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Home My WebLink AboutBook 1 Pages 44-46 Hydrology Study REDLANDS CONSULTANTS & ASSOCIATES HYDROLOGY STUDY For: 31250 NICOLAS RD. APN:957-090-019 Prepared for: SOHAN & KULDIP SINGH 44750 KIT CT. TEMECULA, CA 92592 951.7570853 Prepared by: REDLANDS CONSULTANTS&ASSOCIATES 621 S.BUENA VISTA ST. QROFESS/pN REDLANDS,CA 92373 ((.9 PS- 4'P S, y'P9l0 951.440.9227 9. 2� w <. 8312: m Areite VIL �* PREPARATION DATE:July 27,2017 CI °F CALIFO SINGH HYDROLOGY REPORT APN:957-0-019 TABLE OF CONTENTS A. EXISTING SITE CONDITIONS 2 B. PROPOSED SITE CONDITIONS 2 C. BASIS&ASSUMPTIONS 2 D. CALCULATIONS 3 E. SUMMARY&CONCLUSIONS--- 3 F. REFERENCES 4 G. ATTACHMENTS 5 i. Rational Method Calculation Table ii. RCFC manual graphs and material. iii. Tributary Areas Map and TOPO iv. FEMA Map v. Flood Control Maps vi. SS-10 Caltrans Outlet Protection/Velocity Dissipation Devices 1 SINGH HYDROLOGY REPORT APN:957-0-019 A. EXISTING SITE CONDITIONS The project is located at the NE corner of Nicolas Rd.and Calle Girasol in Temecula California.The project consists of 4.03 Ac. with one mobile house and two barns. There are two upstream areas that naturally drain onto the property.The first enters the property from the northeast(Al)and the other crosses the property from east to west within the southern half of the property(A2). The drainage tributary to Al totals about 15 acre with rural single family development and drainage from this area was analyzed using the Topographic maps provided by the county of Riverside County Flood Control with date of preparation 01-09-2012.This area drainage enters the property within the easterly 80 feet on the north side of the property and continues through the property south west and exists the property at the southwest corner and into the Long Valley Wash and continues westerly. The area drainage of A2 was analyzed by reviewing flood maps provided by Riverside County Flood Control(attached herein this report)and the original Parcel Map from which this parcel was originally deeded. B. PROPOSED SITE CONDITIONS Through a new house development,the owners of this property are proposing to build a single family house at the Northwest corner of the property away from the flood plain of A2 and away from the natural drainage from Al.The two barns will be demolished and the existing mobile house will be moved out of the property. C. BASIS AND ASSUMPTIONS The 100-year frequency storm would be used for hydrology and hydraulics calculations for the proposed development conditions. We will use the assumption that all the upstream properties will be developed per the existing zoning. This hydrology study would determine the following: - The 100 storm-water flow through the property. - Design any required drainage facilities if any to protect the proposed structure and its pad. 2 SINGH HYDROLOGY REPORT APN:957-0-019 D. CALCULATIONS 100-YEAR Peak Flow Rate(Q,,kloo) The calculation tables are included in the attachments E. SUMMARY AND CONCLUSION a. Area 1 will generate 26.7 cfs of storm-water passing through this property in a 100 year storm.26.7 cfs can be contained in a 30" cmp at 0.5%slope. However,this amount of storm-water runoff will pass through the property and the only recommendation is to protect the slopes of the elevated pad of the house with 4"-8" rock along the north and easterly slopes of the pad,or through developing a paved interceptor which would collect any storm-water that is directed to pad and carry the storm-water around the pad and release it back onto the natural drainage. From the site visit and the performed TOPO survey we discovered that upstream property owners have diverted all the flows toward the northeasterly corner of the subject property,and that was the reason the house pad was pushed as far northeasterly to stay away from the natural drainage area.We also assumed that the two concrete interceptors surrounding the pad might receive about%of the whole tributary area and were designed accordingly. Therefore,about 7cfs would be divided equally over the two swales giving each 3.5cfs rounded up to 4cfs.Total Clan for each of the interceptor at the proposed slope (1%) is 8.3 cfs with a cross section area of 1.5 sf.4cfs=0.11m3/s and from Caltrans reference (attached)a 3"-6" rock with a length of 10 feet,4 foot width and 1'deep would suffice for protection. b. We also took consideration to stay away from the natural drainage area. Eventhough, the course flattens on our site and sheet flows southwesterly,we left a 30'wide area, 15'on either side of the lowest point(Flow line if there were one)and delineated such on the grading plan. c. Area 2,the flood plain from the Long Valley wash has been delineated on the original Parcel Map from which this property was deeded (PM01-pages 45-47).The flood plain boundaries have also been delineated on a newer Parcel Map contiguous easterly to this property.The proposed house is located 154'away from the flood plain boundary line. 3 SINGH HYDROLOGY REPORT APN:957-0-019 F. REFERENCES a. Hydrology Manual, Riverside County, 1978. b. Handbook of Hydraulics, E. Brater and H. King,7'h edition. c. Grading Plan as prepared by our firm. 4 SINGH HYDROLOGY REPORT APN:957-0-019 G. ATTACHMENTS 5 cc cc W K g Q a P z IN N - .-I N N ~ Z H n n W N N N n N N 2 NI m i_ n D O O J - g to m N iii t 6 J C2gg z > • o g Z F o o N r cc 5 2011 y Y Y z O S W in 3 0 ; o s m y mH N O u auwd -uNU u a ,8 N O O o O O O a a ad a a a o V I O O 0 0 0 O a CN O O O O O O } FV 8 P O O O O O O e O C O L falo u u u u U u U w g IN W C .+ re m u. W CG Q W Qa O u co o w u 2 G 5 6 o 6 Tc' LIMITATIONS: L - 100 I. Maximum length =10001 Tc 1000 - 90 2. Maximum area = 10 Acres 5- - 900 - 80 a - 03 - 800 -7o 0 ti 500 6 u — x 0 d 400a _ 0 300 - Tr -700 - 60 c ` 200 7 ..... - .- - o 0 C N E 'c 100 - o E - 600 c _ 50 0 0 o so 8 - o 13e--_____________ d - E o v 30 0 -500 cor 9 - 0 o 20 0) ai C _ 0 - __= 10 . m _35 o d I. K Ai (i 11 -- m 0 _400 w = 30 Undeveloped_0 m 2 ) 12 - c - - Good Cover m 40. € - 350 3 - 25 Undeveloped_ %•0 — _ •c Fair Cover 0 g8g 14— E _ :4 - 300 0 - 20 Undeveloped-_•� 0 .3 21 I5 so - - • _7- 19 Poor Cover o 2tr. 16 _ ,c' -250 0 17 Single .rally_ a,, / 17 ^ E f6 4 Acre) m' 18 - L - `o_ - 15 Commercials�90 „ 19 =--r, a,_ - 14 (Pay a 20- m - 200 � - 0 - 0 "- — d 0 1 __ g - 12 °' - � w - c 8 -11 y o - c 25 - 0 _ y -▪ 150 a, KEY _ - E L Ni Tc-K-Tc - 0 t- _ 8 30- 0 EXAMPLE: - E - 7 = ~ (I) L=550, H =S.O;K=Single Family(I/4Ac.) 35- - Development ,Tc = 12.6 min. - - 6 -100 _ (2) L=550', H=5.0%, K= Commercial 40- Development , Tc=9.7 min. - 5 4 Reference:Bibliography item No. 35. R C FC a W C D TIME OF CONCENTRATION HYDROLOGY MANUAL FOR INITIAL SUBAREA t PLATE D-3 , i • Io II . 1 ! - . 1 1 - - I 1 '1 ' 11 10 LOCATION ' IIIIIIIII:i111111111iiii111111iiNNEMuuiliii11111111 1'UR - -I CIPITV7',11;1 1111111111111M--�1 7 12-YR.Li •5,� •_ .T D-4,31 7 ■ IIIIIIIII111111111IIIIIIIIIU!!IIIu1111IIIIIIIII! IIIi 001 n ® ((IppIfppT5 1 ID ,411 11111111111MlNI1 -�'R (PLATE 0-4.51 -- :1111 ,1 I �'''iii.' nn fl(lplLlQlllll l I . 511111iii111111111111i11111i11Uii1I10111111111111111I1111III11I1! 'If YRV"+ •,I-,g 4 ' 171111H•I Ilia 11111111111IU■■I15 5- R. (PLATE D-4.5 1111111111 :oG ;HIM ununulI III ,',„",I''IAWill l ■ I I I uluunufoi• 120y. 0 Y' PLAT 045 4 ,:- SLOPE • INTENSITY DOR; !N _ PATE !-46C 4 -a _. ___ DATE: ' -. _ 2.70311111191111 _ i11111I11111 11i11U111111111111111111111111111 1 �II I 1110 00I1 ir' I2 ! III I . I I11bIIlmllI1liII1IIIIII 1I hull 2 1 111 a I 1 1111111111111101101111 I1•1„'I1li111111 f 1111 1.5! 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MEMMOIMMOMMOOMMOIN 1,11111 ;' ) I l I � IflI113 � • I : L I ; � I • I . 1 i ; 1ii1 � � HI ii � .3 1 i 1IN/111n///H///n///////N/N/n///N///////N/■ ■ Hn/nn/M •Il••llu/Hau•/1/NNHnn......\.......1:: R C F C S W Cr, //p 1'/11 nm•uH111H■■■■1/■■■■■■/11■111 ■1//HHH1//N111■■N■11/1/11/1/11/// MO ■NIMMII111111111111111N11111111/1111/1/1 HYDROLOGY MANUAL limmun 1/111///1111//1111/////11/////11/ ///1 .z I ! III ) lilllfilTiiililfl . f i .z ii RUNOFF COEFFICIENT CURVES III H ' H SOIL GROUP-B IH . I I I COVER TYPE-URBAN LANDSCAPING I I I I i (RUNOFF INDEX NUMBER 56) ! I I I l � � il I i CURVE: .I H '. •11 "Mama RAINFALL INTE SITY IN INCHES PER HOUR • H . 00; I , , 2 3 4 5 . s ' 0 PLATE D-5.2 RUNOFF INDEX NUMBERS OF HYDROLOGIC SOIL-COVER COMPLEXES FOR PERVIOUS AREAS-AMC II Cover Type (3) Quality of Soil Group Cover (2) A B C D NATURAL COVERS - Barren 78 86 91 93 (Rockland, eroded and graded land) Chaparrel, Broadleaf Poor 53 70 80 85 (Manzonita, ceanothus and scrub oak) Fair 40 63 75 81 Good 31 57 71 78 Chaparrel, Narrowleaf Poor 71 82 88 91 (Chamise and redshank) Fair 55 72 81 86 Grass, Annual or Perennial Poor 67 78 86 89 Fair 50 69 79 84 Good 38 61 74 80 Meadows or Cienegas Poor 63 77 85 88 (Areas with seasonally high water table, Fair 51 70 80 84 principal vegetation is sod forming grass) Good 30 58 72 78 Open Brush Poor 62 76 84 88 (Soft wood shrubs - buckwheat, sage, etc.) Fair 46 66 77 83 Good 41 63 75 81 Woodland Poor 45 66 77 83 (Coniferous or broadleaf trees predominate. Fair 36 60 73 79 Canopy density is at least 50 percent) Good 28 55 70 77 Woodland, Grass Poor 57 73 82 86 (Coniferous or broadleaf trees with canopy Fair 44 65 77 82 density frau 20 to 50 percent) Good 33 58 72 79 URBAN COVERS - Residential or Commercial Landscaping Good 32 56 69 75 (Lawn, shrubs, etc.) Turf Poor 58 74 83 87 (Irrigated and mowed grass) Fair 44 65 77 82 Good 33 58 72 79 AGRICULTURAL COVERS - Fallow 76 85 90 92 (Land plowed but not tilled or seeded) RCF C & W C D RUNOFF INDEX NUMBERS HYDROLOGY MANUAL PERVIOUSR AREA PLATE D-5.5 (I of 2) RUNOFF INDEX NUMBERS OF HYDROLOGIC SOIL-COVER COMPLEXES FOR PERVIOUS AREAS-AMC II Cover Type (3) Quality of Soil Group Cover (2) A B C D AGRICULTURAL COVERS (cont.) - Legumes, Close Seeded Poor 66 77 85 89 (Alfalfa, sweetclover, timothy, etc.) Good 58 72 81 85 Orchards, Deciduous See Note 4 (Apples, apricots, pears, walnuts, etc.) Orchards, Evergreen Poor 57 73 82 86 (Citrus, avocados, etc.) Fair 44 65 77 82 Good 33 58 72 79 Pasture, Dryland Poor 67 78 86 89 (Annual grasses) Fair 50 69 79 84 Good 38 61 74 80 Pasture, Irrigated Poor 58 74 83 87 (Legumes and perennial grass) Fair 44 65 77 82 Good 33 58 72 79 Row Crops Poor 72 81 88 91 (Field crops - tomatoes, sugar beets, etc.) Good 67 78 85 89 Small Grain Poor 65 76 84 88 (Wheat, oats, barley, etc.) Good 63 75 83 87 Vineyard See Note 4 I I I Notes: 1. All runoff index (RI) numbers are for Antecedent Moisture Condition (AMC) II. 2. Quality of cover definitions: Poor-Heavily grazed or regularly burned areas. Less than 50 per- cent of the ground surface is protected by plant cover or brush and tree canopy. Fair-Moderate cover with 50 percent to 75 percent of the ground sur- face protected. Good-Heavy or dense cover with more than 75 percent of the ground surface protected. 3. See Plate C-2 for a detailed description of cover types. 4. Use runoff index numbers based on ground cover type. See discussion under "Cover Type Descriptions" on Plate C-2. 5. Reference Bibliography item 17. R C F C a W C D RUNOFF INDEX NUMBERS HYDROLOGY MANUAL FOR PERVIOUS AREA • PLATE D-5.5(2 of 2) ACTUAL IMPERVIOUS COVER Recommended Value Land Use (1) Range-Percent For Average Conditions-Percent(2 Natural or Agriculture 0 - 10 0 Single Family Residential: (3) 40,000 S. F. (1 Acre) Lots 10 - 25 20 20,000 5. F. (12 Acre) Lots 30 - 45 40 7,200 - 10,000 S. F. Lots 45 - 55 50 Multiple Family Residential: Condominiums 45 - 70 65 Apartments 65 - 90 80 Mobile Home Park 60 - 85 75 Commercial, Downtown 80 -100 90 Business or Industrial Notes: 1. Land use should be based on ultimate development of the watershed. Long range master plans for the County and incorporated cities should be reviewed to insure reasonable land use assumptions. 2. Recommended values are based on average conditions which may not apply to a particular study area. The percentage impervious may vary greatly even on comparable sized lots due to differences in dwelling size, improvements, etc. Landscape practices should also be considered as it is cannon in some areas to use ornamental grav- els underlain by impervious plastic materials in place of lawns and shrubs. A field investigation of a study area should always be made, and a review of aerial photos, where available may assist in estimat- ing the percentage of impervious cover in developed areas. 3. For typical horse ranch subdivisions increase impervious area 5 per- cent over the values recommended in the table above. • R C F C WCC IMPERVIOUS COVER HYDROLOGY MANUAL FOR DEVELOPED AREAS PLATE 0-5.6 RUNOFF COEFFICIENT CURVE DATA The data in the following tables may be used to develop runoff coefficient (C) curves for any combination of runoff index (RI) number and antecedent mositure condition (AMC) . For an RI number with an AMC of II (from Plate D-5.5) enter the tables on the following pages and plot the "C" curve data directly on Plate D-5.8. "C" curve data is given for even RI numbers only, but values may easily be interpolated for odd RI numbers. For an AMC of I or III enter the tabulation on this page with the RI for AMC II, and read the appropriate RI for AMC I or III. Use this revised RI to enter the tables on the following pages to deter- mine "C". For example if RI = 40 for AMC II, then RI = 22 for AMC I and RI = 60 for AMC III. AMC ADJUSTMENT RELATIONSHIPS Al MOP RI MOR OTHER RI roe RI FOR OTMEP ARC II AMC CONOITIONSI ARC II ARC COIIOITIONSI ANC I AMC III AMC 1 ANC III 10 -- 22 55 35 74 11 -- 24 56 36 75 12 -- 25 S1 37 7s 13 -- 27 S6 06 76 14 -- 26 59 39 77 15 -- 30 60 40 76 16 -- 31 61 41 76 IT -- 33 62 42 79 le -- 34 63 43 60 19 -- 26 66 •• SI 20 .— 37 65 45 e2 21 10 30 66 •6 02 22 10 39 67 •7 62 23 II 41 6e 6e 64 21 11 42 69 SO N 2S 12 43 70 SI OS 26 12 44 71 52 66 27 U 66 12 53 16 2e 16 47 73 54 e1 29 14 49 74 SS 6e L IS SO 75 57 Se 31 16 51 76 se e9 32 16 52 77 59 69 33 17 53 7e 60 90 34 IS 54 79 62 91 SS IS 55 00 63 91 36 19 S6 SI 06 92 51 20 S1 e2 66 92 36 21 Se 62 67 9O 39 21 S9 e• 6e 93 40 22 60 05 70 94 41 23 61 06 72 94 42 26 62 e7 73 95 43 25 63 O 15 95 46 25 64 e9 76 96 45 26 65 90 76 96 66 27 66 91 SO 97 67 20 67 92 61 97 46 29 60 63 e3 9$ 49 30 69 94 e5 96 SO — 31 79 95 e7 96 51 21 70 96 09 99 52 32 11 97 91 99 53 33 72 96 94 99 54 34 73 99 97 -- R C F C 8 W C D RUNOFF COEFFICIENT HYDROLOGY MANUAL CURVE DATA , PLATE D-5.7 (I of 12) u-II 1111111111111Utt1illi 111 iii ii:11cIN I e9aMIII IIOUII II 1111/111/IIO U UI'Oil UI a esaa9 811E IHmRln„I nRvn1o11rrt111111nn3E3 53_6_„ ';iiiilfullllllinll!!IIiNIiI:I11II1!ht,;f fl fl1'€1h 1IIn631313f';u'unNlltO!nn'''itS:2a�a9 � 1LlI�I1191N111h?€d:UIIIW!:iilISi:U L =a' „ 111!MIIIIII1111111111III1111a11:11111 2112,33131 RMRt li 11111122Ri 1111111 dliisii=a22®td1�Rlltlttlt1111NIMINI::;6'=_=0 =g= 31 ifillaIII1nimilGlgtviinlaluiiiliVin�ii?GllllllI1111111iINIUMIIII METAF^g"gEMEGEGPJa='•IG9111197i1F_ titi E:_'__-„ a t • • 71�iINil@Ufull{iE{iilll{I tili9liiiMEI!'�a q fi1�lilli{II{EI RLIIIIEiI E1174 �gligNEfnllEIRE11I{i'rlla _g„ 3 w 911[1111IMIINIIIIIi��hiNil Ei@�i ii11111111Illilf 11 NVQ(iiLili=is toll INEMF El !IiEMII iiiil " a ifiellR I1II1121211111111!101261`iiMitil291 E111m122n NRRRRMnQ16•,I?9?ignammaffiRtlltNnPIRtRRRlit 1111��; g5=g x = IIDAI1011➢In111111111Wnllli1td9311�PONIMGW1111111111111G1@11211111iIL TAININE�IIIMI llth111112 !gin __u„ ix U' 0 III�I�IIiB@liII1Il (Bf�lPIIIki► MIANI IRill11111i118 11f1iIi{,i �'=MIElli : :iiiiIII E41/1/1111/oas = O r 11911 I[Illlliii{111+i{111iiiTadfiiF��5ial✓lIIIIIiIL�II Iii�IllilllliliEli illi ®i IIF 11{�lii{Ill.eliii i:=liI a L iIIII�lIIIIM IIIUIIiIiGIIIIElli illi i1 1113 11111 111th 1`lirth llIfil!! iii g':i 0 > ISI �1i11� �� lug►9e s9►tili ! 111IN11 1111 l 1[411111'u 'N iouii"mrir: o' 1 l I ■ 1 I Y ■ (.) 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Fib's • 1I� eIDIIIIIIIIIHIII!IC ?hIth11IliNlMili■ iiiinliffi ' IPrIi{Iiiii __k g IPI1lli Iiiiilllli' iiii III+ i9 :UE g ► gy1� ilIi1lgT: r1 iiP4i •l•ill lo :25 OMNI I 11 ,P I 1 .• I I 11 II LS- I,;1 ! � 1 [ I��II � i0p8� ,I Ill li 1 !�� i •3111111 I � j�lcr 1I IU I E „ 1 . ill I' 1 , 1 • 11!'!11111 IIIIIIIII�I III Ili lil{fit ��11�`1■iu� B�1� ioH{{�ii �IhVl liini, ��iiulo�i(u Y��iG%{{ �llu{{{ 1 Tia E,illllnlllll11111111llimIiIIIIIIII1;Ii IIUIEIutcakt 916°81 1nPp1'JltIl hIIHIIIVIItlllll53nnnHH91i ifikllelldill'It11�-iIWlllltllelll.n-l'. =„ '41811111IIIIUIIIIH1111111111i1I11!Ililli!C11i1An11NilaFIld11hi131111I111111111 inn1711111IIIIII inagE�1;i1F9116I4 I1 ll11ii1111IMt11111111iI Iiigtiggggsn„ 111PRII1111111111111@nI1111111Ih:1111Inl tkinngFk9[elIID91i6411!fn[BIh91R69111'ral9@ii°eegamiglIERbill illraffathiliilin 11M =_ =r.'=_a Q • 1illlalli11IIIlIll'l II1IIllIII'ti linin€g`glI A';!e91tAIM11;1116116iA111111111i15iel�eQ &fl1 x°13111:21111111 i s =.5 'srn 191'IIINIIIOIIiIIlI101001111iPIli'M►'lsiiITI YIIiIIINI Liil>> IIII!& 1KIF 'Mgt ffi=111111fall�IIIII II iII.I __ _ _„ m 111.IINIIIIIIMIHl ! 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W �l a II III IIII .:. ■r QJ' j11II 111 I 1 nll 14 I C i i, :e1a� qIt�p1�1�ry II 1iI1{{I EP 1111 1111 loilin r 11.1 C i 1 G .11 1 1.. .111 b11 I N1!�111 IIIIIIIIIII�Ift I IIIIIIIIIiIISiIEII is�� ii►i INN Elf fr ill S11.1:2111.1, I ilil1111�f P 11111►1II I ° BoaIt fibtiin111n11111111111iItlnnnnniiiimIIIIEll11 g€f II Il11n'01111111111111k IlIli1t1 t111949sii�=.'17710!11bmininn11111t;lGnulUuinllf€E11°o 11 a V .on vi;!Ii01111E1111IIIII IIIIIIIIIIIIilliiiilfienanll P 1171t91�1111111ilttilllllll@I9 Tt ICIT1i51 0 as-ailhalgiialililil:€inPIfllfll1:115.:3€€ ta• w M/ 3111.1711I111iI111HIM IIIll11l1llla'eltllggggii v^7.1_�lili'31;11111.11,1t61 lt;llt'ii{hSllil 3?iE.i;=g ';��i�ilil3:'-',i lltltiriliiii a =__n Q.L911IIIlirIiIMI111111111n111111. ai== 1 timuu,i161 mliutiii:si rani i %; nh E —n 1„:11,-: g1Ei'itl!ll{[t!l P•.I10111iIILnI11I11ii9 Eil-sC.1_;IIJ,'lillHlI9sfilliii0"101,.;1111' -i113ii11° Il l l ls1 I..- _„ �„� Ic1,fi till Iii:•....".111111111111111I" c e ee E1rllntIIi!�111ii i i!lie'ui1egi itior' ?.i'isLll�giiii! °I,1110!iii_i:: a : • I'h itl lie iil, l I!Ilitiiz`2'11'11.11!Itttt'tle'C 3 aEI 111ah : Jlil, 11I.--213-P► 1 'IGa 4.1.1.1�_li' �'P' iA="� ___ �III.IIII 1111•'.1': 11;119111€;11= €i =11-_ 19111"aIh11'i'Milli,91g'akg-sl=-i�1 111 11�irn!l' 116id51... 1= - =sn 'I!!II!i ililithi 11Eliillni HI/1145.V. g €ailiiinilO{1flfhPlli`ail!;i0aigig1= =: E1 'J ,'0E.`iiiii il.T. 1-111 c= _ C.) . ••.!113,!1IIIG.ia{!hili IIII i,{!I {IIII:i ^I? lil!! l I I'{{i��1 n nirril ai efi,'-.,9i:IiIE"s°�.iLI illii:::l li i111.'... 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