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18.Greenhouse Gas (GHG) Emissions/Carbon Footprint <br /> a. GHG Quantification — For all proposed projects, provide quantification and discussion <br /> of project GHG emissions. Include additional rows in the tables as necessary to provide <br /> project-specific emission sources. Describe the methods used to quantify emissions. If <br /> calculation methods are not readily available to quantify GHG emissions for a source, <br /> describe the process used to cometo that conclusion and any GHG emission sources not <br /> included in the total calculation. <br /> Certain gases in the earth's atmosphere, classified as greenhouse gases (GHGs), play a critical <br /> role in determining the earth's surface temperature. Solar radiation enters the earth's <br /> atmosphere from space. A portion of the radiation is absorbed by the earth's surface and a <br /> smaller portion of this radiation is reflected back toward space. This absorbed radiation is <br /> then emitted from the earth as low-frequency infrared radiation. The frequencies at which <br /> bodies emit radiation are proportional to temperature. Because the earth has a much lower <br /> temperature than the sun, it emits lower-frequency radiation. Most solar radiation passes <br /> through GHGs; however, infrared radiation is absorbed by these gases. As a result, radiation <br /> that otherwise would have escaped back into space is instead "trapped," resulting in a <br /> warming of the atmosphere. This phenomenon, known as the greenhouse effect, is <br /> responsible for maintaining a habitable climate on earth. <br /> The primary GHGs contributing to the greenhouse effect are carbon dioxide (COA methane <br /> (CH4), and nitrous oxide (N20). Fluorinated gases also make up a small fraction of the GHGs <br /> that contribute to climate change. Examples of fluorinated gases include chlorofluorocarbons <br /> (CFCs), hydrofluorocarbons (HFCs), perfluorocarbons (PFCs), sulfur hexafluoride (SF6), and <br /> nitrogen trifluoride (NF3); however, it is noted that these gases are not associated with typical <br /> land use development. Human-caused emissions of GHGs exceeding natural ambient <br /> concentrations are believed to be responsible for intensifying the greenhouse effect and <br /> leading to a trend of unnatural warming of the earth's climate, known as global climate <br /> change or global warming." <br /> This section includes an estimated quantification of the following GHG emissions associated <br /> with the proposed project: <br /> • Carbon Dioxide (CO2) <br /> • Nitrous Oxide (N20) <br /> • Methane (CH4) <br /> The projected GHG emissions are provided on an average annual basis using the CO2 <br /> equivalent (CO2e) and include the proposer's best estimate of average annual emissions over <br /> the proposed life/design service life of the project. Emissions were estimated using the US <br /> Environmental Protection Agency's Simplified GHG Emissions Calculator (Version 7 June <br /> 2021)12 and are summarized in Appendix D and Table 10 and Table 11 by project phase (i.e., <br /> construction and operations) and source type (e.g., combustion from mobile equipment, off- <br /> site electricity (see Appendix D for background analysis). <br /> 11 Summarized from U.S. EPA,Overview of Greenhouse Gases:https://www.epa.govZghgemissions/overview- <br /> greenhouse-gases <br /> 12 Source: https://www.epa.gov/climateleadership/simplified-ghg-emissions-calculator <br /> Haviland Fields EAW 24 July 2023 <br />