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Plans 1 f ele10175 SW Barbur Blvd. Suite200B Portland, OR 97219 Consulting Engineers Ph:503.892.9700 Fax: 503.892.9797 STRUCTURAL CALCULATION • Crrr OF TIGARD REVIEWED FOR CODE COMPUANCR Approved: OTC: [ Project: Fowler Middle School Permit#= u s ZOt"-'Cer2 Re: Seismic and Wind Design of Chillle�dd1es8 �' � = ' ' - Steel Base Frame and Anchorage to 0 • e By: .41/0 s4_ DON 'a 4 Client: MacDonald Miller oPP' Job No.: 14-1016 OFFICE COPY Date: April 15,2014 Pages 1 thru 33 and SK-1 thru SK-2 contain the calculations and details for the chiller steel base frame and anchorage to concrete at Fowler Middle School located in Tigard, OR. This set of calculations is based on the loads and assumptions stated within the set. If these loads are not correct, this set should be revised. The adequacy of the existing structure is the responsibility of others. �c0 PROF-4, I NE . s%y' 71266PE 0: :.N Oti At• 10• s" 48 K AMP EXPIRES: 6/30/15 Structural Construction Management Engineering Drafting t r NOTES: I . STEEL GRADES SHALL BE: -WIDE FLANGE BEAMS - ASTM A992 (Fy = 50K51) 2. STEEL MEMBERS, BOLTS, AND FASTENERS SHALL BE HOT DIP GALVANIZED. 3. MECHANICAL ANCHORS IN CONCRETE SHALL CONFORM TO ESR-191 7. PERIODIC SPECIAL INSPECTION REQUIRED. 14'-7 114" troutorr go yrn somusmco aka*/104 Ua r'TJ* 13'-I 0 114" I I rb vmggA I ) 01 ' (E) CONCRETE HOUSEKEEPING PAD to (APPROXIMATE OUTLINE, NOT USED fr ., er FOR SUPPORT) __ vul ill; ,. s II in . �1 Rr a 11. 1II II + rise__ r.i (N) W5X 19 BEAM, 2B TYP. OF (2) 2A (N) WSX3 I ANCHORED TO FLOOR, TYP. AT (4) LOCATIONS 2'-0" —CHILLER SUPPORT PLATE WITH 34" ISOLATION PADS OVER NEW BEARING PLATE ATTACHED TO BEAM 0 CHILLER PLAN VIEW A ,\(%E� PR(Fess NOT TO SCALE �$ c.,\s\ I NEF�, /04,17 I 71266PE l 0,./o _ STRUCTURAL DRAWINGS DRAWING INFORMATION JOB No T��• ,N OO: FOWLER DRAWING FILE: 9#, T• 10, ��P� 079 MIDDLE SCHOOL DRAWN BY: DS 1-1-lop, CHECKED BY: SHEET No B K AO' Consulting Enginem TIGARD,OR DATE: 4/10/2014 DATE: REVISION 1: 11175 Ss s.w.sit SU tae EXPIRES: 6/30/15 Portland OR 97119 DATE: REVISION 2: SK- 1 PA SOS10t.J700 Pz SOJ.ALS797 SCALE: r EQUIPMENT MOUNTING PLATE (BY OTHERS) W/ (4) 3/4" 0 A307 THRU BOLTS / Y8 ISOLATION PAD (BY OTHERS) - f K" BEARING PLATE (MATCH EQUIP. PLATE DIMS.) °= LI 1 Ye STIFFENER PLATES, TYP. 1/2'' 5 1/2"-1 I (4) s/8" 0 A307 THRU BOLTS, TYP. \7—tr W5X 19, TYP. ,/ 3/8 STIFFENER PLATES, TYP. W8X3 I , TYP. II II II II 11 ii II -1/2 HILTI HAS CARBON STEEL THREADED ROD WITH HILTI HIT-HY 200 kJ SAFE SET SYSTEM W/4 Y4" EMBED., / G" (E) CONCRETE (BY OTHERS) SECTION DETAIL A 1-1/2"= 1?-0" EQUIPMENT MOUNTING PLATE (BY OTHERS) I 3/S" ISOLATION PAD (BY OTHERS) . 5/8" BEARING PLATE 1/2 HILTI HAS CARBON STEEL— (MATCH EQUIP. PLATE DIMS.) THREADED ROD WITH HILTI HIT-HY 200 v VYG SAFE SET SYSTEM W/4 3/4" EMBED., YE> <1-Yr. TYP. OF (G) W5X 19 W8X31 6„ TYP j3/iGV2" MIN. <m'r.• 3 I/4" GV 3" MIN. <1W. � - II a 4 4 II II II L II II II II II d II II II 4 Q II E► kr 4 4 a / 2" 10' IO" 2" (E) CONCRETE (BY OTHERS) - 2'_0" - Rip PROF( cp c\AGINE£RS% 2B SECTION DETAIL �� 71266PE 9( ' 1-1/2" = 1'-0" an j N �, STRUCTURAL DRAWINGS DRAWING INFORMATION Joe N, p� FOWLER DRAWING FILE: 9 Ai 8V1-- 10, P� e7e MIDDLE SCHOOL DRAWN Br: DS 14-I U 16 �/' CHECKED BY: 48 K AO' C i,nnrlting EnAinerr, TIGARD,OR — DATE: 4/10/2014 SHEET No` DATE: REVISION 1: EXPIRES: 6/30/15 p"r e r m.d O R 9 5 9 LOU DATE: REVISION 2: SK- 2 A 6411607.0700 P.SOSiOS979S SCALE. JOB: FOWLER MS Ole1017s 5w e.�r Bind. 5HEET NO.: Or sate 200B w rarnd.OR 972 i s rh:503.892.970O CALCULATED BY: 0 DATE 4/7/14 r..:503.892.9797 CHECKED BY: DATE Consulting Engineers PROJECT NO.: /4-1016 PROJECT INFORMATION SEISMIC DESIGN OF VIBRATION ISOLATED CHILLER ANCHORAGE TO CONCRETE AT FOWLER MIDDLE SCHOOL LOCATED IN TIGARD, OR. Building Code: 2009 IBC/ 20 I 0 055C Seismic Design Criteria 5D5 maximum: 0.70 I Importance, Ip: I .5 4 4 r 2 Ole JOB J "'LA:fa- Mtt4:14.,,E 9u+«+L._ AZH CONSULTING ENOINEERB SHEET NO. OF 10175 SW SAReUR BLVD. �'� SUIT. 2005 CALCULATED BY 4S DATE PORTLAND:OR 97219 PH: 303.A91.9700 FAX: 303.891.9797 CHECKED BY DATE • CONSULTING ENGINEERS I/1_ (ofd PROJECT NO. 1{�1 6-Y-AVVPr�e i r T/s.- C.PI E 16G " 1 wP= /C, 3 05-ue ll '' II 4- d. r Pc�rwYBY arlbr ) '�' Vi 1.5 PM ex •- ( %T.-kegs) /W o410-/N6 Pc.l►Tt S 0-i`�i w i (1 Y 07 e,S) E T !I, pLJ4TE (M/1•:T 44 — Ii �.� ....∎, R= 4*-/ /4OJN77NG pubria- P 11111 'IM �'�F i. u �r (e-)Co f.r..11e`TE c_ -PT Seth a►J ,�i 164. - A. h . ... i Ir III Sitej ;4111111:11 „, is Fl II- e. -!r Al NEw s-rEE-L_ Vsse- Ft1v.1 -STRUCTURAL- .CONSTRUCTION WANACZLAENT- -SMSMC IMACAJG• -&GRIMING DRARIG• y ! 3 JOB: FOWLER M5 10175 5w BaPoVr enva. SHEET No.: of 5utc 2008 PoRl503 89 97219 CALCULATED BY: D$ DATE 4/////4 Ph:503.892.9700 Pax:503.892.9797 CHECKED BY: DATE • Consulting Engineers PROJECT No.: /4-10/6 LATERAL ANALYSIS THE LATERAL LOADS DUE TO SEISMIC FORCES ARE DETERMINED USING THE REQUIREMENTS OF THE 2009 INTERNATIONAL BUILDING CODE (2009 IBC) Fp* = 0.4ap * Ip * Sds / Rp * [ I + 2 * [z/h} } * Wp Fp min = 0.3 * Sds * Ip * Wp Fp max = 1 .6 * Sds * Ip * Wp Fv = 0.2 * Sds * Wp INPUT DATA ap: in-structure component amplification factor = 2.5 Sds: seismic coefficient = 0.70 I Ip: importance factor = I .5 Rp: component response modification factor = 2.5 z: component attachment elevation from grade = I h: structure roof elevation from grade = 2 z/h = 0.5 CALCULATIONS Fp* = 0.841 Wp Fp min = 0.3 15 Wp Fp max= I .G82 Wp Fph = 0.84 Wp controlling Fp LRFD Fpv = O. I 0 Wp LRFD 4 Conterminous 48 States 2009 International Building Code Latitude = 45.432256 Longitude = -122.788546 Spectral Response Accelerations Ss and S1 Ss and S1 = Mapped Spectral Acceleration Values Site Class B - Fa = 1.0 ,Fv = 1.0 Data are based on a 0.05 deg grid spacing Period Sa (sec) (g) 0.2 0.934 (Ss, Site Class B) 1.0 0.337 (S1, Site Class B) Conterminous 48 States 2009 International Building Code Latitude = 45.432256 Longitude = -122.788546 Spectral Response Accelerations SMs and SM1 SMs = Fax Ss and SM1 = FvxS1 Site Class D - Fa = 1.126 ,Fv = 1.725 Period Sa (sec) (g) 0.2 1.052 (SMs, Site Class D) 1.0 0.582 (SM1, Site Class D) Conterminous 48 States 2009 International Building Code Latitude = 45.432256 Longitude = -122.788546 Design Spectral Response Accelerations SDs and SD1 SDs = 2/3 x SMs and SD1 = 2/3 x SM1 Site Class D - Fa = 1.126 ,Fv = 1.725 Period Sa (sec) (g) 0.2 0.701 (SDs, Site Class D) 5 JOB: :WIER MS 0175 5 d 9arbie d. SHEET NO.: OF Ole score 2009 Portland.Pornd.OR 97219 CALCULATED BY: DATE 4/////4 P1, 503.e92.9700 Fax.503.892.9797 CHECKED BY: DATE Consulting Engineers PROJECT NO.: /4-/O16 LATERAL ANALYSIS (SEISMIC LOADS) - LRFD Equipment Data C11- 1 Wp: 15305 Ibs L: 166 in w: 50 in (to centerline mounting plates) h: 9G in hcg: 49 in Fph = 0.84 x Wp = 1 2875 lbs Fpv = 0. 10 x Wp = 1 502 .lbs LRFD load combo, 0.9D + E Mot = Fph'ticg = 630854 in-lbs MR = (0.9Wp - Fpv) 'w/ 2 = 306812 in-lbs Maximum Reactions per side Tmax = (Mot - Mlr i )/'Iry = 6481 Ibis Vmax = Fph / 2 = 6437 lbs Maximum Reactions per connection n = No. of restraints/ side = 2 T = Tmax/ n = 3240 lbs ==> tension V = Vmax/ n = 3219 lbs ==> shear I G JOB f i_c.L. MIDLF 5 CAM L- AZH CONSULTING ENGINEERS SHEET NO. OF 10175 SW SAROUR OLVD. SUITE 2000 PORTLAND, OR 97219 Q CALCULATED BY $ DATE AVM PH: 503.59 2.9 700 FAX: 503.892.9797 CHECKED BY DATE CONSULT/NQ ENGINEERS PROJECT NO. Cq- /614 .STS / so- At "4.fr- tepok E 4 e'er ei .J rte' 3�i 9 'so •••••••••••••••urimi �j�r4 7 07f11114 JOB f '__�i ,` /A4 .E' X/11.U.S(..- AZM CONSULTING ENGINEERS SHEET NO. OF f 10175 SW BARBUR BLVD. L1/k SUITE sooe CALCULATED BY �' DATE PORTLAND, OR 97419 PM: 603.892.9700 FAX: 303.892.9797 CHECKED BY DATE CONSULT/NQ ENGINEERS w— /(a/6 PROJECT NO. Gst�' S7R%lc-r4 ._ 'W=ax..... Vt-,, ,E- T= 3. 2.41 k v,,,k.,c = 3- - ` c c-x'for , Nt = 3. ��x 6.s- 20 -731,,Or- ,o• Q L,-)8x31 /'.— 3.xa.*.x ‘3.S1' 4/3‘1 7 P," 8 A r�7LC E-r-Ai-r7-1 gy ,'/N • C-3) � ,slip s tf,k 1-594.14k. S--r.orJ 1 3 eS (34.1' 3 34 T ST/F-r, -* 'Z alt- -�3!'� \ 3'44 -.= T� w5`x1 1 ,�.3.s`' _ ?°-l'3 _ �/ x.s. 4. 0-9(36 PO_ -32,y k" �' 3.s 0\2-,,3) = x.13 r.� 46-1 ;�,i 3 (3 5") /f,63 k/.. _ 21 �‘ if 11r_ . F.s" , � A Sg r-3 3.66 w�`+"3. S�,D — --a- (3) = 21.1'3 ;..z 41'Bar, "e" 3.2{4-3.ZZ K� . — � — 241 1. ,3 ( 1) = 2 39 ►y • -s rN. = 35 t --)i 3% "" 'E - -STRUCTURAL- -CON5TRUCTIDN MANAGEMENT- •5H`MIC ERACRY-- -ENGINEERING DRAFTING V , r r- Company : AZH Engineers April 15, 2014 Designer : DS Job Number : 14-1016 FOWLER MIDDLE SCHOOL Checked By: Materials (General) Material Label Young's Modulus Shear Modulus Poisson's Thermal Coef. Weight Density Yield Stress (Ksi) (Ksi) Ratio (per 10^5 F) (K/ft^3) (Ksi) STL 29000 11154 1 .3 .65 J .49 36 Sections Section Database Material Area SA(yy) SA(zz) I y-y I z-z J(Torsion) T/C Label _ Shape _ Label (In)^2 (In"4) (In^4) (InA4) Only SEC1 W5X19 STL 5.54 1 1.2 1.2 9.13 26.2 .31 SEC2 . 8X1.5 STL 12 1.2 1.2 2.25 64 7.937 . SECS STL 1 1.2 1.2 1 1 1 Joint Coordinates Joint Label X Coordinate Y Coordinate Z Coordinate Joint Temperature (In) (In) (In) (F) A 0 0 0 0 B 0 = 10.5 0 0 C 58 10.5 0 0 0 58 . 0 0 —. 0 I Boundary Conditions Joint Label X Translation Y Translation Z Translation MX Rotation MY Rotation MZ Rotation - _ (K/in) (K/in) K/in jK-ft/rad) (K-ft/rad) (K-ft/rad) A I Reaction Reaction Reaction Reaction Reaction Reaction 0 Reaction Reaction _ Reaction Reaction- Reaction Reaction Member Data X-Axis Section End Releases End Offsets Inactive Member Member Label I Node J Node K Node Rotate Set I-End J-End I-End J-End Code Length &trees xyz xyz xyz xyz (In) (In) - (In) M1 A B SEC2 10.5 I M2 B C SEC1 58 M3 C D SEC2 10.5 Basic Load Case Data BLC No. Basic Load Case Category Category Load Type Totals Description Code Description Nodal Point Distributed Surface 1 ) None 1 Member Point Loads, Category:None, BLC 1 : Member Label I Joint J Joint Direction Magnitude Location (Lb, Lb-in) (In or%) M2 B C X 8370 %50 I RISA-3D Version 4 [Z:\2014 PROJECTS\1000's (GENERAL)\14-1016 Fowler Middle School chiller\calcR artle.r3d] Company : AZH Engineers April 15, 2014 Designer : DS Job Number : 14-1016 FOWLER MIDDLE SCHOOL Checked By: Load Combinations Num Description Env WS PD SRSS CD BLC Factor BLC Factor BLC Factor BLC Factor 1 1 1 1 1 Y Joint Displacements, LC 1 : 1 Joint Label X Translation Y Translation Z Translation X Rotation Y Rotation Z Rotation I(n) - (In) (In) _ (radians) _- (radians) (radians) A 0.000 0.000 0.000 0.000 0.000 0.000 B 0.001 I 0 I 0.000 0.000 0.000 0 C 0.001 0 0.000 0.000 0.000 0 D I 0.000 0.000 1 0.000 I 0.000 0.000 0.000 Reactions, LC 1 : 1 Joint Label X Force Y Force Z Force X Moment Y Moment Z Moment (Lb) (Lb) (Lb) (Lb-in) (Lb-in) (Lb-in) A -4185 1 -203.291 I 0.000 I 0.000 I 0.000 38047.05 D -4185 203.291 0.000 0.000 0.000 ;.; es Reaction Totals : I -8370 I 0.000 0.000 Center of Gravity Coords (X.Y.Z) : No Calculation RISA-3D Version 4 [Z:\2014 PROJECTS\1000's (GENERAL)\14-1016 Fowler Middle School chiller\calcr@.r3d] r li-x b 8370Lb o rt C F. b -203 i.lLbin 3eo11.1LWn J -4155th d1B5LD X203. Loads:BLC 1, Salton:LC 1,1 AZH Engineers FOWLER MIDDLE SCHOOL April 15,2014 DS frame.r3d 14-1016 0— II www.hllti.us Profis Anchor 2.4.6 Company: Page: 1 Specifier: Project: FOWLER MS Address: Sub-Project I Pos.No.: Phone I Fax I Date: 4/15/2014 E-Mail: Specifiers comments:STEEL BASE ANCHORAGE-LOAD CASE 2 1 Input data Anchor type and diameter: HIT-HY 200+HAS 1/2 Effective embedment depth: het,act=4.750 in (hetiir t=-in.) Material: 5.8 Evaluation Service Report: ESR-3187 Issued I Valid: 1/1/2014 1 3/1/2014 Proof: design method ACI 318/AC308 Stand-off installation: eb=0.000 in.(no stand-off);t=0.500 in. Anchor plate: Ix x ly x t=24.000 in.x 8.000 in.x 0.500 in.;(Recommended plate thickness:not calculated) Profile: no profile Base material: cracked concrete,3000,fc'=3000 psi;h=6.000 in.,Temp.short/long:32/32°F Installation: hammer drilled hole,installation condition:dry Reinforcement: tension:condition B,shear:condition B;no supplemental splitting reinforcement present edge reinforcement:none or<No.4 bar Seismic loads(cat.C,D,E,or F) yes(D.3.3.6) Geometry[in.]&Loading[lb,in.lb] z Tr ' os . Y Input data and results must be checked for agreement with the existing conditions and for plausibility! PROFIS Anchor(c)2003-2009 Hilti AG,FL-9494 Schaan Hilti is a registered Trademark of Hilti AG,Schaan ' 12 MIIIL.TII www.hilti.us _ Profis Anchor 2.4.6 Company: Page: 2 Specifier: Project: FOWLER MS Address: Sub-Project I Pos.No.: Phone I Fax: I Date: 4/15/2014 E-Mail: 2 Load case/Resulting anchor forces Load case:Design loads Anchor reactions[Ib] Tension force:(+Tension,-Compression) Anchor Tension force Shear force Shear force x Shear force y o3 04 05 1 1929 698 698 0 2 3 698 698 0 0 D Q. 3 1929 698 698 0 Tension x Compression 4 966 698 698 0 01 06 02 5 3 698 698 0 6 966 698 698 0 max.concrete compressive strain: 0.05[%o) max.concrete compressive stress: 201 [psi] resulting tension force in(x/y)=(-6.648/0.000): 5796[Ib] resulting compression force in(x/y)=(11.343/0.000): 1584[Ib] 3 Tension load Load Nu,[ib] Capacity en[Ib] Utilization ifr,=Nu,f$N. Status Steel Strength* 1929 6688 29 OK Bond Strength" 5796 6311 92 OK Concrete Breakout Strength** 5796 8303 70 OK 'anchor having the highest loading "anchor group(anchors in tension) 3.1 Steel Strength Nsa =ESR value refer to ICC-ES ESR-3187 0 Nsteai z N„a ACI 318-08 Eq.(D-1) Variables [psi] n Ase,N[in 2] futa[psi] 1 0.14 72500 Calculations Nsa[Ib] 10290 Results Nsa[Ib] +steel 4nonductile 4)Nsa[Ib] Nua[lb] 10290 0.650 1.000 6688 1929 Input data and results must be checked for agreement with the existing conditions and for plausibility! PROFIS Anchor(c)2003-2009 Hilti AG.FL-9494 Schaan Hilti is a registered Trademark of Hilti AG,Schaan 13 1■■11`TI www.hllti.us Profis Anchor 2.4.6 Company: Page: 3 Specifier: Project: FOWLER MS Address: Sub-Project I Pos.No.: Phone I Fax: I Date: 4/15/2014 E-Mail: 3.2 Bond Strength Nag =(ANe0)Wed,Na Wg-Na Wec.Na Wp.Na Nab ICC-ES AC308 Eq.(D-16b) +Nag Z Naa ACI 318-08 Eq.(D-1) ANa =see ICC-ES AC308,Part D.5.3.7 ANeo =SL,Ne ICC-ES AC308 Eq.(D-16c) scr.Na =20d 1 54 5 3 hat ICC-ES AC308 Eq.(D-16d) Ccr,Na =S ICC-ES AC308 Eq.(D-16e) Wed.Na =0.7+0.3(c=min)5 1.0 ICC-ES AC308 Eq.(D-16m) Gm,Na 10.5 Wg,Na =Wg•Na0+[(ue/ '(1-Wg•Na0)] '—1.0 ICC-ES AC308 Eq.(D-16g) Sm.Na 1.5 =�-r//'-1) ! 1 ]2 1 0 ICC-ES AC308 Eq.(D-16h) Wg Nab Tk,max,c TX max,c=nk`d hV et•fc ICC-ES AC308 Eq.(D-16i) 1 WecNx = (1 + 2eN )<_1.0 ICC-ES AC308 Eq.(D-16j) Scr,Na 41",, =MAX�Ca-min GGac 1 a,Na)5 1.0 ICC-ES AC308 Eq.(D-16p) Gac Nap =Tk,c•QN.seis•xbond•1t-d•he ICC-ES AC308 Eq.(D-16f) Variables Tk,c,uncr[PSi] danchor[in.] he[in.] Gamin[in.] S89[in.] n Tk,c[Psi] 1880 0.500 4.750 72.000 8.000 6 1051 kc fc[psi] ec1,N[in.] ecz,N[in.] ca.[in.] rind aN,seis 17 3000 6.648 0.000 12.614 1.00 0.800 Calculations y scr,Na[in.] cv,Na[in.] AN.[in 2] AN.0[in.2] Wed,Na Tk,max[Psi] 11.385 5.693 545.65 129.63 1.000 1292 Wg,NaO Wg,Na Wed,Na Wec2,Na Wp,Na Na0[lb] 1.385 1.062 0.461 1.000 1.000 6275 Results Nag[lb] +bond +seismic +nonductse +Nag[IN Nua[ib] 12945 0.650 0.750 1.000 6311 5796 Input data and results must be checked for agreement with the existing conditions and for plausibility! PROFIS Anchor(c)2003-2009 Hilti AG,FL-9494 Schaan Hilti is a registered Trademark of HIM AG,Schaan 14 `'rill www.hilti.us Profis Anchor 2.4.6 Company: Page: 4 Specifier Project: FOWLER MS Address: Sub-Project I Pos.No.: Phone I Fax: Date: 4/15/2014 E-Mail: 3.3 Concrete Breakout Strength ANc Ncbg (AN o/ Wec N eyed N 9Ic N Wcp N Nb ACI 318-08 Eq.(D-5) Ncbg 2 N„ ACI 318-08 Eq.(D-1) ANc see ACI 318-08.Part D.5.2.1,Fig.RD.5.2.1(b) ANco =9 het ACI 318-08 Eq.(D-6) 1 1yec.N 2 eN 5 1.0 ACI 318-08 Eq.(D-9) 1 +3het y/ed,N =0.7+0.3 1`1(ca,minhe,)5 1.0 ACI 318-08 Eq.(D-11) .5 wpN =M rceC_min, C 1.5her)5 1.0 ACI 318-08 Eq.(D-13) `` aC ec f Nb =kc A,?h 5 ACI 318-08 Eq.(D-7) Variables f f 1 hef[in.] ec1,N tin•] ec2,N[in.] Ca.min[in.) wc,N 4.750 6.648 0.000 72.000 1.000 cac[in.] kc t'[psi] 12.614 17 1 3000 Calculations A ANC Lin 2] ANC0 tin•1 wecl,N Wec2,N Wed,N wcp,N Nb[lb] 693.56 203.06 0.517 1.000 1.000 1.000 9639 Results Nog t ff11 'b] +concrete +seismic +nonductile +Nog[lb) N.Obi 17032 0.650 0.750 1.000 8303 5796 Input data and results must be checked for agreement with the existing conditions and for plausibility! PROFIS Anchor(c)2003-2009 Hilb AG,FL-9494 Schaan Hilti is a registered Trademark of Hilb AG,Schaan • • • IS 1■111`T1 www.hilti.us Profis Anchor 2.4.6 Company: Page: 5 Specifier: Project: FOWLER MS Address: Sub-Project I Pos.No.: Phone I Fax: I Date: 4/15/2014 E-Mail: 4 Shear load Load Vu„[Ib] Capacity+V„[Ib] Utilization II,=Vua/fV„ Status Steel Strength* 698 2593 27 OK Steel failure(with lever arm)* N/A N/A N/A N/A Pryout Strength(Bond Strength controls)" 4185 29466 15 OK Concrete edge failure in direction x+" 4185 21574 20 OK 'anchor having the highest loading **anchor group(relevant anchors) 4.1 Steel Strength Vsa =aV.sels(n 0.6 Ase,v futa) refer to ICC-ES ESR-3187 Vsteel Z Vua ACI 318-08 Eq.(D-2) Variables n Ase.v[in.2] futa[psi] ay.seis (n 0.6 Ase,v fora)[Pb] 1 0.14 72500 0.700 6173 Calculations Vsa[Ib] 4321 Results Vsa[lb] +steel +nonductile 4 Vsa[Ib] Vua[Ib] 4321 0.600 1.000 2593 698 Input data and results must be checked for agreement with the existing conditions and for plausibility! PROFIS Anchor(c)2003-2009 Hilti AG,FL-9494 Schaan Hilti is a registered Trademark of Hilti AG.Schaan I 6 1■.1111`[.T1 www.hilti.us Profis Anchor 2.4.6 Company: Page: 6 Specifier: Project: FOWLER MS - Address: Sub-Project I Pos.No.: Phone I Fax: I Date: 4/15/2014 E-Mail: 4.2 Pryout Strength(Bond Strength controls) ANa N./egg kcp[(ANao)Wed.Na Vg,Na t!ec,Na 111p,Na Naol ACI 318-08 Eq.(D-31) 4,Vcpg 2 V„a ACI 318-08 Eq.(D-1) ANa see ICC-ES AC308,Part D.5.3.7 ANa0 =Scr,Na ICC-ES AC308 Eq.(D-16c) Scr,Na =20 d Tk'—"`r s 3118f ICC-ES AC308 Eq.(D-16d) 1450 Ccr,Na =SyNa ICC-ES AC308 Eq.(D-16e) 2 Wed,Na =0.7+0.3(Ca—min\J crNa 5 1.0 ICC-ES AC308 Eq.(D-16m) C ! 0.5 tyg,Na =tyg,NaO+[( 9' \S'-� •(1 -1Yg,NaO)]2 1.0 ICC-ES AC308 Eq.(D-16g) `Scr,Na �rr 15 tyg,Na0 =Yn'Fl-1) Tkc Tk,max,s/) ]2 1.0 ICC-ES AC308 Eq.(D-16h) k` ICC-ES AC308 Eq.(D-16i) of c Tk,max,c = d 7T 1 tyec,Na = \1 e N _1.0 ICC-ES AC308 Eq.(D-16j) Sa.Na wail. =MAX(Ca_min Cc,Na)5 1.0 ICC-ES AC308 Eq.(D-16p) ll`` Cac Cac Na0 =tk,c'aN,seis•Kbond.7-d•he ICC-ES AC308 Eq.(D-16f) Variables ff,,, k„,,, Tk.c,uncr[Pi] Tk,c[psi] danchor[in.] hef[in.] 2.000 1880 1051 0.500 4.750 sa„g[in.] n kc ff[psi] ec1,N[in.] 8.000 6 17 3000 0.000 ec2,N[in.] Ca,min[in•) Cac[in.] Kbond UN,seis 0.000 72.000 12.614 1.00 0.800 Calculations Sa,N8[in.] Ccr,Na fin.] ANa[in.2] ANao[in.2] yred,N Tk,max[psi] 11.385 5.693 545.65 129.63 1.000 1292 Vg,NaO yrg.Na Vec1,N Wec2,N ylp,Na Nap[lb] 1.385 1.062 1.000 1.000 1.000 6275 Results Vcpg[lb] $concrete +seismic +nonductile +Vcpg[lb] Vua[lb] 56125 0.700 0.750 1.000 29466 4185 Input data and results must be checked for agreement with the existing conditions and for plausibility! PROFIS Anchor(c)2003-2009 Hilti AG,FL-9494 Schaan Hilti is a registered Trademark of Hilti AG,Schaan 17 IMIII..TI www.hiltl.us Profis Anchor 2.4.6 Company: Page: 7 Specifier: Project: FOWLER MS Address: Sub-Project I Pos.No.: Phone I Fax: I Date: 4/15/2014 E-Mail: 4.3 Concrete edge failure in direction x+ Vcbg =(Av Wec.V Wed,V Wc.V Wh,V Wparallel,V Vb ACI 318-08 Eq.(D-22) Vcbg 2 Vua ACI 318-08 Eq.(D-2) Avc see ACI 318-08,Part D.6.2.1,Fig.RD.6.2.1(b) Avoo =4.5 cat ACI 318-08 Eq.(D-23) 1 tyec,v = (1 2e,/ 5 1.0 ACI 318-08 Eq.(D-26) 3Cat Wed.v =0.7+0.3(1 5C )5 1.0 ACI 318-08 Eq.(D-28) Wh.v = 1.5Cat 2 1.0 ACI 318-08 Eq.(D-29) ha 2 Vb = (7 (d) �)A'cad ACI 318-08 Eq.(D-24) a Variables cal[in.] cat[in.] ecv[in.] We.v ha[in.] 48.000 72.000 0.000 1.000 6.000 la[in.] X da[in.] fc[psi] Wparallel,v 4.000 1.000 0.500 3000 1.000 Calculations Avc[in.2] Avco[in.2] Wec,v Wed,V Wh.V Vb[lb] 900.00 10368.00 1.000 1.000 3.464 136654 Results Vcbg[lb] +concrete +seismic 4nonductile +Vcbg[Ib] Vua[lb] 41092 0.700 0.750 1.000 21574 4185 5 Combined tension and shear loads 13v Utilization�N,V[%] Status 0.918 0.269 5/3 98 OK (3NV= + <=1 Input data and results must be checked for agreement with the existing conditions and for plausibility! PROFIS Anchor(c)2003-2009 Hilti AG.FL-9494 Schaan Hilti is a registered Trademark of Hilti AG,Schaan l8 1■■11`TI www.hiltl.us Profis Anchor 2.4.6 Company: Page: 8 Specifier: Project: FOWLER MS Address: Sub-Project I Pos.No.: Phone I Fax: I Date: 4/15/2014 E-Mail: 6 Warnings • To avoid failure of the anchor plate the required thickness can be calculated in PROFIS Anchor.Load re-distributions on the anchors due to elastic deformations of the anchor plate are not considered.The anchor plate is assumed to be sufficiently stiff,in order not to be deformed when subjected to the loading! • Condition A applies when supplementary reinforcement is used.The 0 factor is increased for non-steel Design Strengths except Pullout Strength and Pryout strength. Condition B applies when supplementary reinforcement is not used and for Pullout Strength and Pryout Strength. Refer to your local standard. • Design Strengths of adhesive anchor systems are influenced by the cleaning method.Refer to the INSTRUCTIONS FOR USE given in the Evaluation Service Report for cleaning and installation instructions • The ACI 318-08 version of the software does not account for adhesive anchor special design provisions corresponding to overhead applications. • Checking the transfer of loads into the base material and the shear resistance are required in accordance with ACI 318 or the relevant standard! • An anchor design approach for structures assigned to Seismic Design Category C,D,E or F is given in ACI 318-08 Appendix D,Part D.3.3.4 that requires the governing design strength of an anchor or group of anchors be limited by ductile steel failure.If this is NOT the case,Part D.3.3.5 requires that the attachment that the anchor is connecting to the structure shall be designed so that the attachment will undergo ductile yielding at a load level corresponding to anchor forces no greater than the controlling design strength.In lieu of D.3.3.4 and D.3.3.5,the minimum design strength of the anchors shall be multiplied by a reduction factor per D.3.3.6. An alternative anchor design approach to ACI 318-08,Part D.3.3 is given in IBC 2009,Section 1908.1.9.This approach contains"Exceptions" that may be applied in lieu of D.3.3 for applications involving"non-structural components"as defined in ASCE 7,Section 13.4.2. An alternative anchor design approach to ACI 318-08,Part D.3.3 is given in IBC 2009,Section 1908.1.9.This approach contains"Exceptions" that may be applied in lieu of D.3.3 for applications involving"wall out-of-plane forces"as defined in ASCE 7,Equation 12.11-1 or Equation 12.14-10. • It is the responsibility of the user when inputting values for brittle reduction factors(01nondudiie)different than those noted in ACI 318-08,Part D.3.3.6 to determine if they are consistent with the design provisions of ACI 318-08,ASCE 7 and the governing building code. Selection of,onductile=1.0 as a means of satisfying ACI 318-08,Part D.3.3.5 assumes the user has designed the attachment that the anchor is connecting to undergo ductile yielding at a force level<=the design strengths calculated per ACI 318-08,Part D.3.3.3. Fastening meets the design criteria! Input data and results must be checked for agreement with the existing conditions and for plausibility! PROFIS Anchor I c)2003-2009 Hilti AG,FL-9494 Schaan Hilti is a registered Trademark of Hilti AG,Schaan I9 I■■11`.TI www.hilti.us Profis Anchor 2.4.6 Company: Page: 9 Specifier: Project: FOWLER MS Address: Sub-Project I Pos.No.: Phone I Fax: I Date: 4/15/2014 E-Mail: 7 Installation data Anchor plate,steel:- Anchor type and diameter:HIT-HY 200+HAS, 1/2 Profile:no profile;0.000 x 0.000 x 0.000 in. Installation torque:360.001 in.lb Hole diameter in the fixture:df=0.563 in. Hole diameter in the base material:0.563 in. Plate thickness(input):0.500 in. Hole depth in the base material:4.750 in. Recommended plate thickness:not calculated Minimum thickness of the base material:6.000 in. Cleaning:Premium cleaning of the drilled hole is required •y L 12.000 12.000 • • • • 0 03 04 05 0 o • 0 co 0 0 0 01 06 02 • 2.000 10.000 10.000 2.000•• •Coordinates Anchor in. Anchor x y c.x c,x c., c.,, A_nchor x 1 -10.000 -3.000 72.000 92.000 72.000 78.000 4 0.000 3.000 82.000 82.000 78.000 72.000 2 10.000 -3.000 92.000 72.000 72.000 78.000 5 10.000 3.000 92.000 72.000 78.000 72.000 3 -10.000 3.000 72.000 92.000 78.000 72.000 6 0.000 -3.000 82.000 82.000 72.000 78.000 Input data and results must be checked for agreement with the existing conditions and for plausibility! PROFIS Anchor(c)2003-2009 Hilti AG,FL-9494 Schaan Hilti is a registered Trademark of Hilti AG,Schaan I „ 20 1■■11`T1 www.htttt.us Profis Anchor 2.4.6 Company: Page: 10 Specifier: Project: FOWLER MS Address: Sub-Project I Pos. No.: Phone I Fax Date: 4/15/2014 E-Mail: 8 Remarks; Your Cooperation Duties • Any and all information and data contained in the Software concern solely the use of Hilti products and are based on the principles,formulas and security regulations in accordance with Hilti's technical directions and operating,mounting and assembly instructions,etc.,that must be strictly complied with by the user. All figures contained therein are average figures,and therefore use-specific tests are to be conducted prior to using the relevant Hilti product. The results of the calculations carried out by means of the Software are based essentially on the data you put in. Therefore,you bear the sole responsibility for the absence of errors,the completeness and the relevance of the data to be put in by you. Moreover,you bear sole responsibility for having the results of the calculation checked and cleared by an expert, particularly with regard to compliance with applicable norms and permits,prior to using them for your specific facility. The Software serves only as an aid to interpret norms and permits without any guarantee as to the absence of errors,the correctness and the relevance of the results or suitability for a specific application. • You must take all necessary and reasonable steps to prevent or limit damage caused by the Software. In particular,you must arrange for the regular backup of programs and data and,if applicable,carry out the updates of the Software offered by Hilti on a regular basis. If you do not use the AutoUpdate function of the Software,you must ensure that you are using the current and thus up-to-date version of the Software in each case by carrying out manual updates via the Hilti Website. Hilti will not be liable for consequences,such as the recovery of lost or damaged data or programs,arising from a culpable breach of duty by you Input data and results must be checked for agreement with the existing conditions and for plausibility! PROFIS Anchor(c)2003-2009 Hilt AG,FL-9494 Schaan Hit6 is a registered Trademark of Hilti AG,Schaan 21 www.hilti.us _ Profis Anchor 2.4.6 Company: Page: 1 Specifier: Project: FOWLER MS Address: Sub-Project I Pos.No.: Phone I Fax: I Date: 4/15/2014 E-Mail: Specifier's comments:STEEL BASE ANCHORAGE-LOAD CASE 1 1 Input data Anchor type and diameter: HIT-HY 200+HAS 1/2 Effective embedment depth: hefact=4.750 in.(het.imit=-in.) Material: 5.8 Evaluation Service Report: ESR-3187 Issued I Valid: 1/1/2014 1 3/1/2014 Proof: design method ACI 318/AC308 Stand-off installation: eb=0.000 in.(no stand-off);t=0.500 in. Anchor plate: I,x lY x t=24.000 in.x 8.000 in.x 0.500 in.;(Recommended plate thickness:not calculated) Profile: no profile Base material: cracked concrete,3000,fc'=3000 psi;h=6.000 in.,Temp.short/long:32/32°F Installation: hammer drilled hole,installation condition:dry Reinforcement: tension:condition B,shear:condition B;no supplemental splitting reinforcement present edge reinforcement:none or<No.4 bar Seismic loads(cat.C,D,E,or F) yes(D.3.3.6) Geometry[in.]&Loading[lb,in.lb] z AI A t N, 72 6 0 72� - . •� Y o- r ` 4000 0,.0.5. Input data and results must be checked for agreement with the existing conditions and for plausibility! PROFIS Anchor(c)2003-2009 Hilti AG,FL-9494 Schaan Hilti is a registered Trademark of Hilti AG,Schaan • 22 I■■II`TI www.hilti.us _ Profis Anchor 2.4.6 Company: Page: 2 Specifier: Project: FOWLER MS Address: Sub-Project I Pos.No.: Phone I Fax: I Date: 4/15/ 014 E-Mail: 2 Load case/Resulting anchor forces Load case:Design loads Anchor reactions[lb] Tension force:(+Tension,-Compression) ii Anchor Tension force Shear force Shear force x Shear force y o3 Comp' -.sion o5 1 2694 698 0 698 2 2694 698 0 698 'x 3 71 698 0 698 4 71 698 0 698 01 0 02 5 71 698 0 698 6 2694 698 0 698 max.concrete compressive strain: 0.09[%o] max.concrete compressive stress: 387[psi] resulting tension force in(x/y)=(0.000/-2.845): 8296[Ib] resulting compression force in(x/y)=(0.000/3.721):3881 [lb] 3 Tension load Load N„a[lb] Capacity 01.[Ib] Utilization pN=Neale Status Steel Strength* 2694 6688 41 OK Bond Strength** 8296 9122 91 OK Concrete Breakout Strength** 8296 11470 73 OK *anchor having the highest loading **anchor group(anchors in tension) 3.1 Steel Strength Naa =ESR value refer to ICC-ES ESR-3187 $Nsteei 2 Nca ACI 318-08 Eq.(D-1) Variables n Ase,N[in.2] furs[psi] 1 0.14 72500 Calculations Nsa[Ib] 10290 Results Nsa[Ib] +steel +nonducti!e +Nsa[Ib] Nua[Ib] 10290 0.650 1.000 6688 2694 Input data and results must be checked for agreement with the existing conditions and for plausibility! PROFIS Anchor(c)2003-2009 Hilti AG.FL-9494 Schaan Hilti is a registered Trademark of Hilti AG,Schaan 23 1i1`TI www.hilti.us Profis Anchor 2.4.6 Company: Page: 3 Specifier: Project: FOWLER MS Address: Sub-Project I Pos.No.: Phone I Fax: I Date: 4/15/2014 E-Mail: 3.2 Bond Strength Nag = (A-)Wed,Na Wg,Na Wec.Na Wp,Na Nag ICC-ES AC308 Eq.(D-16b) 4 Nag 2 Nua ACI 318-08 Eq.(D-1) ANa =see ICC-ES AC308, Part D.5.3.7 ANaO =Scr,Na ICC-ES AC308 Eq.(D-16c) Scr,Na =20d tk,uncr 5 3 haf ICC-ES AC308 Eq.(D-16d) 1450 = 2 Scr,Na — Ccr,Na ICC-ES AC308 Eq.(D-16e) Wad Na =0.7+0.3(ccacr7)5 1.0 ICC-ES AC308 Eq.(D-16m) r,Na J Sav Wg,Na =Wg,Na0+[(—t`-)0 5'(1 -Wg.Nao)]Z 1.0 ICC-ES AC308 Eq.(D-16g) Scr,Na C 15 Wg,NaO =`in-[(J-1)• ( Tk,c ) ] a 1.0 ICC-ES AC308 Eq.(D-16h) tk.max.c J c � tk,max.c=II kd hY of-fc ICC-ES AC308 Eq.(D-16i) 1 Wec,Na = (1 + 2eN )s 1.0 ICC-ES AC308 Eq.(D-16j) Scr,Na Wp Na =MAX(Ca_min C Jr± )5 1.0 ICC-ES AC308 Eq.(D-16p) Cac Cac J Nag =Tk,c•aN.seis•Kbond•R-d •hef ICC-ES AC308 Eq.(D-16f) Variables f 1 f t tk,c,uncr[Psi] danchor[in.] het[in.] comic[in.] Saag[in.] n Tk,c[Psi] 1880 0.500 4.750 72.000 8.000 6 1051 kc fc[psi] ec1,N[in.] ecz,N[in.] Cac[in.] Kbond aN.seis 17 3000 0.000 2.845 12.614 1.00 0.800 Calculations Scr,Na[in.] ccr,Na[in.] ANa[in.2] ANao[in.2] Wed,Na tk,max[Psi] 11.385 5.693 545.65 129.63 1.000 1292 Wg,NaO Wg,Na Wec1,Na Wec2,Ne Wg,Na Nap[Ib] 1.385 1.062 1.000 0.667 1.000 6275 Results Nag[Ib] $bond +seismic +nonductile $Nag[Ib] Nua[Ib] 18711 0.650 0.750 1.000 9122 8296 Input data and results must be checked for agreement with the existing conditions and for plausibility! PROFIS Anchor(c)2003-2009 Hilti AG.FL-9494 Schaan Rib is a registered Trademark of Hilti AG,Schaan 24 1■■111■T1 www.hiltl.us Profis Anchor 2.4.6 Company: Page: 4 Specifier: Project: FOWLER MS Address: Sub-Project I Pos.No.: Phone I Fax: I Date: 4/15/2014 E-Mail: 3.3 Concrete Breakout Strength Ncbg = ( )Wec.N Wed,N Wc,N Wcp.N Nb ACI 318-08 Eq.(D-5) 4 Ncbg 2 Nua ACI 318-08 Eq.(D-1) ANC see ACI 318-08,Part D.5.2.1,Fig.RD.5.2.1(b) ANco =9 hef ACI 318-08 Eq.(D-6) 1 Wec,N = 1 5 1.0 ACI 318-08 Eq.(D-9) 3 he, tyed,N =0.7+0.3 (Ca.min)5 1.0 ACI 318-08 Eq.(D-11) 1.5hetJ Wcp,N =MAX(Cain, 1.5hat`5 1.0 ACI 318-08 Eq.(D-13) Cac Cec Nb =kc ,Vfrc ha• ACI 318-08 Eq.(D-7) Variables het[in.] ect,N[in.] ecz.N[in.] Ca.min[in.] Wc,N 4.750 0.000 2.845 72.000 1.000 cac[in.] kc � fc[Psi] 12.614 17 1 3000 Calculations AN,[in.2] ANco[in.2] Wect,N Wec2,N Wed.N Wcp,N Nb[Ib] 693.56 203.06 1.000 0.715 1.000 1.000 9639 Results Ncbg[Ib] concrete +seismic 4nonduutile •Ncbg[Ib] Nua[Ib] 23528 0.650 0.750 1.000 11470 8296 Input data and results must be checked for agreement with the existing conditions and for plausibility! PROFIS Anchor(c)2003-2009 Hilti AG,FL-9494 Schaan Hilti is a registered Trademark of Hilti AG,Schaan . . . 25 I■■III�TI www.hlltl.us Profis Anchor 2.4.6 Company: Page: 5 Specifier: Project: FOWLER MS Address: Sub-Project I Pos.No.: Phone I Fax: I Date: 4/15/2014 E-Mail: 4 Shear load Load Vua[Ib] Capacity+Vn[Ib] Utilization pv=Vaa/+Vn Status Steel Strength* 698 2593 27 OK Steel failure(with lever arm)' N/A N/A N/A N/A Pryout Strength(Bond Strength controls)" 4185 29466 15 OK Concrete edge failure in direction y+" 4185 23587 18 OK anchor having the highest loading **anchor group(relevant anchors) 4.1 Steel Strength Vsa =ay.seis(n 0.6 A5e_v futa) refer to ICC-ES ESR-3187 Vsteei 2 Vua ACI 318-08 Eq.(D-2) Variables Ase,v[in.2] futa[psi] aysais (n 0.6 Asa.v futa)[lb] 1 0.14 72500 0.700 6173 Calculations Vsa[Ib] 4321 Results Vsa[Ib] +steel +nonductite +Vsa[lb] Vua[lb] 4 321 0.600 1.000 2593 698 Input data and results must be checked for agreement with the existing conditions and for plausibility! PROFIS Anchor(c)2003-2009 Hilti AG,FL-9494 Schaan Hilti is a registered Trademark of Milli AG.Schaan . .C. ■ 26 IMO I I www.hilti.us _ Profis Anchor 2.4.6 Company: Page: 6 Specifier: Project: FOWLER MS Address: Sub-Project I Pos.No.: Phone I Fax: I Date: 4/15/2014 E-Mail: 4.2 Pryout Strength(Bond Strength controls) Vcpg =kcp[(A/ tiled,Na Wg,Na 4/ec.Na typNa Nao] ACI 318-08 Eq.(D-31) 4 Vcpg 2 Vua` ACI 318-08 Eq.(D-1) AN, see ICC-ES AC308,Part D.5.3.7 ANao =Scr,Na ICC-ES AC308 Eq.(D-16c) Scr.Na =20 d Tk,una 5 3 hef ICC-ES AC308 Eq.(D-16d) 1450 C =Sc_"a ICC-ES AC308 Eq.(D-16e) crNa, ` 2 tyedNa =0.7+0.3(CB-min)5 1.0 ICC-ES AC308 Eq.(D-16m) Cu,Na lOS Wg•Na =Wg•Nao+[(ss / •(1 W9,Nao)]2 1.0 ICC-ES AC308 Eq.(D-16g) r r `1. tyg,Nao =''n-[(vf1-1)• ( Tk,c ) 12 1.0 ICC-ES AC308 Eq.(D-16h) Tk,max,c k° Tk, h t' ICC-ES AC308 Eq.(D-16i) mexc=•d, n d of c 1 tyec,Na = (1 + 2, )5 1.0 ICC-ES AC308 Eq.(D-16j) Sm.Na Wp.Na =MAX(Ca-min - )5 1.0 ICC-ES AC308 Eq.(D-16p) Cac Cac J Nag =Tk.c•UN,seis•Kbond•IT•d•het ICC-ES AC308 Eq.(D-16f) Variables ff,,, k„,,, Tk,c,uncr[psi] Tk,c[psi] danchor[in.] lief[in.] 2.000 1880 1051 0.500 4.750 savg[in.] n kc ff[psi] ec1.N[in.] 8.000 6 17 3000 0.000 eczN[in.] C5.min[in.] Cac[in.] Kbond UN,seis 0.000 72.000 12.614 1.00 0.800 Calculations Scr,Na[in.] Ccr,Na[in.] Arta[in.2] ANao[in.2] tyed,N Tk,max[psi] 11.385 5.693 545.65 129.63 1.000 1292 Wo.Nao tyg,Na Wecl.N Vec2,N lyp,Na Nag[Ib] 1.385 1.062 1.000 1.000 1.000 6275 Results Vcp9[Ib] +concrete +seismic +nonductile 0 Vcpg[Ib] Vua[Ib] 56125 0.700 0.750 1.000 29466 4185 Input data and results must be checked for agreement with the existing conditions and for plausibility! PROFIS Anchor(c)2003-2009 Hilti AG,FL-9494 Schaan Hilti is a registered Trademark of Hilti AG,Schaan . f 27 NI`TI www.hllti.us Profis Anchor 2.4.6 Company: Page: 7 Specifier: Project: FOWLER MS Address: Sub-Project I Pos.No.: Phone I Fax: Date: 4/15/2014 E-Mail: 4.3 Concrete edge failure in direction y+ Av Veb9 =(Av o)yrec.v Iyed,V iyc,V Wh.V yrparallel,v Vb ACI 318-08 Eq.(D-22) Vebg 2 Vua ACI 318-08 Eq.(D-2) Ave see ACI 318-08,Part D.6.2.1,Fig.RD.6.2.1(b) Avco =4.5 cal ACI 318-08 Eq.(D-23) 1 Wecv = \1 + 2e„)51.0 ACI 318-08 Eq.(D-26) 3ca, yfed.v =0.7+0.3(1 5ca1)5 1.0 ACI 318-08 Eq.(D-28) 'l1h.v = 1.5ca1 2 1.0 ACI 318-08 Eq.(D-29) ha 0.2 Vb = (7(d) )a' ca; ACI 318-08 Eq.(D-24) a Variables cal[in.] cat[in.] eev[in.] wc.v ha[in.] 48.000 72.000 0.000 1.000 6.000 la[in.] da[in.] fe[psi] Wparallel,V 4.000 1.000 0.500 3000 1.000 Calculations Ave[in.2] Avon[in.2] Wec.V Wady Wh,V Vb[Pb] 984.00 10368.00 1.000 1.000 3.464 136654 Results Vcb9[Pb] laooncrete +seismic +nondud)e 4,Vcbg[lb] Vua[lb] 44928 0.700 0.750 1.000 23587 4185 5 Combined tension and shear loads _pN [tv Utilization ANA/[%] Status p p0.910 - 0.269 5/3 97 OK RNV= 3i+�V<=1 Input data and results must be checked for agreement with the existing conditions and for plausibility! PROFIS Anchor(c)2003-2009 Hilti AG.FL-9494 Schaan Hilti is a registered Trademark of Hilti AG,Schaan • • 28 1■■11`TI www.hiltl.us Profis Anchor 2.4.6 Company: Page: 8 Specifier: Project: FOWLER MS Address: Sub-Project I Pos.No.: Phone I Fax: I Date: 4/15/2014 E-Mail: 6 Warnings • To avoid failure of the anchor plate the required thickness can be calculated in PROFIS Anchor.Load re-distributions on the anchors due to elastic deformations of the anchor plate are not considered.The anchor plate is assumed to be sufficiently stiff,in order not to be deformed when subjected to the loading! • Condition A applies when supplementary reinforcement is used.The factor is increased for non-steel Design Strengths except Pullout Strength and Pryout strength. Condition B applies when supplementary reinforcement is not used and for Pullout Strength and Pryout Strength.Refer to your local standard. • Design Strengths of adhesive anchor systems are influenced by the cleaning method.Refer to the INSTRUCTIONS FOR USE given in the Evaluation Service Report for cleaning and installation instructions • The ACI 318-08 version of the software does not account for adhesive anchor special design provisions corresponding to overhead applications. • Checking the transfer of loads into the base material and the shear resistance are required in accordance with ACI 318 or the relevant standard! • An anchor design approach for structures assigned to Seismic Design Category C,D,E or F is given in ACI 318-08 Appendix D,Part D.3.3.4 that requires the governing design strength of an anchor or group of anchors be limited by ductile steel failure.If this is NOT the case,Part D.3.3.5 requires that the attachment that the anchor is connecting to the structure shall be designed so that the attachment will undergo ductile yielding at a load level corresponding to anchor forces no greater than the controlling design strength.In lieu of D.3.3.4 and D.3.3.5,the minimum design strength of the anchors shall be multiplied by a reduction factor per D.3.3.6. An alternative anchor design approach to ACI 318-08,Part D.3.3 is given in IBC 2009,Section 1908.1.9.This approach contains"Exceptions" that may be applied in lieu of D.3.3 for applications involving"non-structural components"as defined in ASCE 7,Section 13.4.2. An altemative anchor design approach to ACI 318-08,Part D.3.3 is given in IBC 2009,Section 1908.1.9.This approach contains"Exceptions" that may be applied in lieu of D.3.3 for applications involving"wall out-of-plane forces"as defined in ASCE 7,Equation 12.11-1 or Equation 12.14-10. • It is the responsibility of the user when inputting values for brittle reduction factors(pr,o„duct;,e)different than those noted in ACI 318-08,Part D.3.3.6 to determine if they are consistent with the design provisions of ACI 318-08,ASCE 7 and the governing building code. Selection of ynonductile 1.0 as a means of satisfying ACI 318-08,Part D.3.3.5 assumes the user has designed the attachment that the anchor is connecting to undergo ductile yielding at a force level<=the design strengths calculated per ACI 318-08,Part D.3.3.3. Fastening meets the design criteria! Input data and results must be checked for agreement with the existing conditions and for plausibility! PROFIS Anchor(c)2003-2009 Hilti AG,FL-9494 Schaan Hilti is a registered Trademark of Hilti AG,Schaan • 29 I■1111` r1 www.hilti.us Profis Anchor 2.4.6 Company: Page: 9 Specifier: Project: FOWLER MS Address: Sub-Project I Pos.No.: Phone I Fax: I Date: 4/15/2014 E-Mail: 7 Installation data Anchor plate,steel:- Anchor type and diameter:HIT-HY 200+HAS, 1/2 Profile:no profile;0.000 x 0.000 x 0.000 in. Installation torque:360.001 in.lb Hole diameter in the fixture:df=0.563 in. Hole diameter in the base material:0.563 in. Plate thickness(input):0.500 in. Hole depth in the base material:4.750 in. Recommended plate thickness:not calculated Minimum thickness of the base material:6.000 in. Cleaning:Premium cleaning of the drilled hole is required ♦y 12.000 12.000 o• • 0 0 03 04 05 0 0 0 • o co 0 0 0 v 01 06 02 • • 2.000 10.000 10.000 2.000 Coordinates Anchor in. Anchor x y c., c+. c-y c+y Anchor x y c, c+x c-y c+y 1 -10.000 -3.000 72.000 92.000 72.000 78.000 4 0.000 3.000 82.000 82.000 78.000 72.000 2 10.000 -3.000 92.000 72.000 72.000 78.000 5 10.000 3.000 92.000 72.000 78.000 72.000 3 -10.000 3.000 72.000 92.000 78.000 72.000 6 0.000 -3.000 82.000 82.000 72.000 78.000 Input data and results must be checked for agreement with the existing conditions and for plausibility! PROFIS Anchor(c)2003-2009 Hilti AG,FL-9494 Schaan Hilti is a registered Trademark of Hilti AG,Schaan . . • 30 1■■11`i • 1 www.hilti.us Profis Anchor 2.4.6 Company: Page: 10 Specifier: Project: FOWLER MS Address: Sub-Project I Pos.No.: Phone I Fax: Date: 4/15/2014 E-Mail: 8 Remarks; Your Cooperation Duties • Any and all information and data contained in the Software concern solely the use of Hilti products and are based on the principles,formulas and security regulations in accordance with Hilti's technical directions and operating,mounting and assembly instructions,etc.,that must be strictly complied with by the user. All figures contained therein are average figures,and therefore use-specific tests are to be conducted prior to using the relevant Hilti product. The results of the calculations carried out by means of the Software are based essentially on the data you put in. Therefore,you bear the sole responsibility for the absence of errors,the completeness and the relevance of the data to be put in by you. Moreover,you bear sole responsibility for having the results of the calculation checked and cleared by an expert,particularly with regard to compliance with applicable norms and permits,prior to using them for your specific facility. The Software serves only as an aid to interpret norms and permits without any guarantee as to the absence of errors,the correctness and the relevance of the results or suitability for a specific application. • You must take all necessary and reasonable steps to prevent or limit damage caused by the Software. In particular,you must arrange for the regular backup of programs and data and,if applicable,carry out the updates of the Software offered by Hilti on a regular basis.If you do not use the AutoUpdate function of the Software,you must ensure that you are using the current and thus up-to-date version of the Software in each case by carrying out manual updates via the Hilti Website. Hilti will not be liable for consequences,such as the recovery of lost or damaged data or programs,arising from a culpable breach of duty by you. Input data and results must be checked for agreement with the existing conditions and for plausibility! PROFIS Anchor(c)2003-2009 Hilti AG,FL-9494 Schaan Hilt)is a registered Trademark of Hilti AG,Schaan • . ® AquaEdge Chiller Performance Outputs Project Name:Tualatin Schools 01/31/2014 Sales Office:Airefco,Inc 07:37 PM rL • • Tag Name: CH-1 Chiller Weights Chiller Model 19XRV3535257BHH64 Total Rigging Weight ___.........._....._._...._._..._.14281 lb Starter/VFD........._....VFD-Unit Mounted(STD Tier) Total Operating Weight ____......_.... :_15305 lb Refrigerant Type R-134a Refrigerant Weight ......_ 926 lb Isolation Valve Installed Hot Gas Bypass _..__.._..._....__......._.._... Installed Condenser Operation Type......_......._......__..._..._.____._ Cooling Size 35 Cooler Waterbox Type Nozzle-In-Head,150 psi Size 35 Passes 1 Waterbox Type Nozzle-in-Head,150 psi Nozzle Arrangement Q Passes 2 Tubing Spike Fin III(SPK3),.025 in,Copper Nozzle Arrangement....... .... C Fluid Type Fresh Water Tubing Super E3(SUPE3),.025 in,Copper Fouling Factor(hr-soft-F)/BTU .....0.00025 Fluid Type Fresh Water Tube Quantity 218 Fouling Factor(hr-sqft-F)/BTU ._..._ 0.00010 Motor Tube Quantity 200 Size BHH Compressor Line Voltage/Hertz 460-3-60 Size 257 Flow Controls Map ID .. 43 Float Valve Size .. _.- 5 Flasc Orifice...-..._....._...._.................._._...._.........__....._...18 - Output Type Full Load Percent Load 100.00 Chiller Capacity 250 Tons Chiller Input kW 159 kW Chiller Input Power 0.636 kW/Ton Chiller COP 5.53 NPLV 0.423 kW/Ton NPLV,COP 8.320 Cooler Entering Temp. 54.88 F Leaving Temp. 44.00 F Flow Rate 550.0 gpm Pressure Drop 17.3 ft wg Condenser Heat Rejection 3518 MBH Leaving Temp. 94.50 F Entering Temp. 85.00 F Flow Rate 744.0 gpm Pressure Drop 3.5 ft wg Motor Motor Rated Load Amps 258 Chiller Rated Line Amps 218 Chiller Inrush Amps 218 Max Fuse/CB Amps 600 Min Circuit Ampacity 272 Compressor Flow Fraction 0.92 AquaEdge Chiller Builder v4.76 Page 1 of 2 COOLER (OVERALL LENGTH) 15'-4 3/4" Carder [4693mm] TUBESHEET TO TUBESHEET 0'-4 7/8''—■ 14'-0'• - Rs- 0'-11 7/8" N, [124mm] [4267mm] [302mm] JOB NAME: 11'-2 1/2° [3416mm] .nd:a� '{::m::L•: 10'-10 3/4" BUYER: [3321mm] AIL LL)..::OOH: tldle- 10'-8 5/8" - [3267mm] SALES ENG.: (1) 1 1/4" NPT RELIEF B°-150# Ia1•; I,:::ruK VALVE OUTLET (SEE FIELD VICTAULIC GROOVE/WELD TYPICAL MODEL NO.: INSTALLATION NOTES) POWER (SEE NOTE i4) PANEL 19<=1 57,,::7 /-.'F iP:,1 CONTROL PANEL JOB NO.: ■IRA ■ I�'I II—_�._—f-IN P.O. NO.:im.41- COOLER �„ II./ir:. Il II I -- ——.-OUT PREPARED BY: ..N`' 'ii)'iii'''.10 ' ELECTRIGIL• CHARACTERISTICS: IN-------- ----- '� ------4 - I:.P - I -- --- $-----OUT '1^I '3;5:: COND. �r�I� —_EMI JOBSRE LOCATION: 10.,-150/ re 71 PA VICTAULIC GROOVE/WELD TYPICAL SALES OFFICE: ISOLATION VALVE (SEE NOTE #4) LR,.I_, In- (NOTSHOWN) / REFRIGERANT NO.: (2) 1 1/4" NPT RELIEF S 1, VALVE OUTLET (SEE FIELD ` INSTALLATION NOTES) / '3'-I 3/4 NOTES: [959mm] MOUNTED VARIABLE FREQUENCY -8 7/8" _ 3'-4" DRIVE ACCESS SPACE [2664mm] [1016mm] (445 AMP DRIVE) (SEE NOTE p5) COMP'R: 19XR FRAME 2 COOLER: 19XR35-37 COND.. 19XR35-37 --as. -so—0'-11 7/8" 0'-11 7/8'• MACHINE ASSEMBLY [302mm] (302mm] PLAN NEW 15-11 3/ COND. (OVERALL LENGTH) DATE: 1/31/2014 [4870mm] REVISION: COMPRESSOR END PLAN VIEW DRIVE END TES DOCIMENT IS A141 IS DEUNERLD UPC*THE EXPRESS CONDITION DDT ME COMM 111.1 NOT YE(*- COMPRESSOR STARTER/VFD HEAT EXCHANGERS 19XR35-37 CLONED OR uSEO RRIIOUT MACHINE OPTIONS CNRNDR CORP.MOM 19XR FRAME 2 (OPTIONAL) COOLER CONDENSER C0N6Dn. SUBMISSION Of THESE CMOS. MOTOR TERMINAL NOZZLE W/B COVER WT. W/B COVER WT. NOZZLE W/B COVER WT. W/8 COVER WT. HOT GAS ISOLATION OR DOCUMENTS DOES NOT VOLTAGE BOX STARTER VFD PASS CODE PRESSURE COMP'R END DRIVE ENO PASS CODE PRESSURE COMP'R END DRIVE END BYPASS VALVE MMANC FOR ACCEPT Os LOW -- -- 2 C PSIG 243 0 KG.] (130 LKG.] 1 O PSIG 260 LBS. 260 LBS. tvc " I:<rsr_ [ [118 KG.] [118 KG.] NOT SHAWN HL/.._ :I- C CI_ NOTES: La L..i-.tt-nu 1. TOLERANCES ON NOZZLE LOCATIONS AND OVERALL DIMENSIONS ARE ± 1" [25mm]. 2. CARRIER DOES NOT RECOMMEND PRE-FAB WATER PIPING. - �y -C� 3.■,/ DENOTES APPUCABLE CONDITIONS 1 9 X R 3—214 4. FOR VICTAULIC GROOVE DETAIL SEE DRAWING 1 9XR 1 4VG. 5. FOR INCOMING WIRE LUG SIZES. SEE FIELD WIRING DIAGRAM 19XRFW92. SHT 1 OF 41 co N 0 Carder COOLER (OVERALL LENGTH) 15'-4 3/4" JOB NAME: r. (4693mm] 'R.-oGn -cfor1+ 0•-11 7/8''-r' — 14'-0" (302mm] [4267mm] �- 7/8" [124mm] BUYER: 11'-2 1/2" , 'kit-7 Of 'I A"Ile. [3416MM] - - 10'-8 5/8', - SALES ENG.: 0'-3 1/4" [3267mm] _crr; ' 'ircc (83m] LIFTING EYE BOLT (2) VARIABLE FREQUENCY DRIVE (2) 1 t/4" NPT REUEF MODEL NO.: (445 AMP DRNE)(SEE NOTE #5) VALVE OUTLET ON ...1)1./353.!.'2.!:70 II 4L CONDENSER. (SEE FIELD T INSTALLATION NOTES) JOB NO.: POWER (1) 1 1/4" NPT REUEF • PANEL VALVE OUTLET ON A CONTROL COOLER. (SEE FIELD P.O. NO.: PANEL INSTALLATION NOTES) PREPARED BY: _ MOTOR- o 6._3 1/4„ 8'-1 1/8" r_inotk [1911mm] ELECTRICAL (2467mm] 8"-150/ �� I� CHARACTERISTICS: MACHINE VICTAUUC GROOVE/WELD ,■ �o..� OVERALL HEIGHT TYPICAL (SEE NOTE /4) -15f7./.3/1-07, (WITH ORNE VFDP ■• JOBSITE LOCATION: OUT+�___ --_ --'-----------------� --f--I:[ [ -- COOLER --- T-2 3/4" N-� f .I SALES OFFICE: Artsf. . Ir: [679Imm] v ' 1 I + I REFRIGERANT NO.. Q , - I24o 1'-4 1/8' 1" NPT 1` NOTES: [410mm) REFRIGERANT 0'-3 3 8" DRAIN CONN. (88mm] [2134mm] 10'-10 3/4'• COMP'R: 19X12 FRAME 2 1 COOLER: 19X1235-37 [3321mm] CORD: 19X1235-37 MACHINE ASSEMBLY DRIVE END COMPRESSOR END FRONT VIEW FRONT VIEW DATE: 1/31/2014 REVISION: — nos DDCIMMT 4 THE PRO- PERTY OF CIRRIOI CORP. MID 6 DELIVERED UPON TIE COMM CONDITION 5I1T THE COMPRESSOR STARTER/VFD HEAT EXCHANGERS 19XR30-32 moons pl y J1 19X12 FRAME 2 (OPTIONAL) MACHINE OPTIONS CORP.MITTEN COOLER CONDENSER SUMMON N OF TIESE DOGS MOTOR TERMINAL STARTER VFD PASS NOZZLE PRESSURE W/B COVER WT. W/B COVER WT. HOT GAS ISOLATION ON DOCIAENIS ODE$NOT VOLTAGE BOX CODE DRIVE END COMP'R ENO BYPASS VALVE CowsntlTrE PART rcenR- FOR CONDENSER ARRANGEMENTS SEE REAR VIEW Mwa at ACCEPTANCE OF LOW -- __ 2 C 150 287 LBS. 243 LBS. CONTRACT. PSIG [130 KG.] [110 KG.] NOTSNDWN .FF:F »:. a ,9',F:. F.1 ••,. A .-I OI .,- (,V NOTES: ,,,I. 51-•YII 1. TOLERANCES ON NOZZLE LOCATIONS AND OVERALL DIMENSIONS ARE ± 1" [25mm). S.IFrr"rrr' re.: r-rr. 2. CARRIER DOES NOT RECOMMEND PRE-FAB WATER PIPING. 3.V DENOTES APPLICABLE CONDITIONS 1 9 X 123—21 4 4. FOR VICTAULIC GROOVE DETAIL SEE DRAWING 19XR14VG. 5. FOR INCOMING WIRE LUG SIZES. SEE FIELD WIRING DIAGRAM 19XRFW92. SHT :5_ OF 4 1 • • (1.W W t ' • Carfier) Fowler MS Prepared For: MacDonald Miller Prepared By: Larry Goodroe Phone: 503-692-3210 FAX: E-mail: Lgoodroe @airefco.com S. 14-1414i2 Performance Inputs List Project Name:Tualatin Schools 01/31/2014 Sales Office:Airefco,Inc 07:37 PM Tag Name _______ CH-1 Chiller Model 19XRV3535257BHH64 Cooler Size 35 Passes - -- - - _ _ --- 2 Waterbox___—___..._ ______ Nozzle-in-Head, 150 psi Tubing __.._...._..._ —____...._ Super E3(SUPE3), .025 in, Copper Condenser Size __._ 35 Passes __.___.__.__-__ _..._ __._ 1 Waterbox. __ ._._.. ___...____ __ Nozzle-in-Head, 150 psi Tubing Spike Fin III (SPK3), .025 in,Copper Compressor/Motor Compressor Size 257 Motor Size ___._ _.__.-_._._ BHH Line Voltage/Hertz ___ __.__..........__._________..._... ....._..__.__ 460/60 Flow Controls Float Valve Size _..__. _____ 5 Flasc Orifice ___..__ 18 Starting Equipment Starter/VFD...__..._..._ ___-_-_-__ VFD-Unit Mounted (STD Tier) Options Isolation Valve —._-_-_-__._.............__._..._.._.___ Installed Cooler Conditions Capacity 250 Tons Leaving Temperature _...._ ____..._...._.__..._....._...__._.__.._ 44.00 F FlowRate _____..._...__.__.__...____.__..._...__. _.__...__.__..._____..._ 550.0 gpm Maximum Pressure Drop _-_............... ---....._..._..._........_.....____._ 35.0 ft wg Fouling Factor _._.__..._ _________.._ Standard FluidType-_ __-_ Fresh Water Condenser Conditions Entering Temperature 85.00 F FlowRate_._--------------__.._..___—___ ---------------------..._.__----------------------.744.0 gpm Maximum Pressure Drop. ___._-.__..._ _ 35.0 ft wg Fouling Factor ________._ _.._ Standard FluidType Fresh Water AquaEdge Chiller Builder v4.76 Page 1 of 1 AquaEdge Chiller Performance Outputs Project Name:Tualatin Schools 01/31/2014 Sales Office:Airefco,Inc 07:37 PM 1.1 rms Tag Name: CH-1 Chiller Weights Chiller Model 19XRV3535257BHH64 Total Rigging Weight 14281 lb Starter/VFD VFD-Unit Mounted(STD Tier) Total Operating Weight 15305 lb Refrigerant Type.__ R-134a Refrigerant Weight _ 926 lb Isolation Valve..... ___. Installed Hot Gas Bypass Installed Condenser Operation Type _...._..._.........._...__.___________..__Cooling Size 35 Cooler Waterbox Type Nozzle-In-Head,150 psi Size 35 Passes 1 Waterbox Type_.._.._..__._._..Nozzle-in-Head,150 psi Nozzle Arrangement Q Passes 2 Tubing Spike Fin III(8PK3),.025 In,Copper Nozzle Arrangement....... . C Fluid Type Fresh Water Tubing Super E3(SUPE3),.025 in,Copper Fouling Factor(hr-sqft-F)/BTU 0.00025 Fluid Type Fresh Water Tube Quantity 218 Fouling Factor(hr-sgft-F)/BTU 0.00010 Motor Tube Quantity 200 Size BHH Compressor Line Voltage/Hertz 460-3-60 Size 257 Flow Controls Map ID. _.._ 43 Float Valve Size _......__..._..._...___.._..._... _. ....._...__..._ 5 Flasc Orifice.............._...____..._..._.._....._..._.................... 18 Output Type Full Load Percent Load 100.00 Chiller Capacity 250 Tons Chiller Input kW 159 kW Chiller Input Power 0.636 kW/Ton Chiller COP 5.53 NPLV 0.423 kW/Ton NPLV,COP 8.320 Cooler Entering Temp. 54.88 F Leaving Temp. 44.00 F Flow Rate 550.0 gpm Pressure Drop 17.3 ft wg Condenser Heat Rejection 3518 MBH Leaving Temp. 94.50 F Entering Temp. 85.00 F Flow Rate 744.0 gpm Pressure Drop 3.5 ft wg Motor Motor Rated Load Amps 258 Chiller Rated Line Amps 218 Chiller Inrush Amps 218 Max Fuse/CB Amps 600 Min Circuit Ampacity 272 Compressor Flow Fraction 0.92 AquaEdge Chiller Builder v4.76 Page 1 of 2 AquaEdge Chiller Performance Outputs Project Name:Tualatin Schools 01/31/2014 Sales Office:Airefco,Inc 07:37 PM Head Fraction 0.85 Discharge Temp 112.60 F Control Parameters Surge/HGBP GVmin 5% Surge/HGBP Delta Tsmin 39.78 F Surge Line Shape Factor -0.06 Surge/HGBP GVmax 100% Surge/HGBP Delta Tsmax 63.86 F Cooler Min DP 2.8 psi Condenser Min DP 1.2 psi Heat Exchangers Condensing Temp 97.69 F Cooler Wall Temp 43.81 F Suction Temp 43.70 F Cooler Freeze Temp 32.40 F Cooler Tube Vel 5.20 ft/s Cond Tube Vel 3.49 ft/s Cooler Fouling Temp Adj 0.13 F Condenser Fouling Temp Adj 0.80 F ASHRAE 90.1 Efficiency Requirements ASHRAE 90.1 Max. Input Power N/A ASHRAE 90.1 Max.IPLV/NPLV N/A Messages: rv� l;E Ri FIED (1) Certified in accordance with the AHRI Water-Cooled Water Chilling Packages Using Vapor Compression Cycle Certification Program,which is based on AHRI Standard 550/590(I-P).Certified units may be found in the AHRI Directory at www.ahridirectory.org. (2) Unable to meet all input requirements.This selection is the best available. AquaEdge Chiller Builder v4.76 Page 2 of 2 cs==. Aqua Edge Chiller Cooler Pressure Drop Project Name:Tualatin Schools 01/31/2014 Sales Office:Airefco,Inc 0737 PM Tag Name CH-1 Chiller Model 19XRV3535257BHH64 Cooler Size 35 Cooler Waterbox Type Nozzle-in-Head, 150 psi Cooler Passes 2 Cooler Tubing Type Super E3(SUM),.025 in,Copper Cooler Flow Rate 550.0 gpm Cooler Pressure Drop 17.3 ft wg Cooler Fluid Type Fresh Water Cooler Minimum Flow Rate. 317.3 gpm Cooler Maximum Flow Rate 1269.0 gpm Note: This does not imply that the chiller can be properly applied over the entire range of cooler water flow rates represented. The chart is to represent pressure drops only. Cooler Pressure Drop 70 211P • 60 • • 50 - - - • 2 • a 2 40 • (.0 - C/) • 01/1' 30 20 e- • • 10 ,• Ct 1.1 lll ! ! lllIlII r Ill I II liii liii liii II 400 500 600 700 800 900 1000 1100 1200 Flow Rate, gpm AquaEdge Chiller Builder v4.76 Page 1 of 1 * 611111=P Aqua Edge Chiller Condenser Pressure Drop Project Name:Tualatin Schools 01/31/2014 Sales Office:Airefco,Inc 07:37 PM Tag Name CH-1 Chiller Model 19XRV3535257BHH64 Condenser Size 35 Condenser Waterbox Type Nozzle-in-Head, 150 psi Condenser Passes 1 Condenser Tubing Type Spike Fin III(SPK3),.025 in,Copper Condenser Flow Rate ............ ..... ...... 744.0 gpm Condenser Pressure Drop 3.5 ft wg Condenser Fluid Type Fresh Water Condenser Minimum Flow Rate 640.0 gpm Condenser Maximum Flow Rate 2560.0 gpm Note: This does not imply that the chiller can be properly applied over the entire range of condenser water flow rates represented. The chart is to represent pressure drops only. Condenser Pressure Drop 30 25 cr.) • • ci 20 2 • fn • cf) 15 • 0_ i • • 10 • • • 5 • till ill ! ' Lir 1111 IIII I ' ll 1111 I 750 1000 1250 1500 1750 2000 2250 2500 Flow Rate, gpm AquaFdge Chiller Builder v4.76 Page 1 of 1 AquaEdge Chiller Estimated Acoustic Data Project Name:Tualatin Schools 01/31/2014 Sales Office:Airefco,Inc 07:37 PM Tag Name CH-1 Chiller Model 19XRV3535257BHH64 Sound Treatment No Treatment Airborne Sound Pressure, dB Octave Band Center Frequency, Hz Percent Load DBA 31.5 63 125 250 500 _ 1k 2k 4k 8k 100.0 85 73 68 69 72 74 75 78 79 81 Notes: Estimated Sound Pressure Levels-dB re: 20 micropascal. Sound pressure levels used to develop this program were measured per AHRI Standard 575. The sound pressure levels were measured in an acoustical free-field, i.e. a non-reflective environment. Field sound measurements can vary significantly as a function of the reflectivity and proximity of nearby surfaces and the presence of other sound sources. The sound pressure level depicted above is based on constant speed. For a VFD driven chiller, it is estimated that, on average,there will be a 2-3 dbA reduction in the overall sound pressure level based on a typical reduction in compressor head at part-load operating conditions. AquaEdge Chiller Builder v4.76 Page 1 of 1 ® AquaEdge Chiller Configuration Project Name:Tualatin Schools 01/31/2014 Sales Office:Airefco,Inc 07:37 PM 25e.Le Tag Name: CH-1 Chiller Chiller Model 19XRV3535257BHH64- Weights and Approximate Dimensions Starter/VFD VFD-Unit Mounted(STD Tier) Total Rigging Weight 14281 lb Refrigerant Type R-134a Total Operating Weight 15305 lb Cooler Refrigerant Weight 926 lb Size 35 Length x Width x Height 192.50 x 67.51 x 101.00 in Waterbox Type Nozzle-in-Head,150 psi Condenser Passes 2 Size 35 Nozzle Arrangement C Waterbox Type Nozzle-In-Head,150 psi Tubing Super E3(SUPE3),.025 In,Copper Passes 1 Fluid Type Fresh Water Nozzle Arrangement Q Tube Quantity 200 Tubing Spike Fin III(SPK3),.025 in,Copper Compressor Fluid Type Fresh Water Size 257 Tube Quantity 218 Motor Size BHH Line Voltage/Hertz 460-3-60 Oil Pump Voltage/Hertz 460-3-60 Flow Controls Float Valve Size 5 Flasc Orifice 18 Specified Chiller Options: Isolation Valve Package Insulation Type: Factory Insulation (3/4 inch) Refrigerant Shipment: Shipped in Machine Automatic Hot Gas Bypass BACnet communication Extended Warranty • Optional Unit Mounted VFD: Factory Mounting CCS Chiller Start Up: Included Warranty: One (1)year from start up or eighteen (18) months from shipment, whichever occurs first. Five(5)year refrigerant warranty included. " Please refer to the Refrigerant Warranty Certificate for more details regarding the Refrigerant Warranty'". Note: This list of specified chiller options does not include any of the separate-ship accessories (gasket kits, refrigerant cylinders, standalone pumpout units, or storage tank/pumpout units), nor any items specified on a Quote Control. These items are specified as part of a bid, and not in the chiller tag. The Pricing Report includes all of these items as specified in a bid. AquaEdge Chiller Builder v4.76 Page 1 of 1 Electrical System Assumptions Report Project Name:Tualatin Schools 01/31/2014 Sales Office:Airefco,Inc 07:37 PM Tag Name CH-1 Chiller Model 19XRV3535257BHH64 Electrical System Assumptions The Carrier equipment offered was selected based on the following information provided with respect to the power supply at the job site. Ref. # Assumption 1.1 The site is not expected to have voltage variations in excess of+/- 10% of nominal. 1.2 There are no power factor correction capacitors on the same circuit. 1.3 There are no large DC rectifiers or Arc furnaces on the same circuit. 1.4 The chiller is not required to operate through an open transition power transfer. 2.1 The power supply does have a low resistance ground. 2.2 The power transformer serving the chiller is a delta/wye style connection. 2.3 The VFD will be located in an indoor climate controlled area where relative humidity will not exceed 95% (non-condensing). 3.1 The application is not a data center 3.2 The specification does not require a harmonic filter. 3.3 The specification does not reference IEEE-519. 3.4 The specification does not require the installation to meet IEEE-519. 3.5 The specification does not require <5%THD. 3.6 VFD full load power factor is not required to be greater than 95%. 3.7 The specification does not require an "active front end"or require that the rectifiers be Insulated Gate Bipolar Transistors (IGBTs). 3.8 No additional isolation between the VFD and sensitive equipment is required. 3.9 The application does not have a history of power transients (quick temporary fluctuations in supply voltage). 4.1 The transformer kVA is less than 10 times the VFD kVA. 4.2 The site is not located at or near the end of the utlity power line. 4.3 The spec does not require a line reactor. AquaEdge Chiller Builder v4.76 Page 1 of 1 COOLER (OVERALL LENGTH) I11�' lar'do� 15'-4 3/4" ~ AUnhMTechnoloplpCompvry TUBESHEET TO TUBESHEET [4693mm] 7.0. BOX 4808, SYRACUSE. N.Y. 13221 0'-4 7/8" ► 14'-0" r .� 0,-11 7/8" �s . - ..� [124mm] [4267mm] [302mm] JOB NAME: , l�lA 1 19 ^Gr V 1 1'-2 1/2" �- �L''4 Tualatin Schools . [3416mm] - 10'-10 3/4" In • �f' J�f t rL7,�H() BUYER: [332 1 m m] !.„t�f. i ;,ok'it MacDonald Miller 1,,,1 10'-8 5/8” ri.- [3267mm] SALES ENG.: (1) 1 1/4" NPT RELIEF 8"-150# Larry Goodroe VALVE OUTLET (SEE FIELD VICTAULIC GROOVE/WELD TYPICAL MODEL NO.: INSTALLATION NOTES) --POWER (SEE NOTE #4) 1 9XRV3535257B HH64 PANEL CONTROL PANEL JOB NO.: X:-1 •iv 1 n-- I I,--- - ----- �JI �= I- - - _ + IN P.O. N0.- COOLER Iar.. _. _ `irrPREPARED BY: �1g wr - T. �I.u`� — OUT ' �•'•`z•• ELECTRICAL CHARACTERISTICS: INS - Q - -- - --- rvl.. — --- w ,1 - --- - - -- Q - —� OUT 460/3/60 COND. *u 0 .I JOBSITE LOCATION: . _ . I :'�,. 10"-150# • f '� VICTAULIC GROOVE/WELD 1 TYPICAL SALES OFFICE: ISOLATION VALVE / (SEE NOTE #4) Airefco, Inc (NOT SHOWN) (2) 1 1/4" NPT RELIEF , // REFRIGERANT NO.: VALVE OUTLET (SEE FIELD R-134a INSTALLATION NOTES) -- 3'-1 3/4"'' NOTES: [959mm] MOUNTED VARIABLE FREQUENCY 8'-8 7/8" 3'-4"- DRIVE ACCESS SPACE [2664mm] [1016mm] (445 AMP DRIVE) (SEE NOTE #5) ---- --. COMP'R: 19XR FRAME 2 COOLER: 19XR35-37 COND: 19XR35-37 0'-11 7/8" MACHINE ASSEMBLY 0' 11 7/8" PLAN VIEW [302mm] [302mm] 15'-1 1 3/4- DATE: 1/31/2014 +OP COND. (OVERALL LENGTH) [4870mm] REVISION: I C THIS DOCUMENT IS THE PRO- DRIVE END PLAN VILVY DRIVE END CARRIER CORP. AND IS DELIVERED UPON THE EXPRESS CONDITION THAT THE CONTENTS WILL NOT BE DIS- COMPRESSOR STARTER/VFD HEAT EXCHANGERS 19XR35-37 CLOSED OR USED WITHOUT 19XR FRAME 2 (OPTIONAL) COOLER CONDENSER MACHINE OPTIONS CONSIENT.CORP. WRITTEN I SUBMISSION OF THESE DWG'S. • MOTOR TERMINAL NOZZLE W/B COVER WT. W/B COVER WT. NOZZLE W/B COVER WT. W/B COVER WT. HOT GAS ISOLATION OR DOCUMENTS DOES NOT STARTER VFD PASS PRESSURE PASS PRESSURE CONSTITUTE PART PERFOR- " VOLTAGE BOX CODE COMP'R END DRIVE END CODE COMP'R END DRIVE END BYPASS VALVE MANCE OR ACCEPTANCE OF LOW 2 C 1 Q 150 243 LBS. 287 LBS. 150 260 LBS. 260 LBS. CONTRACT. PSIG [110 KG.] [130 KG.] PSIG [118 KG.] [118 KG.] NOT SHOWN V CARRIER DWG # 19XR35P2 REV. J SHT 01 OF 01 NOTES: DATE: 3-31-2011 1. TOLERANCES ON NOZZLE LOCATIONS AND OVERALL DIMENSIONS ARE ± 1" [25mm]. SUPERSEDES DWG. DATED: 11/06/2009 2. CARRIER DOES NOT RECOMMEND PRE-FAB WATER PIPING. 3. V DENOTES APPLICABLE CONDITIONS 1 9 X R 3 2 1 4 4. FOR VICTAULIC GROOVE DETAIL SEE DRAWING 19XR14VG. 5. FOR INCOMING WIRE LUG SIZES, SEE FIELD WIRING DIAGRAM 19XRFW92. SHT 1 OF 41 6 AndTOsp A linked TsGlnolopir Company ".C. 000 4808, SYRACUSE, N.Y. 13221 14'-0" — JOB NAME: [4267mm] Tualatin Schools BUYER: MINIMUM SERVICE AREA MacDonald Miller SALES ENG.: . z t 1I._..I7A Lorry Goodroe 2._6„ MODEL NO.: [767mm] 1 9XRV3535257B HH64 Ii7 ,111...m.=ii. JOB NO.:A I �...4 I OWI_ P.O. NO.: _ •COOLER • II'I:ITN PREPARED BY:II I h��I�h.Ll- - °� �I 1 ELECTRICAL I CHARACTERISTICS: IP - - - 460/3/60 COND. , +� JOBSITE LOCATION: MEI -.I . SALES OFFICE: Airefco, Inc 3'-6' - — [1067mm] REFRIGERANT NO.: R-134a NOTES: MINIMUM SERVICE AREA COMP'R: 19XR i RAML 2 PLAN VI 7 W COOLER: 19XR35-37 COND: 19XR35-37 MACHINE ASSEMBLY COMPRESSOR: 19XR FRAME 2 PLAN VIEW MINIMUM SERVICE CLEARANCE DATE: 1/31/2014,_ WITH 400 AMP & 445 AMP REVISION: VARIABLE FREQUENCY DRIVE THIS DOCUMENT IS THE PRO- PERTY OF CARRIER CORP. AND IS DELIVERED UPON THE EXPRESS CONDITION THAT THE CONTENTS WILL NOT BE DIS- CLOSED OR USED WITHOUT CARRIER CORP. WRITTEN CONSENT. SUBMISSION OF THESE DWG'S. OR DOCUMENTS DOES NOT CONSTITUTE PART PERFOR- MANCE OR ACCEPTANCE OF CONTRACT. CARRIER DWG # 19XR35P2 REV. J SHT 01 of 01 NOTES: DATE: 3-31-2011 1. TOLERANCES ON NOZZLE LOCATIONS AND OVERALL DIMENSIONS ARE ± 1'' [25mm]. SUPERSEDES DWG. DATED: 11/06/2009 2. CARRIER DOES NOT RECOMMEND PRE-FAB WATER PIPING. 19XR3 214 SHT 2 OF 41 R _ • d� o A u° e� o United d rchTechnologies on° ol..Company BOX 4808. SYRACUSE, NY. 13221 JOB NAME: Tualatin Schools BUYER: • MacDonald Miller • SALES ENG.: Larry Goodroe MODEL NO.: 2'-9 3/4" T 19XRV3535257BHH64 [857mm] JOB NO.: P.O. N0. • 1I!_ -- - 1 -5[432mmCOOLER I 0 ` �� /1/ PREPARED BY: �I �. -: •I�� • ' I ✓� : ■ ELECTRICAL CHARACTERISTICS: i MOTOR SERVICE CLEARANCE 460/3/60 COND. ' I JOBSITE LOCATION: s -1 I ' a SALES OFFICE: Airefco, Inc REFRIGERANT NO.: R-134o NOTES: COMP'R: 19XR FRAME 2 COOLER: 19XR35-37 COND: 19XR35-37 MACHINE ASSEMBLY PLAN VIEW COMPRESSOR END PLAN VIEW DRIVE END DATE: 1/31/2014 REVISION: COMPRESSOR: 19XR FRAME 2 THIS DOCUMENT IS THE PRO- LOW VOLTAGE MOTOR SERVICE CLEARANCE PERTY OF CARRIER CORP. AND IS DELIVERED UPON THE EXPRESS CONDITION THAT THE CONTENTS WILL NOT BE DIS- CLOSED OR USED WITHOUT CARRIER CORP. WRITTEN CONSENT. SUBMISSION OF THESE DWC'S. OR DOCUMENTS DOES NOT CONSTITUTE PART PERFOR- MANCE OR ACCEPTANCE OF CONTRACT. CARRIER DWG # 19XR35P2 REV. J SHT 01 OF 01 NOTES: DATE: 3-31-2011 1. TOLERANCES ON NOZZLE LOCATIONS AND OVERALL DIMENSIONS ARE ± 1" [25mm]. SUPERSEDES DWG. DATED: 11/06/2009 2. CARRIER DOES NOT RECOMMEND PRE—FAB WATER PIPING. 19XR3-21 4 SHT 3 OF 41 I 6 C41 aN T A United lYaMaloplM Company P.O.BOX 4808,SYRACUSE, N.Y. 13221 JOB NAME: Tualatin Schools . E BUYER: • MacDonald Miller • I 14'-4" SALES ENG.: [4369mm] Larry Goodroe WATERBOX COVER & NOZZLES FROM WATERBOX MODEL NO.: NOT SHOWN (TYPICAL) FLANGE (TYPICAL) 19XRV3535257BHH64 TUBE REMOVAL SPACE Fii EITHER END JOB NO.: U•—, l' \ P.O. NO.: "!r 2 -3 1/4 692mm^IIIN [ ] COOLER ,�1r._ `III�1 w,r_ i., \ i PREPARED BY: MINIMUM rip.:1' r \\� SERVICE \ t ELECTRICAL AREA ` CHARACTERISTICS: REQUIRED — 2'-1 3/4"m 460/3/60 — COND. •�J•. [654m ] JOBSITE LOCATION: ' I _ ■\ b.. i 2'-0" SALES OFFICE: [610mm] TUBE REMOVAL SPACE TYPICAL EITHER END Airefco, Inc REFRIGERANT NO.: R-134a NOTES: COMP'R: 19XR FRAME 2 COOLER: 19XR35-37 COND: 19XR35-37 MACHINE ASSEMBLY PLAN VIEW COMPRESSOR END PLAN VIEW DRIVE END DATE: 1/31/2014 REVISION: COMPRESSOR: 19XR FRAME 2 THIS DOCUMENT IS THE PRO— TUBE REMOVAL SPACE AND SERVICE PERTY OF CARRIER CORP. AREA FOR NOZZLE IN HEAD WATERBOXES AND IS DELIVERED UPON THE EXPRESS CONDITION THAT THE CONTENTS WILL NOT BE DIS- CLOSED DR USED WITHOUT CARRIER CORP. WRITTEN CONSENT. SUBMISSION OF THESE DWG'S. • OR DOCUMENTS DOES NOT CONSTITUTE PART PERFOR— MANCE OR ACCEPTANCE OF CONTRACT. CARRIER DWG # 19XR35P2 REV. J SHT 01 OF 01 NOTES: DATE: 3-31-201 1 1. TOLERANCES ON NOZZLE LOCATIONS AND OVERALL DIMENSIONS ARE ± 1" [25mm]. SUPERSEDES DWG. DATED: 11/06/2009 2. CARRIER DOES NOT RECOMMEND PRE-FAB WATER PIPING. 1 9 X R 3- 2 1 4 SHT 4 OF 41