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CONSTRUCTION ACTIVITY IMPACTS <br />Dust is typically the primary concern during construction of new homes and infrastructure. <br />Because such emissions are not amenable to collection and discharge through a controlled <br />source, they are called "fugitive emissions." Emission rates vary as a function of many <br />parameters (soil silt, soil moisture, wind speed, area disturbed, number of vehicles, depth of <br />disturbance or excavation, etc.). These parameters are not known with any reasonable certainty <br />prior to project development and may change from day to day. Any assignment of specific <br />parameters to an unknown future date is speculative and conjectural. <br />Because of the inherent uncertainty in the predictive factors for estimating fugitive dust <br />generation, regulatory agencies typically use one universal "default" factor based on the area <br />disturbed assuming that all other input parameters into emission rate prediction fall into <br />midrange average values. This assumption may or may not be totally applicable to site-specific <br />conditions on the proposed project site. As noted previously, emissions estimation for project- <br />specific fugitive dust sources is therefore characterized by a considerable degree of imprecision. <br />Average daily PM-10 emissions during site grading and other disturbance average about 10 <br />pounds per acre. This estimate presumes the use of reasonably available control treasures <br />(RACMs). The SCAQMD requires the use of best available control measures (BACMs) for <br />fugitive dust from construction activities. With the use of BACMs, fugitive dust emissions can <br />be reduced to 1-2 pounds per day per acre disturbed. <br />Current research in particulate-exposure health suggests that the most adverse effects derive from <br />ultra-small diameter particulate matter comprised of chemically reactive pollutants such as <br />sulfates, nitrates or organic material. A national clean air standard for particulate matter of <br />2.5 microns or smaller in diameter (called "PM-2.5") was adopted in 1997. A limited amount of <br />construction activity particulate matter is in the PM-2.5 range. PM-2.5 emissions are estimated <br />to comprise 10-20 percent of PM-10. <br />In addition to fine particles that remain suspended in the atmosphere scinkindefinitely, <br />construction activities generate many larger particles with shorter atmospheric residence times. <br />This dust is comprised mainly of large diameter inert silicates that are chemically non-reactive <br />and are further readily filtered out by human breathing passages. These fugitive dust particles <br />are therefore more of a potential soiling nuisance as they settle out on parked cars, outdoor <br />furniture or landscape foliage rather than any adverse health hazard. <br />Exhaust emissions will result from on and off-site heavy equipment. The types and numbers of <br />equipment Will vary among contractors such that such emissions cannot be quantified with <br />certainty. Demolition and grading activities will shift towards construction and paving, etc. <br />The CalEEMod was developed by the SCAQMD and provides a model to calculate both <br />construction emissions and operational emissions from a residential land use project. It <br />calculates both the daily maximum and annual average emissions for criteria pollutants as well as <br />total or annual greenhouse gas (GHG) emissions. The CalEEMod 2011.1.1 computer model was <br />I'm G 1- S4 Ap - J <br />75A-125