
Clean air is essential to life and good health. Air pollution aggravates asthma, the number one childrens health problem. Air pollution also causes disease and even premature death among vulnerable populations, including children, the elderly, and people with lung disease. A 1996 analysis by the Natural Resources Defense Council of studies by the American Cancer Society and Harvard Medical School suggests that small particles in the air may be responsible for as many as 64,000 deaths each year from heart and lung disease.
Samples of other air pollutants
Sulfur oxides
Electricity production, primarily from burning coal, is the source of most emissions of sulfur oxides (SOx). These chemicals are the main cause of acid rain, which can make lakes and rivers too acidic for plant and animal life. Acid rain also damages crops and buildings. National reductions in sulfur oxides required by the Clean Air Act Amendments of 1990 may not be sufficient to end damage from acid rain in the northeastern United States. SO2 is also a primary source of fine particles in the air.
Nitrogen oxides
Burning fossil fuels either to produce electricity or to power transportation emits nitrogen oxides (NOx) into the air. In the presence of sunlight, nitrogen oxides combine with other chemicals to form ground-level ozone (smog). Both nitrogen oxides and ozone can irritate the lungs, cause bronchitis and pneumonia, and decrease resistance to respiratory infections. In addition, research shows that ozone may be harmful even at levels allowed by federal air standards. The U.S. Environmental Protection Agency (EPA) has published a new rule reducing nitrogen oxide emissions from 0.12 parts per million to 0.08 parts per million. States have until 2003 to submit plans for meeting the new standard and up to 12 years to achieve it.
Carbon dioxide
Carbon dioxide (CO2) is the most important of the greenhouse gases, which contribute to global warming by trapping heat in the earths atmosphere. Electricity generation is the largest industrial source of carbon dioxide emissions and a close second to the transportation sector. Without action, carbon dioxide levels would double in the next 50 to 100 years, increasing global temperatures by 1.8 to 6.3 degrees Fahrenheit. The heat trapped in the atmosphere