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02 Appendix A - Air Quality (1999)Appendices A. Air Quality Appendix B. Noise Appendix Appendix A AIR QUALITY Air Quality Glossary Air Basin -- An area with common and distinctive geographical features. Air Monitoring -- Sampling and measuring pollutants present in the atmosphere. Ambient Air -- Outside air. AQMP -- The Air Quality Management Plan. ARB -- The California Air Resources Board. Attainment -- Legal recognition that an area meets standards for a particulate pollutant. AVR -- Average Vehicle Ridership AVR Requirement -- Achieving an average vehicle ridership during peak commute hours of 1.5 persons/vehicle by 1999. BACT -- Best Available Control Technology. CAA -- The Federal Clean Air Act. CCAA -- The California Clean Air Act. CEQA -- The California Environmental Quality Act. CMP -- The Congestion Management Program. CO - Carbon monoxide is a colorless, odorless, toxic gas formed by incomplete combus- tion of fossil fuels. Contingency Measures -- Actions which will be implemented in the event of a failure to attain or to meet interim milestones. Criteria Air Contaminants -- Criteria air contaminants are pollutants for which air quality standards currently exist (i.e. ozone, nitrogen dioxide (NO2), sulfur dioxide (SO2), carbon monoxide (CO), fine suspended particulates (PM 10), lead and sulfate). CVAG -- The Coachella Valley Association of Governments. EIR -- Environmental Impact Report. Emission Inventory -- Listing by source of pollutants emitted into a community's atmosphere (typically given in amounts per day or per year). EPA -- The Environmental Protection Agency. Federal agency with responsibility for ambient air quality. Episode Criteria -- California has adopted health advisory levels called episode criteria for ozone, carbon monoxide, sulfur dioxide, and ozone in combination with sulfates. Episode criteria represent short-term exposures at concentrations which actually threaten public health. A-1 FIP -- The Federal Implementation Plan. GP -- General Plan. Health Advisory -- Issued when ozone levels are projected to reach 15 parts per hundred million to warn athletes to avoid strenuous outdoor activities. HOV -- High Occupancy Vehicle. Hydrocarbons -- Any compound containing carbon and hydrogen in various combinations found in solvents and fuels. Inversion -- A layer of warm air in the atmosphere that lies over a layer of cooler air, trapping pollutants in the mixing layer beneath it. ug/m3 -- Microgram (1/1,000,000 of a gram) per cubic meter of air. NAAQS -- National Ambient Air Quality Standards. NO -- Nitric oxide is a colorless, odorless gas. NO2 -- Nitrogen dioxide is a reddish -brown gas formed by the combination of nitric oxide with oxygen. Nonattainment Area -- An area that does not meet state or national standards for a given pollutant. NOx -- Oxides of nitrogen. Gases formed primarily from atmospheric nitrogen and oxygen when combustion takes place (particularly under conditions of high temperature). Oxides of nitrogen are primary receptors of ultraviolet light initiating the photochemical reactions that produce smog. 03 -- Ozone is a pungent, colorless toxic gas which is produced by the photochemical process. Ozone is formed through chemical reactions of VOCs, oxides of nitrogen and oxygen in the presence of sunlight. Offset -- An emission reduction that compensates for an emission increase. Ozone Precursors -- Chemicals such as hydrocarbons VOCs and oxides of nitrogen, which contribute to the formation of ozone. Particulate Matter -- Particulate matter consists of particles in the atmosphere as a by- product of fuel combustion, through abrasion such as tire wear, and through soil erosion by the wind. Particulates can also be formed through photochemical reactions in the atmosphere. Photochemical -- Requiring the presence of sunlight for a chemical reaction. A-2 Photochemical Oxidant -- Photochemical oxidant (03) can include several different pollutants, but consists primarily of ozone (90%) and a group of chemicals called organic peroxynitrates. Photochemical oxidant is created by complex atmospheric reactions involving oxides of nitrogen and volatile organic compounds, in the presence of ultraviolet energy from sunlight. PM -- Total suspended particulate matter. PM2.5 -- Suspended particulate matter with a mean aerodynamic diameter of less than 2.5 micrometers. PMio -- Suspended particulate matter with a mean aerodynamic diameter of less than 10 micrometers. PMio SIP -- The PM10 State Implementation Plan. PPM -- Parts per million parts of air. Primary Pollutants -- Primary pollutants are those emitted directly from a source and include: carbon monoxide (CO), nitric oxide (NO), sulfur dioxide (SO2), particulates, and various hydrocarbons and other volatile organic compounds (VOC). RACM -- Reasonably Available Control Measures. RACT -- Reasonably Available Control Technology. Rate -of -Progress -- Reducing pollutants contributing to nonattainment by five percent per year or all feasible control measures and an expeditious adoption schedule. Reasonable Further Progress -- An incremental reduction in emissions of relevant air pollutants that is needed to ensure attainment of the national ambient air quality standards or NAAQS by the applicable date. Risk Assessment -- Evaluation of expected health impacts on a specific population. ROG -- Reactive Organic Gases. Gases composed of hydrocarbons that contribute to the formation of photochemical oxidant. SCAB -- The South Coast Air Basin. SCAG -- The Southern California Association of Governments. SCAQMD -- The South Coast Air Quality Management District. Secondary Pollutants -- Secondary pollutants are created with the passage of time in the air mass and include: photochemical oxidants (90% of which are ozone), photochemical aerosols, peroxyacetylnitrate (PAN), and nitrogen dioxide (NO2). Sensitive Land Use -- Sensitive land uses are land uses associated with indoor and/or outdoor human activities that may be subject to stress and/or significant impact as a result of air pollutant exposure. They include residential (single-family and multi -family dwellings, mobile home parks, dormitories and similar uses); transient lodging (including hotels, motels and similar uses); hospitals, nursing homes, convalescent hospitals and other facilities for long-term medical care; and public or private educational facilities. A-3 SIP -- State Implementation Plan. A document that shows the steps planned to meet federal air quality standards (outlined in the Clean Air Act). Each nonattainment area prepares an air quality improvement plan. These plans are combined to make the statewide SIP. SO2 -- Sulfur dioxide results from the combustion of high sulfur content fuels. SOV -- Single Occupant Vehicle. A vehicle with one occupant (the driver). SOx -- Sulfates result from a reaction of sulfur dioxide and oxygen in the presence of sunlight. SRA -- Source Receptor Area. The Coachella Valley is in Source Receptor Area 30. SSAB -- The Salton Sea Air Basin. Stage I Alert -- Called when ozone concentrations are projected to reach 20 parts per hundred million. A Stage I Alert indicates that the general public should avoid strenuous outdoor activities because of unhealthful air quality. Stage II Alert -- Called when ozone concentrations are projected to reach 35 parts per hundred million. A Stage H Alert indicates that everyone should remain indoors because of very unhealthful air quality. TCM -- Transportation Control Measures. TDM -- Transportation Demand Management. VMT -- Vehicle Miles Traveled (usually daily). VOC -- Hydrocarbon and other Volatile Organic Compounds are formed from combustion of fuels and the evaporation of organic solvents. Many hydrocarbon compounds are major air pollutants, and those classified as aromatics are highly photochemically reactive with NOx, forming photochemical smog. VT -- Vehicle Trips. A-4 S g a c c (a o E ° ' 0 � w c E2° c o E y E a ° E 0 � Q aC. o O CL > .0 cn O) C y (A (D � EO c U Z GO C3 U d S Q E C c � m 0) > ctl -IF N c5s L C y 4 O) c (D r M m EN ° a Lt o E CL E U LL m a E Ea a M a E a� a' �E° N T 0. as �n o IoO ==0 LO m N 0 rn CO 0 0 o LO In ca T T° o, E a c CA ; E N �' > > ;ro n g > m C C L 7 L N 10 H r �L m (CON C EN A cz E E OLS r a E E m- "�E E m (D co $ ~ a a o a a0. E a as as E a) �m g= c = a. �to0 cz � na.a o o IC in m > E O m CO o 0 0 LO In CO r r CT a� a L co NL° _ CA co 03 a C E > E N m -°a v C� E rn° C 7 v> ° C pcts L ° E N y •0 M (D n a to a 05 o c E co a o > O -o (D E- nE E- co -6 = o E � E O (D (°� NE c cLO$ O 0 () O O O .L >L :3 co O) O) ` N_ y � E U � (`O U ( �" � zcn (NO CD L) 7 DLL CA cn2 _C) N co (O m o, E 00 A E Q O N Cn $ m E Z5CM A E Lin CE- O w C CL N 0 co_� rl nc U v m E T A,, (n o C C ` v Y ti . k6L an(D 0i rn n" O� II A II A N L c�Ina -E ED,(n w m A n 6 °' o� O 4) o> v> > m � > m "" 0r E=N � � �n�•�QB II�� C m > tO tO � c t 7° = � Q` A O co L � �i n e, Li L ' L L C L C O t N Ems :° +nso4)cAPn m y r L` L ' r N T C 4 4 M T 0520 7 'Zed Ea`�i E T E E E (O N N "- E a C'> Au— aD of a a E E a a s as E E E E a a v mHcia"y >� '�? r—rmu a a s �� a o �w ��hyu��CLu O C O ai N N C ON c �LON O O mc- C m m_a r E E 1° O ,6aJ [7 N f•` A G1 mTmsnQ X 0 ME � O X N O O O ��q�y��r'oi°'� aII pq O O ° 0 p :�2 C O dc?a,�7.a � =7 EE W a c an d rn d L mi3Oa'r -=�i rn armmmaiw0 � as O ° Q c $ a'- m m w -° °mdm T r N (O " 7 7 (O m 7 ca T C y (O CC W W W W m UJ LU A O Uz c/) U) (L to 2 > >a . O L U a� Q U O O U Q W a U) O U fA w O f0 C C O m U E �� y N y U "O C f0 N U co CO U a ai y X a N O y w U V 7 O O y 'L$ CL W c� d� o, > ro c� � � �.c t o � E y L � w C1 r 00 r N , N N � � 5 ,> U V1 a E aE o mE a) -0 `o �� a a as oo � �5 c,g m 0 v 0o ri � r- -cb It 4 It 6 � � O>1 C N � L t -IF L N� �` � fo O N N O� U m .m. EE •- � o�� LL (n d as O � (D 'r_ . Co O O - 7 C L y 7 � N M � � U O > Q� r 0 N N C O � > C> > C co m f>0 O � y O C O w C O «• y `° a�co� �� N C N i r N � N C'O 0—..7 � O � N 'C N C U) � an o E ,❑ �yE c- oc- I o � c��°LO co CD cli D'ro LC) O O � � O L C� U M p� C N _ C (6 fo coN f0 y j E y N O � L L L L L ` fC y r 7 y � .= r(V � rN crow � °ay�� Y E E E E E o ayi«d �� cam° N a nn as na. � � c c � chi a pp � y 0 0 U ry+ (D U') LOC) OHO O� N (CO coN V `'OY �- o No o 2 E co acn GcA:�w � A w � > co � N CO � C N .� � O « O N p 7 -r7- � U U C L r4 L 0 0� ,O . N N 3 C C col � E E E a� E p � as as aaa c °)�c�m Q Cf) � M r 0 U C Q w U d N C j D1 � > CO ca > f0 O 'y � C co � f0 � i m .a y O O r L N N N 3 fCtl _y �� C Il � � � r r o N m- � C �^'O O V a N � in o. aE as � s y � cors c yY.S o as oo � io�'ao� ��.> yac 0 p � N O � N U .O O n 'w c60 N G c � N r O C 0 O _O — E � N y 4) � C O ❑ 7 0 O N L � O � C ❑ ❑ U V a Q CO p 75 ) � ` � � 7 y O O d � � Cn C O U Z U co � g O L U a� Q U O O U Q W a U) O U fA w O f0 C C O m U E �� y N y U "O C f0 N U co CO U a ai y X a N O y w U V 7 O O y 'L$ CL W c� d� o, > ro c� � � �.c t o � E y L � w C1 r 00 r N , N N � � 5 ,> U V1 a E aE o mE a) -0 `o �� a a as oo � �5 c,g m 0 v 0o ri � r- -cb It 4 It 6 � � O>1 C N � L t -IF L N� �` � fo O N N O� U m .m. EE •- � o�� LL (n d as O � (D 'r_ . Co O O - 7 C L y 7 � N M � � U O > Q� r 0 N N C O � > C> > C co m f>0 O � y O C O w C O «• y `° a�co� �� N C N i r N � N C'O 0—..7 � O � N 'C N C U) � an o E ,❑ �yE c- oc- I o � c��°LO co CD cli D'ro LC) O O � � O L C� U M p� C N _ C (6 fo coN f0 y j E y N O � L L L L L ` fC y r 7 y � .= r(V � rN crow � °ay�� Y E E E E E o ayi«d �� cam° N a nn as na. � � c c � chi a pp � y 0 0 U ry+ (D U') LOC) OHO O� N (CO coN V `'OY �- o No o 2 E co acn GcA:�w � A w � > co � N CO � C N .� � O « O N p 7 -r7- � U U C L r4 L 0 0� ,O . N N 3 C C col � E E E a� E p � as as aaa c °)�c�m Q Cf) � M r 0 U C Q w U d N C j D1 � > CO ca > f0 O 'y � C co � f0 � i m .a y O O r L N N N 3 fCtl _y �� C Il � � � r r o N m- � C �^'O O V a N � in o. aE as � s y � cors c yY.S o as oo � io�'ao� ��.> yac 0 p � N O � N U .O O n 'w c60 N G c � N r O C 0 O _O — E � N y 4) � C O ❑ 7 0 O N L � O � C ❑ ❑ U V a Q CO p 75 ) CARB Air Quality Data for the Coachella Valley Pollutant 1995 1996 1997 Max Value %Exceeded Carbon Monoxide Maximum 8 -Hour Conc. (ppm) 1.5 1.6 3.0 3.0 - Days 8 -Hour Conc. >9.0 ppm (Federal) 0 0 0 - 0 Days 8 -Hour Conc. >9.0 ppm (State) 0 0 0 - 0 Maximum 1 -Hour Conc. (ppm) 3 3 3 3 - Days 1 -Hour Conc. >20 ppm (State) 0 0 0 - 0 Days of Data 360 354 353 - - Ozone Maximum 1 -Hour Conc. (ppm) 0.16 0.16 0.16 0.16 - Days 1 -Hour Conc. >0.12 ppm (Federal) 9 12 4 - 2 Days 1 -Hour Conc. >0.09 ppm (State) 49 60 45 15 Days of Data 361 366 329 - - Nitrogen Dioxide AAM Conc. (ppm) (Federal) 0.0223 0.0210 0.0310 0.0310 - % >0.0534 ppm (Federal) 0 0 0 - 0 Maximum 1 -Hour Conc. (ppm) 0.09 0.08 0.07 0.09 - Days 1 -Hour Conc. >0.25 ppm (State) 0 0 0 - 0 Days of Data 365 363 310 - - Sulfur Dioxide Maximum 1 -Hour Conc. (ppm) NM NM NM NM - Days 1 -Hour Conc. A.14 ppm (Federal) NM NM NM NM Days 1 -Hour Conc. >0.25 ppm (State) NM NM NM NM Maximum 24 -Hour Conc. (ppm) NM NM NM NM - Days 24 -Hour Conc. >0.05 ppm (State) NM NM hllvl - NM Days of Data NM NM NM - - Suspended Particulate Matter (PM10) Maximum 24 -Hour Conc. (ug/m3) 199 130 182 199 - 24 -Hour Samples >150 ug/m3 (Federal) 1 0 2 - 2 24 -Hour Samples >50 ug/m3 (State) 27 29 25 - 46 AAM Conc. (ug/m3) (Federal) 52.0 50.8 53.4 53.4 - Conc. >50 ug/m3 (Federal) Yes Yes Yes - AGM Conc. (ug/m3) (State) 47.2 46.1 46.4 47.2 Conc. >30 ug/m3 (State) Yes Yes Yes - Number of Samples 61 58 56 - Particulate Sulfate (SO4) Maximum 24 -Hour Conc. (ug/m3) NM NM 5.9 5.9 - % Samples 24 -Hour Conc. >25.0 ug/m3 NM NM 0 - 0.0 Particulate Nitrate (NO3) Maximum 24 -Hour Conc. (ug/m3) NM NM 13.2 13.20 - AGM Conc. (ug/m3) NM NM 2.16 2.16 - AAM Conc. (ug/m3) NM NM 2.78 2.78 1. NM=Not Monitored. 2. Data for the Coachella Valley is the higher value measured at Palms Springs and Indio. c a c O a Z U is UU W In O rn N o M 11 11 7 'O 'O O O d d 61 O O O O V �A Y d a a 00 L U U as X o 00 o p„roorci°M° a urr y cm C� C7 C 0 C W f/1 ,O in ° :2 : > C y U��0000> .N F-�W`� FW.., FWC FoWC cn ; �oo�L a M w M k/1 E W ° :2 : > C y U��0000> .N � cn ; �UNaMOG� a� V A e F °FFF" s Q = o 0 0 -R.U Co o N y ° s ' c •o �. c F- A W o o > > Y3� Clo x 0 V w 3z�� n n E V Q A A >> a U >> a o ' s 000000 O O 00 3 N N � W G W W Y d d o o -- 33� 6 3 E o o ; � v A n 33� U F F F z =aa °dd z00 = _ '^ L T N 00 O ¢ C 01 oo ,I� a z w a x a a W t4 0d d _ rq to C O E E 0 M 0 C E E O z O C E O E o V1 o C E C CO C Oq O C OG C _C a M w M k/1 E W ° :2 : > C y R N .N � �UNaMOG� C Z c Q s Q = o 0 0 -R.U Co o N y •o �. c F- A W o o > > Clo x 00 n ,,I: r h n cn oo 00 M v; N O C M - M M M N r.i o0 x r C to 'E N 5 o z .Q U i G 7 t0 L I w a a M w M k/1 E W F"' 0 0O y In .N rn In W 080 N z �. o o > > x 0 'ono vV1i o a M 0 0 n o0 v1 00 �O • 0 0 N N � �--r� --6 M 10 00+. O � O M W F"' 0 0O In rn In � V N n n E V Q A A >> a U >> a V 0= a O= a O= a U= a MO � M � � V'� to � � •--. V1 Q N E w •o •o•voo �' a a v o 0 A .. N Cn Cn VJ V n E � y .�`.. y cTO M C� Q 7 7 R I 0 O, 00 W) O O w V V M c 'E a� W 00 p En O O = S V Z F ... A � -'T cd M t+ F N 00 C U t+ — 2 M— 5 doo cn nLL E-�3FV FF" W W w LL E Cj� W W w �xn v O O vi V O S S S O C C O h N d '� O 7 :° O O m co •\a h 7o �o 00 N F- E U E U E U E L32 W W W ssao c U LLw w w d Q c o L o° a .a p A .a o •a N n o 33 6 3 E o o cn to � c, N �= N ri — 0�� :2�- v V n 0 3 3E.F• .. v U v F Z C Q a z fn H w y N� in V'1 N eq V' O O S t T 00 N L x T ¢ M L x T O� O� L T o xW) m L K T M O t T O� N 00 O_ W DLz O .Q 0n Z .D o0 � bn w in ek N Ol, `D W ,D C C O C C C C 7 a LTJ 7 a won W) 7 a LL w a Won 7 a Woo 7 a LL W on °� v •E o •E 4 oo en — M •E a •E o a M •E on a� •E O �c c o M c O c o 7 c h •G o c M �c c — h C en O O C Z bG O C C O C bq N C OG hC C O V b-0 C C bn O O C cC r- (71 M M M V't M V1 M V1 4 C 00 �F, 00 M 00 00 cF, w 00 •y •N O N� LLd e°� I�t�Noc<.,bc� E w E lA N h Vl H N O10 w V) Vl N VJ C N Vl V} Vl wl VJ VJ Vl V) •� U •y 10 0 4, v n v n v n v n v W F F F F F F F F F F F- F- FF F- �°. ` T ? > > > > >> > > Q d ? 3 > `C 4 S� > > Q d x U O C� OC C •o � •v o 0 v a a o 0 0 0 V A � U U v A O O 00 w �a uzszLF- �rn a N N N N M 00 i \.oM N00 rl aMA M M M N � 'Ono 000. N rn 00o o O O M `I o 0 N N DD M 0 y°orn �'vo p• yror yrs O�� O _ � O •E O C •E � N FW:• E O FWC •� � FWC v E°„WC cn �rn a N N N N M 00 i \.oM N00 rl aMA M M M N � 'Ono 000. N rn 00o o O O M `I o 0 N N DD M O� v1 N U v doo> h r OO O v cn ? O �p /�� O O v W C A >> Q a C >> Q d n` V.0. A c °FFF" p pp pp pp b0 � O x Fes• A � a.r > > ¢ d v `O o >> 3zss O w _ p O O O O rn 1n O goo 00 N 3 O N �00 co F- E U I W C cz u &. Y d d o o O 3 3 6 0 goo" \oo" V A � o L >. ON 't - L T V L T 00 r- OG 4 7 X V1 O N X W C C b4 O = b0 C LL [w W r- CWtI ri d _ _ to _ C O M O O G¢ O z G O V'1 O O C C b4 C D4 O G bA G- c rA.0. F 000 rn �" 000 M E.. 000 m E D) V1 N N N 0 mej y > — > — > C r y L 1r O mue4cGmpG� — W .+ d v cc e F W co •O C Z 7p d a Q p O O pp o O O O O a V n V n o. > > > > ^' > > F O a a U �rn a N N N N M 00 i \.oM N00 rl aMA M M M N � 'Ono 000. N rn 00o o O O M `I o 0 N N DD M O� v1 N h r OO O v O O ? O �p /�� O O v W C A >> Q a C >> Q d oc p pp pp pp b0 � z A � a.r > > ¢ d v O O� o � U � :Y tn A w V1 M N �0-� 0M0 M vi N O = OO O v O O ? O �p /�� O O v W C A >> Q a C >> Q d oc �, 'o •v•voo u a u o 0 aaaoo yV A y o� ` U U E �°Ocr'oo v - C� U > 0 00 — a y N V1 N o o Ego o EdoEom L C w O w U w V) �n . y d L V A O o ` O n O S O r" M � i M M cry 'o •v•voo u a u o 0 aaaoo yV A y o� ` U U E �°Ocr'oo v - C� U > b M 00 — a y N V1 N C = E I L C w O w �n . y d L V A O o ` S W i M M cry O = N OD p O O O U I I n V C Z V LL. LL C 0 V1 N `o o >> 0 U N O a R1 L o � — c , w N LL. i w. r- O C G C O Y cda 7 N o o ' S O O V1 O N 0 T 72 O� V1 c o00 S E 3 �� I ; W W W F E c,e _ 'av U W C ;�; o c o " W Y A Q o o S o o cz v oot C,3R n::2C-;� 33�A 0 N En Qq N o c F F S E f- I U z gaa W W Z W O O 'ate y L x T 00 m O L X T M ¢ D\ N t x T V1 �c t X m w b9' r r W? Z— W_ W C c b4 O C O4 C cNn vOi, � `per. rr,. 1 00 pr M •-- m V bA r O ^ — LL a� W d w w C O m E' ¢ O c _ I C' W O O Z W O't O O c Oq c 04 O c b4 C — N V)� C'4 — f � C o m �° U F- or m F- ro y .•. Cj C11 O X mV7 r O W — O 7 • h > C p w w I U N m K M 04 m �c c — r L c o4 O ' V1 N M r O V1 N M n V7 M N O1 � v n O\ v n v n E e aj S ppO y COD O O C O C K O O O In F O a 96 U 00 C' 'y •fl a O .E � � p •� � N 0 b M 00 — a y N V1 N C = E I L C w O w o ` S W i M M cry pQ N OD p O O O U I I n V C Z V LL. LL C 0 V1 N 0 U N O a R1 L o � — c , a N LL. i w. r- O C G C r M rn 7 V1 N — C O W pQ OD O O O O ++ n V n Z V LL T 7 E w LL a E N Vl v O Y cda 7 N o 0 c N_ S E W W W c,e _ 'av V) ;�; o c o " S v oot C,3R n::2C-;� 0 N En Qq N o NI S E I W W W 'ate �vri O� A p o o A m o 0 0 ca cNn vOi, � `per. rr,. 1 00 pr M •-- m V bA r O ^ — U E I W W — N V)� C'4 — f � b4 " o U N Om0 y .•. Cj C11 O X mV7 r O W — w w I M 04 m �c c — r L c o4 O ' V1 N M O V1 N M n V7 M N O1 � n V1 M N O\ S ppO y COD O O C O C O O O O In > > ¢ ¢ > > ¢ ¢ C oG Short -Term Construction Equipment Emissions Worksheet Project Name: Coral Mountain SPA #1 Equipment Category Number of Vehicles Pollutant Emission Rate (Pounds/Hour) CO ROC NOx SOx Particulates Fork Lift - 175 Hp 2 0.520 0.170 1.540 0.000 0.093 Trucks: Off -Highway 0 1.800 0.190 4.170 0.450 0.260 Tracked Loader 0 0.201 0.095 0.830 0.076 0.059 Tracked Tractor 2 0.350 0.120 1.260 0.140 0.112 Scraper 10 1.250 0.270 3.840 0.460 0.410 Wheeled Dozer 0 0.000 0.000 0.000 0.350 0.165 Wheeled Loader 1 0.572 0.230 1.900 0.182 0.170 Wheeled Tractor 1 3.580 0.180 1.270 0.090 0.140 Roller 0 0.300 0.065 0.870 0.067 0.050 Motor Grader 1 0.151 0.039 0.713 0.086 0.061 Miscellaneous 2 0.675 0.150 1.700 0.143 0.140 Total No. of Equipment 19 89.52 18.13 230.78 24.86 23.23 ** Note: Assumes that 50% of the equipment is operating on a "worst-case" day. Peak Quarter Construction Usage Daily Op. (Hr/Day) Pollutant Emission Forecast (Pounds/Day) CO ROC NOx SOx Particulates Fork Lift - 175 Hp 9 9.36 3.06 27.72 0.00 1.67 Trucks: Off -Highway 0 0.00 0.00 0.00 0.00 0.00 Tracked Loader 0 0.00 0.00 0.00 0.00 0.00 Tracked Tractor 9 6.30 2.16 22.68 2.52 2.02 Scraper 9 112.50 24.30 345.60 41.40 36.90 Wheeled Dozer 0 0.00 0.00 0.00 0.00 0.00 Wheeled Loader 9 5.15 2.07 17.10 1.64 1.53 Wheeled Tractor 9 32.22 1.62 11.43 0.81 1.26 Roller 0 0.00 0.00 0.00 0.00 0.00 Motor Grader 9 1.36 0.35 6.42 0.77 0.55 Miscellaneous 9 12.15 2.70 30.60 2.57 2.52 Worst -Case Day** 50% 89.52 18.13 230.78 24.86 23.23 ** Note: Assumes that 50% of the equipment is operating on a "worst-case" day. Peak Quarter Construction Usage Days of Operation Total Construction Period Emission Forecast (Tons) CO ROC NOx SOx Particulates Fork Lift - 175 Hp 65 0.30 0.10 0.90 0.00 0.05 Trucks: Off -Highway 0 0.00 0.00 0.00 0.00 0.00 Tracked Loader 0 0.00 0.00 0.00 0.00 0.00 Tracked Tractor 65 0.20 0.07 0.74 0.08 0.07 Scraper 65 3.66 0.79 11.23 1.35 1.20 Wheeled Dozer 0 0.00 0.00 0.00 0.00 0.00 Wheeled Loader 65 0.17 0.07 0.56 0.05 0.05 Wheeled Tractor 65 1.05 0.05 0.37 0.03 0.04 Roller 0 0.00 0.00 0.00 0.00 0.00 Motor Grader 65 0.04 0.01 0.21 0.03 0.02 Miscellaneous 65 0.39 0.09 0.99 0.08 0.08 Construction Exhaust (Tons) 5.81 1.18 15.00 1.62 1.51 11-1 0 �, w,*.a� .. �aen CA O o0 IRV M GC 6e 6 06 w o za C O L A C +1 i6i a� u cv � � a A � a cz a 6 LW M WO A L w+ CC D W � � aLn 0 H C) Co O A N Co U �I O O � za 0 F� A C oar41 a � aj ^O u L 00 ISI A � bA PC a a =' L7 M o, Q b[1 a. a Q N L 9 T c N O — Vl V•) •o^o•000 u u u o 0 0 0 V A c 33 � U U a P o 00 o 0 00 = w e� u OL U � a O O > r a ` V A o Y �z `o o > > 3ze 00 00 C m C 0 0 -� �•�g a �or,, yb� rA��, w F I` "R IIR M ,In 0 10 M O N O O n M M M N c�i o0 U I u W n :i c 0 U y 7 fO L K ; W . c a o W o O E 00 y o o, ho 0 +I 0 O N v1 ` o N N j 7 C 7 A E W �>�f0m 0 0 o y S E W o v, 0 00 v,0 0 00 �' 00 �' > .y v V AV y �Q A > > ¢ ¢ > > 0 S " t w w L 3 3 6 L. 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'� n .•r t` cM rf Ce eh r` ON N �c M N et eh e+i t- 00 t- 0\ O Oc � M C Cn en O 00 N l N M N 00 O: t` tn 00 0 F V� M a r -+ eq N .� M N M N to .-w en M N (4 IV e t - r+ -4� N N N R elf wy. t- O\ t- ON vy a, t- kn to v) v) O M 00 � N — %C CT �O �t Ln t: Io to 00 — 00 WO 00 O N It 00 O �O V 00 •h �o O O� — eV \G t- O, I'll 00 �o ON O ON � c7 00 1-11 v1 M et = OO O\ \O N It O\ O M t- M Wn N 00 — — t 'o 01 00 �O 'n \O N N F "T 00 — 00 �lc N N — 00 N C A M M �o �O [� 00 r O N — ON \-o It kn .1- CT tl- O N M \D N00 O\ ,� O R O — N t- O M N w M q — M wItt r O\ O� �q r n Wn M o0 N Ga -,t O t- o\ N qt t- O t- \O t- w �o M O �O N — t- \O C\ — � I -C CT Cy 00 O\ M — qt 00 O — �c M M N O\ O — M It kn 00 00 N h 00 O ^ t- — 00 O ^ \%o N ^ N tK ^ N V� u C r 00 It 00 M 00 1n O 00 M M CT N O r- r- N t- 00 M �o N — V'1 t- Wn O 00 N M t- tri V'1 u O N O t` (V n O NO O M- C�� N V'1 •W5 N— 00� N et O O N O V1 N y LTrSe W pO O O O O O �000 S �So oSgo SSg w L o 0000 0 0 0 0 0 oS 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 S t- N �o O N ^ p �t N kn S U► .� O O \D O O M ^ �, O N M Q\ O O T to CT O O M ^ �o O ^ O O to O O 0 0 ON O O — O— O O — 0 00 0 0 N O O — zw� ^ yO f3. M O y cV O v'1 O— O O M O y N O V O— O M a� N g M 0 y C14 C pp M O y N CC O U U" G4 N O cl 0 O— pp O N O cV 7E 0 N O N-0 0 N No O N o N S W p O S o =0 p0 0— pp O O S S pp0 0 0^ pp O 0 0 0 pp0 S p O S pO pp SS p 0 0p— �O Z O O O y 0 O O O y 0 O O O y 0 Opo O O O O O O J z 0 C O O z 0 O O C7 z O 0 0 0 z 0 O O O z 0 C ¢ o O O O Q O O O p O O O Q O O O Q O O O p U>Z Z U>Zvna U>Zvh U>Zv�a a .� 7. O en 00 47 rq CT N u00 en W) w CQVui t� S � � M ONO N 224 o0 t- O4 O M \O p 00 O� �c 00 O Z V U N N � N N N V 4 N y OW y N •L •L •LU. •LU+ :Q .V O .V Vi .V .V •L .V �° E a EE .� E E S E E '> o E E E E 0 0 0 o o o 0 0 O o lu a 'EULI wuQ zu(m �UCa F '7 C R Z A W u O M CALINE 4 Assumptions Traffic Data -- was taken from the traffic study prepared by Endo Engineering. Traffic volumes were provided which represented existing conditions (year 1999), and future conditions (year 2004 and year 2010) with and without the proposed project. Roadway Speeds -- 31 mph was assumed as the 1999 morning peak speed, 30 mph for 2004 and 27 mph for 2010, as interpolated from Table A9 -5-F in the SCAQMD CEQA Air Quality Handbook, November 1993. Refer to the calculated parameters at the top of the Year 2004 and Year 2010 Proposed Project Mobile Source Emission Inventory worksheets. N4eteorological Conditions -- included 0.5 mph winds, stability class G for one-hour values, a persistence factor of 0.60 for eight-hour values and wind directions determined by iterative runs of the computer model to insure that carbon monoxide concentrations are maximized (greatest concentration for the nearest receptor). Highway Widths -- were derived for existing roadway cross-sections. Future cross- sections were based upon the master planned classifications. The widths included 3 meters per side as specified for the CALINE 4 model input. Emission Factors -- were taken from SCAQMD CEQA Air Quality Handbook, November 1993. The 1999 CO emission factor was 4.16 grams per mile for a generalized vehicular distribution. The 2004 CO emission factor was 3.34 grams per mile (refer to Year 2004 Mobile Source Emission Inventory - Proposed Project worksheet) for a generalized vehicular distribution. The 2010 CO emission factor was 2.51 grams per mile (refer to Year 2010 Mobile Source Emission Inventory - Proposed Project worksheet) for a generalized vehicular distribution. Background Concentrations— for carbon monoxide were derived from ambient air quality data for 1995-1997 taken at the Palm Springs SRA 30 station. The future year background concentrations were determined from the current monitored concentrations based upon the procedures specified with Table 9-9 in the SCAQMD CEQA Air Quality Handbook. REPORT FOR FILE : EJEF A50 1. Site Variables U= 0.5 M/S Z0= 100.0 CM BRG= 190.0 DEGREES VD= 0.0 CM/S CLASS= G STABILITY VS= 0.0 CM/S MIXH= 1000.0 M AMB= 0.0 PPM SIGTH= 5.0 DEGREES TEMP= 7.0 DEGREE (C) 2. Link Description 3. Receptor Coordinates LINK X Y LINK COORDINATES (M) RECEPTOR 1 285 EF H W 2 DESCRIPTION * *----------------------------- X1 Y1 X2 Y2 TYPE K ----_--------------------------- VPH (G/MI) (M) (M) A. --------------- Jefferson NL 239 300 300 300 600 AG 1049 4.2 0.0 14.5 B. Jefferson SL 0.0 300 300 300 0 AG 640 4.2 0.0 14.5 C. Avenue 50 EL 0.3 300 300 600 300 AG 528 4.2 0.0 14.5 D. Avenue 50 WL 0.1 300 300 0 300 AG 767 4.2 0.0 14.5 * MIXW * L R STPL DCLT ACCT SPD EFI IDT1 IDT2 LINK * (M) (M) (M) (SEC) (SEC) (MPH) NCYC NDLA VPHO (G/MIN) (SEC) (SEC' ------- *--------------------------------------------------------------------- A. 0 0 0 0.0 0.0 0 0 0 0 0.0 0.0 0.0 B. 0 0 0 0.0 0.0 0 0 0 0 0.0 0.0 0.0 C. 0 0 0 0.0 0.0 0 0 0 0 0.0 0.0 0.0 D. 0 0 0 0.0 0.0 0 0 0 0 0.0 0.0 0.0 3. Receptor Coordinates MODEL RESULTS FOR FILE F:EJEF A50 X Y Z RECEPTOR 1 285 285 1.3 RECEPTOR 2 270 270 1.3 RECEPTOR 3 254 254 1.3 RECEPTOR 4 239 239 1.3 MODEL RESULTS FOR FILE F:EJEF A50 * PRED *WIND * COCN/LINK * CONC * BRG * (PPM) RECEPTOR * (PPM) *(DEG)* A B C D ----------- *------- *----- *------------------------ -------------_ _--_RECPT RECPT 1 0.5 6 * 0.4 0.0 0.0 0.1 RECPT 2 0.3 9 * 0.2 0.0 0.0 0.1 RECPT 3 0.3 12 * 0.2 0.0 0.0 0.1 RECPT 4 0.2 15 * 0.1 0.0 0.0 0.1 REPORT FOR FILE : 4JEF A50 1. Site Variables U= 0.5 M/S Z0= 100.0 CM BRG= 190.0 DEGREES VD= 0.0 CM/S CLASS= G STABILITY VS= 0.0 CM/S MIXH= 1000.0 M AMB= 0.0 PPM SIGTH= 5.0 DEGREES TEMP= 7.0 DEGREE (C) 2. Link Description 3. Receptor Coordinates LINK X * LINK COORDINATES (M) RECEPTOR * 285 EF H W 2 DESCRIPTION * X1 Y1 X2 Y2 * TYPE VPH (G/MI) (M) (M) 4 --------------- 239 *----------------------------- C D ----------- *------------------------------ *----- * ---- A. Jefferson NL RECPT 300 300 300 600 AG 1852 3.3 0.0 14.5 B. Jefferson SL * 300 300 300 0 AG 1571 3.3 0.0 14.5 C. Avenue 50 EL 0.1 300 300 600 300 AG 679 3.3 0.0 14.5 D. Avenue 50 WL 300 300 0 300 AG 1110 3.3 0.0 14.5 * MIXW * L R STPL DCLT ACCT SPD EFI IDT1 IDT2 LINK * (M) (M) (M) (SEC) (SEC) (MPH) NCYC NDLA VPHO (G/MIN) (SEC) (SEC) -------*--------------------------------------------------------------------- A. 0 0 0 0.0 0.0 0 0 0 0 0.0 0.0 0.0 B. 0 0 0 0.0 0.0 0 0 0 0 0.0 0.0 0.0 C. 0 0 0 0.0 0.0 0 0 0 0 0.0 0.0 0.0 D. 0 0 0 0.0 0.0 0 0 0 0 0.0 0.0 0.0 3. Receptor Coordinates MODEL RESULTS FOR FILE F:4JEF A50 * X Y Z RECEPTOR 1 285 285 1.3 RECEPTOR 2 270 270 1.3 RECEPTOR 3 254 254 1.3 RECEPTOR 4 239 239 1.3 MODEL RESULTS FOR FILE F:4JEF A50 * PRED *WIND * COCN/LINK * CONC * BRG * (PPM) RECEPTOR * (PPM) *(DEG)* A B C D ----------- *----- * ---- __----------- RECPT 1 0.7 * 7 * 0.5 0.0 0.0 0.2 RECPT 2 0.4 * 9 * 0.3 0.0 0.0 0.1 RECPT 3 0.3 * 12 * 0.2 0.0 0.0 0.1 RECPT 4 0.3 * 15 * 0.2 0.0 0.0 0.1 REPORT FOR FILE : PJEF A50 1. Site Variables U= 0.5 M/S BRG= 190.0 DEGREES CLASS= G STABILITY MIXH= 1000.0 M SIGTH= 5.0 DEGREES Z0= 100.0 CM VD= 0.0 CM/S VS= 0.0 CM/S AMB= 0.0 PPM TEMP= 7.0 DEGREE (C) 2. Link Description 3. Receptor Coordinates LINK X * LINK COORDINATES (M) RECEPTOR 1 285 EF H W 2 DESCRIPTION * X1 Y1 X2 Y2 * TYPE VPH (G/MI) (M) (M) 239 --------------- *----------------------------- ------- -*------------------------ *---------------___..--_------- RECPT 1 0.7 A. Jefferson NL 0.0 300 300 300 600 AG 2035 3.3 0.0 14.5 B. Jefferson SL * 12 * 300 300 300 0 AG 1809 3.3 0.0 14.5 C. Avenue 50 EL 300 300 600 300 AG 683 3.3 0.0 14.5 D. Avenue 50 WL 300 300 0 300 AG 1169 3.3 0.0 14.5 * MIXW * L R STPL DCLT ACCT SPD EFI IDT1 IDT2 LINK (M) (M) (M) (SEC) (SEC) (MPH) NCYC NDLA VPHO (G/MIN) (SEC) (SEC -------*-------------------------------------------------------------------- A. 0 0 0 0.0 0.0 0 0 0 0 0.0 0.0 0.0 B. 0 0 0 0.0 0.0 0 0 0 0 0.0 0.0 0.0 C. 0 0 0 0.0 0.0 0 0 0 0 0.0 0.0 0.0 D. 0 0 0 0.0 0.0 0 0 0 0 0.0 0.0 0.0 3. Receptor Coordinates MODEL RESULTS r'UK r'IL- r : einr r»U X Y Z RECEPTOR 1 285 285 1.3 RECEPTOR 2 270 270 1.3 RECEPTOR 3 254 254 1.3 RECEPTOR 4 239 239 1.3 MODEL RESULTS r'UK r'IL- r : einr r»U * PRED *WIND * COCN/LINK * CONC * BRG * (PPM) RECEPTOR * (PPM) *(DEG)* A B C D ----------- ------- -*------------------------ RECPT 1 0.7 * 7 * 0.5 0.0 0.0 0.2 RECPT 2 0.4 * 9 * 0.3 0.0 0.0 0.1 RECPT 3 0.3 * 12 * 0.2 0.0 0.0 0.1 RECPT 4 0.3 * 15 * 0.2 0.0 0.0 0.1 REPORT FOR FILE : OJEF A50 1. Site Variables U= 0.5 M/S Z0= 100.0 CM BRG= 190.0 DEGREES VD= 0.0 CM/S CLASS= G STABILITY VS= 0.0 CM/S MIXH= 1000.0 M AMB= 0.0 PPM SIGTH= 5.0 DEGREES TEMP= 7.0 DEGREE (C) 2. Link Description 3. Receptor Coordinates LINK X * LINK COORDINATES (M) RECEPTOR 1 285 EF H W 2 DESCRIPTION * X1 Y1 X2 Y2 * TYPE VPH (G/MI) (M) (m) 239 --------------- 1.3 *----------------------------- *------- *-----*-------- *------------------------------ A. Jefferson NL * 5 * 300 300 300 600 AG 2579 2.5 0.0 32.2 B. Jefferson SL RECPT 300 300 300 0 AG 2240 2.5 0.0 32.2 C. Avenue 50 EL 0.0 300 300 600 300 AG 1148 2.5 0.0 32.2 D. Avenue 50 WL 300 300 0 300 AG 1565 2.5 0.0 32.2 * MIXW * L R STPL DCLT ACCT SPD EFI IDT1 IDT2 LINK * (M) (M) (M) (SEC) (SEC) (MPH) NCYC NDLA VPHO (G/MIN) (SEC) (SEC) A. 0 0 0 0.0 0.0 0 0 0 0 0.0 0.0 0.0 B. 0 0 0 0.0 0.0 0 0 0 0 0.0 0.0 0.0 C. 0 0 0 0.0 0.0 0 0 0 0 0.0 0.0 0.0 D. 0 0 0 0.0 0.0 0 0 0 0 0.0 0.0 0.0 3. Receptor Coordinates MODEL RESULTS FOR FILE F:OJEF A50 X Y Z RECEPTOR 1 285 285 1.3 RECEPTOR 2 270 270 1.3 RECEPTOR 3 254 254 1.3 RECEPTOR 4 239 239 1.3 MODEL RESULTS FOR FILE F:OJEF A50 * PRED *WIND * COCN/LINK * CONC * BRG * (PPM) RECEPTOR * (PPM) *(DEG)* A B C D ----------- *------- *-----*-------- --------- RECPT 1 0.9 * 5 * 0.6 0.1 0.0 0.2 RECPT 2 0.5 * 10 * 0.3 0.0 0.0 0.1 RECPT 3 0.3 * 14 * 0.2 0.0 0.0 0.1 RECPT 4 0.3 * 15 * 0.2 0.0 0.0 0.1 REPORT FOR FILE : TJEF A50 1. Site Variables U= 0.5 M/S Z0= 100.0 CM BRG= 190.0 DEGREES VD= 0.0 CM/S CLASS= G STABILITY VS= 0.0 CM/S MIXH= 1000.0 M AMB= 0.0 PPM SIGTH= 5.0 DEGREES TEMP= 7.0 DEGREE (C) 2. Link Description 3. Receptor Coordinates LINK X * LINK COORDINATES (M) RECEPTOR * 285 EF H W 2 DESCRIPTION * X1 Y1 X2 Y2 * TYPE VPH (G/MI) (M) (M) 239 --------------- *----------------------------- *------- *----- *---------- *----------------------------- RECPT 1 A. Jefferson NL 0.1 300 300 300 600 AG 2869 2.5 0.0 32.2 B. Jefferson SL 0.4 300 300 300 0 AG 2552 2.5 0.0 32.2 C. Avenue 50 EL 0.1 300 300 600 300 AG 1279 2.5 0.0 32.2 D. Avenue 50 WL 300 300 0 300 AG 1719 2.5 0.0 32.2 * MIXW * L R STPL DCLT ACCT SPD EFI IDT1 IDT2 LINK * (M) -------------------------------------------------------------------- (M) (M) (SEC) (SEC) (MPH) NCYC NDLA VPHO (G/MIN) (SEC) (SEC A. 0 0 0 0.0 0.0 0 0 0 0 0.0 0.0 0.0 B. 0 0 0 0.0 0.0 0 0 0 0 0.0 0.0 0.0 C. 0 0 0 0.0 0.0 0 0 0 0 0.0 0.0 0.0 D. 0 0 0 0.0 0.0 0 0 0 0 0.0 0.0 0.0 3. Receptor Coordinates MODEL RESULTS FOR FILE F:TJEF A50 X Y Z RECEPTOR 1 285 285 1.3 RECEPTOR 2 270 270 1.3 RECEPTOR 3 254 254 1.3 RECEPTOR 4 239 239 1.3 MODEL RESULTS FOR FILE F:TJEF A50 * PRED *WIND * COCN/LINK * CONC * BRG * (PPM) RECEPTOR * (PPM) *(DEG)* A B C D ----------- *------- *----- *---------- ---- RECPT 1 1.0 5 * 0.7 0.1 0.0 0.2 RECPT 2 0.5 10 * 0.4 0.0 0.0 0.1 RECPT 3 0.4 14 * 0.3 0.0 0.0 0.1 RECPT 4 0.3 15 * 0.2 0.0 0.0 0.1 REPORT FOR FILE : EMAD AIR 1. Site Variables U= 0.5 M/S Z0= 100.0 CM BRG= 190.0 DEGREES VD= 0.0 CM/S CLASS= G STABILITY VS= 0.0 CM/S MIXH= 1000.0 M AMB= 0.0 PPM SIGTH= 5.0 DEGREES TEMP= 7.0 DEGREE (C) 2. Link Description LINK * LINK COORDINATES (M) Y * RECEPTOR EF H W DESCRIPTION * X1 Y1 X2 Y2 * TYPE VPH (G/MI) (M) (M) ---------------*- 1.3 --------------------------- 4 361 ------------------------------ 1.3 _____- A. Madison S NL 300 300 300 600 AG 209 4.2 0.0 14.5 B. Madison S SL 300 300 300 0 AG 166 4.2 0.0 14.5 C. Airport B EL 300 300 600 300 AG 84 4.2 0.0 14.5 * MIxW * L R STPL DCLT ACCT SPD EFI IDT1 IDT2 LINK * (M) (M) (M) (SEC) (SEC) (MPH) NCYC NDLA VPHO (G/MIN) (SEC) (SEC -------*------------------------------- ------------------------------------ A. 0 0 0 0.0 0.0 0 0 0 0 0.0 0.0 0.0 B. 0 0 0 0.0 0.0 0 0 0 0 0.0 0.0 0.0 C. 0 0 0 0.0 0.0 0 0 0 0 0.0 0.0 0.0 3. Receptor Coordinates MODEL RESULTS FOR FILE F:EMAD AIR X Y Z RECEPTOR 1 315 285 1.3 RECEPTOR 2 330 270 1.3 RECEPTOR 3 346 254 1.3 RECEPTOR 4 361 239 1.3 MODEL RESULTS FOR FILE F:EMAD AIR * PRED *WIND * COCN/LINK * CONC * BRG * (PPM) RECEPTOR * ( PPM) *(DEG)* A B C ----------- ------- *----- *.---_-,_-__- _____- RECPT 1 0.1 354 * 0.1 0.0 0.0 RECPT 2 0.1 351 * 0.1 0.0 0.0 RECPT 3 * 0.1 348 * 0.0 0.0 0.0 RECPT 4 0.1 347 * 0.0 0.0 0.0 REPORT FOR FILE : 4MAD AIR 2. Link Description 100.0 CM 1. Site Variables U= 0.5 M/S Z0= BRG= 190.0 DEGREES VD= CLASS= G STABILITY VS= MIXH= 1000.0 M AMB= SIGTH= 5.0 DEGREES TEMP= 2. Link Description 100.0 CM 0.0 CM/S 0.0 CM/S 0.0 PPM 7.0 DEGREE (C) LINK * LINK COORDINATES (M) X Y Z EF H W DESCRIPTION * X1 Y1 X2 Y2 TYPE VPH (G/MI) (M) (M) --------------- *----------------------------- 346 254 1.3 *------------------------------- 4 A. Madison S NL 300 300 300 600 AG 916 3.3 0.0 14.5 B. Madison S SL 300 300 300 0 AG 926 3.3 0.0 14.5 C. Airport B EL 300 300 600 300 AG 182 3.3 0.0 14.5 * MIXW 4 W 0.1 345 * 0.1 0.0 0.0 * L R STPL DCLT ACCT SPD EFI IDT1 IDT2 LINK * (M) (M) (M) (SEC) (SEC) (MPH) NCYC NDLA VPHO (G/MIN) (SEC) (SEC' -------*--------------------------------------------------------------------- A. 0 0 0 0.0 0.0 0 0 0 0 0.0 0.0 0.0 B. 0 0 0 0.0 0.0 0 0 0 0 0.0 0.0 0.0 C. 0 0 0 0.0 0.0 0 0 0 0 0.0 0.0 0.0 3. Receptor Coordinates MODEL RESULTS FOR FILE F:4MAD AIR X Y Z RECEPTOR 1 315 285 1.3 RECEPTOR 2 330 270 1.3 RECEPTOR 3 346 254 1.3 RECEPTOR 4 361 239 1.3 MODEL RESULTS FOR FILE F:4MAD AIR PRED *WIND * COCN/LINK * CONC * BRG * (PPM) RECEPTOR * (PPM) *(DEG)* A B C -----------*-------* *- ---------- RECPT 1 0.3 354 * 0.3 0.0 0.0 RECPT 2 A 0.2 351 * 0.2 0.0 0.0 RECPT 3 * 0.1 348 * 0.1 0.0 0.0 RECPT 4 W 0.1 345 * 0.1 0.0 0.0 REPORT FOR FILE : PMAD AIR 2. Link Description 100.0 CM 1. Site Variables U= 0.5 M/S Z0= BRG= 190.0 DEGREES VD= CLASS= G STABILITY VS= MIXH= 1000.0 M AMB= SIGTH= 5.0 DEGREES TEMP= 2. Link Description 100.0 CM 0.0 CM/S 0.0 CM/S 0.0 PPM 7.0 DEGREE (C) LINK * LINK COORDINATES (M) X * Z EF H W DESCRIPTION * X1 Y1 X2 Y2 TYPE VPH (G/MI) (M) (M) --------------- *----------------------------- 346 254 1.3 *--------------------------__.. 4 361 A. Madison S NL 300 300 300 600 AG 1304 3.3 0.0 14.5 B. Madison S SL 300 300 300 0 AG 1352 3.3 0.0 14.5 C. Airport B EL 300 300 600 300 AG 229 3.3 0.0 14.5 * MIXW 0.1 0.0 0.0 * L R STPL DCLT ACCT SPD EFI IDT1 IDT2 LINK * (M) (M) (M) (SEC) (SEC) (MPH) NCYC NDLA VPHO (G/MIN) (SEC) (SEC) ------- *-_--------------------------------------------------------------------- A. 0 0 0 0.0 0.0 0 0 0 0 0.0 0.0 0.0 B. 0 0 0 0.0 0.0 0 0 0 0 0.0 0.0 0.0 C. 0 0 0 0.0 0.0 0 0 0 0 0.0 0.0 0.0 3. Receptor Coordinates MODEL RESULTS FOR FILE F:PMAD AIR X Y Z RECEPTOR 1 315 285 1.3 RECEPTOR 2 330 270 1.3 RECEPTOR 3 346 254 1.3 RECEPTOR 4 361 239 1.3 MODEL RESULTS FOR FILE F:PMAD AIR * PRED *WIND * COCN/LINK * CONC * BRG * (PPM) RECEPTOR * (PPM) *(DEG)* A B C -----------*-------*-----*------------------- RECPT 1 0.4 354 * 0.4 0.0 0.0 RECPT 2 0.3 351 * 0.2 0.0 0.0 RECPT 3 0.2 348 * 0.2 0.0 0.0 RECPT 4 0.2 * 345 * 0.1 0.0 0.0 REPORT FOR FILE : OMAD AIR LINK COORDINATES (M) * RECEPTOR 1 EF 1. Site Variables DESCRIPTION 2 U= 0.5 M/S Z0= 100.0 CM BRG= 190.0 DEGREES VD= 0.0 CM/S CLASS= G STABILITY VS= 0.0 CM/S MIXH= 1000.0 M AMB= 0.0 PPM SIGTH= 5.0 DEGREES TEMP= 7.0 DEGREE (C) 2. Link Description LINK X LINK COORDINATES (M) * RECEPTOR 1 EF H W DESCRIPTION 2 * X1 Y1 X2 Y2 * TYPE VPH (G/MI) (M) (M) --------------- 4 * - - - - - - - - - - - - - - - - -- - - - - - - - - - - - - * ----------------------------- ------------------------------ *------------------ A. A. Madison S NL * 355 300 300 300 600 AG 1822 4.2 0.0 32.2 B. Madison S SL 0.0 300 300 300 0 AG 1895 4.2 0.0 32.2 C. Airport B EL * 345 300 300 600 300 AG 301 4.2 0.0 14.5, * MIXW * L R STPL DCLT ACCT SPD EFI IDT1 IDT2 LINK * (M) (M) (M) (SEC) (SEC) (MPH) NCYC NDLA VPHO (G/MIN) (SEC) (SEC) ------------------------------------------------------------------------------ A. 0 0 0 0.0 0.0 0 0 0 0 0.0 0.0 0.0 B. 0 0 0 0.0 0.0 0 0 0 0 0.0 0.0 0.0 C. 0 0 0 0.0 0.0 0 0 0 0 0.0 0.0 0.0 3. Receptor Coordinates MODEL RESULTS FOR FILE F:OMAD AIR X Y Z RECEPTOR 1 315 285 1.3 RECEPTOR 2 330 270 1.3 RECEPTOR 3 346 254 1.3 RECEPTOR 4 361 239 1.3 MODEL RESULTS FOR FILE F:OMAD AIR * PRED *WIND * COCN/LINK * CONC * BRG * (PPM) RECEPTOR * (PPM) *(DEG)* A B C -----------*--------*---- *------------------ RECPT 1 1.0 * 355 * 0.8 0.1 0.1 RECPT 2 0.5 * 350 * 0.4 0.0 0.0 RECPT 3 0.3 * 346 * 0.3 0.0 0.0 RECPT 4 0.3 * 345 * 0.2 0.0 0.0 REPORT FOR FILE : TMAD AIR 1. Site Variables U= 0.5 M/S Z0= 100.0 CM BRG= 190.0 DEGREES VD= 0.0 CM/S CLASS= G STABILITY VS= 0.0 CM/S MIXH= 1000.0 M AMB= 0.0 PPM SIGTH= 5.0 DEGREES TEMP= 7.0 DEGREE (C) 2. Link Description LINK * LINK COORDINATES (M) Y Z RECEPTOR EF H 285 DESCRIPTION * X1 Y1 X2 Y2 * TYPE VPH (G/MI) (M) (m) --------------- *----------------------------- 4 361 239 1.3 *----------------------------- RECPT 1 1.4 * 355 * A. Madison S NL 0.2 300 300 300 600 AG 2732 4.2 0.0 32.2 B. Madison S SL 0.5 300 300 300 0 AG 2886 4.2 0.0 32.2 C. Airport B EL 0.0 300 300 600 300 AG 419 4.2 0.0 14.51 * MIXW * L R STPL DCLT ACCT SPD EFI IDT1 IDT2 LINK (M) (M) (M) (SEC) (SEC) (MPH) NCYC NDLA VPHO (G/MIN) (SEC) (SEC -------*-------------------------------------------------------------------- A. 0 0 0 0.0 0.0 0 0 0 0 0.0 0.0 0.0 B. 0 0 0 0.0 0.0 0 0 0 0 0.0 0.0 0.0 C. 0 0 0 0.0 0.0 0 0 0 0 0.0 0.0 0.0 3. Receptor Coordinates MODEL RESULTS FOR FILE F:TMAD_AIR X Y Z RECEPTOR 1 315 285 1.3 RECEPTOR 2 330 270 1.3 RECEPTOR 3 346 254 1.3 RECEPTOR 4 361 239 1.3 MODEL RESULTS FOR FILE F:TMAD_AIR * PRED *WIND * COCN/LINK * CONC * BRG * (PPM) RECEPTOR * (PPM) *(DEG)* A B C -----------*--------*-----*------------------ RECPT 1 1.4 * 355 * 1.1 0.2 0.1 RECPT 2 0.6 350 * 0.6 0.0 0.1 RECPT 3 0.5 346 * 0.4 0.0 0.0 RECPT 4 0.4 345 * 0.3 0.0 0.0 REPORT FOR FILE : EMAD A58 1. Site Variables U= 0.5 M/S BRG= 190.0 DEGREES CLASS= G STABILITY MIXH= 1000.0 M SIGTH= 5.0 DEGREES Z0= 100.0 CM VD= 0.0 CM/S VS= 0.0 CM/S AMB= 0.0 PPM TEMP= 7.0 DEGREE (C) 2. Link Description 3. Receptor Coordinates LINK X * LINK COORDINATES (M) RECEPTOR * 315 EF H W 2 DESCRIPTION * X1 Y1 X2 Y2 * TYPE VPH (G/MI) (M) (M) 361 --------------- ----------------------------------------------------------- C D ------------*-------*-----*------_------------------_ A. Madison S NL 0.1 300 300 300 600 AG 155 4.2 0.0 14.5 B. Madison S SL 0.0 300 300 300 0 AG 42 4.2 0.0 14.5 C. Avenue 58 EL 4 300 300 600 300 AG 92 4.2 0.0 14.5 D. Avenue 58 WL 300 300 0 300 AG 59 4.2 0.0 14.5 * MIXW * L R STPL DCLT ACCT SPD EFI IDT1 IDT2 LINK (M) (M) (M) (SEC) (SEC) (MPH) NCYC NDLA VPHO (G/MIN) (SEC) (SEC A. 0 0 0 0.0 0.0 0 0 0 0 0.0 0.0 0.0 B. 0 0 0 0.0 0.0 0 0 0 0 0.0 0.0 0.0 C. 0 0 0 0.0 0.0 0 0 0 0 0.0 0.0 0.0 D. 0 0 0 0.0 0.0 0 0 0 0 0.0 0.0 0.0 3. Receptor Coordinates MODEL RESULTS FOR FILE F:EMAD A58 X Y Z RECEPTOR 1 315 285 1.3 RECEPTOR 2 330 270 1.3 RECEPTOR 3 346 254 1.3 RECEPTOR 4 361 239 1.3 MODEL RESULTS FOR FILE F:EMAD A58 * PRED *WIND * COCN/LINK * CONC * BRG * (PPM) RECEPTOR * (PPM) *(DEG)* A B C D ------------*-------*-----*------_------------------_ RECPT 1 0.1 354 * 0.1 0.0 0.0 0.0 RECPT 2 0.1 * 351 * 0.1 0.0 0.0 0.0 RECPT 3 0.1 348 * 0.0 0.0 0.0 0.0 RECPT 4 0.0 347 * 0.0 0.0 0.0 0.0 REPORT FOR FILE : 4MAD A58 * LINK COORDINATES (M) * 1 315 1. Site Variables W 2 U= 0.5 M/S Z0= 100.0 CM BRG= 190.0 DEGREES VD= 0.0 CM/S CLASS= G STABILITY VS= 0.0 CM/S MIXH= 1000.0 M AMB= 0.0 PPM SIGTH= 5.0 DEGREES TEMP= 7.0 DEGREE (C) 2. Link Description 3. Receptor Coordinates LINK X * LINK COORDINATES (M) * 1 315 EF H W 2 DESCRIPTION 270 X1 Y1 X2 Y2 TYPE VPH (G/MI) (M) (h') A. --------------- Madison S NL ----------------------------- 300 300 300 600 ---------------------_-_----- AG 825 3.3 0.0 14.5 B. Madison S SL 0.0 300 300 300 0 AG 650 3.3 0.0 14.5 C. Avenue 58 EL 0.1 300 300 600 300 AG 232 3.3 0.0 14.5 D. Avenue 58 WL 300 300 0 300 AG 188 3.3 0.0 14.5 * MIxW * L R STPL DCLT ACCT SPD EFI IDT1 IDT2 LINK * (M) (M) (M) (SEC) (SEC) (MPH) NCYC NDLA VPHO (G/MIN) (SEC) (SEC ------- *--------------------------------------------------------------------- A. 0 0 0 0.0 0.0 0 0 0 0 0.0 0.0 0.0 B. 0 0 0 0.0 0.0 0 0 0 0 0.0 0.0 0.0 C. 0 0 0 0.0 0.0 0 0 0 0 0.0 0.0 0.0 D. 0 0 0 0.0 0.0 0 0 0 0 0.0 0.0 0.0 3. Receptor Coordinates MODEL RESULTS FOR FILE F:4MAD A58 X Y Z RECEPTOR 1 315 285 1.3 RECEPTOR 2 330 270 1.3 RECEPTOR 3 346 254 1.3 RECEPTOR 4 361 239 1.3 MODEL RESULTS FOR FILE F:4MAD A58 * PRED *WIND * COCN/LINK * CONC * BRG * (PPM) RECEPTOR * (PPM) *(DEG)* A B C D ----------- *------- *----- *_------------------------- RECPT 1 0.3 354 * 0.3 0.0 0.0 0.0 RECPT 2 0.2 351 * 0.2 0.0 0.0 0.0 RECPT 3 0.1 * 348 * 0.1 0.0 0.0 0.0 RECPT 4 0.1 345 * 0.1 0.0 0.0 0.0 REPORT FOR FILE : PMAD A58 1. Site Variables U= 0.5 M/S Z0= 100.0 CM RECEPTOR 1 315 BRG= 190.0 DEGREES VD= 0.0 CM/S 1.3 RECEPTOR 3 CLASS= G STABILITY VS= 0.0 CM/S 361 239 1.3 MIXH= 1000.0 M AMB= 0.0 PPM 0.0 0.0 RECPT SIGTH= 5.0 DEGREES TEMP= 7.0 DEGREE (C) 3 0.2 348 * 0.2 0.0 2. Link Description 0.0 RECPT 4 0.2 345 * 0.1 0.0 LINK * LINK COORDINATES (M) * EF H W DESCRIPTION * X1 Y1 X2 Y2 TYPE VPH (G/MI) (M) (M) --------------- *----------------------------- *------------------------------ A. Madison S NL 300 300 300 600 AG 1251 3.3 0.0 14.5 B. Madison S SL 300 300 300 0 AG 1144 3.3 0.0 14.5 C. Avenue 58 EL 300 300 600 300 AG 312 3.3 0.0 14.5 D. Avenue 58 WL 300 300 0 300 AG 188 3.3 0.0 * MIXW * L R STPL DCLT ACCT SPD EFI IDT1 IDT2 LINK * (M) (M) (M) (SEC) (SEC) (MPH) NCYC NDLA VPHO (G/MIN) (SEC) (SEC; -------*--------------------------------------------------------------------------- A. 0 0 0 0.0 0.0 0 0 0 0 0.0 0.0 0.0 B. 0 0 0 0.0 0.0 0 0 0 0 0.0 0.0 0.0 C. 0 0 0 0.0 0.0 0 0 0 0 0.0 0.0 0.0 D. 0 0 0 0.0 0.0 0 0 0 0 0.0 0.0 0.0 3. Receptor Coordinates MODEL RESULTS FOR FILE F:PMAD A58 X Y Z RECEPTOR 1 315 285 1.3 RECEPTOR 2 330 270 1.3 RECEPTOR 3 346 254 1.3 RECEPTOR 4 361 239 1.3 MODEL RESULTS FOR FILE F:PMAD A58 * PRED *WIND * COCN/LINK * CONC * BRG * (PPM) RECEPTOR * (PPM) *(DEG)* A B C D -----------*-------*-----*------------------------ RECPT 1 0.4 354 * 0.4 0.0 0.0 0.0 RECPT 2 0.3 351 * 0.2 0.0 0.0 0.0 RECPT 3 0.2 348 * 0.2 0.0 0.0 0.0 RECPT 4 0.2 345 * 0.1 0.0 0.0 0.0 REPORT FOR FILE : OMAD A58 1. Site Variables U= 0.5 M/S Z0= 100.0 CM BRG= 190.0 DEGREES VD= 0.0 CM/S CLASS= G STABILITY VS= 0.0 CM/S MIXH= 1000.0 M AMB= 0.0 PPM SIGTH= 5.0 DEGREES TEMP= 7.0 DEGREE (C) 2. Link Description LINK * LINK COORDINATES (M) Z * 1 EF H W DESCRIPTION * X1 Y1 X2 Y2 TYPE VPH (G/MI) (M) (M) --------------- *----------------------------- 361 239 1.3 *------------------------------ ------- ------ A. Madison S NL RECPT RECPT 300 300 300 600 AG 1686 2.5 0.0 32.2 B. Madison S SL 0.2 300 300 300 0 AG 1407 2.5 0.0 32.2 C. Avenue 58 EL RECPT 300 300 600 300 AG 429 2.5 0.0 14.5 D. Avenue 58 WL 300 300 0 300 AG 345 2.5 0.0 14.5 * MIXW * L R STPL DCLT ACCT SPD EFI IDT1 IDT2 LINK * (M) (M) (M) (SEC) (SEC) (MPH) NCYC NDLA VPHO (G/MIN) (SEC) (SEC) -------*--------------------------------------------------------------------- A. 0 0 0 0.0 0.0 0 0 0 0 0.0 0.0 0.0 B. 0 0 0 0.0 0.0 0 0 0 0 0.0 0.0 0.0 C. 0 0 0 0.0 0.0 0 0 0 0 0.0 0.0 0.0 D. 0 0 0 0.0 0.0 0 0 0 0 0.0 0.0 0.0 3. Receptor Coordinates MODEL RESULTS FOR FILE F:OMAD A58 X Y Z RECEPTOR 1 315 285 1.3 RECEPTOR 2 330 270 1.3 RECEPTOR 3 346 254 1.3 RECEPTOR 4 361 239 1.3 MODEL RESULTS FOR FILE F:OMAD A58 * PRED *WIND * COCN/LINK * CONC * BRG * (PPM) RECEPTOR * (PPM) *(DEG)* A B C D ----------- *------- *----- *------------------------ ------- ------ -- RECPT RECPT 1 0.5 355 * 0.4 0.1 0.1 0.0 RECPT 2 0.3 350 * 0.2 0.0 0.0 0.0 RECPT 3 0.2 346 * 0.2 0.0 0.0 0.0 RECPT 4 0.2 345 * 0.1 0.0 0.0 0.0 REPORT FOR FILE : TMAD A58 1. Site Variables U= 0.5 M/S Z0= 100.0 CM BRG= 190.0 DEGREES VD= 0.0 CM/S CLASS= G STABILITY VS= 0.0 CM/S MIXH= 1000.0 M AMB= 0.0 PPM SIGTH= 5.0 DEGREES TEMP= 7.0 DEGREE (C) 2. Link Description 3. Receptor Coordinates LINK X * LINK COORDINATES (M) * 1 315 EF H W 2 DESCRIPTION * X1 Y1 X2 Y2 * TYPE VPH (G/MI) (M) (M) 4 --------------- 239 *------------------------------ *------- *_____*----------- *----------------------------- --------------- RECPT A. Madison S NL 0.7 300 300 300 600 AG 2677 2.5 0.0 32.2 B. Madison S SL RECPT 300 300 300 0 AG 2542 2.5 0.0 32.2 C. Avenue 58 EL 0.2 300 300 600 300 AG 625 2.5 0.0 14.3 D. Avenue 58 WL 300 300 0 300 AG 345 2.5 0.0 14.5 * MIXW * L R STPL DCLT ACCT SPD EFI IDT1 IDT2 LINK * (M) (M) (M) (SEC) (SEC) (MPH) NCYC NDLA VPHO (G/MIN) (SEC) (SEC ------- *----------------------------------------------------------------------- A. 0 0 0 0.0 0.0 0 0 0 0 0.0 0.0 0.0 B. 0 0 0 0.0 0.0 0 0 0 0 0.0 0.0 0.0 C. 0 0 0 0.0 0.0 0 0 0 0 0.0 0.0 0.0 D. 0 0 0 0.0 0.0 0 0 0 0 0.0 0.0 0.0 3. Receptor Coordinates MODEL RESULTS FOR FILE F:TMAD A58 X Y Z RECEPTOR 1 315 285 1.3 RECEPTOR 2 330 270 1.3 RECEPTOR 3 346 254 1.3 RECEPTOR 4 361 239 1.3 MODEL RESULTS FOR FILE F:TMAD A58 * PRED *WIND * COCN/LINK * CONC * BRG * (PPM) RECEPTOR * (PPM) *(DEG)* A B C D ----------- *------- *_____*----------- --------------- RECPT 1 0.8 * 355 * 0.7 0.1 0.1 0.0 RECPT 2 0.4 * 350 * 0.3 0.0 0.1 0.0 RECPT 3 0.3 * 346 * 0.2 0.0 0.0 0.0 RECPT 4 0.2 * 345 * 0.2 0.0 0.0 0.0