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M EC2018-00489 �. - GENERAL NOTES ABBREVIATIONS _____ - 1. NEW/REMODEL CONSTRUCTION CUTTING& PATCHING BY GENERAL CONTRACTOR. A/C AIR CONDITION (ED) CD CONDENSATE DRAIN EQUIP EQUIPMENT IN INCHES OSA OUTSIDE AIR TYP TYPICAL , "_=-_ -------' _, AD ACCESS DOOR CFM CUBIC FEET PER MINUTE ERV ENERGY RECOVERY VENTILATOR LAT LEAVING AIR TEMPERATURE PSI POUNDS PER SQUARE INCH V VOLT 2. INSTALLATION WILL COMPLY WITH 2014 OREGON MECHANICAL SPECIALTY CODE(Oh SC), 2014 OREGON AFF ABOVE FINISHED FLOOR CLG CEILING ESP EXTERNAL STATIC PRESSURE LF LINEAR FEET QTY QUANTITY VD VOLUME DAMPER (HAND OPERATOR) STRUCTURAL SPECIALTY CODE (OSSC), 2014 OREGON ENERGY EFFICIENCY SPECIAL TY CODE(OEESC) ----' AND ASHRAE STANDARDS. ALT ALTERNATIVE CND CONDENSATE DRAIN EXH EXHAUST MA MIXED AIR RA RETURN AIR VFD VARIABLE FREQUENCY DRIVE _ L �_ AL ALUMINUM CONC CONCRETE EXIST EXISTING MAX MAXIMUM RET RETURN VRV VARIABLE REFRIGERANT VOLUME __ APD AIR PRESSURE DROP CONT CONTINUE(D)(ATION) EXP EXPANSION MBH THOUSAND BTU PER HOUR REV REVISION W/ WITH 3. LOAD CALCULATIONS WERE PERFORMED WITH AN APPROVED EQUIVALENT COMPUI ATION ==2- PROCEDURE AND EQUIPMENT SIZING AND CAPACITY DOES NOT EXCEED THE LOADS CALCULATED AS APPROX APPROXIMATELY CL CENTERLINE F DEGREES FAHRENHEIT MD MOTORIZED DAMPER RH RELATIVE HUMIDITY WB WET BULB ___- _ ___-- -_ �_ -� PER SECTION 503.2 OF THE OEESC. ARCH ARCHITECT(URAL) DDC DIRECT DIGITAL CONTROL FC FLEXIBLE CONNECTOR MECH MECHANICAL RPM REVOLUTIONS PER MINUTE WC WATER COLUMN p AUTO AUTOMATIC DEFL DEFLECTION FD FIRE DAMPER MFG MANUFACTURER SA SUPPLY AIR W/O WITHOUT =HUNTER DAVISSON1_ . 4. NEW DUCTWORK TO BE INSTALLED USING SHEET METAL RUN OUTS IN ACCORDANCE:WITH SMACNA BDD BACKDRAFT DAMPER DN DOWN FPM FEET PER MINUTE MH MOUNTING HEIGHT SF SQUARE FEET WPD WATER PRESSURE DROP -- _INC_Z STANDARDS. BHP BRAKE HORSE POWER DWG DRAWING FSD FIRE SMOKE DAMPER MIN MINIMUM SH SENSIBLE HEAT W WATT BLDG BUILDING EAT ENTERING AIR TEMPERATURE FT FEET N/A NOT APPLICABLE SP STATIC PRESSURE KW KILOWATT HVAC/R • CONTROLS 5. INSULATE& SEAL DUCTS AND PLENUMS PER OEESC 503.2.7& OSMC 603.9. TERMINAL CONNECTIONS BOD BOTTOM OF DUCT EF EXHAUST FAN FV FACE VELOCITY NC NOISE CRITERIA SPEC SPECIFICATION CONTRACTORS • ENGINEERS WILL USE NOT MORE THAN 8'OF FLEXIBLE DUCTWORK. INSTALLATION OF FLEX DUC BOP BOTTOM OF PIPE EFF EFFICIENCY GA GAGE / GAUGE NC NORMALLY CLOSED SS STAINLESS STEEL WILL BE HUNG BSMT BASEMENT ELEC ELECTRIC(AL) GALV GALVANIZED NC NORMALLY OPEN TD TEMPERATURE DIFFERENCE • PROPERLY TO PROVIDE PROPER AIRFLOW WITHOUT RESTRICTIONS. ALL SUPPLY At ID RETURN AIR BTUH BRITISH THERMAL UNIT PER HOUR ELEV ELEVATION HP HORSE POWER NTS NOT TO SCALE TEMP TEMPERATURE DUCTS AND PLENUMS SHALL BE INSULATED WITH A MINIMUM OF R-5 INSULATION WI- EN LOCATED IN UNCONDITIONED SPACES(CEILINGS AND ATTICS)AND A MINIMUM OF R-8 INSULATIO .1 WHEN LOCATED CD CEILING DIFFUSER EQ EQUAL ID INTERNAL DIAMETER OD OUTSIDE DIAMETER TP TOTAL PRESSURE SERVICE • MAINTENANCE OUTSIDE THE BUILDING. EXCEPTION:WHEN THE DESIGN TEMPERATURE DIFFERENC E BETWEEN THE INTERIOR AND EXTERIOR OF THE DUCT OR PLENUM DOES NOT EXCEED 15 DEG. F. (F ETURN DUCTS HVAC DUCT SYMBOLS ABOVE CEILINGS). DUCT RUN OUTS IN A CONDITIONED SPACE& EXHAUST DUCTS SI IOULD BE UNINSULATED. FITTING SINGLE LINE DOUBLE LINE FITTING SINGLE LINE DOUBLE LINE FITTING SINGLE LINE DOUBLE LINE FITTING SINGLE LINE DOUBLE LINE SINGLE LINE (503) 234-0477 • hunterdavisson.com 6. VOLUME DAMPERS OR OTHER MEANS OF SUPPLY AIR ADJUSTMENT SHALL BE PROV DED IN THE VOLUME DAMPER ' r r RECTANGULAR ' EXTRACTOR ,,k RECTANGULAR �� 2 pa I SUPPLY AIR MAIN WITH EXI EX DUCT RISER OUTSIDE AIR BRANCH DUCTS OR AT EACH INDIVIDUAL DUCT REGISTER, GRILLE OR DIFFUSER. IN \DDITION EACH FD RECTANGULAR 45' 6" pFD , } BRANCH ROUND ®I 1 04 I 1 RETURN AIR II 0 VOLUME DAMPER OR OTHER MEANS OF SUPPLY AIR ADJUSTMENT USED IN BALANCI JG SHALL BE FIRE DAMPER I + ROUND PROVIDED WITH ACCESS IN ACCORDANCE WITH SECTION 603.17 OF THE OMSC. DUCT DUCT RISER CONCENTRIC 1 D 2 ROUND MAIN PR -r-- SQUARE TO ROUND X15 MAX DUCT WITH CONICAL ROUND RECTANGULAR E I J 1 + EXHAUST AIR 0 eikt PROP 7. SHEET METAL DUCT JOINTS SHALL BE SEALED WITH MASTIC.WHERE MASTIC IS USE)TO SEAL EOBORVWITH ,EC RECTANGULAR I ROUND BRANCH TEE BRANCH DUCT DROP �' caG L N� v OPENINGS GREATER THAN 1/4",A COMBINATION OF MASTIC AND MESH SHALL BE U. ED. TURNING VANES ICONCENTRIC 2 I> l r I I 1 ROUND TRANSITION \-15' MAX 30' TRANSITION DUCTROUND DROP Q I OC I ) ROOM THERMOSTAT 8 tU i AC-1 E 8. REPLACE EXISTING DUCTWORK IF THE TERMINAL CONNECTION USES MORE THAN 2('OF FLEXIBLE R=W r r-}, DUCTWORK. RADIUS ELBOW • �♦ ECCENTRIC v 4' NON-SYMMETRICAL i 1 7 �'6 RECTANGULAR ? UNIT CONTROLLED 6' Q,. (RECTANGULAR 15' MAX WYE OFFSETS ORE \ j ‘1' ' 9. } OR ROUND) In THAN 9. NEW LAY-IN CEILING SUPPLY DIFFUSERS TO BE FLOOR STANDARD. NEW LAY-IN CEIL NG RETURN DOUBLE FORMED 3 • c2 DIFFUSERS TO BE FLOOR STANDARD WITH MAX NECK SIZE. NEW SIDEWALL SUPPLY 3RILLES TO BE TURNING VANES 4 YNN W0\' TITUS 350RL(DOUBLE DEFLECTION)., OR EQUAL. NEW RETURN GRILLES TO BE 301R1 (SINGLE DEFLECTION RETURN), OR EQUAL. EXPIRES: 06/30/2018 10. PROGRAMMABLE ROOM THERMOSTATS TO BE MOUNTED 48"ABOVE FINISHED FLOG t. PER SECTION DESIGNCONDITIONS - TIGARD OREGON SHEET INDEX 503.2.4 OF THE OEESC THERMOSTATS SHALL BE CAPABLE OF CONTROLLING THE TE 1PERATURE I BETWEEN 55°F AND 85°F WITH A DEADBAND OF 5°F.OFF-HOUR CONTROLS SHALL BE ACCOMPLISHED SPACE WINTER SUMMER SHEET SHEET REV REV USING A PROGRAMMABLE THERMOSTAT OR TIMECLOCK. OPTIMUM START CONTROL 3 SHALL BE ABLE # NAME # DATE TO VARY THE START-UP TIME OF THE SYSTEM TO JUST MEET THE TEMPERATURE SE T POINT AT THE TEMPERATURE HUMIDITY TEMPERATURE HUMIDITY TIME OF OCCUPANCY. PROVIDE A VANDLE PROOF GUARD FOR THERMOSTATS LOCl,TED IN PUBLIC INDOOR 707 ± 27 DB NOT CONTROLLED 75°F ± 27 DB NOT CONTROLLED M000 MECHANICAL COVER PAGE AREAS AS REQUIRED. OUTDOOR 25.27 DB N/A 91.4'F DB/67.3°F MCWB 28.1% RH M001 MECHANICAL SCHEDULES 11. OPERATION AND MAINTENANCE MANUAL(S)SHALL BE PROVIDED TO THE BUILDING C WNER BY THE MECHANICAL CONTRACTOR IN ACCORDANCE WITH SECTION 503.2.9.3 OF THE OEESC . NOTES: M102D LEVEL 2 DEMO PLAN - MECHANICAL I:e 1. OUTDOOR CONDITIONS BASED ON ASHRAE FUNDAMENTALS 2013, 99.6% & 0.4% DATE LIJ M102 LEVEL 2 FLOOR PLAN - MECHANICAL Ci MINIMUM INSULATION R-VALUE FOR HVAC DUCT SYSTEMS (OREGON) SCOPE OF WORK: < 0 DUCT LOCATION (*3) DUCT TYPE il 1. RELOCATE THERMOSTATS W/ASSOCIATED CONTROL WIRING, FIELD VERIFY (s..) OUTSIDE RETURN COOLING HEATING THERMOSTAT LOCATIONS WITH OWNER. Lim AIR AIR SUPPLY SUPPLY CO 2. ASSOCIATED DUCTWORK,AND DUCT WRAP AS APPROPRIATE Cl EXTERIOR OF BUILDING - 8.0 8.0 8.0 VENTED SPACES (*1) 8.0 8.0 8.0 3. TESTING, ADJUSTING&AIR BALANCING UNCONDITIONED SPACES & PLENUMS (*2) 5.0 5.0 5.0 5.0 V Z FULLY CONDITIONED SPACES 8.0 - - - N NOTES: , THIS TABLE IS IN ACCORDANCE WITH THE 2014 OREGON ENERGY EFFICIENCY SPECIALTY CODE, 503.2.7. 1.1.m Ems 1. INCLUDES UNCONDITIONED SPACES (ATTICS, CRAWL SPACES, VENTED MECHANICAL ROOMS) OUTSIDE THE BUILDING ENVELOPE 2. INCLUDES UNCONDITIONED, UNVENTED SPACES SUCH AS UNVENTED MECH. ROOMS, SHAFTS, OR PLENUMS IN THE BUILDING co Z ENVELOPE 3. INSULATION IS NOT REQUIRED IF THE DESIGN TEMPERATURE DIFFERENCE BETWEEN THE INTERIOR AND EXTERIOR OF THE DUCT OR PLENUM DOES NOT EXCEED 15'F INLI 1•1-1 OWENS CORNING SOFT-R DUCTWRAP FRK WITH A THICKNESS OF 2.2" HAS AN INSTALLED RATING OF R-6.0 OWENS CORNING SOFT-R DUCTWRAP FRK WITH A THICKNESS OF 3" HAS AN INSTALLED RATING OF R-8.3 w E 0 M Illijt z rile 1-- a Q z 9600 SW OAK ST. TIGARD, OR OF��C� GIQ� REVISIONS CITY OF TIGARD E REVIEWED FOR CODE COMPLIANCE .(7) _ Approved: �/ OTC: [ I L a Permit#: y e r Q 1 4?-C)b LI- S 9 o Address: 9 6O0 Sw n c IG -7 Suite#: 2,R 0 ZOO .§ By: Date: 7_ s .. iI C i O U O o DATE 06/21/2018 L Q m DRAWN BY RM O w CHECKED BY DMc L VIEWED AOR MECHANICAL OMPLCE SCHEDULES co- Ts CODE CV C-i C C O M 0 0 1 co co C6 0 L 45 PERMIT C = DRAWINGS © Standard Insurance: ASHRAE Standard 62.1 - 2010 Ventilation Rate Procedure - 7-77_------- VRP Summary VAV 1-16 VAV 1-14 VAV 12-13B VAV 12-13A VAV 12-10 VAS' 11-9 VAV 11-8 VAV 8-7 VAV 8-6 VAV 5-5 VAV 5-4B VAV 5-4A VAV 2-2 VAV 2-1 VAV 3-3A VAV 3-15 VAV 3-3B VAV 10-12A VAV 10-12B VAV 10-11 Offices Conference Conference Office Offices Of ices Offices Offices Offices Offices Office Offices Offices Office Office Supply Rm. Storage Recpetion Training Rm. Offices 222/223/224 225/226/227 229 230/232/233 240/241 :42 243-246 247/248/255 256/257/258 207/209 211 211/212 213/221 221 214 214 211 203 264 249/239 Table 6-1r Occupant Category Offices Conference Conference Office Offices Of-ices Offices Offices Offices Offices Office Offices Offices Office Office Supply Rm. Storage Recpetion Training Rm. Offices _ = People Outdoor Air Rate, Rp (CFM/Person) 5 5 5 5 5 5 5 5 5 0 5 5 5 5 5 5 5 5 5 5 -------- -� _, -- 3�_ Area Outdoor Air Rate, Ra (CFM/SQ.FT.) 0.06 0.06 0.06 0.06 0.06 C.06 0.06 0.06 0.06 0.06 0.06 0.06 0.06 0.06 0.06 0.06 0.06 0.06 0.06 0.06 =HUNTER 3DAVISSON, INCA Minimum Exhaust Rate (Table 6-4) (Note 1) HVAC/R • CONTROLS MIN. Occupant Density(#/1000 ft.sq.) 5 25 25 5 5 5 25 25 5 0 25 25 5 5 5 5 0 15 25 5 N/A shown where number of expected occupants is determined from furniture layout CONTRACTORS • ENGINEERS Zone net Occupied Floor Area,Az 560 995 530 915 350 :80 420 715 410 430 365 365 530 320 1110 975 1050 570 680 250 SERVICE • MAINTENANCE Floor Area served by the system: 5,605 Number of Occupants, Pz 2.80 24.88 13.25 4.58 1.75 1 40 10.50 17.88 2.05 0.00 9.13 9.13 2.65 1.60 5.55 4.88 0.00 8.55 17.00 1.25 Sum of the Occupants: 79.08 (503) 234-0477 • hunterdavisson.com Outdoor Air Required in Breathing Zone,Vbz Eqn (6-1):Vbz= Rp*Pz+ Ra*Az 47.6 184.1 98.1 77.8 29.8 23.8 77.7 132.3 34.9 25.8 67.5 67.5 45.1 27.2 94.4 82.9 63.0 77.0 125.8 21.3 Zone Air Distribution Effectiveness, Ez (Table 6-2) 0.8 0.8 0.8 0.8 0.8 ().8 0.8 0.8 1.0 1.0 0.8 0.8 0.8 0.8 0.8 0.8 0.8 0.8 1.0 1.0 r_____....,, PROFfis! Minimum Zone Outdoor Air Rate Required,Voz E , Eqn (6-2):Voz=Vbz/Ez 59.5 230.1 122.6 97.2 37.2 2 3.8 97.1 165.3 34.9 25.8 84.4 84.4 56.3 34.0 117.9 103.6 78.8 96.2 125.8 21.3 Ci t r' Type of Ventilation System: Multiple-Zone RecirculatingSystem 825800 600 440 "00 500 600 450 400 300 325 575 300 500 400 500 490 1200 1135 ttp:1,6:6\(27)13 •Yp Y p Y (full flow) 900 Zone Primary Airflow:Vpz(Supply Air to zone) (min.flow) 540 247.5 240 180 132 f0 150 180 135 120 180 97.5 172.5 90 150 120 150 147 360 340.5 (`. NN (for VAV systems,Vpz is the minimum expected primary airflow for design purposes) G"EXPIRES: 06/30/20181 CFM per SQ. FT. (full flow) 1.61 0.83 1.51 0.66 1.26 1 07 1.19 0.84 1.10 0.93 0.82 0.89 1.08 0.94 0.45 0.41 0.48 0.86 1.76 4.54 Primary Outdoor Air Fraction, Equ (6.5)Zpz=Voz/Vpz 0.110 0.930 0.511 0.540 0.282 0.331 0.648 0.919 0.258 0.215 0.469 0.866 0.326 0.378 0.786 0.863 0.525 0.654 0.349 0.062 Max Zpz (used for finding Ev) 0.930 System Ventilation Efficiency, Ev(Table 6-3) 1.586 0.767 1.186 1.156 1.415 1.366 1.049 0.778 1.438 1.482 1.228 0.831 1.370 1.319 0.910 0.833 1.172 1.042 1.347 1.634 If Table 6-3 does not work use number determined from Appendix A(below) Design System Population, Ps(peak occupants during typical usage) L.IJ Cie Occupancy Diversity, D= Ps/SUM(all zones)*Pz 1.000 1.000 1.000 1.000 1.000 1.300 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 O CI Uncorrected Outdoor Air Intake per zone,Vou= D*Rp*Pz+Ra*Az 47.6 184.1 98.1 77.8 29.8 23.8 77.7 132.3 34.9 25.8 67.5 67.5 45.1 27.2 94.4 82.9 63.0 77.0 125.8 21.3 Uncorrected Outdoor Air Intake,Sum of all zones(Eqn 6-6) 1403.2 Q O Outdoor Air Intake Flow,Vot=Vou/Ev 884.5 1829.8 1183.3 1213.4 991.8 1C 27.2 1337.6 1803.7 975.5 947.1 1143.0 1688.9 1024.2 1064.0 1541.5 1684.0 1197.7 1346.4 1041.6 858.7 (01) J U TOTAL OSA CFM REQUIRED FOR MECHANICAL VENTILATION: 1829.8 CO TOTAL OUTSIDE AIR PER PERSON (CFM) 23.1 < 0 TOTAL SA CFM DELIVERED BY SYSTEM (FULL FLOW) 5,815V Z _-_ ____. ' Cs11 . _. I Appendix A: Multiple-Zone Systems Zone Discharge Airflow:Vdz 540 247.5 240 180 132 )0 150 180 135 120 180 97.5 172.5 90 150 120 150 147 360 340.5 includes primary airflow and locally recirculated airflow, cfm Primaryair fraction to the zone: Ep=Vpz Vdz 1.000 1.000 1.000 1.000 1.000 1.300 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 CO Z III I-1-1 p / In systems with secondary recirculation of return air,fraction of secondary recirculated 0.00 0.00 0.00 0.00 0.00 C.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 air to the zone that is representative of average system return air rather than air directly ai2 recirculated from the zone, Er (note:for plenum return systems Er"1.0,for ducted return systems with local secondary recirculation (i.e.fan-powered VAV with ducted return), Er=0.0 0- Fraction of supply air to the zone from sources outside the zone: Fa = Ep+(1-Ep) * Er 1.000 1.000 1.000 1.000 1.000 1.300 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 M a< System Primary Airflow,Vps=SUM(all zones)*Vpz 2014.5 2014.5 2014.5 2014.5 2014.5 2014.5 2C 14.5 2014.5 2014.5 2014.5 2014.5 2014.5 2014.5 2014.5 2014.5 2014.5 2014.5 2014.5 2014.5 2014.5 2014.5 Vou/Vps Average Outdoor Air Fraction,Xs= 0.697 0.697 0.697 0.697 0.697 0.697 0 597 0.697 0.697 0.697 0.697 0.697 0.697 0.697 0.697 0.697 0.697 0.697 0.697 0.697 0.697 Ce Z Fraction of supply air to the zone from fully mixed primary air1.000 1.000 1.300 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 III Fb = Ep 1.000 1.000 1.000 liCt Discharge Outdoor Fraction,Zpz 0.110 0.930 0.511 0.540 0.282 0.331 0.648 0.919 0.258 0.215 0.469 0.866 0.326 0.378 0.786 0.863 0.525 0.654 0.349 0.062 < E Fraction of outdoor air to the zone from sources outside the zone, Fc= 1- (1-Ez) * (1-Er) * (1-Ep) 1.000 1.000 1.000 1.000 1.000 1.300 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 Zone ventilation efficiency, Evz= (Fa +Xs * Fb-Zpz * Ep * Fc)/Fa 1.586 0.767 1.186 1.156 1.415 1.366 1.049 0.778 1.438 1.482 1.228 0.831 1.370 1.319 0.910 0.833 1.172 1.042 1.347 1.634 9600 SW OAK ST. System ventilation efficiency, Ev= minimum (Evz) 0.767 .- T I GARD, OR The critical zone is shown in bold Note:The designer may increase the zone supply flows during the design process, particularly to the critical zones requiring the highest REVISIONS fraction of outdoor air, and thereby reduce the system outdoor air intake requirement determined in the calculation,sometimes dramatically. (1) Per section 6.2.8 the exhaust make-up air may be any combination of outdoor air, recirculated air or transfer air. Therefore additional outside air is not required at the unit. U) If two numbers are shown the higher number is for intermittant exhaust and the lower number is if exhaust is continuous. U) ii) a. O c O U E DATE 06/21/2018 2 Q 2 O DRAWN BY RM L °u,' CHECKED BY DMc L 0 MECHANICAL SCHEDULES E, N (U C C M 00 1 O co N (v L PERMIT n = © DRAWINGS iffl, HUNTER - DAVISSON, INC. HVAC/R • CONTROLS CONTRACTORS • ENGINEERS Ii _A... , ,..\\ 1, \ 1\\ SERVICE • MAINTENANCE 1 \ \ ,, •iri , \ •L (503) 234-0477 • hunterdavisson.com AV 5-4 ) I \ , /-(VAV 8- 1 r _. ,. \,i1 -__.- -...77._---._. ---::"------ 111 0 A 10" " --- C) . - , ---------ir _____._ .. ._ Itil I I 8" <I 10" j _- • .__ • 1 .E-Jsi=:. ,,,1 ,,I 1 . 81 \\8" 8„ 10"I i Ii0- H 1 . ii 1! • /I-0- 101 I - 10- , V 54 107 1,2/?, : _, - -L_ __I _ 0: . 1 i.-- , . . m.-. -I t)tkvl 18-6 il I 10" I lOci" 1 0" I 1 ..k :1 11 8" ; 11111 ol_c__O P R 0,c-e4,•, i 11 111 11 El (R) kr-T.) .. 1 i • (VAV 5-5 1 1 2,1j1 ; , . .. . . ..,.... I I 1 I Cktft t 0 41? Clci .'1" - ' 11' - . . .------• . 7 1! N . II ii! 7 1ijli i . _ /, , 1 (-Ti\--0) ( i i 1......,,. , / l'i 11 I 161. WiPPLIMMAIIIII NMI ' 4)..-NN \i'q°.\'' L_ 1 I I I 1 10 G9EXPIRES: 06/30/20181 I I 1 I HI :r I 10- Irl 1 . 10- oNHos_ l 1 1 1 /foil, i , I 1 I Mr— --1 I III ..:..r .r- i r ) 1, 10 . T ) . , , ,, 1: i , , 7.. ti in, 1 L, / , . li 1 \. j L._„,./ I LNAL.,/ (R) 1 11 1 E r - . ,..' r-----I '. .._....- ., ! 1 1 .......................; 1 i----, \111\1\ . 1 I 11 I LIIIIIIIIIIIIMPIMIM 1111111=1 . , ii, 11 / ..., I I I Ce i LI.1 II V 3-3 mmovionmel• F li li j IMP iiiiMMENOMEOWENii I I il 10 ill IL Mr. LID , , , , , 1 . 2 in, \ I .0. ... .,_ IL': i 0 0 •• . illrarMIWAti ' .^.---".. .—L1 r . _ • : • . . (R, _ • 11! N, 7- .1 -0 _. .• ,,, 1 1- 1. i ._.... f! . - — — -- — -- E: . , : . ) . 1 EJ al 8rivt \N' ...rwand . - T I CI) I n 7 i( ,---7-=, '--1-'; (R H_ 1 8"- I I --J-----X----- ..i... 1 T.N R /-1.) --1 i ' 1 i Lim 1 ) ji 10- I E, r t:_., --; I 1 . ' / r [ (R) t_, • , t_.• .- ,i • 0 I) I 1 1 .--T-('1, . " 8" 0 , . ':1,i *I/ i \(AV 1 0-1.)), ,.,:fw,,,:g..w 10" 0 0'11 I . . , H.71\x • ....-- 1 / - A ] 1: 1 0' , i• i ;: I , i 1 I I • 0" .i g f (R) L(---- \ 11 II 0 VAV 2- ( .(E),„(E) p'•:,,, : 1 0 .- 0 I ! 1 - . / - ' P N. . i !r ..,,\11.1111css:. 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