"... In PAGE 26: ... Most of the analytical instrumentation is located on the ground floor beneath the chamber, with sampling lines leading down as indicated in Figure 1. Analytical Instrumentation Table2 gives a listing of the analytical and characterization instrumentation whose data were utilized for this project. Other instrumentation was available and used for some of these experiments, as discussed by Carter 2002a, but the data obtained were not characterized for modeling and thus not used in the mechanism evaluations for this project.... In PAGE 26: ... These are discussed further in the following sections. Ozone, CO, NO, and NOy were monitored using commercially available instruments as indicated in Table2 . A second ozone analyzer, based on the chemiluminescence method, was utilized in some experiments, and its data were consistent with the UV absorption instrument listed in Table 2.... In PAGE 26: ... Ozone, CO, NO, and NOy were monitored using commercially available instruments as indicated in Table 2. A second ozone analyzer, based on the chemiluminescence method, was utilized in some experiments, and its data were consistent with the UV absorption instrument listed in Table2 . The instruments were spanned for NO, NO2, and CO and zeroed prior to most experiments using the gas calibration system indicated in Table 2, and a prepared calibration gas cylinder with known amounts of NO and CO.... In PAGE 26: ... A second ozone analyzer, based on the chemiluminescence method, was utilized in some experiments, and its data were consistent with the UV absorption instrument listed in Table 2. The instruments were spanned for NO, NO2, and CO and zeroed prior to most experiments using the gas calibration system indicated in Table2 , and a prepared calibration gas cylinder with known amounts of NO and CO. O3 and NO2 spans were conducted by gas phase titration using the calibrator during this period.... In PAGE 28: ...Table2 (continued) 19 Type Model or Description Species Sensitivity Comments Total Hydrocarbon analyzer, FID Ratfisch Instruments, Model RS 55CA VOCs 50 ppbC Standard commercial instrument. Used for preliminary EPTC and kerosene injection tests only.... In PAGE 29: ...Organic reactants other than formaldehyde were measured by gas chromatography with FID detection as described elsewhere (Carter et al, 1995b); see also Table2 . The surrogate gaseous compounds ethylene, propylene, n-butane and trans-2-butene were monitored by using 30 m megabore GS-Alumina column and the loop sampling system.... In PAGE 29: ... Carbon disulfide does not give a sufficient response on our GC-FID systems to be suitable for analysis by this method. Instead, a total sulfur analyzer (described on Table2 ) was used for most experiments with this compound. This was calibrated using a calibration cylinder for SO2 and other compounds purchased from Praxair.... In PAGE 29: ... Although the components of kerosene give a response on the GC-FID systems, the results are not suitable for quantitative analysis. A total carbon analyzer (described on Table2 ) was used in injection tests for kerosene, carried out as described below for the purpose of developing and evaluating methods of injection into the gas phase. However, this analyzer was not sufficiently sensitive to be useful for qualitative analysis during the chamber experiments.... In PAGE 30: ... This is discussed further in the Results of Injection Tests section, below. As indicated in Table2 , aerosol number and size distributions were also measured in conjunction with our experiments. The instrumentation employed is similar to that described by Cocker et al.... In PAGE 30: ... Wall effects characterization is discussed in detail by Carter (2004) and updated by Carter and Malkina (2005) and most of that discussion is applicable to the experiments for this project. The instrumentation used for the other characterization measurements is summarized in Table2 , above, ... In PAGE 65: ... Both measurements show similar declines in intensity with time, though the measurements in front of the reactor are more comprehensive because of the larger number of measurements and the larger period of time for which measurements were made. Light intensity measurements were also made using the QSL-2100 PAR Irradiance Sensor during most chamber experiments, which responds to spherically integrated light in the 400-700 nm range (see Table2 ). This should provide a comprehensive indication of relative light intensity changes because such measurements are made during each experiment.... In PAGE 98: ... If this is important, than data would be needed to reduce uncertainties in its mechanism. Kerosene is a special case among the materials listed in Table2 0, being a complex hydrocarbon mixture rather than single compound or mixture of isomers. The CARB had developed a binning procedure to estimate MIR values for various hydrocarbon mixtures, depending on its boiling point range and aromatic content (Kwok et al, 2000).... ..."

"... In PAGE 6: ................................. 3-5 Table4 -1. Contents of the PRODUCT-CHEMICAL File .... In PAGE 6: ..................................... 4-2 Table4 -2. Contents of the CHEMICAL File .... In PAGE 6: .............................................. 4-14 Table4 -3.... In PAGE 6: .............. 4-16 Table4 -4.... In PAGE 30: ... Table4 -1. Contents of the PRODUCT-CHEMICAL File FIELD NAME FIELD TYPE UNITS FIELD DESCRIPTION Product ID Character -- SIC product code.... In PAGE 40: ...those chemicals listed in the PRODUCT-CHEMICAL File (i.e., chemicals detected in emissions or reported to be formulation components). Table4 -2 presents detailed information on the data elements of the file. Appendix C contains all 1,377 records in the CHEMICAL file.... In PAGE 44: ... Table4 -3.... In PAGE 45: ... Table4 -4.... In PAGE 93: ... Next, from the PRODUCT-FORMULATION file (see Table 3-2), the program selects the first formulation associated with the product ID and notes the environments to which the formulation applies. The program then accesses the PRODUCT-CHEMICAL file (see Table4 -1) to identify all chemicals (CAS numbers) associated with the product ID and formulation. Based on information pulled from various files (PRODUCT-CHEMICAL, CHEMICAL, PRODUCT-ENVIRONMENT, ENVIRONMENT, AND PEOPLE-ENVIRONMENT), the program calculates the score for the first chemical in each applicable environment.... ..."

"... In PAGE 6: ................................. 3-5 Table4 -1. Contents of the PRODUCT-CHEMICAL File .... In PAGE 6: ..................................... 4-2 Table4 -2. Contents of the CHEMICAL File .... In PAGE 6: .............................................. 4-14 Table4 -3.... In PAGE 6: .............. 4-16 Table4 -4.... In PAGE 30: ... Table4 -1. Contents of the PRODUCT-CHEMICAL File FIELD NAME FIELD TYPE UNITS FIELD DESCRIPTION Product ID Character -- SIC product code.... In PAGE 40: ...those chemicals listed in the PRODUCT-CHEMICAL File (i.e., chemicals detected in emissions or reported to be formulation components). Table4 -2 presents detailed information on the data elements of the file. Appendix C contains all 1,377 records in the CHEMICAL file.... In PAGE 42: ... Table4 -2. Contents of the CHEMICAL File FIELD NAME FIELD TYPE UNITS FIELD DESCRIPTION CAS Number Character -- Chemical-specific Chemical Abstract Service number.... In PAGE 45: ... Table4 -4.... In PAGE 93: ... Next, from the PRODUCT-FORMULATION file (see Table 3-2), the program selects the first formulation associated with the product ID and notes the environments to which the formulation applies. The program then accesses the PRODUCT-CHEMICAL file (see Table4 -1) to identify all chemicals (CAS numbers) associated with the product ID and formulation. Based on information pulled from various files (PRODUCT-CHEMICAL, CHEMICAL, PRODUCT-ENVIRONMENT, ENVIRONMENT, AND PEOPLE-ENVIRONMENT), the program calculates the score for the first chemical in each applicable environment.... ..."

"... In PAGE 6: ................................. 3-5 Table4 -1. Contents of the PRODUCT-CHEMICAL File .... In PAGE 6: ..................................... 4-2 Table4 -2. Contents of the CHEMICAL File .... In PAGE 6: .............................................. 4-14 Table4 -3.... In PAGE 6: .............. 4-16 Table4 -4.... In PAGE 30: ... Table4 -1. Contents of the PRODUCT-CHEMICAL File FIELD NAME FIELD TYPE UNITS FIELD DESCRIPTION Product ID Character -- SIC product code.... In PAGE 40: ...those chemicals listed in the PRODUCT-CHEMICAL File (i.e., chemicals detected in emissions or reported to be formulation components). Table4 -2 presents detailed information on the data elements of the file. Appendix C contains all 1,377 records in the CHEMICAL file.... In PAGE 42: ... Table4 -2. Contents of the CHEMICAL File FIELD NAME FIELD TYPE UNITS FIELD DESCRIPTION CAS Number Character -- Chemical-specific Chemical Abstract Service number.... In PAGE 44: ... Table4 -3.... In PAGE 93: ... Next, from the PRODUCT-FORMULATION file (see Table 3-2), the program selects the first formulation associated with the product ID and notes the environments to which the formulation applies. The program then accesses the PRODUCT-CHEMICAL file (see Table4 -1) to identify all chemicals (CAS numbers) associated with the product ID and formulation. Based on information pulled from various files (PRODUCT-CHEMICAL, CHEMICAL, PRODUCT-ENVIRONMENT, ENVIRONMENT, AND PEOPLE-ENVIRONMENT), the program calculates the score for the first chemical in each applicable environment.... ..."

"... In PAGE 2: ... The three-phase reduction calls for a 30 percent reduction in emissions by 2006, a 50 percent reduction by 2010, and a 70 percent reduction by 2012. Table2 outlines these regulations. Table 2: EPA Snowmobile Emissions Regulations ... ..."

"... In PAGE 20: ... We have tested it on a test suite of graphs compiled by Petit [19], chosen so as to represent several graph families. Table1 describes the graphs in the set. Petit computed linear arrangements of these graphs using many algorithms.... ..."

"... In PAGE 33: ...emma 12.7 ([Ba1]). Retain the notation oulined in Remark 12.3. The K-types for Spin(n; n) listed in Table4 are petite and detect spherical unitarity. Lemma 12.... ..."

"... In PAGE 33: ...emma 12.7 ([Ba1]). Retain the notation oulined in Remark 12.3. The K-types for Spin(n, n) listed in Table4 are petite and detect spherical unitarity. Lemma 12.... ..."

"... In PAGE 33: ...emma 12.7 ([Ba1], [Ba2]). Retain the notation oulined in Remark 12.3. The K-types for Spin(n, n) listed in Table4 are petite and detect spherical unitarity. Lemma 12.... ..."