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20080402 Fire Sprinkler Plan Rev 112708TOWNZEN & ASSOCIATES FI~tE & BUILDING CODE SOLUTIONS November 27, 2008 Mr. Gary Carison Buiiding Official City of Yelm P.O. Box 479 Yelm, WA 98597 RE: Fire SpMnkler Plan Review Tahoma Terra Fairway Apartments Dear Gary: The project listed above is approved for release of the permit; with three red line comments noted on the plans. Just a not also, these are revised plans from the ones that were submitted to the city. If you have any questions, please give me a call. Sincerely, Townzen & Associates ~ Les Townzen, CFPS President REC~~~~p DEC 0 3 2~~~ 410 11t" AVE SE, SUITE 202 * OLYMPIA, WA 98501 # TEL: 360-754-2335 " FAX: 360-754-7722 www.townzen-consulting.com KNIGHT FIRE PROTECTION, INC. 9702 LATHROP INDUSTRIAL DRIVE SW OLYMPIA, WA 98512-9188 360-786-8606 F~ 360-786-8722 CONTRACTOR'S LICENSE NO. # KNIGHFP044LK "ON GUARD 24 HOURS A DAY" >'` TO: Q ~ C.~~- WE ARE SENDING YOU: REMARKS: TRANSMITTAL DATE / ~ . ~~ ]OB NO. ~ ~ ATCENTTON REFERENC • COPY TO SIGNED IF ENCLOStJRES ARE NOT AS DESCRIBED, PLEASE NOTIFY US AT ONCE. DEC 0 3 2008 -WILK/N5 A ,~R,gl. COMPANY 0 0 ~~ b ~~ FEATURES Sizes: ^ 3/4" ^ 1" ^ 1'/" ^ 1'/2" ^ 2" SPECIFICATION SUBMITTAL SHEET rnoaei y5u~c~~ Top Access Double Check Valve Assembly APPLICATION Designed for installation on potable water lines to protect against both backsiphonage and backpressure of polluted water into the potable water supply. A tethered test cock cap is provided to protect against fouling caused by insects, dirt and debris. Assembly shall provide protection where a potential non-health hazard exists. Maximum working water pressure 175 PSI STANDARDS COMPLIANCE Maximum working water temperature 180°F ^ ASSEO Listed 1015 (Vertical flow-up:1'/z' & 2") Hydrostatic test pressure 350 PSI ^ -APMOO Listed EndconnectionsThreaded ANSIB1.20.1 ~ AWWACompiiant ^ CSAO Certified ^ Approved by the Foundation for Cross Connection Control and Hydraulic Research at the University of Southem Califomia OPTIONS (Suffixes can be combined) ^ L- less ball valves MATERIALS ^ FT - with "Fast Test" testcocks Main valve body Cast Bronze ASTM B 584 ^ U- with union ball valves Access covers Cast Bronze ASTM B 584 ^ S- with bronze "Y" type strainer Fasteners Stainless Steel, 300 Series Elastomers Silicone (FDA approved) Buna Nitrile (FDA approved) Polymers NoryIT"", NSF Listed Springs Stainless steel, 300 series ACCESSORIES Test cock cover Plastic ^ Repair kit (rubber only) ^ Thermal expansion tank (Model WXTP) ^ Bronze wye strainer ^ Stainless steel ball valve handles DIMENSIONS & WEIGHTS (do not include pkg.) DIMENSION S INCHES WEIGHT LBS MODEL SIZE A A UNION BALL VALVES B LESS BALL VALVES C D E F G LESS BALL VALVES WITH BALL VALVES 3/4" 13.00 14.30 8.75 2.40 2.30 3.30 0.75 17.60 4.0 8.0 I 1" 14. 75 15. 50 8. 75 2.50 2.30 3.30 0. 75 19. 75 8.0 9.0 1 1/4" 19.60 21.60 13. 75 4.00 3.60 4.40 1.30 24. 70 16.0 21. 0 1 1/2" 20. 30 22.30 13.75 5.40 3.60 4.40 1. 30 25. 90 16.0 24. 0 2" 21.40 23.20 13.75 5.80 3.60 4.40 1.30 28.30 17.0 28.0 Pa e 1 of 2 DOCUMENT NO REV 9 BF-950XLT 7/99 ~ ~ ~ ~,~ f ~A~ ~,_ a.; ~~c o 3 ~oos FLOW CHARACTERISTICS ~? Model 950XLT 3/<" & 1" (STANDARD) i, Model 950XLT 1'/<", 1'/z" 8~ 2" (STANDARD) a 15 ~^ a 15 ~ 1/a^ 2„ ~j 3/4" ~ 1 1l2„ ~ 10 ~ 10 ~ ~ 0 0 J J ~ 5 ~ 5 > > ~ ~ w 0 W 0 a 0 20 40 60 80 a 0 50 100 150 200 250 FLOW RATES (U.S. GPM) O Rated Flow FLOW RATES (U.S. GPM) (Established by approval agencies) ~1 Y ~ ~ 0 w ~ ~ N 3 ~ w ~ a ~12 ~, g ~ 0 w 6 ~ ~ ~ 3 w ~ a O Rated Flow (Established by approval agencies) TYPICAL INSTALLATION Local codes shall govern installation requirements. To be installed in accordance with the manufacturer's instructions and the latest edition of the Uniform Plumbing Code. Unless otherwise specified, the assembly shall be mounted at a minimum of 12" (305mm) and a maximum of 30" (762mm) above adequate drains with sufficient side clearance for test- ing and maintenance. The installation shall be made so that no part of the unit can be submerged. PROTECTIVE ENCLOSURE ~ r-------------------- -, OUTDOOR INSTALLATION PIT INSTALLATION SPECIFICATIONS The double check type backflow preventer shall be ASSE 1015 Listed, rated to 180°F and supplied with full port ball valves. The main body and access covers shall be bronze (ASTM B 584), the seat ring and all internal polymers shall be NSFO Listed NorylT"" and the seat disc elastomers shall be SILICONE. The first and second check shall be located at a 45° angle and accessibie for maintenance from the top of the device, without removing the device from the line. Each check shall have separate access covers and testcocks shall be accessible from the top of the device. Testcocks shall be protected from debris by a tethered cap. The double check valve shall be a WILKINS Model 950XLT. Page 2 of 2 Model 950XLT 20mm & 25mm (METRIC) 20 25mm 90 20mm 60 0 ~0 1 2 3 4 5 FLOW RATE (I/s) Model 950XLT 32mm, 40mm & 50mm (METRIC) O 32mm 40mm 50mm 0 0 0 ~ 0 3 6 9 12 15 18 FLOW RATE (I/s) WILKINS OPERATION OF ZURN PLUMBING PRODUCTS, 1747 Commerce Way, Paso Robles, CA 93446 Phone:805/238-7100 Fax:805/238-5766 IN CANADA: ZURN INDUSTRIES LIMITED, 3544 Nashua Dr., Mississauga, Ontario L4V 1 L2 Phone:905/795-8844 Fax:905/795-8850 DIRECTION OF FLOW ~ DIRECTION OF FLOW ~ ~.~_, ~-~ `~~~-~:'~~~~°~~ - - -- - _--- - - --- ---- ~ _ _ __ .~~...__ , _ r ..- U~ FM U~C i ' ~ SEE VICTAULIC PUBLICATION 10.01 FOR DETAILS ~ STYLE 747P ' PRESSURE RELIEF OPTION The Victaulic Styte 747P Riser Manifold Assembly is a compact, easy to instali device with a pressure relief, intentled for use in zoned wet sprinkler systems. The Riser Manifold Assembly includes the Manifold Botly, a Flow Switch, a Pressure Gauge, and a Style 720P TestMaster Ilr"' Alarm Test Module with standard Yz" orifice and optional ~~/az" orifice. The Style 747P Riser Manifold Assembly is available in sizes from 2- 6"/50 - 150mm with grooved ends for easy installation. Note the drain connection on the TestMaster II is threaded. The Riser Manifold Assembly is FM Approved and UL and ULC Listed for working pressures up to 175psi/1206kPa. ti r. DIMENSIONS JOB/OWNER System No. Location ~ ~ , ,,°~ , ; f ~ , ~ ~ ,~ s~ ;~ ~ ! ; l~ ~ ~ ~;~ i, ~ , r~ ~ ; 9 ~; : ~ ~.J r , . .. . 2 2.375 1~/a 16.00 7.90 10J0 003 603 42 ~ 406 201 z72 2!%i 2.875 1'/a 16D0 810 1100 73.0 --- ~ 73 0 42 40fi 206 279 3 3.500 1'/a 16.00 840 1130 F,5 9 RR 9 42 40h 213 Zft7 4 4500 2 16 00 890 12 00 I I4.; __.. _. _._ 114 ~ 50 405 226 3n5 ' 6b25 2 1600 1000 13.00 Io83 1683 60 406 254 330 CONTRACTOR Submitted By ~~ ~ ~~} ~ ~~~_~ ~ ~~r RS,~nI ~~ ~ ~~ ~ :.g ` 9~~{I;~` 5.19 8 38 21 2 132 ?13 96 5 40 838 24.4 137 213 11 0 5.70 838 273 14$ 213 12A 6.65 838 35.1 169 213 15.9 766 838 475 194 213 21.5 ENGINEER Spec Sect Para Approved Date www.victaulic.com VICTAULIC IS A REGISTERED TRADEMARK OF VICTAULIC COMPANY OO 2006 VICTAUUC COMPANY ALL RIGHTS RESERVED. PRINTED IN THE USA _~Ct`caUI1C ~.~i~",!-~ t~,~`r~ ~ ' February 11, 2005 Sprinkler 140 j ~ ° FREEDOMT"" RESIDENTIAL ~ ~ ~ ~ PENDENT SPRINKLER SIN VK436 (5.2 K-FACTOR) 1. PRODUCT NAME Viking FreedomT"' Residential Pendent Sprinkler SIN VK436t • Sprinkler Base Part Number 12166 • Available since 2003 tThe Sprinkler ldentification Number (SIN) is stamped on the sprinkler deflector. 2. MANUFACTURER The Viking Corporation 210 N. Industrial Park Road Hastings, Michigan 49058, USA Telephone: (269) 945-9501 (877)384-5464 Fax: (269) 945-9599 e-mail: techsvcs@vikingcorp.com 3. TECHNICAL DATA Giass-bulb fluid temperature rated to -65 °F (-55 °C). Rated to 175 psi (1 207 kPa) water work- ing pressure. Factory tested hydrostaticaliy to 500 psi (3 448 kPa). Testing: U.S.A. Patent No. 4,831,870 Thread Size: %" (15 mm) NPT Nominal K-Factor: 5.2 U.S. (7,5 metric') ' Metric K-Factor shown is for use when pressure is measured in kPa. When pressure is measured in BAR, multiply the metric K-Factor shown by 10.0. Overall Length: 2-1/4" (57 mm) SPRINKLER MATERIALS Frame: Brass Castings UNS-C84400 Deflector: Brass UNS-C51000 Bulb: Glass, nominal 3 mm diameter Believille Spring Sealing Assembly: Nickel Ailoy, coated on both sides with Teflon Tape Compression Screw: Brass UNS-C36000 Pip Cap and insert Assembly: Copper UNS-C11000 and Stainless Steel U N S-S30400 4. ACCESSORIES Sprinkler Cabinets: A. Six-head capacity: Part No. 01724A B. Tweive-head capacity: Part No. 01725A Available since 1971. Sprinkler Wrenches: A. Standard wrench: Part Number 10896W/B (available since 2000) B. Wrench for coated and recessed sprinklers: Part Number 07398W"'* (available since 1990) or Part No. 12144W/B*", available since 2003. NOTE: Recessed pendent sprin- klers with protective caps must use wrench 12144W/B. **A'/:" ratchet is required (not available from Vi- king). Refer to the "Sprinkler Accessories" section of the Viking Engineering and Design Data book for information on sprinkler accessories. 5. INSTALLATION WARNING: Viking residential sprin- klers are to be installed in accor- dance with the latest Viking technical data, the latest edition of applicable standards ofthe National Fire Protec- tion Association and any other similar Authorities Having Jurisdiction, and aiso with provisions of governmental codes, ordinances, and standards whenever applicable. Final approval and acceptance of all residential sprinkler installa- tions must be obtained from the Authorities Having Jurisdiction. Sprinkler Nominal Sprinkler Temperature z Temperature Rating Maximum Ambient Bulb Classification Fusin Point Ceiling Temperature~ Color Ordina 155 °F 68 °C 100 °F 38 °C Red Intermediate 175 °F 79 °C 150 °F 65 °C Yeliow S rinkler Finishes: Brass, Chrome-Enlo ~ atents endin , White, and Black Footnotes ~ Based on NFPA-13. Otherlimits may apply, depending on fire loading, sprinkler location, and other requirements of the Authority Having Jurisdiction. Refer to specific installation stan- dards. z The sprinkler temperature rating is stamped on the deflector. Table 1 When using Viking Residential Sprinkler SIN VK436 for systems designed to NFPA 13D or NFPA 13R, apply the listed areas of coverage and minimum water supply requirements shown in the approval chart on page 140 k. For sy t mc d_cigned to NFPA 13• The number of design sprinkiers is to be the four contiguous most hydraulically de- manding sprinklers. The minimum re- quired discharge trom each of the four sprinklers is to be the greater of the fol- lowing: • The flow rates given in the approval chart on data page 140 k for NFPA 13D and NFPA13R applications for each listed maximum area of cover- age, 9c • A minimum discharge of 0.1 gpm/sq. ft. over the "design area° consisting of the four contiguous most hydraulically demanding sprinklers forthe coverage areas being protected by the four sprinklers. NOTE: The As = S x L method must be used to determine the sprinkler protection area of coverage per NFPA 13. Refer to the "Viking Residential Sprinkler Installation Guide" pages (i-iv) for general care, instailation, and maintenance information. Note: Units of ineasure in parentheses Replaces page 140 j-m, dated March 12, 2004 (added NSF Certification). Refer to resi- may be approximations. dential sprinkler technical data page (i-iv) for general care, installation, and main- Form No. F_081202 tenance information. BEAM CEILING GUIDELINES 1 Viking Residential Pendent Sprinkler SIN VK436 is UL/C-UL Listed for installation in residential occupancies with beam ceilings (with horizontal ceilings only). Refer to the Approval Chart for sprinkler areas of coverage and hydraulic design. Sprinkler Location: Locate sprinklers on the underside ofthe beams (not in the bays or pockets formed by the beams). Referto Figures 2A and 2B below. The vertical distance from the sprinkler deflector to the bottom of the primary beam must be between 1-1/8 and 1-3/4" (29 to 45 mm). The horizontal distance from the centerline of the sprinkler to the primary beam cannot be more than 2" (51 mm) (Figure 2A). NOTE: Consult with a structural engineer before drilling beams to allow the installation of sprinkler drops. Where drilling is not permitted, sprin- kler position requirements allow for the sprinkler drop to be placed adjacent to the primary beam. Beam Position: Directly attached to the underside of a combustible or non-combustible smooth ceiling of any height. Beam Size and Shape (Cross section): • Depth: Maximum 14" (356 mm) for primary beams. Secondary beam depth cannot be greater than the primary beam. • Width: Unlimited. • Beam Shape: Rectangular to circular. Beam Types: Combustible or non-combustible, solid surface, solid or hollow core. Beam Spacing: A. For primary beams, the distance from the wali to the center of the nearest primary beam must be at least 3'-4n (1,0 m), and not more than one-half the listed sprinkier spacing. Note: Sprinklers may not be required to be located in the first beam nearest the wall. Center-to-center distance between primary beams is to be a maximum of 20'-0" (6,1 m). Refer to Figure 3A. B. When beam pockets created by the primary beams exceed 20'-0" (6,1 m) in length, secondary beams are required as follows (also refer to Figure 36): 1. Secondary beam depth must be equal to primary beam depth. 2. Secondary beams must be placed so that the bays formed by the primary beams do not exceed 20'-0" (6,1 m) in length. C. When primary beam spans do not exceed 20'-0" (6,1 m), secondary beams (not required) may have any distance from wall to nearest secondary beam and any distance center to center between secondary beams. Refer to Figure 3C. Lintels: Must be present over doorways exiting the compartment. Lintel height must be at least 8" (203 mm), or at least the depth of the primary beams, whichever is greater. Beam and SoffitArrangements: Ifa sofft is installed, beams may be arranged within the soffit. The cross section ofthe soffit may be any size, provided it does not create an obstruction to water distribution per the obstruction rules of NFPA 13 for residential sprinklers. Where there is a soffit, beam spacing from the wall is to be measured from the face of the soffit rather than the wall. Refer to Figure 3D. NOTE: The sprinkler area of coverage is to be measured from the wail. Definitions • Primary beams: The main beams that run primarily in one direction. • Secondary beams: The beams that run perpendicular to the main beams. Table 2 i i 1-1/8" (29 mm) Min. ~ 1-3/4" (45 mm) Max. Viking Residential ~ ~ ~ Viking Residential Pendent Sprinkler Pendent Sprinkler SIN VK436 Maximum Y~ SIN VK436 Beam Width Pius 2" (50,8 mm) Figures 2A and 26: Sprinkler Positioning Under Primary Beams ~ February 11, 2005 Sprinkler 140 I . - ' ` Sprinkler 140 m February 11, 2005 ~ FREEDOMT"" RESIDENTIAL ~ ~ ~ ~ ~ PENDENT SPRINKLER SIN VK436 (5.2 K-FACTOR) iry Ceilin< Prirr Be~ nary am Figure 3A: Primary Beam Spans up to 20'-0" (6,1 m) All dimensions are measured to wall faces and to centerlines ofbeams. A= Distance from wall to nearest primary beam: Minimum 3'-4" (1,0 m). Maximum: No more than'/z listed sprinkler spacing. B= Spacing between primary beams: 20'-0" (6,1 m) maximum. C= Beam depth: 14" (356 mm) maximum. D= Beam span: 20'-0" (6,1 m) maximum. Figure 3B: Primary Beam Spans Over 20'-0" (6,1 m) Ail dimensions are measured to wall faces and to centerlines of beams. A= Distance from wall to nearest primary beam: Minimum 3'-4" (1,0 m). Maximum: No more than Y: listed sprinkler spacing. B= Spacing beiween primary beams: 20'-0" (6,1 m) maximum. C= Beam depth: 14" (356 mm) maximum. D= 20'-0" (6,1 m) maximum spacing for secondary beams that are to be equal in depth to primary beams and that are required so that primary beam pockets do not exceed 20'-0" (6,1 m). °~~~~~'~~r Beam am ing idary ~m ce of offt ttom of Soffit Figure 3C: Combinations of Primary and Secondary Beams All dimensionsare measured to wali faces and to centerlines of beams. A= Distance from wall to nearest primary beam: Minimum 3'-4" (1,0 m). Maximum: No more than'/z listed sprinkler spacing. B= Spacing between primary beams: 20'-0" (6,1 m) maximum. C= Beam depth: 14" (356 mm) maximum. Note: Secondary beam depth cannot be greater than the primary beam. D= Any distance for secondary beams, unless primary beam spans ex- ceed 20'-0" (6,1 m). ' Referto Figure 3B forprimary beam spans exceeding 20'-0" (6,1 m). Figure 3D: Beam and SoffitArrangements D= Dimensions shown in Figures 3A, 36, and 3C, except mea- surements are taken from the face of the soffit instead of from the wall surface. NOTE: The sprinkler area of coverage is to be measured from the walL Replaces page 140j-m, dated March 12, 2004 (added NSF Certification). Refer to residential sprinkler Form No. F_081202 technical data page (i-iv) for general care, installation, and maintenance information. . , Knight Fire Pr~ Tahoma Terra ~ ~~~ ~~~ ~ ~' ~`~~ 1 st Floor~ Page 1 Date 11-06-08 ~~~~~ HYDRAULIC DESIGN INFORMATION SHEET Name - Tahoma Terra Fairway Date - 11-06-08 Location - Yelm, Washington Building - System No. - Contractor - Rainer General Development Contract No. - 08-109 Calculated By - S. Neely Drawing No. - Sheet 1 of 2 Construction: () Combustible () Non-Combustible Ceiling Height 9'-0" OCCUPANCY - S Type of Calculation: ONFPA 13 Residential (X)NFPA 13R ONFPA 13D Y Number of Sprinklers Flowing: ( )1 ( )2 (X)4 ( ) S ( )Other T ()Specific Ruling Made by Date E M ---- --- -_ - __ __--- Listed Flow at Start Point _ -- ._ _ _ __ _ - 17 Gpm _ _ - -- _ _ System Type Listed Pres. at Start Point - 10.7 Psi (X) Wet () Dry D MAXIMUM LISTED SPACING 18 x 18 () Deluge () PreAction E Domestic Flow Added - Gpm Sprinkler or Nozzle S Additional Flow Added - Gpm Make VK436 Model Viking I Elevation at Highest Outlet - 9'-0"Feet Size 1/2" K-Factor 5.2 G Note: Temperature Rating 155 N Calculation Gpm Required 66.95 Psi Required 42.27 At Test Summary C-Factor Used: ____ _ _ Overhead 150 . _ _ Underground 150 W Water Flow Test: _ Pump Data: _ __ . __ Tank or Reservoir: A Date of Test - Rated Cap. Cap. T Time of Test - @ Psi Elev. E Static (Psi) - 57 Elev. R Residual (Psi) - 53 Other Well Flow (Gpm) - 1160 Proof Flow Gpm S Elevation - 0 P Location: - _ _ _ __ _ P L Source of Information: City O f Ye1m Y REC~~~'ED SC(~NNEI~ ~EC o ~ ~ooB .~,1,.~.~.0~`4 c~g ~ 0 ~ 0 N ~ ~ ~ m .~ (~ (~ ~ 0 O ~ O U ~- ~ ~ U ~ ~ ~ i ~ C (6 U -° ~ .~ (0 ~ ~ Q O ~ Q ~ .'-.. ~ ~ F- ~ ~ ii c~ >C6 ~ L > Y H ~ c~ c0 ~~ N ~ I~ ~CO N CO ~ ~ ~ ~ . .. .. .. .. .. .. ~ ~ ~ ~ N ~ ~ ^ ~ ~ ~ ~ ~ ~ ctia,~ c0 ~ o •°EEU~E~~ a~o ~ ~ ~~o ~ `~ Q ~ ~ wv~cn "cn a~ a~ ~ ~ a~ ~ ~ ~~NN O OM (~6 ~~0~22~(n ~ ~ ~ O O ~ c- O O V ~ ~ N ~ ~ O N Z ~ > ~ J ~ O O O c- O ~ O ~ ~ f~ M •-- t!') t() ~ . ~ .. ~ ~ O ~~3 ~ tII L ~ ~dll.. >+a (0 (0 ~~ -O 'O o O Q. U ~~ ~ c~ (n ~ ~ N N ~ ~ (n~'d' O N i ~ i (O N ~NN ~UUU >, o ~ 0 ~ 0 M 0 N 0 0 O O O O O O O O O O e - . - ~ - . - ~ ~ - 6 ~ a O I ~ C O ~ ~ t M N ~ U d ~ w cn cn ~ ~ W ~ ~ 0 M O Q ~ ~ _ z ~ (9 L a C > N ~ O ~ ~ O ~ O M ~ N ~ m ~ d ~ O O ~ ~ ~ U ~ ~C ~ ~ C C (6 ~ O ~ ~ U ~ 'p ~ L.L ~ O ~ ~ ~ ~ ~ ~~ ~ L~ c0 ~ ~ O ~ ~~ L.L Y H N N ~ I O O (O OI O ~ O NI ~!'J~00~ °D ~° oorn (O~ O ' V W 0000 ~I ~ M I~ O O I~ N. I~ O ~i NCO00(O O~ N O ~-'~. N~00~ ~ ~ 00: .- V O O (h V O GO ~MOOM N ~ N:~ +--N OON 'V' ~! O O ~ N O O N \! (7I ~ 00~00 M ~ tC) MI I~~~~.- \I ~~~ N (O ~ 3 0 ' ~oo~ NI ~ ~ ~ ~ ~ C O ~ ~ \I ~'~~. ~ V O~ CO 00 m ~ N d' ~I O J I ('7 O 00 CO (O 'O i ~ x i LL (U i N O I~ ~~ tn ~ (O ~ ' N C N O I ~ M <t ~ ~ c \I ~I NOI~MMLL ~ N I N a~ a ' ~ 3~a~u p ~ ~ C N ~ ~ c0 LL1~SCp~J ~ -o ~- `X ~ ~ w ~ L ~ ~. 'O ~ O N "~ p~ c c~ rn!- 3 ~ a~ ~ ~UU-°,c t~ u. ~~i mZj oaaao~ rn C~ U U rn~ N ' J m `', ~ «' I Y L~Q W C.~ZOF-N ~ ~ U C ~ - C ~ ~ ~ N ~ Q ~ ~ ~ C Q ~ N ~ ~ ~ (,7 C V ~ ~ O ~L.L~~ ~ ~ ~ ~° c u~ c ~ ~cv~~ 7 ~ ~ '~ ~ C~ ~~~ 7 ~ ~ ~ 3 ~ ~ ~ ~ ~ 0 J L.L ~ Pressure / Flow Summary - STANDARD . Knight Fire Protection Inc. Page 4 Tahoma Terra Fairr~ay-'! st Fleor Dat~ ~ ~-06-08 Node Elevation K-Fact Pt Pn Flow Density Area Press No. _ __ _ _ _ _ Actual _ _ . Actual -- _ . Req. D1 8.5 5.2 7.2 na 13.95 0.052 256 7.2 D2 8.5 5.2 10.7 na 17.01 0.052 324 10.7 D3 8.5 5.2 7.2 na 13.95 0.052 256 7.2 D4 8.5 5.2 10.7 na 17.01 0.052 324 10.7 1 9.0 K= K@ H2 14.76 na 17.01 2 9.0 K= K@ H4 15.36 na 17.28 4 9.0 K= K@ H1 15.44 na 16.42 5 9.0 K= K@ H3 15.72 na 16.23 3 9.0 18.22 na 6 9.0 18.67 na 11 9.0 29.14 na 12 9.0 29.74 na 13 9.0 29.78 na 14 9.0 30.05 na 15 1.0 40.35 na 16 -3.0 42.22 na 17 -3.0 42.27 na TEST -3.0 42.27 na The maximum velocity is 11.56 and it occurs in the pipe between nodes 2 and 3 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 " Fin.al~Calculations - Hazen-Williams , Knight Fire Protection Inc. Tah~m~ T?rra Fa~rwav-1Gt Flo~r Page 5 Qate ~ ~ -O6-OH Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "C" or Ftng's Pe Pv ******* Notes "`***** Point Qt Pf/Ft Eqv. Ln. Total Pf Pn D1 13.95 1.101 1 N 7.0 0.500 7.200 K Factor = 5.20 to 150.0 0.0 7.000 3.681 H 1 13.95 0.0351 0.0 7.500 0.263 Vel = 4.70 _ _ _ ~ 0.0 13.95 11.144 K Factor = 4.18 D2 17.01 1.101 1 N 7.0 0.500 10.700 K Factor = 5.20 to 150.0 0.0 7.000 3.681 H2 17.01 0.0505 0.0 7.500 0.379 __ _ Vel = 5.73 _ __ _ _ 0.0 17.01 14.760 K Factor = 4.43 ___ ___ _ _ _ D3 13.95 1.101 1 N 7.0 4.500 7.200 K Factor = 5.20 to 150.0 1 T 9.563 16.562 3.681 H3 13.95 0.0350 0.0 21.062 0.737 Vel = 4.70 _ _ 0.0 ~i3.y5 ~i1.61u Kractor= 4.G9 _ _-__ _ . _ _ D4 17.01 1.101 1 T 9.563 0.500 10.700 K Factor = 5.20 to 150.0 0.0 9.562 3.681 H4 17.01 0.0505 0.0 10.062 0.508 Vel = 5.73 _ _ _ 0.0 17.01 14.889 K Factor = 4.41 1 17.01 1.101 0.0 12.000 14.760 K Factor @ node H2 to 150.0 0.0 0.0 0.0 2 17.01 0.0504 0.0 12.000 0.605 Vel = 5.73 2 17.28 1.101 1 O 5.0 10.500 15.365 K Factor @ node H4 to 150.0 0.0 5.000 0.0 3 34.29 0.1845 0.0 15.500 2.859 Vel = 11.56 _ __ 0.0 34.29 18.224 K Factor = 8.03 4 16.42 1.101 0.0 6.000 15.441 K Factor @ node H1 to 150.0 0.0 0.0 0.0 5 16.42 0.0473 0.0 6.000 0.284 Vei = 5.53 _ _ _ --- 5 16.24 1.101 1 O 5.0 12.500 15.725 K Factor @ node H3 to 150.0 0.0 5.000 0.0 6 -- - _ 32.66 0.1686 0.0 17.500 2.950 Vel = 11.01 _ __ 0.0 32.66 18.675 K Factor = 7.56 3 34.29 1.598 0.0 15.000 18.224 to 150.0 0.0 0.0 0.0 6 34.29 0.0301 0.0 15.000 0.451 Vel = 5.49 6 32.66 1.598 1 N 9.0 92.000 18.675 to 150.0 0.0 9.000 0.0 11 66.95 0.1036 0.0 101.000 10.468 Vel = 10.71 _ 11 0.0 2.003 1 N 11.0 6.250 29.143 to 150.0 0.0 11.000 0.0 12 ---- 66.95 - - 0.0345 0.0 17.250 0.595 Vel = 6.82 _ 12 0.0 2.003 0.0 1.250 29.738 to 150.0 0.0 0.0 0.0 13 66.95 0.0344 0.0 1.250 0.043 Vel = 6.82 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 ~ Final~Calculations - Hazen-Williams Knight Fire Protection Inc. Taho~~a T~rra ~ai~vray-1st ~locr Page 6 Date 11-06-08 Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "C" or Ftng's Pe Pv **'""`* Notes **"""~ Point Qt Pf/Ft Eqv. Ln. Total Pf Pn - _ 13 0.0 2.209 ----- 1 E 6.91 1.500 29.781 ___ _ to 120.0 0.0 6.910 0.0 14 66.95 0.0323 0.0 8.410 0.272 Vel = 5.60 0.0 66.95 _ 30.053 _.___ K Factor = 12.21 _ _ 14 66.95 2.209 1 N 11.0 8.000 30.053 to 120.0 1 Zik 0.0 11.000 9.680 " Fixed loss = 6.215 15 66.95 0.0324 0.0 19.000 0.615 Vel = 5.60 0.0 _ 66.95 ---- - 40.348 K Factor = 10.54 15 66.95 2.003 0.0 4.000 40.348 to 150.0 0.0 0.0 1.732 16 66.95 0.0345 _ _ __ 0.0 _ 4.000 0.138 Vel = 6.82 16 0.0 4.1 0.0 45.000 42.218 to 140.0 0.0 0.0 0.0 17 66.95 0.0012 0.0 . _ 45.000 __ 0.054 Vel = 1.63 _ __ __ __ . 17 0.0 8.27 1 G 6.326 30.000 42.272 to 140.0 0.0 6.326 0.0 TEST 66.95 0.0 0.0 36.326 0.001 Vel = 0.40 0.0 66.95 42.273 K Factor = 10.30 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 n~J , .._.__ _~,~ ~'~vlS:V'.~ ` Knight Fire Protection J~~''"~ ~"~~ Tahoma Terra Fairw~i-~nd Floor Uppsr ~nrner `7 ~~~~~ H TION SHEET Page 1 ~ a±e 11=06-08 Name - Tahoma Terra Fairway Date - 11-06-08 Location - Yelm, Washington Building - System No. - Contractor - Rainer General Development Contract No. - 08-109 Calculated By - S. Neely Drawing No. - Sheet 2 of 2 Construction: O Combustible O Non-Combustible Ceiling Height 9'-0" OCCUPANCY - S Type of Calculation: ONFPA 13 Residential (X)NFPA 13R ONFPA 13D Y Number of Sprinklers Flowing: ( )1 ( )2 (X)4 ( ) S ( )Other T ()Specific Ruling Mad e by Date E M _ Listed Flow at Start Point _ - - - 17 Gpm __ _ _ __ _-_ _ __ _ - - _ _ System Type Listed Pres. at Start Point - 10.7 Psi (X) Wet () Dry D MAXIMUM LISTED SPACING 18 x 18 () Deluge () PreAction E Domestic Flow Added - Gpm Sprinkler or Nozzle S Additional Flow Added - Gpm Make VK436 Model Viking I Elevation at Highest Outlet - 19'-0"Feet Size 1/2" K-Factor 5.2 G Note: Temperature Rating 155 N Calculation Gpm Required 56.48 Psi Required 45.39 At Test Summary C-Factor Dsed: Overhead 150 Underground 150 W Water Flow Test: Pump Data: Tan k or Reservoir: A Date of Test - Rated Cap. Cap. T Time of Test - @ Psi Elev. E Static (Psi) - 57 Elev. R Residual (Psi) - 53 Other Well F1ow (Gpm) - 1160 Proof Flow Gpm S Elevation - 0 _- - - _ __ -- - - - - - - P Location: --- - _ _ _ _ _- - _ _ __ __ _ _ _ _ _ _- P L Source of Information: City Of Yelm Y RECE~~ED SC(~NNED DEC 0 3 2008 -2~~0~ ~ 0 ~ ~ 0 N ~- N ~ ~ .~ (0 (~ ~ 0 ~ C O U ~ a~ a a ~ ~ O O U ~ ~ a ~ ~ N ~ C lff U °- ~ U '~ ~ ~ ~ Q O m Q- a` t ~ ~ ~ ~ L i~ m ~ ~ O >c6 ~ ~ > Y ~ ~~~ ~~ ~n ~r r~ v u? ~ ~ ~ ~ T ~ ~ ~ ~ . .. .. .. .. .. .. N -6 7 ~ (~ (0 ~ ~ ~ ~a N c li a,~ c ~ ~ o •°- ~ EU ~ ~~a~ o°o ~~a~~~~~ ~ ~ ~ ~ ~ ~ ~ T>+¢vT W fA (n (n ~ ~ ~ ~ ~ ~ ~ ~ ~~NN O OM N ~~~~=2~(n ~ N 0 O O ~ ~ O O ~f' ~ t!7 ~ M ~< O N Z c-- > ~ J l.L O O O 0 ° o ~ ~ I~M~ ~ ~ ~ .. ~ .. ~ ~ O ~ ~ o ~ ~ ~ d LL >+a N (6 °- ~ ~ - ~ p o p_. U O 6 ~ ~ ~" c~ f~ (~ ~ N ~ ~ ~~~~ ~ o ~, (O N ~NN ~UUU 0 0 ], o ~ 0 ~ M 0 N 0 O O O O O O O O O O ~ - . - ~ ~ - ~ ~ 6~ 0 0 f ~ C O ~ V' M N ~ U ~ ~ w cn cn ~ ~ w ~ ~ O M O Q ~ ~ S Z c N L ~ C > N ~ O ~ ~ N~I (0~00~ ~ O ~ (O O OI N o r o ~ ~ O O M s- ~ ~ ~ ~ ~ ~ ~~, O O ~ V ~ (B (B a o , ~ o veoooco I ~ I~ ~ ~ M 1 O O 1 N I~ O ~ N(OOOCO O N O N ~ O O ~ I ~ ~ 00 ~-- V O O M V O ( p' r M O O M N ~ ~', ~ N O O N O O ~', ~NOON \ ~ M'~, CO~00~ M ~ ~ C7 I~ ~ ~ ~ ~ N~I ~N~ I (O.- ~ O ~ O O ~ N' ~ ~ ~ ~ ~ C O ~ N \i ~. ~ V'06)a000m ~ N \I O J M O 00 CO CO "p X ~ N ~ N O I~ ~ ~ t/I I N i0 N N \ ~ N O 1~ M V~ ~ O m U ~ ~ \~I NOI~MMLL ~ Q I ~ I ~ O O ~ ~ ~ ~ ~ (6 ~ - ~ ~ C ~cv 3°~'a~~ ~ j, ~ - Z c N ~ C (6 ~ ~ ~ p 2 C W SOO~J -o ~- , `X 0 -~ p LJ' -° ~ rn ~ c ! 3 rn ~ ° ~ a~ a>I 'a E c ~ U U ~ C ~ ~ ~ Y ~ ~ ~ ~ c ~I ~ZI o a~aao - rnC~UUrn~ ~ ~ ~ ~ ~ o ~ ~ , ~ I _ s LL YF~- iiQ~ wC7zO~N L ~ U C 7 - C ~ ~ ~ 7 ~ Q ~ ~ ~ C Q O f~ (0 'D ~ (' C U N ~ O C ~ ~ ~ ~ ~ ~ N ~~ ~ •~ ~ ~cv~~ ~ ~ ~ '~ ~ ~ ~ ~ ~ ~ N E~~~n c ~ 0 J L.L ~ Pressure / Flow Summary - STANDARD ; Knight Fire Protection Inc. Page 4 Tahom? Terra Fainvay-2nd Floor Upper ~err.sr Qate 1 ~-06-08 Node Elevation K-Fact Pt Pn Flow Density Area Press No. Actual Actual Req. D1 18.5 5.2 7.2 na 13.95 0.052 256 7.2 D2 18.5 5.2 7.2 na 13.95 0.052 256 7.2 D3 18.5 5.2 7.2 na 13.95 0.052 256 7.2 D4 18.5 5.2 7.2 na 13.95 0.052 256 7.2 1 19.0 K= K@ H2 15.95 na 14.17 2 19.0 K= K@ H4 16.36 na 14.3 4 19.0 K= K@ H1 15.69 na 14.05 5 19.0 K= K@ H3 15.95 na 13.95 3 19.0 19.86 na 6 19.0 20.13 na 9 19.0 27.17 na 10 9.0 32.03 na 11 9.0 32.67 na 12 9.0 33.11 na 13 9.0 33.14 na 14 9.0 33.34 na 15 1.0 43.51 na 16 -3.0 45.35 na 17 -3.0 45.38 na TEST -3.0 45.39 na The maximum velocity is 9.59 and it occurs in the pipe between nodes 2 and 3 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 ' Final Calculations - Hazen-Williams : Knight Fire Protection Inc. Page 5 Tahoma Terra Fairway-2nd Floor Up~er Corner Date 11-06-0~ Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "C" or Ftng's Pe Pv *"**~** Notes *"`*"`* Point Qt Pf/Ft Eqv. Ln. Tota~ Pf Pn D1 13.95 1.101 1 N 7.0 0.500 7.200 K Factor = 5.20 to 150.0 0.0 7.000 8.012 H1 _ 13.95 0.0349 _- --- __ _ 0.0 --_ _ 7.500 _ __ 0.262 _ _- - Vel = 4.70 __ __---- --- .. _ 0.0 13.95 _ _ - - - _ _ _ 15.474 K Factor = 3.55 _ _ _ _ D2 13.95 1.101 1 N 7.0 0.500 7.200 _ _ _ - K Factor = 5.20 to 150.0 0.0 7.000 8.012 H2 13.95 0.0349 0.0 -- 7.500 _ 0.262 _ Vel = 4.70 0.0 13.95 15.474 K Factor = 3.55 D3 13.95 1.101 1 N 7.0 4.500 7.200 K Factor = 5.20 to 150.0 1 T 9.563 16. 562 8.012 H3 13.95 0.0350 __ 0.0 _ 21.062 0.737 _ Vel = 4.70 _ _ - __ 0.0 i 3.95 i 5.y49 K Factor = 3.49 D4 13.95 1.101 1 T 9.563 0.500 7.200 K Factor = 5.20 to 150.0 0.0 9.562 8.012 H4 13.95 0.0350 . _ 0.0 ._ 10.062 _ 0.352 _ Vel = 4.70 _ - ---_ __ -- - 0.0 _ __ 13.95 15.564 . _ - K Factor = 3.54 _- __ 1 14.17 1.101 0.0 11.250 15.954 K Factor @ node H2 to 150.0 0.0 0.0 0.0 2 14.17 _ -- - 0.0359 -- _ 0.0 __ _ _ _ 11.250 _ 0.404 Vel = 4.78 2 14.30 1.101 1 O 5.0 21.750 16.358 K Factor @ node H4 to 150.0 0.0 5.000 0.0 3 28.47 ____ 0.1308 0.0 26.750 3.499 Vel = 9.59 0.0 28.47 19.857 K Factor = 6.39 4 14.05 1.101 0.0 7.250 15.692 K Factor @ node H1 to 150.0 0.0 0.0 0.0 5__ _ 14.05 0.0354 _____ _ _ _ 0.0 7.250 0.257 Vel = 4.73 - _ _ _ _ _ 5 13.95 1.101 10 5.0 28.000 15.949 _ K Factor @ node H3 to 150.0 0.0 5.000 0.0 6 28.0 0.1268 _ __ _ 0.0 _ _ _ 33.000 _ 4.185 Vel = 9.44 0.0 28.00 _- _ __ _ _ 20.134 __ _ K Factor = 6.24 _ _ _ __ _ _ _ 3 28.47 1.598 0.0 13.000 19.857 _ _ _ _ to 150.0 0.0 0.0 0.0 6 28.47 0.0213 _ _ 0.0 13.000 0.277 _ Vel = 4.55 _ _ - _ _ _ 6 28.01 1.598 1 N 9.0 84.000 20.134 - to 150.0 0.0 9.000 0.0 9 56.48 0.0757 0.0 93.000 7.037 Vel = 9.04 9 0.0 2.003 1 N 11.0 10.000 27.171 to 150.0 0.0 11.000 4.331 10 56.48 0.0252 _ __ 0.0 . __ _ 21.000 _ 0.529 _ _ Vel = 5.75 -_ _ _ _ _- 10 0.0 2.003 1 N 11.0 14.500 32.031 -- _ to 150.0 0.0 11.000 0.0 11 56.48 0.0252 0.0 25.500 0.642 Vel = 5.75 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 ' Final Calculations - Hazen-Wiliiams : Knight Fire Protection Inc. Page 6 Tahnm~ Terra Fairwav-2nd F!oor Upper C~rnsr Dat~ ' 1-C6-08 Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "C" or Ftng's Pe Pv "****** Notes '`'`'`'"" Point Qt Pf/Ft Eqv. Ln. Total Pf Pn 11 0.0 2.003 1 N 11.0 _- 6.250 _ _--_. __ 32.673 ._ _ _ _ _ __ to 150.0 0.0 11.000 0.0 12 56.48 0.0252 0.0 17.250 0.434 __ Vel = 5.75 _ 12 0.0 2.003 0.0 1.250 33.107 to 150.0 0.0 0.0 0.0 13 56.48 0.0256 _ - 0.0 _-- - 1.250 0.032 _ Vel = 5.75 13 0.0 2.209 1 E 6.91 1.500 33.139 to 120.0 0.0 6.910 0.0 14 56.48 0.0237 0.0 8.410 _ 0.199 _ _-_ __ Vel = 4.73 _ _ __ ___ ----- _ ___ 0.0 56.48 33.338 K Factor = 9.78 14 56.48 2.209 1 N 11.0 8.000 33.338 to 120.0 1Zik 0.0 11.000 9.726 ` Fixed loss = 6.261 15 _ _ 56.48 _ 0.0236 _ _ _ _ 0.0 _ 19.000 0.448 Vel = 4.73 _ __ 0.0 56.48 43.512 K Factor = 8.56 15 56.48 2.003 0.0 4.000 43.512 to 150.0 0.0 0.0 1.732 16 56.48 0.0255 0.0 4.000 0.102 Vel = 5.75 16 0.0 4.1 0.0 45.000 45.346 to 140.0 0.0 0.0 0.0 17 56.48 0.0009 0.0 45.000 0.039 __ ___ _ Vel = 1.37 _ __ __ 17 0.0 8.27 1 G 6.326 30.000 45.385 to 140.0 0.0 6.326 0.0 TEST 56.48 0.0 0.0 36.326 0.001 _ Vel = 0.34 _- - - _-- - _ 0.0 56.48 45.386 K Factor = 8.38 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 ;;;;~i;;; iii'i~li r? !'~!I!~!',, ;;''~ "ON GUARD 24 HOURS A DAY" KNIGHT FIRE PROTECTION, INC. 9702 Lathrop Industrial Dr. SW OLYMPIA, WA 98512 (360) 786-8606 FAX 786-8722 desi~kni~htfire.net LICENSE NO. KNIGHFP044LK HYDRAULIC CALCULATIONS FOR TAHOMA TERRA FAIRWAY Yelm, Washington Contract No. 08-109 FIRST FLOOR SECOND FLOOR UPPER CORNER SECOND FLOOR LOWER CORNER Certificate of Competancy Stamp For Entire Set of Calculations. SCRNNEn "QUALITY IS REMEMBERED... LONG AFTER PRICE IS FORGOTTEN!" I( I2 ~4~ Q~Documents and SettingsU2icAU.ly Documenls\Templates & Forms\calccoversheet.doc J W t ~•~ Kr~ight Fire Protection Inc. Page 1 Tahoma Terra Fairway-1 st Floor Date 11-06-08 HYDRADLIC DESIGN INFORMATION SHEET Name - Tahoma Terra Fairway Date - 11-06-08 Location - Ye1m, Washington Building - System No. - Contractor - Rainer General Development Contract No. - 08-109 Calculated By - S. Neely Drawing No. - Sheet 1 of 2 Construction: () Combustible () Non-Combustible Ceiling Height 9'-0" OCCUPANCY - S Type of Calculation: ()NFPA 13 Residential (X)NFPA 13R ()NFPA 13D Y Number of Sprinklers Flowing: ( )1 ( )2 (X)4 ( ) S ( ) Other T ()Specific Ruling Made by Date E - - -- M Listed Flow at Start Point - 17 Gpm System Type Listed Pres. at Start Point - 10.7 Psi (X) Wet () Dry D MAXIMUM LISTED SPACING 18 x 18 () Deluge () PreAction E Domestic Flow Added - Gpm Sprinkler or Nozzle S Additional Flow Added - Gpm Make VK436 Model Viking I Elevation at Highest Outlet - 9'-0"Feet Size 1/2" K-Factor 5.2 G Note: Temperature Rating 155 N Calculation Gpm Required 66.68 Psi Required 35.02 Summary C-Factor Dsed: Overhead 150 W A T E R S P P L Y Water Flow Test: Pump Data: Date of 'i'est - Rated Cap. Time of Test - @ Psi Static (Psi) - 57 Elev. Residual (Psi) - 53 Other Flow (Gpm) - 1160 Elevation - 0 Location: Source of Information: City Of Yelm At Test ~nderground 150 Tank or Reservoir: Cap. Elev. Well Proof Flow Gpm t /' ~ ~ I ~ ~ N ~ N ~ m }. c0 (d ~ ~ L ~ /\ 0 U ~ ~ ~ U ~ ~~ ~ o ~ ` ~ ~ ~ ~ Q O ~ ~ ~ i ~ ~ ~ ~ ~ L ~ ~ ~ ~ O rn > Y I~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ M ~ N .. .. .. .. .. .. .. ~ ~ 7 ~ (~ N ~ ~ ~' a N ~ CLL~ +~+ CO C O . O (6 N N~ ~ N ~`p N T ~Q ~ ~~ ~ W (n (n `J `'~ fn >, N ~ i ~~~ ~ ~~-NN O OM (~p ~~00220(n ~ N ~ O O ~ O O ~ ~ ~ ~ N ~ .-- O < N Z ~ ~ J LL O 0 0 ~ ° 0 co I~ M c- 0 w ~ ~ ~ .. ~ .. ~ a~ ~n cn o ~ 3 0 ~ ~ O ~ ~a~ T L ~ ~ ~ Q ~ ~ Q U~-O O . 7 ~' (~ (~ (n ~ ~ 4J p ~ ~~~~ N O ~ ~ ~ (6~N(V O N ~UUU o 0 ~ 0 0 0 ~ 0 O ~ ~ ~ ~ U ` - ~ `- rn c o C O d ' c'' ) N ~ a ~ W c n c~ ~ ~ w r ~ O M O Q ~ ~ 2 Z E ~ L ~ C > ~ 7 O ~ s ~~ ~ O ~ O M ~ ~ ~ N N ~ 0 O O ~ ~ ~ U ~ ~ ~~ ~ c ~ ~ O ~? ~ V ~ ~ ~ ~ ~ O ~ ~ ~ ~ ~ ~H ~ ii N C .c ~ ~ ~~ ~ lL Y 1~ V! ~ M N NI CD~00~ Oi O ~ O N ~.-00~ ~~ v° oorn ~~I ! V ooooeo VI ~ ~, Mh001~ NI N (O O O (~O OI N O ~-I N~!'>00~ oD ~ ~ c-COOM COI ~MOO~M ~! N ~ ~--NOON V I O O ~ N O O N \ I ~ I~ M '~i 00 .- O O ~ m ~ M l!7 l17 r~ .- .- ~ ~ \I ~rf N t0 ~ II 3 0 NI ~ ~~~ ~ f C O I a N ~li ~ V O~OOOOm I ~i ~ N J ~ ~ V MON(OCO~ C ~ - i X Il C N ~ (~ ~ N ~ ~ NOl~~tn ~ Q~ (~ ~ L ~ Q ~ ~~I N O f~ ('O V N (q o~ t~ (6 -p ~ ~ ~ w, (7 C \ I i N O I~ M M LL C L.L ~ Q- ~ ' m N Q I ~ 3~a~~ m W ~2C~~J ~ ~ - ~ ~ X N w O ' ~ ~rn~ 3rn ' a EI ~ C~~ LL Y ~ ~ ~~ C c m~ z o a~ a a o= rnC7UUrn~ ~ ~~c ~n ~ ~ •~ ~ ! ~ .~. ~ a~ c J ~I U) ~ .~ ~ ~ m ~' ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ iiQ~ W U` ZOF-N ~ ~ J~ a. • Press~are / Flow Summary - STANDARD Knight Fire Protection Inc. Page 4 Tahoma Terra Fairway-1st Floor Date 11-06-08 Node Elevation K-Fact Pt Pn Flow Density Area Press Na Actual Actual Req. D1 8.5 5.2 7.2 na 13.95 0.052 256 7.2 D2 8.5 5.2 10.7 na 17.01 0.052 324 10.7 D3 8.5 5.2 7.2 na 13.95 0.052 256 7.2 D4 8.5 5.2 10.7 na 17.01 0.052 324 10.7 1 9.0 K= K@ H2 14.76 na 17.01 2 9.0 K= K@ H4 15.36 na 17.28 4 9.0 K=K@H1 15.19 na 16.29 5 9.0 K= K@ H3 15.47 na 16.1 3 9.0 18.22 na 6 9.0 18.37 na 11 9.0 21.9 na 12 9.0 22.49 na 13 9.0 22.53 na 14 9.0 22.8 na 15 1.0 33.09 na 16 -3.0 34.96 na 17 -3.0 35.02 na TEST -3.0 35.02 na The maximum velocity is 11.56 and it occurs in the pipe between nodes 2 and 3 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 ' Finai ~alculations - Hazen-Williams Knight Fire Protection Inc. Page 5 Tahoma Terra Fairway-1st Floor Date 11-06-08 Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "C" or Ftng's Pe Pv ""'`**~~ Notes ""*** Point Qt Pf/Ft Eqv. Ln. Total Pf Pn D1 13.95 1.101 1 N 7.0 0.500 7.200 K Factor = 5.20 to 150.0 0.0 7.000 3.681 H1 13.95 0.0351 0.0 7.500 0.263 Vel = 4.70 0.0 13.95 _ _ _ . 11.144 _ K Factor = 4.18 _ _ D2 17.01 1.101 1 N 7.0 0.500 10.700 K Factor = 5.20 to 150.0 0.0 7.000 3.681 H2 17.01 0.0505 0.0 7.500 0.379 Vel = 5.73 0.0 17.01 _ -_ _ __ _ _ _-- __ 14.760 K Factor = 4.43 ---- D3 -_ 13.95 1.101 1 N 7.0 4.500 7.200 K Factor = 5.20 to 150.0 1 T 9.563 16.562 3.681 H3 13.95 0.0350 0.0 21.062 0.737 _ __ _ Vel = 4.70 _ 0.0 13.95 -- _ _ _ 11.618 K Factor = 4.09 _ D4 - 17.01 1.101 1 T 9.563 0.500 10.700 K Factor = 5.20 to 150.0 0.0 9.562 3.681 H4 ___ 17.01 0.0505 0.0 10.062 0.508 Vel = 5.73 0.0 17.01 _ - _ __ _ - _ 14.889 - _ - K Factor = 4.41 _ _ - 1 - -- 17.01 1.101 0.0 12.000 14.760 K Factor @ node H2 to 150.0 0.0 0.0 0.0 2 17.01 _ _ 0.0504 ___ _ 0.0 _ 12.000 0.605 _ Vel = 5.73 _- _ - __ _ _ 2 17.28 1.101 1 O 5.0 10.500 15.365 K Factor @ node H4 to 150.0 0.0 5.000 0.0 3 34.29 0.1845 0.0 15.500 2.859 Vel = 11.56 0.0 34.29 _ _ ___ 18.224 K Factor = 8.03 _ _ _ 4 ___ 16.29 1.101 0.0 6.000 15.189 K Factor @ node H1 to 150.0 0.0 0.0 0.0 5 16.29 0.0467 _ - _ _- - _ __ 0.0 _ _ 6.000 _ 0.280 Vel = 5.49 __ _ _ _ _ 5 16.10 1.101 1 O 5.0 12.500 15.469 K Factor @ node H3 to 150.0 0.0 5.000 0.0 6 ___ 32.39 --- - 0.1660 0.0 17.500 2.905 Vel = 10.92 0.0 -- 32.39 - - - -_ ___ _--- - 18.374 _ K Factor = 7.56 __ _ _ _ _ _ --- 3 34.29 2.003 0.0 15.000 18.224 to 150.0 0.0 0.0 0.0 6 ----. _ 34.29 0.0100 ___ _ 0.0 ___ 15.000 0.150 Vel = 3.49 6 32.39 2.003 1 N 11.0 92.000 18.374 to 150.0 0.0 11.000 0.0 11 - - 66.68 - -- 0.0342 - -- - - -- 0.0 - -- 103.000 _ _ 3.527 Vel = 6.79 -- 11 0.0 2.003 1 N 11.0 6.250 21.901 to 150.0 0.0 11.000 0.0 12 ____ 66.68 _ - - - --_ 0.0343 _ _ 0.0 _ __ 17.250 0.591 Vel = 6.79 _ _ _ _ _ _ _ 12 0.0 2.003 0.0 1.250 22.492 to 150.0 0.0 0.0 0.0 13 66.68 0.0336 0.0 1.250 0.042 Vel = 6.79 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Fina~ ~a~culations - Hazen-Williams Knight Fire Protection Inc. Page 6 Tahoma Terra Fairway-1 st Floor Date 11-06-08 Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "C" or Ftng's Pe Pv ****'"* Notes **""*" Point Qt Pf/Ft Eqv. Ln. Total Pf Pn - __-_ 13 0.0 2.209 1 E 6.91 1.500 22.534 _ _-- - -_ to 120.0 0.0 6.910 0.0 14 66.68 0.0321 0.0 8.410 0.270 Vel = 5.58 ___ _ __ 0.0 66.68 22.804 K Factor = 13.96 14 66.68 2.209 1 N 11.0 8.000 22.804 to 120.0 1Zik 0.0 11.000 9.680 * Fixed loss = 6.215 15 66.68 0.0321 0.0 19.000 0.610 Vel = 5.58 __ __ __ -- ------ -- 0.0 66.68 33.094 K Factor = 11.59 _ ---- 15 66.68 2.003 0.0 4.000 33.094 to 150.0 0.0 0.0 1.732 16 66.68 0.0345 0.0 4.000 0.138 Vel = 6.79 16 0.0 4.1 0.0 45.000 34.964 to 140.0 0.0 0.0 0.0 17 _ _--- _ 66.68 _ _ _ - 0.0012 0.0 45.000 0.053 _ Vel = 1.62 _ _ 17 0.0 8.27 1 G 6.326 30.000 35.017 to 140.0 0.0 6.326 0.0 TEST 66.68 0.0001 0.0 36.326 0.002 Vel = 0.40 0.0 66.68 35.019 K Factor = 11.27 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 y Knight ~'ire Protection Inc. Tahoma Terra Fairway-2nd Floor Upper Corner Page 1 Date 11-06-08 HYDRAULIC DESIGN INFORMATION SHEET Name - Tahoma Terra Fairway Date - 11-06-08 Location - Yelm, Washington Building - System No. - Contractor - Rainer General Development Contract No. - 08-109 Calculated By - S. Neely Drawing No. - Sheet 2 of 2 Construction: O Combustible O Non-Combustible Ceiling Height 9'-0" OCCUPANCY - S Type of Calculation: ()NFPA 13 Residential (X)NFPA 13R ()NFPA 13D Y Number of Sprinklers Flowing: ( )1 ( )2 (X)4 ( ) S ( )Other T ()Specific Ruling Made by Date E _ - _ _ --_ _ ----- M Listed Flow at Start Point - 17 Gpm System Type Listed Pres. at Start Point - 10.7 Psi (X) Wet () Dry D MAXIMUM LISTED SPACING 18 x 18 () Deluge () PreAction E Domestic Flow Added - Gpm Sprinkler or Nozzle S Additional Flow Added - Gpm Make VK436 Model Viking I Elevation at Highest Outlet - 19'- 0"Feet Size 1/2" K-Factor 5.2 G Note: Temperature Rating 155 N Calculation Gpm Required 56.61 Psi Required 40.76 At Test Summary C-Factor Used: Ov erhead 150 Underground 150 W Water Flow Test: Pump Data: Tank or Reservoir: A Date of Test - Rated Cap. Cap. T Time of Test - @ Psi Elev. E Static (Psi) - 57 Elev. R Residual (Psi) - 53 Other Well Flow (Gpm) - 1160 Proof Flow Gpm S Elevation - 0 P Location: P L Source of Information: City Of Yelm Y ~ 0 ~ ~ 0 N ~ N ~ m .r (6 (0 ~ ~ ~ N C L ~ U a~ n. a ~ ~ 0 ~ U " ~ ~ ~ ~ N ~ C (p U °- ~ U '~ ~ O~ ~ L ~ Q a ~ ~ L ~ ~ ~ L ~ ~ ~ ~ O >ca ~ ~ > Y I~ ~rn~ rn~ ~C~Or C~ON Oj~~ ~Cfl .. .. .. .. .. .. .. ~ ~ ~ C ~ N ~ ~ ~- O N 0 Cll~...~'+ c0 ~ O •° E EU ~ E~~ o~o m ~ ~~ ~ ~ ~ ~ Q ~ ~ ~ n i >, >, ~, "" wcncn c~w ~ ~ ~ ~ ~ ~ w ~~NN O Och (B ~~~~22~(A ~ N ~ O O ~ T 0 O ~' ~ ~ N ~< O N Z ~ > ~ J LL O O O 0 ° o co 00 f~M~- l() L() r .. ~ .. ~ ~ ~ ~~~ ~ In L ~ ~dL.L ~+a (0 N ~~ QU~~6 o O (~~NN N ~ ~ 0 ~ ~(n~~ O ~ N ~ ~ ~ N~NN N ~UUU ~ t 0 n ~ ~ ~ M C ~ ~1 ~ ~ ~ O O O O O O O O O O . - ~ - ~ . - ~ r - ~ 0 0 I `- C 4 ~ ~ M N • - U a ~ w cn cn ~ ~ w ~ ~ O M O Q ~ ~ S Z E m ~ ~ c ~ ~ ~ e ~ ~I ~ M N Nj (0~-00 ~ O O ~ O N ~~00.-- 00' ~ O I I V O O ~ CO! O ~~ <1' 0000 a0 I ~ I i ('~ I~ O O I~ i c'-I N(000C0 ~I NtD00~ a O I ~ V O O M COI ~MOO~M I N ~ tqI .--NOON V~i ~NOO~N ~I~ ~ (h; a0~00~ MI M ~ ~ f~.-~ ~.- ~~ NNN Ni (0~~~~ I O li .-00~ N i ~'- r- .- r C O ~ ~ ~ N N ~ ( O V O~ N a 0 m ~I ~ ~ J ~ ~ ~ M O 00 GO CO -p ~- ~ X C ~ LL ~ ~ ~ ~ ~, NOf~~!'7~ N 6 Q~ f9 ~ ~ N ~ a. ~ ~I N O f~ M V ~ (n (O ~ ~ ~ ~ ~ ~~ N O I~ M M L.L ~ L.L ~~ ~ (0 N i a ~ I 3~a~~ ~ ~ Z ~ ~ m W~SCO~J -p ~- 1 `X ~ m w ~ o ~ a~o ~ ~ ' , c u rn~ 3,~ U U ° c y,° ~' cn <n ~. .. a~ -o ~~ ~~~ ~ ~ c~~u~~ a~ a a - ~ ~ C cq C ~~~ ~ ~z~ o o rnC~UUrn~ ~ ~ ~~•~ ~ J ~I Cn ~~~ ~ m ~II ~ '_' ~ ~ ~ ~ ~ _ ~ I m ~ N L~Q WU` ZOF-fV ~ ~ J LL d Pressure / Flow Summary - STANDARD K~ight Fire Protection Inc. Page 4 Tahoma Terra Fairway-2nd Floor Upper Corner Date 11-06-08 Node Elevation K-Fact Pt Pn Fiow Density Area Press No. Actual Actual Req. D1 18.5 5.2 7.2 na 13.95 0.052 256 7.2 D2 18.5 52 7.2 na 13.95 0.052 256 7.2 D3 18.5 5.2 7.2 na 13.95 0.052 256 7.2 D4 18.5 5.2 7.2 na 13.95 0.052 256 7.2 1 19.0 K=K@H2 16.1 na 14.23 2 19.0 K= K@ H4 16.51 na 14.37 4 19.0 K= K@ H1 15.69 na 14.05 5 19.0 K= K@ H3 15.95 na 13.95 3 19.0 20.04 na 6 19.0 20.13 na 9 19.0 22.54 na 10 9.0 27.4 na 11 9.0 28.04 na 12 9.0 28.48 na 13 9.0 28.51 na 14 9.0 28.71 na 15 1.0 38.88 na 16 -3.0 40.72 na 17 -3.0 40.76 na TEST -3.0 40.76 na The maximum velocity is 9.64 and it occurs in the pipe between nodes 2 and 3 Computer Programs by Hydratec inc. Route 111 Windham N.H. USA 03087 Final Calculations - Hazen-Williams Knight Fire Protection Inc. Page 5 Tahoma Terra Fairway-2nd Floor Upper Corner Date 11-06-08 Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "C" or Ftng's Pe Pu '`"*"*'`* Nates "*"`** Point Qt Pf/Ft Eqv. Ln. Total Pf Pn D1 13.95 1.101 1 N 7.0 0.500 7.200 K Factor = 5.20 to 150.0 0.0 7.000 8.012 H1 13.95 0.0349 0.0 7.500 0.262 Vel = 4.70 0.0 13.95 15.474 - - _ K Factor = 3.55 -- D2 13.95 1.101 1 N 7.0 0.500 7.200 K Factor = 5.20 to 150.0 0.0 7.000 8.012 H2 13.95 0.0349 0.0 7.500 0.262 -- _ _ Vel = 4.70 _ __ __ _ _ _ _ _ 0.0 13.95 15.474 K Factor = 3.55 _ -- _____ _ _ D3 13.95 1.101 1 N 7.0 4.500 7.200 K Factor = 5.20 to 150.0 1 T 9.563 16.562 8.012 H3 13.95 0.0350 0.0 21.062 0.737 Vel = 4.70 0.0 13.95 15.949 _ K Factor = 3.49 _ - _ _ _ _ _ _ D4 13.95 1.101 1 T 9.563 0.500 7.200 K Factor = 5.20 to 150.0 0.0 9.562 8.012 H4 13.95 0.0350 0.0 10.062 0.352 Vel = 4.70 _ _ 0.0 13.95 15.564 K Factor = 3.54 __ _ __ 1 14.23 1.101 0.0 11.250 16.104 K Factor @ node H2 to 150.0 0.0 0.0 0.0 2 14.23 0.0363 0.0 11.250 0.408 _- -- Vel = 4.80 __ ---_ __ __ 2 14.38 1.101 1 O 5.0 21.750 16.512 K Factor @ node H4 to 150.0 0.0 5.000 0.0 3 28.61 0.1319 0.0 26.750 3.529 Vel = 9.64 _ __ _ . . _ _ _ 0.0 28.61 20.041 K Factor = 6.39 4 14.05 1.101 0.0 7.250 15.692 K Factor @ node H1 to 150.0 0.0 0.0 0.0 5 ___ _ . _ 14.05 0.0354 0.0 7.250 0.257 _ Vel = 4.73 ------ -_ _ _ __ __ 5 13.95 1.101 1 O 5.0 28.000 15.949 K Factor @ node H3 to 150.0 0.0 5.000 0.0 6 _ 28.0 0.1268 0.0 33.000 4.185 Vel = 9.44 - -- _ _ __ 0.0 28.00 20.134 K Factor = 6.24 3 28.61 2.003 0.0 13.000 20.041 to 150.0 0.0 0.0 0.0 6 28.61 0.0072 0.0 13.000 0.093 Vel = 2.91 6 28.00 2.003 1 N 11.0 84.000 20.134 to 150.0 0.0 11.000 0.0 9 _ 56.61 0.0253 __ _ _ 0.0 _ _ _ 95.000 2.403 Vel = 5.76 _ _ _ _ __ - _ _ __ _-_ 9 0.0 2.003 1 N 11.0 10.000 22.537 to 150.0 0.0 11.000 4.331 10 ---- - 56.61 - - 0.0253 0.0 21.000 0.531 Vel = 5.76 _ _ _ _ _ _ _ __- - 10 0.0 2.003 1 N 11.0 14.500 27.399 to 150.0 0.0 11.000 0.0 11 56.61 0.0253 0.0 25.500 0.645 Vel = 5.76 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Final Calculations - Hazen-Williams Kr:ight Fire Pro#ection Inc. Page 6 Tahoma Terra Fairway-2nd Floor Upper Corner Date 11-06-08 Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "G" or Ftng's Pe Pv '`**'`*** Notes "*"*** Point Qt Pf/Ft Eqv. Ln. Total Pf Pn 11 0.0 2.003 1 N 11.0 6.250 28.044 to 150.0 0.0 11.000 0.0 12 56.61 0.0253 0.0 17.250 0.436 Vel = 5.76 12 0.0 2.003 0.0 1.250 28.480 to 150.0 0.0 0.0 0.0 13 56.61 0.0256 0.0 1.250 0.032 Vel = 5.76 13 0.0 2.209 1 E 6.91 1.500 28.512 to 120.0 0.0 6.910 0.0 14 56.61 0.0238 0.0 8.410 0.200 Vel = 4.74 0.0 56.61 28.712 K Factor = 10.56 14 56.61 2.209 1 N 11.0 8.000 28.712 to 120.0 1 Zik 0.0 11.000 9.720 ` Fixed loss = 6.255 15 56.61 0.0237 0.0 19.000 0.450 Vel = 4.74 0.0 -- --- 56.61 - - 38.882 K Factor = 9.08 _ _ __ - 15 56.61 2.003 0.0 4.000 38.882 to 150.0 0.0 0.0 1.732 16 56.61 0.0255 0.0 4.000 0.102 Vel = 5.76 16 0.0 4.1 0.0 45.000 40.716 to 140.0 0.0 0.0 0.0 17 __ 56.61 0.0009 0.0 45.000 0.039 Vel = 1.38 17 0.0 8.27 1 G 6.326 30.000 40.755 to 140.0 0.0 6.326 0.0 TEST 56.61 0.0 0.0 36.326 0.001 Vel = 0.34 0.0 56.61 40.756 K Factor = 8.87 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 ~ ' ,~ .'~ . Knight Fire Protection Inc. Tahoma Terra Fairway-2nd Floor Lower Corner Page 1 Date 11-06-08 HYDRA[7LIC DESIGN INFORMATION SHEET Name - Tahoma Terra Fairway Date - 11-06-08 Location - Yelm, Washington Building - System No. - Contractor - Rainer General Development Contract No. - 08-109 Calculated By - S. Neely Drawing No. - Sheet 2 of 2 Construction: O Combustible O Non-Combustible Ceiling Height 9'-0" OCCUPANCY - S Type of Calculation: ()NFPA 13 Residential (X)NFPA 13R ()NFPA 13D Y Number of Sprinklers Flowing: ( )1 ( )2 (X)4 ( ) S ( )Other T ()Specific Ruling Made by Date E ---- -- M Listed Flow at Start Point - 17 Gpm System Type Listed Pres. at Start Point - 10.7 Psi (X) wet () Dry D MAXIMUM LISTED SPACING 18 x 18 () Deluge () PreAction E Domestic Flow Added - Gpm Sprinkler or Nozzle S Additional Flow Added - Gpm Make VK436 Model Viking I Elevation at Highest Outlet - 19'-0"Feet Size 1/2" K-Factor 5.2 G Note: Temperature Rating 155 N Calculation Gpm Required 66.81 Summary C-Factor Used: W A T E R S P P L Y Water Flow Test: Date of Test - Time of Test - Static (Psi) - 57 Residual (Psi) - 53 Flow (Gpm) - 1160 Elevation - 0 Location: Psi Required 45.92 At Test Overhead 150 Underground 150 Pump Data: Tank or Reservoir: Rated Cap. Cap. @ Psi Elev. Elev. Other Well Proof Flow Gpm Source of Information: City Of Yelm ~ 0 ~ c~ 0 ~ N ~ N ~ ~ .~ (0 (0 d ~ N c 0 U a~ 3 O J L ~ 0 U " ... ~ c ~ ~ N ~ O ~ ~ ~ (6 ~ Q O ~ a a` ~ ~ ~ ~ ~ ~ L ~ c~ ~ ~ O ~ ~~ ~ Y~ ~~~ ~~ ~a~o~ °m~r? ~ ~ ~ ~ T ~ ~ ~ ~ .. .. .. .. .. .. .. ~ ~ ~ C tn f6 ~ 0 ~ ~ a ~ C LL ~,~ C Q C O ~ ~ ~V ~ ~~rn ~ ~~~~~~~ ~ > T¢ ~ T~ ~ , W (n (n ~ ~ fn ~, ~ ~ ~ ~ ~ ' ~ ~~NN O OM (0 ~~~0=2~(n E a~ 0 O O ~ 0 0 ~ ~ ~ N ~ ~ O N Z ~ > ~ J ~ O O O 0 ° o ~ I~M~ ~ ~ ~ .. ~ .. ~ ~ O ~~ c° o N ~ d L1. ''a ~ ~ " - o Q. U a 6 ~ 7 ~ !n fn ~ (n ..-~ ~ N L(n~~ 0 O 0 ~ ~ i i ~6 N ~NN ~UUU 0 0 ~, o ~ 0 V 0 ~ 0 ~ O O O O O O ' O O O O . -- ~ 0 0 ti C 9 t ! ) ~t M N U a ~ w cn cn ~ ~ w ~ ~ 0 M O Q ~ ~ S Z ~ m ~ a c ~ ~ ~ ~ 0 ~ ~, NI ~ M N (0~00~ ~ O C4 O O NI~ O ~ O 1p~00 ~ M ~ j NI ~ O V ~ O O ~ ~ ~ ~ N ~ a ~ cD i o vaooooo v ', ~~, u-~ M f~ O O I~ N' ~ I~ O NCO00(O O i N O N ~ O O ~ 001 ~ ~ ~ VOOM ~ (p I~ ~f O ~(h O O 07 ~' ~NOON V I ~ N O O~N \I ' ~ ch ~~ e0 ~ O O M, MLL) ~ ~~~~~ \ ~ r r N I (O ~ O ~- O O ~ NI tAr-r~~ C O ~ N \I c-~ N V O~OOOOm I ~ N O J ~ ~ C ~-i M O oD (D (O -p ~ - I X ~ C~ ~ ~ i I I (0 NOI~~~ ~ C ~ (n Q ~ ~ L ~ ~ ~ ~ O ~ ~ M I, N O f~ M V ~ ~ ~~ O V , m - ~ (~ C ~ o ~ ~~i N O I~ M M LL ~ cn ~~1- ~ a ~ O J I ` ~ O ~I ~ ~ I Q ~ ~ ~ ~ - ~ a C ~ c~ I 3~ ~ ~ ~ ~+ ' ~° m ~ ~ °' m~a~ ~ ~2 W~=ppl-J ~ U~ C U' i ~a ~ ~ X ~ ~ W ~ ~ o ~L ~ ~rnH ~ ~ , 3 N Z' u~ ~n f/~ d i '.O E ~ C » ~ Y ~ C N C ~ ~ ~ ~ '-~ C~ ~Z ~a~aao= rnC7UUrn~ ~ ~ ~•~~~ ~- ~ ~~~ ~ L~ co ~ ~ ~ ~ ~~ U~ N ~L~ u~i c . o rn a~ ~n ~ rn 3 ~n ~ '~ ~ ~ ~i Y ~ (6 ~ O ~ LL Y~ l iiQ wC~zO~N ~ OJ~a ~,. ' Pressure / Flow Summary - STANDARD Knight Fire Protection Inc. Page 4 Tahoma Terra Fairway-2nd Floor Lower Corner Date 11-06-08 Node Elevation K-Fact Pt Pn Flow Density Area Press No. Actual Actual Req. D1 18.5 5.2 10.7 na 17.01 0.052 324 10.7 D2 18.5 5.2 10.7 na 17.01 0.052 324 10.7 D3 18.5 5.2 7.2 na 13.95 0.052 256 7.2 D4 18.5 52 7.2 na 13.95 0.052 256 7.2 1 19.0 K= K@ H2 19.09 na 17.01 2 19.0 K=K@H1 19.85 na 17.34 4 19.0 K= K@ H3 20.49 na 15.82 6 19.0 K= K@ H4 22.13 na 16.64 3 19.0 22.37 na 5 19.0 22.55 na 7 19.0 23.02 na 8 19.0 24.6 na 9 19.0 26.37 na 10 9.0 31.42 na 11 9.0 32.29 na 12 9.0 32.89 na 13 9.0 32.93 na 14 9.0 33.2 na 15 1.0 43.49 na 16 -3.0 45.36 na 17 -3.0 45.42 na TEST -3.0 45.42 na The maximum velocity is 10.69 and it occurs in the pipe between nodes 7 and 8 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 ' Final Lalculations - Hazen-Williams Knight Fire Protection Inc. Tahoma Terra Fairway-2nd Floor Lower Corner Page 5 Date 11-06-08 Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "C" or Ftng's Pe Pv **"'*"` Notes "''"'''" Point Qt Pf/Ft Eqv. Ln. Totai Pf Pn D1 17.01 1.101 1 N 7.0 0.500 10.700 K Factor = 5.20 to 150.0 0.0 7.000 8.012 H1 17.01 0.0504 0.0 7.500 0.378 Vel = 5.73 0.0 17.01 19.090 K Factor = 3.89 D2 17.01 1.101 1 N 7.0 0.500 10.700 K Factor = 5.20 to 150.0 0.0 7.000 8.012 H2 17.01 0.0504 0.0 7.500 0.378 Vel = 5.73 0.0 - - 17.01 --.._.- - 19.090 K Factor = 3.89 D3 13.95 1.101 1 N 7.0 4.500 7.200 K Factor = 5.20 to 150.0 1 T 9.563 16.562 8.012 H3 13.95 0.0350 _ 0.0 _ _ 21.062 0.737 _ Vel = 4.70 _ __ 0.0 13.95 _ 15.949 K Factor = 3.49 _ D4 13.95 1.101 1T 9.563 0.500 7.200 K Factor = 5.20 to 150.0 0.0 9.562 8.012 H4 13.95 0.0350 0.0 10.062 0.352 Vel = 4.70 0.0 _--_ 13.95 ----- _ _ _ __ 15.564 _ K Factor = 3.54 _ 1 17.01 1. i 01 0.0 15.000 19.090 K Factor @ node H2 to 150.0 0.0 0.0 0.0 2 - 17.01 -_ _ - 0.0505 - - _ --- --- - 0.0 _ _ _ 15.000 _ _ __ 0.757 _ Vel = 5.73 2 17.34 1.394 1 O 6.0 37.000 19.847 K Factor @ node H1 to 150.0 0.0 6.000 0.0 3 34.35 0.0587 0.0 43.000 2.522 Vel = 7.22 0.0 34.35 _--- _ - -_ - - - -- 22.369 K Factor = 7.26 4 15.82 1.101 1 O 5.0 41.750 20.490 K Factor @ node H3 to 150.0 0.0 5.000 0.0 5 15.82 0.0441 0.0 46.750 2.060 Vel = 5.33 0.0 _ _ 15.82 ___ _ _ 22.550 K Factor = 3.33 __ __ _ 6 16.64 1.394 1 O 6.0 52.000 22.132 K Factor @ node H4 to 150.0 0.0 6.000 0.0 7 16.64 0.0153 0.0 58.000 0.889 Vel = 3.50 0.0 16.64 _ _- -- __ __ _ - _ 23.021 K Factor = 3.47 3 34.35 1.598 0.0 6.000 22.369 to 150.0 0.0 0.0 0.0 5 34.35 0.0302 _--- - 0.0 6.000 0.181 Vel = 5.49 5 15.82 1.598 0.0 7.750 22.550 to 150.0 0.0 0.0 0.0 7 _- -- 50.17 - -__ 0.0608 -- - - - 0.0 7.750 0.471 Vel = 8.03 7 16.64 1.598 1 N 9.0 6.250 23.021 to 150.0 0.0 9.000 0.0 8 66.81 0.1033 0.0 15.250 1.575 Vel = 10.69 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 • rinal Calculations - Hazen-Williams Knight Fire Protection Inc. Page 6 Tahoma Terra Fairway-2nd Floor Lower Corner Date 11-06-08 Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "C" or Ftng's Pe Pv *"`~"*" Notes "***** Point Qt Pf/Ft Eqv. Ln. Total Pf Pn 8 0.0 2.003 1 N 11.0 40.500 24.596 to 150.0 0.0 11.000 0.0 9 66.81 0.0344 0.0 51.500 1.770 Vel = 6.80 __ _ 9 0.0 2.003 1 N 11.0 10.000 26.366 to 150.0 0.0 11.000 4.331 10 _ _ _- - - 66.81 -- --- _ -- 0.0343 - - - . _ - - -- _ 0.0 21.000 0.721 Vel = 6.80 10 0.0 2.003 1 N 11.0 14.500 31.418 to 150.0 0.0 11.000 0.0 11 66.81 0.0344 -- 0.0 25.500 0.876 Vel = 6.80 11 0.0 2.003 1 N 11.0 6.250 32.294 to 150.0 0.0 11.000 0.0 12 66.81 0.0344 0.0 17.250 _ __ 0.593 Vei = 6.80 - _ . 12 0.0 2.003 0.0 1.250 32.887 to 150.0 0.0 0.0 0.0 13 66:81 0.0344 - _ - _ 0.0 1.250 0.043 _ _ ___ Vel = 6.80 - _ 13 0.0 2.209 1 E 6.91 1.500 32.930 to 120.0 0.0 6.910 0.0 14 66.81 0.0322 0.0 8.410 0.271 Vel = 5.59 _ _ _ _ 0.0 --_ _ _ 66.81 - -- __ 33.201 K Factor = 11.59 14 66.81 2.209 1 N 11.0 8.000 33.201 to 120.0 1 Zik 0.0 11.000 9.680 * Fixed loss = 6.215 15 66.81 0.0322 0.0 19.000 0.612 Vel = 5.59 0.0 - 66.81 - ----- . -- --- 43.493 K Factor = 10.13 15 66.81 2.003 0.0 4.000 43.493 to 150.0 0.0 0.0 1.732 16 66.81 0.0345 0.0 4.000 0.138 Vel = 6.80 16 0.0 4.1 0.0 45.000 45.363 to 140.0 0.0 0.0 0.0 17 ---- _ 66.81 _ 0.0012 __ -- 0.0 - _ 45.000 _ - - - 0.054 Vel = 1.62 17 0.0 8.27 1 G 6.326 30.000 45.417 to 140.0 0.0 6.326 0.0 TEST --- 66.81 0.0 0.0 36.326 0.001 Vel = 0.40 0.0 66.81 45.418 K Factor = 9.91 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087