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Unit 6 Ecology and Chemistry 1. Read, translate and giv e the summary of the text ―How Cars Make Smoke‖. How Cars Make Smoke In the 1940s, residents of Southern California began to notice an atmospheric condition that obscured their vision, irritated their eyes, and hindered their breathing. It was dubbed “smog”, an etymological mixture of “smoke” and “fog”, although its actual constitution was far more complicated. A major contributor to air pollution in Southern California 56
was the exhaust from cars and trucks, a fact vehemently denied by the automobile industry until it was irrefutably proven by Arie Haagen-Smit at the California Institute of Technology in the early 1950s. Today, cars and light trucks account for about 60 percent of smog-creating emissions in the region, so any successful effort to reduce air pollution has to take full account of the emissions produced by the region‟s large vehicle population. Motor vehicle emissions are converted to smog through a series of chemical reactions that occur in the presence of sunlight. Uncontrolled vehicles produce the constituents of smog in a number of ways: through the venting of vaporized gasoline, the emission of gases from the engine‟s crankcase, and most important through the combustion process that converts gasoline into the power that propels them. When a charge of air and vaporized fuel is compressed and then ignited in an engine‟s combustion chamber, not all of the fuel is completely combusted; some unburned hydrocarbons are emitted. At the same time, high temperatures and pressures within the combustion chamber convert atmospheric nitrogen into various oxides of nitrogen (NO x for short). The exhaust gases are then released into the atmosphere, where the ultraviolet portion of sunlight breaks down NO 2 , one of the oxides of nitrogen, into NO. The liberated oxygen atoms then combine with atmospheric oxygen (O 2 ) to produce one of the major constituents of photochemical smog: ozone (O 3 ), a major irritant to the respiratory system. At the same time, other oxides of nitrogen are converted into a variety of compounds, notably the peroxyacyl nitrates that contribute to the eye-burning effects of smog. Residual NO 2 adds to the general nastiness by obscuring vision with a brown haze. Combustion of gasoline in an engine also produces carbon monoxide (CO), carbon dioxide (CO 2 ), water vapor, sulfur dioxide, and particulates. 57
Strictly speaking, these are not constituents of photochemical smog. They are still a significant problem, however. Recent years have been a growing concern about the emission of CO 2 into the atmosphere because it may contribute to a “greenhouse effect” and consequent global warming. Solid proof of this phenomenon remains elusive, but the increasing likelihood that today‟s car and trucks are contributing to global warming may necessitate the eventual supplantation of fossil-fuel burning internal-combustion engines by other sources of power; no matter how clean it is in other respects, an internal-combustion engine powered by a carbon-based fuel will always produce CO 2 . From ―Inventing for the Environment‖
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