Case Study:  Reducing Acid Rain in

Case Study:  Reducing Acid Rain in the United States
Instructions: Read the case study and answer the questions
In the 1980s, scientists discovered that lakes, streams, and forests - even buildings and statues - were being damaged by acid rain. To reduce acid rain and protect the environment, the first step is reducing the amount of SO2 in the atmosphere. A cap and trade program was launched in 1995. The program had two key features:
First, it cut the amount of sulfur dioxide that could be emitted by power plants in half.
Second, the program gave plant operators flexibility to choose the emissions-reduction plan that worked best for their facilities. They could change to lower-polluting fuels, install devices to "clean" their emissions, or they could trade surplus pollution allowances.
What are "surplus pollution allowances?"
If a plant was emitting 10,000 tons of SO2 per year when the program started, for example, it would receive only 5,000 allowances (1 allowance = 1 ton of SO2). At the end of each year, the plant would either have to reduce its emissions to 5,000 tons or acquire additional allowances to cover emissions above the 5,000 ton limit. On the other hand, if the plant reduced its emissions to 4,000 tons per year, it would conserve 1,000 allowances. These "surplus allowances" could be banked for future use or traded to other plants that needed to cover overages of their own.The example below shows how cap and trade works when plants meet the required lower level, exceed it, and fail to meet it.

Plants A, B and C emit 30,000 tons (representing all SO2 emissions in this sample universe.)
Under the cap, total emissions must drop 50% to 15,000 tons, which is distributed as 5,000 allowances per plant.
Plant A installs "scrubbers" on its smokestacks, cutting emissions to 2,000 tons. Plant A has 3,000 surplus allowances.
Plant B shifts to cleaner burning fuel. Emissions are cut to 5,000 tons - right on target: 1 ton for each allowance.
Plant C expanded operations and was only able to reduce emissions to 6,000 tons. Plant C is 1,000 allowances over the limit.
Under cap and trade, Plant C can purchase 1,000 allowances from Plant A, giving Plant A extra revenue (a reward for better performance) and allowing Plant C to cover every ton of SO2 with an allowance (5,000 assigned allowances plus 1,000 purchased allowances). Plant A can bank its remaining 2,000 allowances for future years. With flexibility to choose their own solutions, all 3 plants have met the new limit.

Questions:
1.Draw my mapping to show the sources, causes, and impacts of acid rain.
2.What is the surplus allowance?
3.Explain how the cap and trade program can help to reduce acid rain.