what it takes to light up a 100 Watt lamp for a year?

To burn or not, that is the question. This article gives a perspective on what is happening when we use that energy in-efficient light.

We’ll start by figuring out how much energy in kilowatt-hours the light bulb uses per year. We multiply how much power it uses in kilowatts, by the number of hours in a year. That gives 0.1 kW x 8,760 hours or 876 kWh.

The thermal energy content of coal is 6,150 kWh/ton. Although coal fired power generators are very efficient, they are still limited by the laws of thermodynamics. Only about 40 percent of the thermal energy in coal is converted to electricity. So the electricity generated per ton of coal is 0.4 x 6,150 kWh or 2,460 kWh/ton.

To find out how many tons of coal were burned for our light bulb we divide 876 kWh by 2,460 kWh/ton. That equals 0.357 tons. Multiplying by 2,000 pounds/ton we get 714 pounds ( 325 kg || 162.5kg for 50W) of coal. That is a pretty big pile of coal, but let’s look at what else was produced to power that light bulb.

A typical 500 megawatt coal power plant produces 3.5 billion kWh per year. That is enough energy for 4 million of our light bulbs to operate year round. To produce this amount of electrical energy, the plant burns 1.43 million tons of coal. It also produces:


Total for Power Plant

One 100W Light Bulb-Year’s Worth

Sulfur Dioxide – Main cause of acid rain 10,000 Tons 5 pounds / 2.275kg
1.137kg = 50W
Nitrogen Oxides – Causes smog and acid rain 10,200 Tons 5.1 pounds / 2.321kg
1.160kg = 50W
Carbon Dioxide – Greenhouse gas suspected of causing global warming 3,700,000 Tons 1852 pounds / 842.998kg
421.499kg = 50W

It also produces smaller amounts of just about every element on the periodic table, including theradioactive ones. In fact, a coal-burning power plant emits more radiation than a (properly functioning)nuclear power plant!

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