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Specifications 'RECEIVED EL,?,or _ D 0 ° 7 •l , MAY 14 2004 Form 2a Project Name: 7HS - p HA SE Z.. Page I CITY OF TIGARD SUMMARY ■ ■ uaca N Project 1. Project Name 7 /Vs TZt= awe=t - Ri ✓ V- 2. Project Address Qepoa s w t, eN R� 3. City /Town 77 G/d 2 a 5. County L,,4s/di•re..ra.,l 4. Building, Gross Area (ft S S® 5 - C 6. No. of Floors 2 Attached Chapter Type ID Description Attach Forms and Building Envelope Form 3a Building Envelope - General Ffi 3b Prescriptive Path - All Climate Zones ig Worksheets ❑ Worksheet 3a Wall U- factor Check boxes to 3b Roof U- factor ❑ indicate attached 3c Floor U- factor ❑ fc: ms and worksheets Systems Form 4a Systems - General VI 4b Complex Systems fa Worksheet 4a . Unitary Air Conditioners - Air Cooled Q 4b Unitary Air Cond. - Water & Evap. Cooled ❑ 4c Unitary Heat Pump - Air Cooled ❑ 4d Unitary Heat Pump - Water Cooled ❑ 4e Packaged Terminal A.C. - Air Cooled ❑ 4f Packaged Terminal Heat Pump - Air CooledU . 4g Water Chilling Pkgs. - Water & Air Cooled ❑ 4h Boiler - Gas -Fired and Oil -Fired ❑ 4i Furnace & Unit Heaters - Gas & Oil -Fired ❑ 4j Simultaneous Heating and Cooling Iffi 4k Natural Ventilation ❑ 41 Fan Motor Energy ❑ Lighting Form 5a Lighting - General 5b Interior Lighting Power - Tenant Method it 5c Int. Ltng. Power - Space -by -Space Method ❑ Worksheet 5a Lighting Schedule al 5b Interior Lighting Power Vil Applicant 7. Name 10. Telephone 8. Company 11. Date 9. Signature Attached No. of Pages Description of Documentation Document- 3 goo Fro � '� v"e / 7 ' I t ti i - sNee Ts " ation ,., ♦ .J.ttif " .i,.`. '. .( , ti., f:'.n 1. -. _b 1,.. .. An .hq "} .4 S . (10/031 Forms 2-1 I ra' r . _Form 3a Project Name: - �+ I4 S - ,ti•a s' . Page '-,__ I BUILDING ENVELOPE - GENERAL Check all boxes that 1. Exceptions (Section 1312) apply. ❑ No Envelope Components. The building plans do not call for new or altered building envelope components, e.g., walls, floors or roof /ceilings. ❑ A Non- conditioned Building. The proposed structure has no spaces heated or cooled by an HVAC system Exceptions ❑ Exception. All new or altered building envelope components do not comply with the Discussion of qualifying requirements, Section 1312, but qualify for Exception 1 ❑ 2 ❑ 3 ❑ 4 ❑ 5 ❑ exceptions in instructions Portions of the building that qualify: I section The plans /specs show compliance in the following locations: i 1 2. Air Leakage (Section 1312.1.1) Plans /Specs ® Complies. Plans require that penetrations in the building envelope are sealed and that Show complince by windows and doors are caulked, gasketed or weatherstripped. including a drawing The plans /specs show compliance in the following locations: sheet, detail number, A .l I specification section I •A 2 e A/ • J� w�r A ✓� - and /or subparagraph ' __ ,_ - - , 3. Suspended Ceiling (Sec 1312.1.2.1) (Section 0* 'Complies Building plans do not show suspended ceilings used to conditioned space from unconditioned space No exceptions permitted. , 4. Recessed Lig ht Fixtures (Section 1312.1:2.2) El Complies. The building plans do not show recessed light fixtures installed,in.ceilings separating,conditioned spaces from unconditioned spaces ❑ Exception: The building plans require that fixtures installed in direct contact -with insulation be insulation coverage (IC) rated The.plans /specs show compliance iri the following locations: 5. MoistureControl (Section 1312.1.4) , ,. 11 Complies. A one -perm vapor retarder is installed on the warm side (in'winter) of all exterior floors, walls and ceilings, and a ground cover is installed in the crawl space for both new and existing buildings where insulation is installed. . The plans /specs show compliance in the following locations: l 1 •A /Tt�Tu4- - r) i- 4 w1 .-46-s El Exception. All new or altered building envelope components do riot comply with the vapor retarder requirements of the code, but qualify for an exception Note applicable exception. Section 1312.1.4, Exception 1 ❑ 2 ❑ . Portions of the building that comply Climate 6. Climate Zones Zones l Zone 1 - A building site is in Climate Zone 1 if its elevation is less than 3000 feet above sea level and it is in one of the following counties. Benton, Columbia, Clackamas, Clatsop, Coos, Curry, Douglas, Jackson, Josephine, Lane, Lincoln, Linn, Marion, Multnomah, Polk, 4_ `fi Tillamook, Yamhill, or Washington ❑ Zone 2 - Building sites not in Zone 1, or where construction site elevation is 3000 feet or - j - -, aye' higher in Zone 1, are in Zone 2. 3 -1 ii ' Form 3b Project Name: rrs s - PN.rj st- 7.- Page: 3 PRESCRIPTIVE PATH Part 1 of 4 Glazing Conditioned 3 00 - I l S G• p o 1 x100 = I/ 4/i ] I Percent Space - Calculation Semi I 1 X100= _ See Instruction section Conditioned I J for a discussion of Soace glazing percent C calculation _ X 100 = Mechanical Penthouse now ea • Exterior Wall Area Glazing (total rough (gross ft2) Percent frame ft Windows Thermal Performances Window Shading Coefficient From Worksheet 3d, Window (from Worksheet 3d) place the highest (from Worksheet 3d) - Overall Window U- /' ' - S L/ - (,l! ' or 57 factor and highest W - � 0 i Center - of - Glass SC . See "Window Requirements" in table on the Notes t From Worksheet 3d, place the highest Overall Window U- factor or wnte -in MA (Minimum A ssembly) following page for specific MA requirements. _ 2 From Worksheet 3d, place the highest "center -of- glass" shading coefficient (SC) for glass or wnte -m MA (Minimum Assembly) See "Window Requirements" in the following table for specific MA requirements Shading Coefficient (SC) can be calculated from the Solar Heat Gain Coefficient using the equation' SC = SHGC - 0 87 Manufacturers data may also be used to document SC a nsu a ton ype R -Value U Factor' Insulation Only Walls M ,r FT' 4 X11.4 .i - t L Jz / I- /li4TT /i/suc. I g See instruction or . section fora or discussion of wall or requirements. Below-Grade R- Value 3 Below -Grade Walls Insufabon Only (Max. 0.11) (Mm R -7 5) - U-Factor I I Walls' - See instruction secton I or for a discussion of below grade wall requirements Notes 3 Submit Worksheet 3a for each calculated assembly U - factor il* 3 -2 Form 3b Project Name' Tv S— pt/.c7 Se Z Page: y PRESCRIPTIVE PATH Part 2 of 4 Code Requirements - Zone 1 Discussion of these requirements in the instruction section ZONE 1 Wall Requirements Window Requirements Wall / Insulation Type U_ Max. Shading Max. Glazing R -Value Factor Max. U- Factor Coefficient Fraction4 Insulation Only 4 CMU 'Masonry , w /integral loose fill insulation N/A 0.300 0 540 0.57' Up to 15 /o w /cont exterior insulation 1 4 or 0.300 Masonry or concrete', CMU Masonry w /integral rigid" fill insulation N/A 0. 210 Masonry or concrete w /interior insulation 11 or 0.130 Up to 30% Mason or concrete w /cont. exterior insulation 2 8 or 0.210 0 540' 0.57 Frame (wood or metal framing) 13 or 0. 130 Other (provide short description) 13 or • 0.130 CMU Masonry whntegral rigid" fill insulation N/A 0.210 Masonry or concrete whnterior insulation 11 or 0.130, Up to 40% Masonry or concrete w /cont. exterior insulation 2 8 - or 0.210 > 0.370 0 35 Frame' (wood or metal framing) 13 or 0.130 • Other (provide short description) , 13 • • or 0.130 'C Requirements - Zone 2 • Discussion of these requirements in the instruction section - ZONE 2 Wall Requirements Win Wall /Insulation Type U_ Mai. Shading Max. Glazing R- Value Factor Max. U Factor Coefficient Fraction4 Insulation On , o CMU 'Masonry , w /integral loose fill' insulation N/A 0.300 0 500' 0 57 Up to 15 /o Mason or concrete w /cont exterior insulation 1 8 or 0.270 CMU Masonry , w /integral rigid' fill insulation N/A 0. 160 Masonry or concrete w /interior insulation 13 or 0.090 • Up to 30% Masonry or concrete w /cont- exterior insulation 4.3 or 0.160 0.500' 0 57 Frame (wood or metal framing) 19 or 0.090 Other (provide short description) 19 or 0.090 CMU Masonry w /integral rigid" fill insulation N/A 0.160 Masonry or concrete w /interior insulation 11 or 0.090 Up to 40% Mason or concrete w /cont exterior insulation 2 8 or 0.160 0.370 0.43 Frame (wood or metal framing) 13 or 0.090 Other (provide short description) 13 or 0.090 Notes 4 The Simplified Trade -off Approach must be used if glazing fraction exceeds allowable percentages. s Minimum weight of masonry and concrete wails = 45 lb/ft2 of wall face area 6 All cores to be filled At least 50% of cores must be filled with vermiculite or equivalent fill insulation r rrescripnve mw+ tivimimum r+ssemory) is a oouore- giazeo winnow won a u a incn air space, iow -e cowing (e <= u vul ano aluminum frame ivies shading coefficient description is a tinted outboard pane of glass " All cores except bond beams must contain ngid insulation inserts approved for use in reinforced masonry walls s _ 9 Batt insulation installed in metal or wood frame walls shall be insulated to the full depth of the cavity, up to 6 inches in depth io Prescriptive MA (Minimum Assembly) is a double - glazed window with a 0 5 inch argon filled space, low -e coating (e <= 005) and thermal break ( ` a;; -/ frame MA shading coefficient descnphon is a 0 25 -inch thick glass with low -e coating (e <= 0 05) Zone 1 includes a tinted outdoor pane 3 -3 • Form 3b Project Name' Trd s - pydAil se- Z- Page: r5 PRESCRIPTIVE PATH Part 3 of 4 R - Value U- Factor12 Roofs/ Roof f Ceiling" Insulation Only (Max o oso) Ceilings (Min. R -19) See instruction section I / 3 Li / L r- V� �40 F ...1 2 - / 9 ,�✓suC . r 9 or For a dicussion of roofs /ceilings Notes 11 Wnte -in a short description for assembly with the lowest insulation R -value or the highest assembly U- factor 12 Submit Worksheet 3b for each calculated roof /ceding assembly U- factor Skylights Conditioned I I Includes glazed I z ©2_00 ' 1 _ 3Z 5°bO X 100 = D r 6 smoke vents Space I See instruction Semi - Conditioned X 100 = I section for a Space dicusswn of skylights Conditioned _ X 100 = Mechanical PP_nthnimn - Skylight Area Roof /Ceiling Area Skylight (total rough , (gross ft2) Perceni frame ft2) Skylights From.Worksheet 3d, 14 Shading Coefficient place the•highest Skylight Thermal Performance, Skylight Overall Vertical . - (from Worksheet 3d) (from Worksheet 3d) Window U - factor and . nd s� t/� Or S highest Center -of- SiC u — (' r Z y / ' Glass SC. • — Thefmal Performance Shading Coefficient Code Compliance Option Overall Vertical U Factor ' - Center of Glass SC Requirements Performance U -1 230 for overall assembly In overhead plane SC -0 47 center -of -glass Mtmmum'ASSembly N/A (MA) Double glazed, 0 5 -inch airspace i3 Skylight percentage area is based on total skylight and smoke vent rough frame area divided by total conditioned roof area. Percentage must not Notes exceed 6 percent of total roof /ceiling area in conditioned building space The Simplified Trade -off Approach must be used if glazing fraction exceeds allowable percentages. 14 From Worksheet 3d, place the highest Overall Vertical U- factor or write -in MA (Minimum Assembly) See "Skylight Requirements" in table above for specific MA requirements 1s From Worksheet 3d, place the highest "center -of- glass" shading coefficient (SC) for glass See "Skylight Requirements" in the following table for specific MA requirements Shading Coefficient (SC) can be calculated from the Solar Heat Gain Coefficient using the equation SC = SHGC - 0 87 Manufacturers data may also be used to document SC �( X 3 -4 Form 3b Project Name 7/d S — 1 7/44 S c -' Z._ Page: (p PRESCRIPTIVE PATH Part 4 of 4 Floors Floors over Unconditioned Spaces R -Value U- Factor See instruction Insulation Only section fora I ^I/ 4 dicussion of floors Heated Concrete Slab Edge R -Value Insulation Only Heated Slab -on -Grade (Section 1312.1.2.4) ❑ Complies. Building plans show insulation extending downward from the top of the slab a minimum distance of 24 inches or downward and under the slab for a combined minimum distance of 24 inches or to the bottom of the thickened edge of the of slabs used as a foundation. The plans /specs show cornpliance in the following locations: - Notes 16 Write -in a short description for assembly with the lowest insulation R -value or the highest assembly U- factor. 17 Submit Worksheet 3c for each calculated floor assembly U- factor 18 Write -in a short description for Heated Slab, which has heat, integrated into slab such as hydronic heat If more than one floor type, enter the lowest insulation R -value or the highest component U- factor of any floor Compliance Options Code Component Min.R -Value Max: U- Require- - Insulation only Factor rinerrl-c Floor over Unconditioned Spaces- - 11 _ or 0.070 Component Climate Zone ,1 Climate Zo 2 Heated Concrete Slab Edge, 'Min. R -Value , 7.5 I or I 10 . 0 • U= Factor Doors Doors R -Value Center -of -Panel See instruction w ith leaf width greater than 4' Insulation Only (Max 0.20) section fora (Min R - I dicusswn of doors - or Notes 19 Wnte -in a short description for Doors If more than one door type, enter the lowest insulation R -value or the highest center -of -panel U- factor of any door Glazing in these doors is exempt from U- factor and SC requirements. Doors with a leaf width 4-ft or less and overhead cod doors are exempt a'V to i L4✓ 3 -5 • Worksheet 3d Project Name S — /d S Z Page' Window /Skylight Schedule (use.additional pages if necessary) Window Properties - List All Window Types in Project • (a) (b) (c) (d) (e) (f) (g) (h) (I) 0) (k) Overall Documentation Manufacturer's Window Frame Thick- Other (triple pane, an Glass window Glass Name Source Model / No Type/Class 'type Glass Tint ness space, argon, low E) U- factor u- factor SC ry p i p.+' 4. — I A Nn!A Pei Vtf f l j(trP 4,u0/, C�Gt7v Y y cool', ea,/ u/6 0 X ,c-7 • • Skylight Properties - List All Skylight Types in Project (a) (b) ( (d) (e) - (f) . - �(9)) (h) tenter ' 0) �ei(k ur Overall Documentation Manufacturers Skylight Frame Thick- ` Other (# panes, air Glass window Gass Name Source Model / No Type /Class Type Glass Tint ness space, argon, low E) U- factor U - factor SC • , S Kv– / ld/4C r.'FAuer _ tte4 r I/4 �� /. / D, nis7 Column Instructions (a) Enter the name of the window or skylight product It is recommended that you choose a name that corresponds with that used on project plans and specifications (b) Provide documentation source Write -in "NFRC" if window is rated through NFRC 100 -97 Procedure for Determining Fenestration Product Thermal Performance Enter all columns except (i) Write -in "ASHRAE Default W /Mfg COG" if Center -of -Glass U- factor and Shading Coefficient is available from glass manufacturer Enter all columns Columns (i) and (k) from manufacturers data sheet Wnte -in "ASHRAE Default" if only descriptive parameters of window are known Enter all columns Columns (i), G), and (k) from ASHRAE default table (c) If Document Source is either "NFRC" or "ASHRAE Default W /Mfg COG," enter the manufacturers model number (d) For windows, choices are Fixed, Operable, or Curtain Wall For Skylights, choices are Manufactured or Site Built (e) Choices are wood, vinyl, reinforced vinyl, aluminum clad, insulated fiberglass, aluminum, aluminium wrthermal break (see definitions for thermal break requirements ) (f) Enter glass tint Write "clear' if there is no tint (g) Enter glass thickness (h) Include window properties such as argon fill, low-e coating, insulating spacers, etc (i) COG U- factor from manufacture's data or ASHRAE 2001 Fundamentals Handbook, Chapter 30, Table 4 For NFRC rated products leave blank (j) Overall U- factor from NFRC rating orASHRAE 2001 Fundamentals Handbook, Chapter 30, Table 4 For skylights value must be for horizontal position (k) COG Shading Coefficient from manufacture's data or ASHRAE 2001 Fundamentals Handbook, Chapter 30, Table 4 For NFRC rated products SHGC is provided To convert SHGC to SC SC = SHGC /O 87 3 -11 Form 4a Project Name: Ted s — pM•a s.- z Page: SYSTEMS - GENERAL Applicability Plans/ Specs Discussion of qualifying Show comphnce by including a drawing sheet. detail exceptions on page 4 -14 number, specification section and subparagraph 1. Applicablity (Section 1317) Is this form required? ID Form Required. Complete form if a new HVAC system is being installed, or components of an existing HVAC system are being replaced (I.e., equipment, controls, ductwork, and insulation.) ❑ Exception. The building or part of the building qualifies for an exception from HVAC code requirements. Applicable code exception is Section 1317.1. Portions of the building that qualify: Area:I I Exception 1 ❑ 2 ❑ 3 ❑ Area:I • I Exception 1 ❑ 2 ❑ 3 ❑ Area:I I Exception 1 ❑ 2 ❑ 3 ❑ ❑ Form Not Required. This project does not contain work required to comply with code. 2. Simple or Complex Systems (Section 1317.9 or 1317.10) ❑ Simple System. Building contains only Simple HVAC System(s). Complete this form (4a) and equipment efficiency worksheets as required. Form 4b is not required. r , Complex System. Project includes a Complex System. Complete this form (4a), form 4b and equipment efficiency worksheets as required. , 3. System and Zone Controls (Section 1317.4.1 and 1317.4.2) 1'i Complies. All new HVAC systems include at least one temperature control device responding to temperatures within the zones ❑ Exception. HVAC system qualifies for an exception from zone control requirements. The applicable code exception is Section 1317.4.2, Exception 1 ❑ 2 ❑ Portions of the building that qualify: I The plans /specs show compliance in the following locations: 4. Control Capabilities (Sec. 1 ® Complies. Zone thermostats are capable of being set to the temperatures described in Sec. 1317.4.2.1. Where used to control both heating and cooling, zone controls shall be capable of providing a temperature range or deadband of at least 5 degrees F within which the supply of heating and cooling energy to the zone is shut off or reduced to a minimum. ❑ Exception. The building qualifies for an exception to the deadband requirements. The applicable code exception is Section 1317.4.2.1 Exception 1 ❑ 2 ❑ Portions of the building that qualify. The plans /specs show compliance in the following locations: I I 4 -1 Form 4a Project Name: -rids — p i4 s r z Page: 9 SYSTEMS - GENERAL • , 5. Oft-hour Controls 5.1 Automatic Setback or Shutdown (Section 1317.4.3) Complies. Systems must have at least one of the following features: ❑ Control Setback Complies. Each system is equipped with automatic control capable of reducing energy through control setback during periods of nonuse or alternate use of spaces served by system. r2 Equipment Shutdown Complies. Each system is equipped with automatic control capable of reducing energy equipment shutdown during periods of nonuse or alternate use of spaces served' by system. HVAC systems with equipment shutdown are equipped with at least one of the following: ® Programmable controls (1317.4.3.1 (1)) ❑ Occupant sensor (1317.4.3.1 (2)) ❑ Interlocked to a security system (1317.4.3.1 (3)) ❑ Manually activated timers with 2 -hour operation max ❑ Exception. The building qualifies for an exception to the requirement for automatic setback or shutdown controls (first set of "exceptions) • The applicable code exception is Section '1317.4.3 Exception 1 ❑ 2 ❑ The plans /specs show compliance in the following locations: 5.2. S hut o f f D a m per C ( i Complies. Each outdoor air supply and exhaust system is provided with motorized , dampers or other means of automatic volume shutoff or reduction during periods of nonuse or alternate use of spaces served : by system. ❑ Exception. The building qualifies for an exception to the motorized damper requirement. . . The applicable code exception: Section 1317.4.3.3, Exception 1 ❑ 2 ❑ 3 ❑ 4 ❑ The plans /specs show compliance in the following locations: I 5.3. Optimum Start Controls (Section 1317.4:3.2) s Complies. Separate HVAC systems have controls capable of varying start -up time of system to just meet temperature' set point at time of occupancy. ❑ Exception. HVAC systems have a design supply air capacity not exceeding 10,000 cfm. The plans /specs show compliance in the following locations: I I. 6. Heat Pump Controls (Section 1317.4.4) iii No Heat Pump. The plans /specs do not call for a new heat pump ❑ Complies. All new heat pumps equipped with supplementary heaters are controlled to minimize the use of supplemental heat as defined in Section 1317.4.4. The plans /specs show compliance in the following locations: 7. Equipment Performance (Section 1317. • El No New HVAC Equipment. The building plans do not call for new electrical HVAC equipment, combustion heating equipment, or heat - operated cooling equipment. IF Complies. All new HVAC equipment have efficiencies not less than those required by the code. The following equipment efficiency worksheets are attached 4a 4b 4c 4d 4e 4f 4g 4h 4i 4j ® ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ 4 -2 Form 4a Project Name: TA/S— .0k/ oc Z Page: io SYSTEMS - GENERAL 8. Hot Gas Bypass (Section 1317.5) l No Hot Gas Bypass ® Complies. See allowable amount of hot gas bypass as a percentage of total cooling capacity in table below. Hot Gas Bypass Unit ID Rated Cooling Capacity Capacity Allowable Hot Gas Bypass Rated Cooling Capacity Max Hot Gas Bypass - Capacity - <240,000 Btu /h 5 0% >240 ;000 Btu /h 25% ❑ Exception. Unitary packaged system with cooling capacity no greater than 90,000 Btu /h 9. Economizer Cooling (Section 1317.3) ❑ No Cooling. The building plans do not call,for a new fan system with mechanical cooling. ❑ Complies. Each new system has an air economizer capable of modulating outside -air and return -air dampers to provide up to 100 percent of the design supply air as outside air. II Exception At least one new fan system qualifies for an exception. The applicable code exception is Section 1317.3, Exception 1 ❑ 2 .03 4 05 ❑ 6 ❑ If Exception 3 is selected complete the following: (a) Total cooling capacity of exempt units / S, 09 1 (b) Total installed building cooling capacity 1 F Complies. Sum of exempt units rated at less than 54,000 btu /hr is <240,000 or a/b <0.10 (10% of total building cooling capacity). Unit Identifier of exempt units: The plans /specs show compliance in the following locations: [ 5 & M(.0 . q / S rz /5 Sg 10. Economizer Pressure Relief & Integration (Section 1317.3.1 and 1317.3.2) ❑ No Economizers Required. The project does not contain a new fan system requiring economizers. ❑ Overpressurization Complies The drawings specifically identify a pressure relief mechanism for each fan system that will relieve the extra air introduced by the economizer. • Integration Complies. Economizer is capable of providing partial cooling even when additional mechanical cooling is required to meet the remainder of the cooling load. O Exception. The applicable exception is Section 1317.3.2, Exception 10 211 The plans /specs show compliance in the following locations: [ 4 -3 Form 4a Project Name: 7-,E/S — �Al�fl sr z_ Page: / SYSTEMS - GENERAL 11. Duct Insulation and Sealing (Section 1317.7 & Section 1317.8) ❑ No Ducts. The building plans and specifications do not call for new HVAC ducts or plenums gig Complies. The plans and specifications call for all air - handling ducts and plenums to be insulated and sealed as required by Sections 1317.7 &1317.8. • 12. Piping Insulation (Section 1314) ❑ No New Piping. The building plans and specifications do not call for new piping serving a heating or cooling system or part of a circulating service water heating system. • Complies. All new piping serving a heating or cooling system or part of a circulating service water heating system complies with the requirements of the Code, Section 1314.1. ❑ Exception. New piping qualifies for exception: Section 1314.1 Exception 10 20 13 Gravity Vent Controls (1317.4.5) ❑ Complies. Stair and shaft vents. Stair shaft. vents shall be equipped with motorized dampers that are capable of being automatically closed during normal building operation and are interlocked to open as required by fire and smoke detection systems. ❑ Complies. Gravity hoods, vents and ventilators. All outdoor air supply and exhaust hoods, vents and ventilators shall be equipped with motorized dampers that will automatically shut when the spaces served are not in use. VI Exception. The building qualifies for an exception to the gravity vent controls. The applicable code exception is Section 1317.4.5.2 , Exception 1 Si 2 0 Compliance details in plans /specs: - maw. per, is s Al 6 ,/ -fl "elk, 3 14. Dampers (1317.5.5) • Complies. Motorized outdoor air supply and exhaust air dampers have a maximum leakage rate of 3 cfm /ft2 at 1.0 in w.g. when tested in accordance with AMCA Standard 500 -1989. The plans /specs show compliance in the following locations: 15. Service Wate Heating (Sec. 1315) ❑ No New Water Heating. The building plans and specifications do not call for new water heaters, hot water storage tanks or service hot water distribution systems. gip Complies. All new water heaters, hot water storage tanks or service hot water distribution systems comply with the requirements of the Section 1315. ❑ Exception. The applicable code exception is Section: IException:[ Portions of the building that qualify: 16. Distribution Transformers (Section 1316.1) No Distribution Transformers. The plans /specs do not call for new distribution transformers. ,j Complies. All new distribution transformers comply with efficiency, testing, and labeling requirements of Section 1316.1.1. The plans /specs show compliance in the following locations: / 4"/6O 4 -4 Form 4a Project Name: -rid S — p it1Q ter z. Page: SYSTEMS - GENERAL 17. High Occupancy Ventilation (Section 1203.2.13) ® Complies. HVAC systems with ventilation air capacities of 1,500 CFM or greater that serve areas having an average occupant load of 20 square feet per person or less from Table -A have a means to automatically reduce outside air intake. Identify applicable systems: I R-TV -o /-'f The plans /specs indicate where equipment (i.e. carbon dioxide sensor) and sequence is specified: S P .- / , oD ❑ Exception. HVAC systems are equipped with an energy recovery device with at least 50% recovery effectiveness. ❑ No High Occupancy Systems. Project does not contain an HVAC system as described above 18. Occupancy Ventil ation (Section 1203.2) VI Complies. Mechanical,ventilation systems provide the required amount of ventilation specified in Section 1203.2.1. ❑ Complies. Natural ventilation systems provide the required amount of ventilation designed by a registered architect orengineer as specified by Section 1203.2.4. Attach worksheet 4m. The plans /specs show compliance on the following pages ❑ Exception. The building qualifies for prescriptive natural ventilation. Exception '❑ 27 19: Parking Garage Ventilation (Section 1203.2:11) a No Enclosed Garages. The building plans and specifications do not call for enclosed Group S parking garages with a ventilation exhaust rate greater than 30,000 CFM. ❑ Complies. The plans and specifications call for carbon monoxide sensing devices as required by Section 1203.2.11. ❑ Exception. Open parking garages. 20. Swimming Pools, Spas and Hot Tubs (Section 1315.5) ® No New Pools. The building plans and specifications do not call for new, swimming pools, spas or hot tubs. ❑ Complies. All new swimming pools, spas or hot tubs are equipped with pool cover, pool heater controls and heat recovery as required by Section 1315.5. 21. Fume Hoods (Section 1317.2.1.) ® No Fume Hoods. The building plans do not call for fume hood systems that have a total exhaust rate greater than 15,000 cfm. Complies. Fume hood systems have at least one of the following features: ❑ Variable air volume hood exhaust and room supply systems capable of reducing exhaust and makeup air volume to 50% or less of design values. ❑ Direct makeup (auxiliary) air supply equal to at least 75% of the exhaust rate, heated no warmer than 2° F below room set point, cooled to no cooler than 3° F above room set point, no humidification added, and no simultaneous heating and cooling used for dehumidification control. ❑ Heat recovery systems to precondition makeup air from fume hood exhaust in accordance with 1318.3 - Exhaust Air Energy Recovery, without using any exception. The plans /specs show compliance in the following locations 4 -5 • Form 4a Project Name: -774% — pld4St Z Page: r- SYSTEMS - GENERAL 22. Kitchen Hoods (Section 1317.11) ® Not Regulated. The plans /specs do not call for any new kitchen hoods with exhaust capacity greater than 5,000 cfm each. 17 Complies. All new kitchen hoods with a total exhaust capacity greater than 5,000 cfm have at least 50 percent of the required makeup air; (a) unheated or heated to no more than 60 °F; and (b) uncooled or evaporatively cooled. The plans /specs show compliance on the following pages 23. Outside Heating Systems (Section 1317.12) at No Outside Heating Systems. The plans /specs do not call for new permanently installed heating systems outside the building. D Complies. All new permanently installed outside heating systems are radiant gas fired systems controlled by an occupancy sensor or timer switch as required by Section 1317.12. • 4 -6 • Form 4b Project Name: 7/4% — p r" Z Page: /L/ COMPLEX HVAC SYSTEMS Applicability 1. Simple or Complex Systems (Section 1317.9, 1317.10 and 1318) Discussion of qualifying exceptions m Note: This form is required for complex systems only. If your plans qualify as a simple system mstruchons section as defined by the code, this form is not required. Fan Motor ■ 2. Air Transport Energy (Section 1318.4.2 8& Table 13 -U) Energy ❑ Not Regulated. Each HVAC system does not have total fan nameplate horsepower of 7.5 HP or See Table 13-1, page greater (includes the sum of all supply, return, and exhaust fans operating at design conditions) 4-24 for maximum ® Complies. The energy demand of all HVAC fan systems meets code requirements. Complete horse -power allowed and attach Worksheet 41. ❑ Exception. Section 1318.4.2, Exception 1 ❑ 2 ❑ 30 Portions of the building that qualify: I Variable Ait ■ and Liquid 3• Variable Speed Drives (Section 1317.10.3.1) - •_ Flow ❑ Not Regulated. The building plans or specifications do not call for fan and pump motors 10 horsepower and greater that serve variable -flow air or liquid systems. , gi Complies. All fan and pump motors 10 hp and greater which serve variable -flow air or liquid, - systems are controlled by a variable -speed drive. - ❑ Exception. The building qualifies for an exception to the variable - speed -drive requirement. Applicable code exception is Section 1317.10.3.1, Exception 1 ❑ 20 30 The plans /specs show compliance in the following locations: I I Cooling - - , .. _ , , , , Tower 4. Cooling Tower Fans (Section 1317.5.4.2) Fans ® No Cooling Tower There is no cooling tower in this project. ; ❑ Complies._ Cooling tower fans have control devices that vary flow by controlling leaving fluid temperature or condenser temperature /pressure of the heat rejection device. The plans /specs show compliance in the following locations: I • I r 5. Simultaneous Heating and Cooling (Section 1318.2.1) . ❑ No Cooling. The HVAC system has no cooling. ❑ Complies. Controls prevent reheating, retooling or mixing of mechanically heated and mechanically cooled air Exception. Code exception is Section 1318.2 1, Exception 1 ® 2 ❑ 30 40 5 ❑ If exception 1 is used, complete and attach Worksheet 4k The plans /specs show compliance in the following locations. I Acs 6. Large Volume Fan Systems (Section 1318.4.2.3) ❑ Not Regulated. The building plans or specifications do not call for fan systems over 15,000 CFM that serve a single zone and function for the purpose of temperature control. us Complies. Fan systems are equipped with variable frequency drive or two speed motor to reduce airflow as required by Section 1318.4 2.3. ❑ The plans /specs show compliance in the following locations. I 7. Electric Motor Efficiency (Section 1317.10.3 & Table 13 - T) r ❑ Not Regulated. There are no NEMA Design A &B squirrel cage,T -frame induction, permanently Exceptions wired polyphase motors of one horsepower or more which serve built up HVAC systems. Discussion of qualifying exceptions Ed Complies- The efficiency of all regulated motors meets code requirements in instructions o Exception. Section 1317 10.3, Exception: Exception 1 ❑ 2 ❑ section Portions of the building that qualify: The plans /specs show compliance in the following locations 4 -7 Form 4b Project Name: TN S - ,it/A1 scr'Z Page: /5 COMPLEX HVAC SYSTEMS 9. VAV System Static Pressure Reset Contro (Section 1318.2.3) ❑ Not Regulated. The building plans or specifications do not call for a VAV system controlled by a static pressure sensor or direct digital control of individual zone boxes. ® Complies. The system static pressure set point automatically resets to the lowest point possible while still providing the required air flow to the zones with the greatest demand. ❑ Exception. Section 1318.2.3, Exception 10 2 ❑ The plans /specs show compliance in the following locations: I I 10. VAV Terminal Units (Section 1317.4.2.1) ' ❑ Not Regulated. Project does not contain VAV terminal units. • r: Complies. VAV terminal units are programmed to operate at the minimum airflow setting without addition of reheat when the zone temperature is within the set deadband. ❑ Exception. Section 1317.4.2.1, Exception 10 2 ❑ The plans /specs show compliance in the following locations: I 11. Supply Air'Teinlierature Reset Controls (Sec 1318.2 :5) • ® Not Regulated. The building plans or specifications do not call for multiple zone HVAC systems. ❑ Complies. Multiple zone HVAC systems include controls that automatically reset the supply -air . temperatures in response to building loads or outside air temperature. ❑ Exception. The building qualifies for an exception to the supply -air reset controls requirement. . Applicable code exception is Section 1318.2.5, Exception 1 ❑ 20 30 The plans /specs show compliance,in the following locations: 12. Chilled and Hot Water Temperature Reset Controls_ (Section 131 S Not Regulated: The building plans or specifications do not can for chilled or hot water systems with a design capacity exceeding 300,000 Btu /hr. O Complies. Chilled and hot water systems include controls that automatically reset supply water temperatures by representative building loads or by outside air temperature. ❑ Exception. The building qualifies for an exception to the chilled and hot water reset controls requirement. The applicable code exception is Section 1318.2 4 Exception 1 ❑ 2 ❑ The plans /specs show compliance in the following locations: I I 13. Separate Air Distribution Systems (Section 1318.2.7) i Not Regulated. The building plans or specifications do riot call for zones with special process temperature or humidity requirements. ❑ Complies. Separate air distribution systems serve zones with special process temperature or humidity 'requirements from those zones serving only comfort conditions, or supplementary control provisions are included so that primary systems can be specifically controlled for comfort purposes only. ❑ Exception. The building qualifies for an exception to the separate air distribution systems requirement The applicable code exception is Section 1318 2.7 Exception 10 2 ❑ Identify zones with special process requirements I 1 The plans /specs show compliance in the following locations - 14. Zone Isolation Controls (Section 1318.2.6) ❑ Not Regulated. The building plans or specifications do not call for HVAC systems serving multiple occupancies or floors with 240,000 Btu /hr or greater cooling capacity, or 300,000 Btu /hr or greater heating capacity. ill Complies. HVAC systems serving multiple occupancies or floors with 240,000 Btu /hr or greater cooling capacity, or 300,000 Btu /hr or greater heating capacity are equipped with isolation devices capable of automatically shutting off the supply air to and from each isolated area Each isolated area is controlled independently and satisfies temperature setback (Section 1317.4 2) and optimum start control requirements The central fan system air volume is reduced through fan speed reduction The plans /specs show compliance in the following locations , l6L(L 1.)w6 4 -8 • Form 4b Project Name: 77as _ � s c - z Page: /6 COMPLEX HVAC SYSTEMS 15. Humidity Controls (Section 1318.2.2) ® No Moisture Added to Building. The building plans do not call for means to add moisture to maintain specific humidity levels. ❑ Complies. All new humidity control systems are equipped with a humidistat when required. All humidifier preheating devices have an automatic value to shut off preheat when humidification is not required. The plans /specs show compliance in the following locations: 16. Hydronic System Controls (Section 1318.2.8) S No Hydronic System. The building plans or specifications do not call for a new hydronic system. ❑ Complies. The hydronic system complies as follows: 15.1 Variable Flow Controls (Section 1318.2.8.4) ❑ System does not have a 10 hp or greater motor ❑ Complies. System has controls capable of varying pump flow The plans/specs show compliance in the following locations: I 15.2 Three -Pipe System (Section 1318.2.8.1) ❑ System does not have a common return system (a three -pipe system) for both hot water and chilled water 15.3 Two -Pipe Changeover System (Section 1318.2.8.2) ❑ System is not a Two -Pipe Changeover System ❑Complies. System is: a. Designed to allow a deadband between changeover from one mode to the other of at least 15 °F outside air temperature. _ b. Designed to operate and provided with controls that will allow operation in one mode for at least four hours before changing over to the other mode. c. Provided with reset controls that allow heating and cooling supply temperatures at the changeover point to be no more than 30 °F apart. The plans /specs show compliance in the following locations: _ • 15.4 Hydronic (Water Loop) Heat Pump System (Section 1318.2.8.3) ❑ System is not a Hydronic (Water Loop) Heat Pump System ❑ Complies. Hydronic heat pumps connected to a common heat pump water loop with central 'devices for heat rejection (e.g., cooling tower) and heat addition (e.g., boiler) have the following: a. Controls installed capable of providing a heat pump water supply temperature deadband of at least 20 °F between initiation of heat rejection and heat addition by the central devices (e g., tower and boiler). b. Closed - circuit tower (fluid cooler) has either an automatic valve installed to bypass all but a minimal flow of water around the tower (for freeze protection) or low- leakage positive closure dampers c Open - circuit tower installed directly in the heat pump loop has an automatic valve installed to bypass all heat pump water flow around the tower. Open - circuit towers used in conjunction with a separate heat exchanger to isolate the tower from the heat pump loop are controlled by shutting down the circulation pump on the cooling tower loop. d A two - position valve at each hydronic heat pump for hydronic systems having a total pump system power exceeding 10 hp The plans /specs show compliance in the following locations. 4 -9 I Worksheet 4a Project Name: This - ?i -1 'z Page: /7 UNITARY AIR CONDITIONER - AIR COOLED Equipment (a) (b) ( c) (d) (e): • Proposed Performance Discussion of equipment Capacity Seasonal or Compliance ratings and equipment definitions on page 4 -19 Equip. ID , Model Designation (Btu /h) Steady State Part Load Schedule (A -E) R y 4 Ao-/ RN (AoS`33O /o, 8 Q. ( L T i i - c x / - S 44 v.r g// 5 0 9/0 i d. 4? (2-74." - oq-6 e.4 1221 ee. & s /II cx,c, - 56- /o. o . t_. - Required Indicate source of information - Documentation ` ARI Unitary Directory, Section AC, page • - ARI Applied Products directory, Section ULE, Page Product data (Attach data furnished by the equipment supplier, Le , "cut sheets') I a C oolin g Cap (btu /h) Minimum Rating Code Compliance Required Schedule Equipment Type Seasonal or, - Over But not over - . Steady State ,Part Load Efficiencies 0 65,000 na 9.7 SEER • Single Package Without a 65,000 135,000 10.3 EER n/a This schedule of A Heating Section or With Electric 135,000 240,000 9.7 EER . n/a equipment efficiencies Resistance Heat 240,000 760,000 9.5 EER 9.5 IPLV was reformatted from the code, Table 13 -L 760,000 9,2 EER 9.2 IPLV 0 65,000 na 10 SEER Split System Without a Heating 65,000 135,000 10 3 EER n/a B Section or With Electric 135,000 240,000 9 7 EER n/a Resistance Heat 240,000 760,000 9 5 EER 9.5 IPLV 760,000 - 9 2.EER 9.2 IPLV 0 65,000 na 10 SEER Single Package With a Heating 65,000 135,000 10.1 EER n/a C Section Other Than Electric 135,000 240,000 9 5 EER n/a Resistance 240,000 760,000 9 3 EER 9/ IPLV 760,000 - 9.0 EER 9.4 IPLV 0 65,000 na 10 SEER Split System With a Heating 65,000 135,000 10.1 EER n/a D Section Other Than Electric 135,000 240,000 9.5 EER n/a Resistance 240,000 760,000 9 3 EER 9.7 IPLV 760,000 - 9.0 EER 9.4 IPLV E Condensing Unit Only _ 135,000 - - 10.1 EER 11.2 IPLV 4 -10 • Worksheet 4k Project Name: Tkis - >7/t/4 se a.. Page: /pj S_ imultaneous Heating nd Coolin • Additional pages may be necessary if building has more terminal units than there are lines in this form. Complete this form to verify compliance with Section 1318.2.1 exception 1. Terminal ,Unit (Variable Air Volume (VAV) Box) CFM Design Conditions Rewired Information Compliance Method _ Max. Cooling Occupancy Maximum rflow is Terminal Unit ID or Sq. ft Area Airflow- Max. Heating Ventilation- 30% of 0 4 CFM Occupancy , 3 CFM Description /Location Served CFM Airflow -CFM CFM Max per q. ft Ventilation ❑ I/A✓ `/ . 15 7 0 300 /C ' t1© ® ❑ ❑ 0 ❑ / a o.3" iyod G 07- 525 ❑ M ❑ ❑ VAv -/0 /3 SS /55D 5 570 o 0 ❑ ❑ ❑ ❑ ❑ ❑ /7_7a yob 1W -7r r 1 ❑ ❑ ❑ t/A k/ - /ii.A$ .s.o vg ® 224/ Zco ❑ lig ❑ ❑ r / " � ® R _ S 270 200 ❑ ❑ ❑ I, t a •-- /4' 4�a0 o0 ^a -2-0 3 pc"+. ❑ ❑ 1t/ -7.-0 4W5 `I 00 3 5+; 3 6/f' ❑ ® ❑ ❑ ❑ ❑ ❑ 3eza0 3 /7 › _ c .- 7'2-5 ❑ ❑ 0 6iA - Z-J ❑ - 4 CI ❑ V4 l/ 7--'2- /V 7O /077$ 4, ,5k , ' 9' ❑ 4 ❑ ❑ 1./K) V - 2- 0z0 /vim 7 40 3Y.S - z2 7 9'420 . + L /S ❑ Iti ❑ ❑ p TO 'Zito 't3 V4 �'- "tea Sy � 3 ' tir ❑ ® ❑ ❑ V*1 ✓ - 1-G /S7-.5-- / /O 510 ❑ (J4 ✓Q zz_6 /5 /3 °ra S ?S' 0 ❑ ❑ ❑ ✓A✓ - Zgi 26 //- - 3v/5 s' 1 VA ✓ - 7--9 j-z.o /o '3 3 ' 0 4 ❑ 0 0 ❑ e - „ S v z - ,/ ooO Z. ST, ❑ ❑ 9 00 3 c3+ 3 /s 0 , ❑ ❑ �& //S 7 ti c- /57 i/4 �l - 3z 3 ' /.S El F : ❑ D A ✓ -3 �n x} ..+(off?' ❑ D -L.0 o0 3 6, "3` /S` ❑ OE - cao 'Ns c p 3i /S` ❑ 4 ❑ ❑ (/A I/ --- 3(.. �o y 4 t/ - i z"7 o / OS 0 So ` /Z o 0 0 ❑ ❑ ❑ ❑ D ❑ ❑ ❑ D 4 -20 Project Name: Taos - nir..QS,.` '� Page: / c _ Worksheet 4k ' Simultaneous Heating and Cooling - • Additional pages may be necessary if budding has more terminal units than there are lines in this form. Complete this form to verify compliance with Section 1318.2.1 exception 1. Terminal Unit ariable Air Volume VAV Box CFNI Desi • n Conditions Compliance Method Rewired Information. - Max. Maximum Cooling Occupancy Terminal Unit ID or Sq. ft Area Airflow- Max. Heating Ventilation- 30% of 0.4 CFM Occupancy Airflow is Description /Location - Served CFM Airflow -CFM CFM ❑ Max per sq. ft _Ventilation <300 CFM —3 B p 00 36.0 0 ❑ vi ,I - 3°i Sop 9 o0 3L 3 y ❑ el 0 ❑ 9oo 360 3'/ ❑ �+ ✓ /s'/ ® 0 ❑ ❑ - ":77.- 1, -7 D ❑ 0 ❑ 3cZG - /S' ❑ till ❑ ❑ MIMI 1Z4 /OS 5 4/2-C got 2 00 t �'2 0 ❑ 90o 90 36 3'L /5 ❑ ® ❑ '3 ❑ O' ❑ 0 00. 00 "36.0 �t /S ❑ ® 0 ❑ �ioo 9 0 3`/C ❑ ® ❑ ❑ ♦ .. 900 9 t 6'0 'V/ ❑ 0 ❑ ❑ �� 900 tnD0 3G® Sys 0 _ ❑ _ El 9 ,o0 co 3Go ❑ — a ❑ T • oa -,,,o -z r. © 34, 'S - ❑ Ig 0 El V - .5 ° v. .° 0O ' - 5620 "3 Y . 0 ❑ ti .-5.1 Foo oo 3(00 3 y ❑ NJ 0 El VA q/ - 5" Y" 9ov Q 00 0 0 O ,■ -341G / 430 ❑ ® ❑ ❑ Illinin 24/0 t- o 0 ?AS 3 ® 0 ❑ IgI VA _ ": IMO ®o o gy ❑ a 0 ❑ L 6/ Gi ❑ ❑ 0 Z30 1-0,0 ❑ ❑ 0 Ill Cl �'I 93� ZdfJ 2 GO ❑ 70 /7� 4(0 0 t /fJ 4/ - /0 3 P7-4, 0 V . .� G Z 0 0 ❑ - 2yt. 0 7.:400 • , -3 0 �?� /0nO 3; I ' r ❑ ❑ ❑ IIIFCIIEEFOIIIIIIIM % / to 1/C 9L '/ O ❑ ❑ Fig S ❑ 0 ❑ ❑ VAt/ - - % /zsO r y 7 it 0 ❑ ❑ 0 _ a1Ati0 �S� /00 3 . I ❑ 0 0 ❑ 4 -20 Worksheet 41 Protect Name r/r/S P JJ # S z AIR TRANSPORT ENERGY . s - Complete one worksheet for each fan system > 7.5 horsepower. Fan system horsepower is the sum of the nameplate motor horsepower of all supply, return, and exhaust fans (including series fan- powered terminal units) that operate during design conditions. Fan System ID:( /LTL) — O'/— L � (Areas Served: Maximum Fan Type (Supply, Nameplate_ Motor Fan Identifier Return, Exhaust, Series Constant HP Allowed (from Ta • VAV CFM Volume or VAV Name late Motor HP . Table 13U fC:0 r te,_ : � .w bra s', - 1 g . : 721 - � � 2J Total System Sum of Supply Fag CFM 660 Z Additional Pressure Drop Credit. Complete the section below if system contains filtration with a combined efficiency of 90% or greater (ex , 30% prefilter +60% final filter) or heat recovery 0 Manufacturer's product data sheet(s) is attached and design values are shown in plans /specs in the following locations Filtration Heat Recovery Adjusted Maximum Constant Volume or Pressure Drop, Pressure Drop, Allowed Nameplate Total Nameplate HP Supply CFM VAV in. w.c. in. w.c. HP (from above) For Constant Volume Systems: Adjusted Maximum HP =.CFM ` (P D + 3 1) 3718 For Variable Volume Systems: Adjusted Maximum HP = CFM ` (P D + 4 6) 3716 Where: CFM = The maximum design supply air flow in cubic feet per minute Filtration Pressure Drop = Combined pressure drop of all filtering systems at design airflow rates when filters are clean Heat Recovery Pessure Drop = Pressure drop of heat recovery system at design airflow rates 4 -21 • Worksheet 41 Protect Name Tk /S — /t/A SC' AIR TRANSPORT ENERGY fla 21 1 Complete one worksheet for each fan system > 7.5 horsepower. Fan system horsepower is the sum of the nameplate motor horsepower of all supply, return, and exhaust fans (including series fan - powered terminal units) that operate during design conditions. Fan System ID:I /art - 09-S- 'Areas Served: Maximum Fan Type (Supply, Nameplate Motor Fan Identifier Return, Exhaust, Series Constant HP Allowed Ta • VAV CFM Volume or VAV Name.late Motor HP : Table 13U Si - -o y Zo - ' O V4 V f _: N x 1 ' r- ov- 5 a3/ o VAV z 2" ... , .: 7, k ', T - _ r .X - , l {{.:� ' ' gym S '- Total System Sum.of Supply Fan ZC a /0 - IIMEIIIMIIIIIEEBOINIM Additional Pressure Drop Credit. Complete the section below if system contains filtration with a combined efficiency of 90% or greater (ex , 30% prefilter +60% final filter) or heat recovery ❑ Manufacturer's product data sheet(s) is attached and design values are shown in plans /specs in the following locations I Filtration Heat Recovery Adjusted Maximum Constant Volume or Pressure Drop, Pressure Drop, Allowed Nameplate Total Nameplate HP Supply CFM VAV - in. w.c. in. w.c. HP (from above) For Constant Volume Systems: Adjusted Maximum HP = CFM ` (P D + 3.1) 3718 For Variable Volume Systems: Adjusted Maximum HP = CFM ' (P D + 4 6) 3718 Where: CFM = The maximum design supply air flow in cubic feet per minute Filtration Pressure Drop = Combined pressure drop of all filtering systems at design airflow rates when filters are clean Heat Recovery Pessure Drop = Pressure drop of heat recovery system at design airflow rates. I 4 -21 Form 5a Project Name TIGARD HIGH SCHOOL ADDITION /REMODEL PHASE 2 Page LIGHTING - GENERAL 1. Interior Exceptions (Section 1313.1) Exceptions ❑ • No Interior Lighting. The building plans and specifications do not call for new or Discussion of qualifying altered interior lighting. Skip to item 5, Exterior building Lighting - General, below. exceptions in instructions ❑ Exceptions. 1. The building or part of the building qualifies for an exception from code lighting requirements Applicable code exception is number: ( 1 2. Lighting equipment that qualifies for an exception - in addition to general lighting and is separately controlled. Applicable code exception is number: Areas of the building and equipment that qualify for any exceptions: Plans /Specs Show compliance by Including 2. Local Shut -off controls (Section 1313.3.1.1) a drawing sheet, 'detail number, and/or specification Ei Complies. At least one local shut -off lighting control for every 2,000 square feet of section and subparagraph lighted floor area and for all spaces enclosed by walls or ceiling height partitions. This control(s) is detailed in the building plans on drawing number. PLANS ❑ Exception. The building or part of the building qualifies for an exception. Applicable code exception is Section 1313.3.1.1, Exception: Portions of the building that qualify: 3. Automatic Shutoff Controls (Section 1313.3.1.2) ❑ Not.Applicable. Office floor area is not over 2,000 square feet of contiguous office floor area or permitted space is not over 5,000 square feet. No offices less than 300 square feet, meeting or conference rooms, or school classrooms. El Complies. All interior lighting systems are equipped with a separate automatic control to shut off the lighting during unoccupied periods. Offices less than 300 square feet, meeting and conference rooms, and school classrooms shall be equipped with occupancy sensors that comply with Section 1313.3.1.2 1. Compliance details in plans /specs E2 SERIES LTG PLANS, SPEC SECTION 16900 ❑ Exception. The building or part of the building qualifies for an exception. The applicable code exception is Section 1313.3.1,2, Exception: Portions of the building that qualify: 4. Daylighting Controls (1313.3.1.3) ❑ No classrooms or atriums with skylights or window to wall ratio greater than 50 %. O Complies. All classrooms and atriums with window to wall ratio greater than 50% and /or Exterior skylights are equipped with automatic daylight sensing controls, as required by Section Building 1313 3.1.3 1 and Section 1313 3.1 3.2. The daylight sensors specified comply with Lighting Is lighting directed to Section 1313 3 1.3.3. Ruminate the extenor Compliance details in plans /specs: E2 51 of the building and adjacent walkways and loading areas with or without canopies 5. Exterior Lighting (Section 1313.5) 17 Complies The plans do not call for incandescent or mercury vapor lamps for use on building exterior. Clock ❑ Exception. The building plans indicate luminaires with incandescent or mercury vapor Switches shall lamps, but they are specified for use in or around swimming pools, water features, or other be astronomic locations subject to the requirements of Article 680 of the 2002 National Electrical Code. (seasonal correcting) type with separate programs for each day of the week and shall 6. Exterior and Canopy Lighting Controls (Section 1313.3.2) store timekeeping Complies. The building plans and specifications include photoelectric and /or clock maintain timekeeping P 9 P P P during power outages switches on all exterior lighting systems which are designed and programmed to extinguish lights when daylight is present, as required by Section 1313 3 2. � 7. Interior Connected Lighting Power (Section 1313.4) '",, YES Complies. The interior lighting power does not exceed the interior power allowance established in either the Tenant Space Method (Form 5b) or the Space -by -Space Method (Form 5c) ETenant Space Method (Form 5b) ❑ Space -by -Space Method (Form 5c) 5 -1 Form 5b Pro(ect Name TIGARD HIGH SCHOOL ADDITION /REMODEL PHASE 2 Page 2 INTERIOR LIGHTING POWER - Tenant Space Method Lighting (a) (b) (c) (d) Budget , Tenant or Building Type Floor Area (sq ft) Ty ncyr (Table -13G) Use Max Power Lighting Power Use Types , See msirucuons for Density (W /ft Budget (W ) descnpon of occupancy types School/University 17 78,500 1 1 86,350 Lighting 1. Total Interior Lighting Power Budget (Watts) for Building. 86,350 Power Budget 2_ Total length of track lighting (ft) 3 , ; Line 2 multiplied by 37'5 Watts /ft ` Track Lighting 4 Total amperage of circuit breaker(s) serving track lighting (amps) Power 5 Voltage of circuit breaker serving track lighting (volts) - 6 Maximum wattage of track lighting (multiply,line 4 by line 5) 7 Track Lighting Power (lesser value of line 3 or line 6) Building's 8 Track_Lighting Power (line 7) , Lighting 9 Total Interior Lighting Power from Worksheet 5b -1 (Sum of Column (m)) + 85,349 Power - , . ., 10. To tal Adjusted Lighting Power (line 8 + line,9) = 85,349 11 Does design meet budget? Line 10 must be greater than line 1 YES 5 -2 Worksheet 5a Project Name: TIGARD HIGH SCHOOL ADDI Page: 3 LIGHTING SCHEDULE (a) (b) - ( . • - , -(d)- "(e) (f) Lum Luminaire Lamp Luminaire Is Luminaire Ballasts ID - • Power . From Type Description No. ,K Descri.tion , No.: Descri.tion watts Table 5c 3 A Fluorescent T8 4 foot 3-F32T8-ELECT NO 93W �. 3 , F32T8 ® Electronic Normal Output. RS 93 YES Al Fluorescent T8 4 foot 3-F32T8-ELECT NO 93W , 3 ' F32T8 Electronic- Normal'Output..RS . 93 YES B Long Compact Fluorescent Twin T5 (40W) 2 FT40W/2G11 ELECT NO 78W 2 FT4OW /2G11- ®- • , ' Electronic 78 - YES C Fluorescent T8 - 4 foot 3 -F32T8 -ELECT NO -93W 3 F32T• ® Electronic Normal Output. RS , 93 YES Cl Fluorescent T8 4 foot 3-F32T8-ELECT NO 93W 3 F32T8 1111 Electronic Normal Output. RS 93 YES C2 Fluorescent TB 4 f 2-F32T8-ELECT NO 62W 2 F32T8 , ® Electronic Normal Output. RS 62 YES D Fluorescent T8 - 4 foot 2 -F32T8 -ELECT NO -62W ' • 2' ' F32T8 ®• Electronic Normal Output. RS 62 YES F Fluorescent T8 - 4 foot 2 -F32T8 -ELECT NO -62W 2' F32T8 1 ', Electronic Normal Output. RS 62 YES Fl Fluorescent T8 - 4 foot 4 -F32T8 -ELECT NO -114W v 4 F32T8' ® Electronic Normal'Output. RS 114 YES G Fluorescent T8 - 4 foot 3- F32T8 -ELECT NO -93W ''y 3 • F32T8 Electronic Normal Output. RS 93 YES H ! Compact Fluorescent Triple :, 1- CFTR32WGX24q -3- ELECT -35W 1 CFTR32WGX24q -3 ® Electronic 35 YES H1 Compact Fluorescent Triple : =' 1- CFTR32WGX24q -3- ELECT -35W -1 , CFTR32WGX24q -311 Electronic 35 YES H2 Compact Fluorescent Triple A 1- CFTR32WGX24q -3- ELECT -35W , 1 CFTR32WGX24q ® Electronic 35 1_ Compact Fluorescent Triple 'T'. 1 - CFTR32WGX24q -3- ELECT -35W 1 CFTR32WGX24q -3 ® Electronic 35 HD Compact Fluorescent Triple 1 CFTR32WGX24q 3 ELECT DIM 38W . 1 CFTR32WGX24q -3 '� Electronic Dimming 38 YES j Fluorescent T8 4 foot 2-F32T8-ELECT NO 62W 2 . F32T8 , , ® Electronic Normal Output. RS 62 YES K Long Compact Fluorescent Twin T5 (40W) 2 FT40W/2G11 ELECT NO 78W 'A 2 FT40W12G -1i1 -,®• Electronic 78 YES L Fluorescent T8 - 4 foot 1 -F32T8 -ELECT NO -31 W =„ '1 F32T8 0.5 • Electronic Normal Output. RS 31 YES M High Intensity Discharge - Metal Halide 1 -M400 -MAG STD-461W ' . 1 M40d, ®: Magnetic Standard 461 YES MD High Intensity Discharge - Metal Halide 1 -M400 -MAG STD-461W W 1 M400 ® Magnetic Standard 461 YES N Compact Fluorescent Triple or Quad 1- CFTR42WGX24q -4- ELECT -46W *; 1 , CFTR42W.GX24q -4. U . • Electronic 46 YES REL� Fluorescent T8 4 foot 4 3 F32T8 ELECT NO 93W ~? 3- F32T8 ® Electronic Normal- Output. RS 93 YES _ . ....... ■ . n �� III 11 ' • Worksheet 5b Project Name TIGARD HIGH SCHOOL ADDITION /REMODEL PHASE 2 Pagel 4 INTERIOR LIGHTING POWER Space -by -Space Method Only Skip to column (t) if using the Tenant Space Method (f) (a) (b) (c) (d) (e) Lam ID (g) (h) (I) (I) (k) from Quantity of Room ID (do Space Type Space Lighting Power Worksheet Luminaires (or Luminaire Lighting Room not leave any Area (Table 13 -H) Type Budget Sa Column lineal ft for track Power Exempt Power Total Ltg blanks) (ft (enter space type only once per room) LPD (b) x (d) (a) lighting) (Watts) Fixtures (g) x (h) Power -- A 366 93 ❑ 34,038 - Each room must be identified. -- -- Al r. 55 93 ❑ 5,115 -- Describe __ _. B each individual 16 78 ❑ 1.248 - luminaires for _- each ndividual -- -- C 118 93 ❑ 10,974 room in plans -- -- Cl 102 93 ❑ 9,486 -- -- -- C2 18 62 ❑ 1,116 -- -- -- D 8 62 ❑ 496 ' -- -- -- F ` 8 62 ❑ 496 -- -- -- F1 5 114 ❑ 570 - . -- For track lighting enter __ '- G :' 25 93 ID 2,325 -- lineal teat m column column (s) __ -- H "..! 87 35 ❑ . 3,045 -- __ -: H1 F�' - 1 35 ❑ Column (k), enter sum eece nHon at first n(I) -- -- H2 - - of 49 35 p 1,7 -- .15 H3 14 35, ❑ 490 -- entry for the room See — ' example in instructions __ -- •- HD 16 3 ❑ 608 ' J 3 - 62 ❑ 186 -- - K '- 22 78 ❑ 1,716, - __ • _L 2 31 ❑ 62 r - _ •,_.. -- M - 6 461 ❑ 2,766 -- -- -- MD V 14 461 ❑ 6,454 -- __ -- . N 20 46 ❑ 920 -- -- - REL V 16 93 ❑ 1.488 • -- -- -- ❑ - , -- - ❑ - -- -- -- - ❑ - . - _. -- - ❑ - - -- -- - - ❑ - -- -- . ii ❑ - - -- - _ ❑ - -- -- - ❑ - - -- - - ❑ - -- -- - ❑ - , -- - _' _ ❑ _ _. '- -- `.] - ❑ - -- -- -- - ❑ -- -- -- 7 - ❑ -- -- - ❑ -- -- -- 7 - ❑ - - -- -- - ❑ _. -- -- ,> - ❑ - -- - Worksheet 55 -1 Total Budget - Wksht 5b -1 Total Lighting Power (excluding exempt/track fixtures) 85,349 Other Pages - ' List the additional worksheets necessary to catalog all luminaires in bulking Total Number of Additional Worksheet 5b f 0 4 Vitt n) Proposed Bwdng Lightng Power Area S it not required for Worksheet Number Lighting Power Budget Space -by- (Total of column (k) excluding g Space only (Total of column (e)) eoemnVtrackl Tenant Method) 5b -1 - 85,349 - Sb - 2 - 5b - 3 _ Sum of additional 5b worksheets \ u' Total Budget (of all worksheets) - 85,349 - 5 -5 mode number nomenclature ,, 4 .. . 48GS .. t -„ 024 040 3 e ` AD r. = Model No. I- ilk 48GS – Single Package Opt ions Gas Heating/ – Wire Grille Electric Cooking AD – Louvered Grille BT – Wire Grille and Vinyl- Coated Low NO Indicator le or-1 Condenser Cod Fin ', Std. unit XT a Louvered Grille and Vinyl- 1, i N – Low NO unit Coated Condenser Coil Fin t, t , , e Nominal Cooling Capacity NO„ ! CC Wire Grille, Evaporator and =? 018 – 1 1 /2 Tons . 024 – 2 Tons ed CU /CU Condenser Coil CU Wire Grille, CU /CU Evaporator ! 030 – 2 -1/2 Tons and Condenser Coils - 036 – 3 Tons AC – Louvered Grille, AL Evaporator n .; !; :' 042 – 3 1/2 Tons and Condenser Cod '" 048 – 4 Tons AU Louvered erect Grille, Grille, CU /CU t 060 – 5 Tons F Evaporator and Condenser Heat Level (Btuh) Coils r '. .• "`r' 040 – 40,000 060 – 60,000 _ Packaging 090 – 90,000 + k`' 115 - 115,000 . , 1 130 – 130,000 I Series lI ` ' V -Ph -H tetk# z _1 111, ,1 1 . ;'' 3 – 2 08/230-1-60* i` > , 5 – 208/230 -3 -60 � , 6 – 460 -3-60 LEGEND ff r AL — Aluminum CCU — Copper . 600 •.048 unit is 208- 230/1/60 Minimum voltage of 197 - at maximum load conditions .4cs �'� a I • ;R; {* c • $1 , ys ,. - a pac' �. - COOLING CAPACITIES AND EFFICIENCIES • � ' UNfT 48GS iir NOMINAL TONS STANDARD CFM NET COOLING SEER SOUND RATINGS ,� , 0 CAPACITIES (Btuh) t $ Of` t ro 600 18,000 X024040 (d6) s �`1 024060 800 24.600 10 0 75 A . N ' ' �� t x ,030040 10 0 75 �e ,-,,,,?,;;-,4, O 1000 28,800 10 0 75 ' � � , ;=036090 1200 � 34,400 04 2060 42,000 100 80 10 0 80 • il 042090 1400 ,.1 4 • =',, • u'- 048090 11 048115 1600 80 46,500 10 0 ll I ai • `048,1 i �l q 1 r 0090 460115 10 0 E 080130 2000 — �" ) 60,000 i i � �.. "" irrf z � -, '� • 80 i f i ,LEGEND � , : 's ound Levels (decibels) NOTES '1: r' =dry Bulb 1 Ratings are net values, reflecting the effects of circulating fan heat i 1 ' , F " Seasonal Energy Efficiency Ratio Ratings are based on Wet Bulb Cooling Standard: 80 °F db, 67 F wb indoor entering -air tempera hi -, ' r .4 } �i °rnng & Refrigeration Institute lure and 95 °F db outdoor entering air temperature test With U S Government DOE Department 2 Before purchasing this appliance, read import I ( ni'l proced and /or ARI Standard 210 -89 t. rtment of fluency information available from your retailer ant energy cost and et- V.I. i !!1 a ccordance with ARI Standard 270 -95 (not listed in ARI) ° � ma It 4 E � 1a ?_ 1431 04/26/2004 13:50 FAX 503 620 4238 OREGON AIR REPS IA 001 Rating 2425 South Yukon Ave - Tuba. Oklahoma 74107 - 2728 • Ph. ( 918) 583-2266 Fee (918) 683.6094 AAONEcat32 Ver. 4.48 (SN: 0969616) w 3 Si Q d Pa U C oa [.1 ti Ni 2.1 4 a :iOr ... a. el O N M N e° z .O N N t° t° t° t• m T '. N N N N RN- 050- 3- 0 -AA04- 389: BGHE EOF GFM O BC- FAAB0B0- 00- 0A000000B Tag: RTU# 4 Job Information Unit Information Job Name: Tigard High School Approx. Op. /Ship Weights: 6745 / 6745 lbs. Job Number: Job #5 Supply CFM/ESP: 22660 / 2 in. wg. Site Altitude: 0 ft Final- Filter FV / Qty: 472.08 fpm / 12 Exhaust CFM/ESP/TSP: 22660 / 0.25 / 0.62 in. wg. Outside CFM: 9900 Ambient Temperature: 95 "F DB / 75 °F WB Return Temperature: 75 °F DB / 62 °F WB Static Pressure External: 2.00 in. wg. Economizer: 0.27 in. wg. Evaporator: 0.63 in. wg. Heating: 0.28 in. wg. Filters Clean: 0.24 in. wg. Cabinet: 0.39 in. wg. Dirt Allowance 0.5 in. wg. Total: 4.30 in. wg. Cooling Section Heating Section Gross Net • PreHeat Type: Std (No Preheat) Total Capacity: 605.33 535.09 MBH Heating Type: Nat. Gas Heat Sensible Capacity: 580.16 509.92 MBH Total Capacity: 631.8 MBH Latent Capacity: 25.16 MBH • - OA Temp: 10.0 DB / 9.0 °F WB . Mixed Air Temp: 77.50 "FDB 62.80 °F WB RA Temp: 75.0 °FDB / 62.0 F WB Entering Air Temp: 77.50 °FDB 62.80 °F WB Entering Air Temp: 60.0 °FDB / 45.0 F WB Lv Air Temp (Coil): 53.45 FDB 53.36 °F WB Leaving Air Temp: 85.8 FDB / 56.3 °F WB Lv Air Temp (Unit) 56.29 "FDB 54.53 °F WB Input: 780.0 MBH Supply Air Fan: 2 x 300 ®12.85 BHP Ea. Heater Qty: 1 SA Fan RPM / Width: 1472 / 5.436" Consumption: 780.0 MBH Exhaust Air Fan: 2 x MW3505 -20 @ 1.69 BHP Ea. Operation: N/A EA Fan RPM / Pitch: 1243 / 20° Evaporator Coil: 43.8 ft" / 4 Rows / 14 FPI Evaporator Face Velocity: 517.9 fpm EER - ARI Listing Information EER ® ARI Conditions: 10.8 Application EER ® Op. Conditions: X No ARI Rating Program Exists for Units Over 20 Tons AU AAON Units Are Tested in Accordance With ARI Standards Electrical Data Rating: 460/3/60 Minimum Circuit Amp: 148 Unit FLA: 141 Maximum Overcurrent: 150 Qt HP VAC Phase RPM FLA RLA Compressor 1: 4 460 3 17.6 Condenser Fans: 6 0.75 460 1 1075 2.8 Supply Fan: 2 20.00 460 3 1760 27.0 Exhaust Fan: 2 3.00 460 3 1760 4.8 Combustion: 2 0.25 460 1 3200 0.9 Cabinet Sound Power Levels* Octave Bands: 63 126 250 600 1000 2000 4000 8000 Discharge LW(dB): 99 97 99 100 98 94 78 90 84 4 Return LW(dB): 91 89 85 82 84 81 "Sound power levels are given for informational purposes only. The sound levels are not guaranteed. Data Printed: 4126/2004 1 :51310 PM Date Crealed/ModlAed3 2/312004 2:22:14 PM j 4 13:52 FAX 503 620 4238 OREGON AIR REPS ll 005 - j - U11it Rating /AkAnirif8) 2425 South Yukon Ave • 1Waa, Oklahoma 74107.2728 - Ph. (918) 583.2266 Fax (918) 583-6094 AAONEcat32 Ver. 4.46 (SN• 0969516) / m44"."1111.11.11111111 . 11 . 1 . 1 .111.1■111.1M 111.1r11.. . Q .. a to . .d N Q N °f h N N tom° tVp t� ap A .�i ti .N-1 N r . .�+ ti m . ti N N N N IRN- 050- 3- 0 -AA04- 389: BGHP- EOF GFL OBC FAABOB 00- OA 000000 B Tag: RTU# 5 Job Information Unit Information Job Name: Tigard High School Approx. Op. /Ship Weights: 6745 / 6745 lbs. Job Number: Job #5 Supply CFM/ESP: 20310 / 2 in. wg. Site Altitude: 0 ft Final - Filter FV / Qty: 423.13 fpm / 12 Exhaust CFM/ESP/TSP: 20310 / 0.25 / 0.58 in.. wg. Outside CFM: 6000 Ambient Temperature: 95 °FDB / 75 °F WB Return Temperature: 75 °FDB / 62 °F WB Static Pressure External: 2 -00 in. wg. Economizer: 0.23 in. wg. Evaporator: 0.53 in. wg. Heating: 0.25 in. wg. Filters Clean: 0.19 in.. wg. Cabinet: 0.31 in. wg. Dirt Allowance 0.5 in. wg. Total: 4.01 in. wg. Cooling Section Heating Section ' Gross Net PreHeat Type: Std (No Preheat) Total Capacity: 590.41 532.96 MBH Heating Type: Nat. Gas Heat Sensible Capacity: 557.27 49.9.81 MBH Total Capacity: 631.8 MBH Latent Capacity: - 33.14 MBH OA Temp: 10.0 DB / 9.0 °F WB Mixed Air Tamp: 77.50 "F DB 62.20 °F WB RA Temp: 75.0 °FDB / 62.0 °F WB Entering Air Temp: 77.50 "F DB 62.20 °F WB Entering Air Temp: 60.0 °FDB / 45.0 ° F WB Lv Air Temp (Coil): 51.72 °F DB 51.67 °F WB Leaving Air Temp: 88.8 °F DB / 57.4 °F WB Lv Air Temp (Unit) 54.32 ° FDB 52.77 °F WB Input: 780.0 MBH Supply Air Fan: 2 x 300 0110.62 BHP Ea- Heater Qty: 1 SA Fan RPM / Width: 1372 / 5.436" Consumption: 780.0 MBH Exhaust Air Fan: 2 x MW3505 -20 @ 1.37 BHP Ea. Operation: N/A EA Fan RPM / Pitch: 1150 / 20° Evaporator Coil: 43.8 ft' / 4 Rows / 14 FPI Evaporator Face Velocity: 464.2 fp/n , EER - ARI Listing Information EER @ ARI Co nditions: 10.8 Application EER @ Op. Conditions: No ARI Rating Program Exists for Units Over 20 Tons All AAON Units Are Tested in Accordance With ARI Standards Electrical Data ` Rating: 460/3/60 Minimum Circuit Amp: 134 Unit FLA: - 129 Maximum Overcurrent: 150 Qty HP VAC Phase RPM FLA RLA Compressor 1: 4 460 3 17.6 Condenser Fans: _ 6 0.75 460 1 1075 2.8 Supply Fan: 2 16.00 460 3 1760 21.0 Exhaust Fan: 2 2.00 460 3 1170 3.4 Combustion: 2 0.25 460 1 3200 0.9 Cabinet Sound Power Levels* Octave Bands: 68 125 260 600 1000 2000 4000 8000 Discharge LW(dB): 96 95 97 99 96 92 87 81 Return LW(dB): 90 88 84 80 83 80 76 73 `Sound power levels are given for informational purposes only. The sound levels are not guaranteed. Date Created/Modified: 2/3/2004 2:2204 PM Date Printedt 4/26/2004 1:51:11 PM OFFICE COPY gECG 1 April 20, 2004 90 sa) M F MEMO TO: Keith Johnson INC txArA • • SUBJECT: Tigard HS- Phase I City Plan Review Response- #2 0 in response to plan review comment #5 regarding the penetration of the fume hood N exhaust through the rated floor- ceiling assembly, I have attached the following technical evaluation provided by Johns Manville specific for this project. 5 1.1 Also attached is a technical evaluation provided by Johns Manville for the penetration of the l0 "x26" ducts penetrating through the rated floor assembly in the chases provided. A revised drawing detail SIM4.22 is also included. T I MFJA.,1NC. Robert Russell F ,. N G N F. _ H R . 5 g :\dowe alchitects \7104a1,_tlgard trs 2004\ does \7104a1•m - pr2OO4- uat•plan revtt2- resp.doc MrfC G✓I GCJCJ4 14 LVWr'1 . " —, -- -. — lin 0 O 1 6 XI ' 6 AGGESS PANEL 22 GA. DUCT DOC SYSTEM I C R POSITION INDICATOR E-.RNAL ACTUATOR i � � \ 1 -1/2 X I-1 /2 X 16 C. A. ANGLE CAL Cl" IT,� 16" MAX T C► - 'PER ►. �o�` WOOD FL OR aI0 SCREWS ® 8 "O.G. (► ► (TYP ALL SIDES) --'• 0 s . I' + gTL. SLEEVES MIN. lb GA. ►_� .1 ►4 ►=- p 26" WOOD FLOOR JOISTS - 1 '. � 1 . 4 j. FIRE '' • TED FLC : i 2 LAYERS FIRE WRAP A, ii : . ►� - 2 LAYERS GYP. BOARD '■4 r_4 � 0.4 .! 8 PGF SOLUBLE AMORPHOUS CO •E APPROVED • OL BLANKET OR CAULK F1' E /SMOKE DAM' X10 SCREWS 0 8 "O.C. ___�. 3+ (TYP ALL SIDES) 16 GA. DUCT i FIRE /SMOKE DAMPER THRU RATED F 4.2 SCALE: DETAIL _ NOT TO SCALE BY: RR CHK'D: DATE: 4 TIGARD ITS NO REVISION DATE MECHANICAL SECTION A, PR *Z12 4 -20 -04 FIRE /SMOKE DAMPER REVISION LS , � INC. JOB N0. d 3 6 ASH sr 1 5H ! j2_RM422 a EE7 N PoRTIIJD OL 17214 ph. 5503414$41 flu I\ GL GLCJ`Y 1Y•' -/1 LLJWM I .._.._• V I • , I C1 1�.G V Apr.20. 2004 11:39AM PFPP No•'luba Y. c/4 • I Fl re Protection tlon� c Sllatama Engineering J ohns Manville do Passive Fire Protection Partners 1412 Dement Way Annecie Industrial Park Delta, B.C. Canada V3M 6W 604 616 1188 MFIA Consulting Engineers 2007 SE Ash Street Portland, OR 97214 April 20, 2004 Attention: Robert Russell Dear Sir: Re: Technical Sim o4 firesbatnaliaDuct PesretratIonts through Wood Framed Floor Assemblies — Tigard liS Phase 1 — Portland, OR In response to your request for technical support regarding the firestopping of duct penetrations of wood framed floor assemblies, Johns Manville has prepared the following technical evaluations. The evaluations of fire resistance are based on our Underwriter Laboratories listed system design numbers C -AJ -7059, F -A -701 I, F -C -7016, W- L- 7055, our Omega Point Laboratories listed system design number FS 550 W and our extensive fire testing experience. The enclosed f r stop evaluations, when installed as shown, are capable of providing 2 hour F ratings in accordance with ASTM -E 814, "Standard Test Method for Fire Teso of Through-Penetration Fire Stops." Consultation with architect and authority having jurisdiction must be exercised before installation. Yours truly, Johns Manville International, Inc. . • Andy A.its.ult Technical Services Norm Johnston Technical Services Manager Encl. Johns Manville Dwg. JMFC7032 & JMFC7033 . • ,1"IrfC C.CJ`G'UYJ4 14• $J. UUWI-t JCJ.JG I.JJI JC 1 vv �i • I aye +/ APC•ZU• ZUU4 II :4UAM PtPi' no•cuoi r• 4/4 !Alf Johns Manville , Johns Manville — Technical Evaluation o 1 7 • % I - .M 1. Floor - Ceiling Assembly — The 2 hr fire rated wood joist Floor- Ceiling assembly shall be constructed of the materials and in the manner specified in the individual Floor- Ceiling Design in any accredited third party Fire Resistance Directory, and shall include the following features: A. Flooring System — Lumber of plywood aubfl.onr with finish floor of lumber, plywood or Floor Topping Mixture— as specified in the individual Floor- Ceiling Design. Max diem of opening shall be 18 in. B. Wood Joists — Nom 10 in. deep (or deeper) lumber, steel or combination lumber and steel joists, trusses or Structural Wood Members with bridging as required and with ends firestnpped C. Wallboard, Gypsum — Thickness, type, number of layers and fasteners shall be as specified in the individual Floor- Ceiling Design. Max diem of opening shall be 18 in. 2. Steel' .Duet — Nom 10 in. diem (or smaller) No. 16 gauge (or heavier) steel duct to be installed either concentrically or eccentrically within the firestop system. 3. Duct Wrap Materials — Two layers of nom 1 -1/2 'in. thick duct wrap installed in accordance with the manufacturer's installation instructions. The annular space between the insulated duct and the periphery of the opening shall be min 1/2 to max 1 in. * Johns Manville International, Inc. — Firetemp® Wrap 4. Fill, Void or Cavity Material — Sealant -- Min 3/4 in. thickness of fill material applied within the annulus flush with top =fees of floor. Min 1 -1/4 in. thickness of fill material applied within the annulus flush with bottom surface of floor. Johns Manville International, Inc. — Firetetnp® CI, CE Consultation with architect and authority having jurisdiction mutt be excised before .installation Tisgard HS Phase 1 — Portland, OR JMFC7033 Issued: 04120 /04(AA) • • II I. GV GUU"'I 1'-Y 1G LL-rwm JCJJG 1 JJ1 JG I . V I e V I - rev. •, r'.'+I G.V - vT IJ. re19 =Jlu Apr.20. 2004 II:40AM PFPP NO.11160 r. 6/4 &In Johns Manville Johns Manville — Technical ]evaluation • O S I I I I I I I I rszt • ® Q ✓` • I. Floor- Ceiling Assembly — The 2 hr fire rated wood joist Floor - Ceiling assembly shall be constructed of the materials and in the manner specified in the individual Floor- Ceiling Design in any accredited third party Fire Resistance Directory, and shall include the 'following features: A. Flooring System — Lumber of plywood subfloor with finish floor of lumber, plywood or Floor Topping Mixture — as specified in the individual Floor - Ceiling Design. Max area of opening shall be 612 sq. in. with a rues dimension of 34 in. B. Wood Joists —Nom 10 in. deep (or deeper) lumber, steel or combination lumber and steel joists, trusses or Structural Wood Members with bridging as required and with ends fireatopped. C. Wallboard, Gypsum — Thiclmcas, type, number of layers and fasteners shall be as apecifsod in the individual Floor - Ceiling Design. Max area of opening shall be 612 sq. in. v(ith a max dimension of 34 in. 2. Steel Duct — Worn 10 in, by 26 in. (or smaller) No. 16 gauge (or heavier) steel duct to be installed either concentrically or eccentrically within the fiireetop system. 3. Duct Wrap Materials — Two layers of nom 1 -1/2 in. thick duct wrap installed in accordance with the manufacturer's installation instructions. The annular space between the insulated duct and the periphery of the opening shall be min 1/2 to max 1 in. Johns Manville International, Inc. — Firetemp® Wrap 4. FIll, Void or Cavity Material — Sealant — Min 3/4 in. thiciaiess of fill material applied within the anmulua flush with top surface of floor. Mien 1 -1/4 in. thickness of fill material applied within the annulus flush with bottom surface of floor. Johns Manville International, Inc. — Firetemp® CI, CE 5, Retaining Angles — Min 16 ga. gals steel angles sized to lap duct a min of 1 in. and lap floor surface a min of 1 in. Angles attached to duct on top of floor assembly with min 1/2 in..long, No. 10 (or larger) sheet metal screws spaced a max of 6 in. OC. . Consultation with architect and authority having jurisdiction must be excised before, installation Tisgard HS Phase 1 — Portland, OR JMFC7032 Issued: 04/20/040A) • TOTAL P.07 7L117 PAR-31-04 1 1:0444 FROM-EJ Bartel Is Co 1.41.1 a _ — , — , . FireternpC) Wrap SL • RECENED , t,' o i 2ool ,, , _ , CITY OF TIGARD • - Firetemp @Wrap SL from Johns Manville was made for grease ducts. BUILDING DIVISION ,((..,...p 1 ''''r The soluble amorphous wool blanket material tested to 2000 F is one of the best of all alternatives • for preventing a fire in a kitchen grease duct fire from spreading throughout a building. .. ( Firetemp Wrap SL provides a 1 and 2 hour fire rated enclosure around any kitchen exhaust hood or . L duct. • ;.. . ' Firetemp Wrap SL provides a fast, easy and economical installation compared to traditional drywall. :,. ). Check out these features and benefits of Firetemp Wrap compared to drywall .. ,.. Easily out to fit . .., No steel stud framing . ... Use steel pins or bands to attach Install directly against duct to duct ,/ One Layer vs 3-5 . ... 2" clearance to combustibles - ../ Light weight - .., Zero clearance to combustibles at v Butt joints overlaps . v No taping ' -, Compliance to • / 1/2-Installation time UL 1 978 Grease duct i One Inspection • . ., p...-.11 • `;' - 1 1',;•.• ater0(.. 4.; •40.4i* 4 's .■ ..., ,. '. • ^ , L *. v. al _ , ,.. 0 - I h r e .7 , 11 .. , , , ,,I v ..,...,, ,/ , - 1 , 0.1Q.01.".. kie.irk , , , .-4"'' , .., , r 1. 1:.., - ,"'?--"'-' r"....w ...Vrt.1 tl .. .0. 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Tiyirr .. , • ....- ,, ,. .. • .. -- .. • . • L..,. . k : 3 :' V.,,, N ' ...v. ,.7 , N, 1 , , -,;:.• •FPS 200 7-01 (NEW) MAR -31 -04 11:05AM FROM -EJ Bartel Is Co 5034914999 T - 351 I' uui /ut5 r -oiu System Testing and Listing • • • kt. .Listings System Testing & Approvals • • • • • The enclosure meets the following requirements: • OPL • 16064-1 Agency Listing GD 519 F " OPL 16064-1 • • #07810 Classification NFPA 96 Standard for Ventilation Control and Flre r •• r ,; , v_, Protection of Commercial Cooking Operation Firest�p �ppri�ials; kin•.•; r:;,,':, SBCCI Southern Building Code Congress International OPL FS552 F When installed according to the directions stated herein • UL 1978 - Standard for grease ducts — internal fire test Normal Temperature test (soaking heat) 500 F Abnormal Temperature test (grease duct fire) 2000 F ASTM El 1 9 —External Fire Test 2 hour full engulfment test • ASTM E814 — Firestop penetration . .2 hour engulfment With hose stream test NFPA 96 — Standard for ventilation control and fire protection of . commercial cooking operations • • Field fabrication criteria for clearance to combustible Zero clearance at all overlaps & 2" clearance to combustibles in all other area • • • • • .4 FPS 200 7 -01 (NEW) VAR-31-04 11:05AM FROM -EJ Bartel Is Co suda I - .oi r.uuo,u,.4 , Firetemp® Wrap SL . Single Layer Duct Insulation • Description' Firetemp® Wrap SL is a high temperature , e`'+ i nsulation blanket spec designed to `e ',..e''..,' : W , provide one and two hour fire ratings around i-. v • ' - .J+■. t { . � rig ' i � . ti • .a `,: 149. I r 1 - many commercial applications, • i ....� , Applications ' , 'It 1 m, 1 , (ii i t w� ~� " .nil v I�' ,, : r . ; ° , J �. Flretemp® Wrap SL Is a flexible, fire protection j rL wrap that meets the requirements defined by ` " i ' y the Underwriters Laboratories (UL), the u - 1 1 T '�-' • --- a i S I National Fire Protection Association (NFPA a'.,t ,1, ' r l 96), and Southern Building Code (SBBCI), It is , t ty,. 7 �` " r� ' an alternative method of providing duct fire r '" �' '- - * ' �'+wN -4 ' , 7 7 ' -4 ' , 7 7 ' ' ' 1' t protection, instead of the traditional shaft wall 1 i r � '' enclosure construction around a grease duct. l. . e , 9, i Advantages ', ; I , �. e , 5 , system Design . Flretempd Wrap is an Omega Point Laboratories and Underwriters • Laboratories (UL) classified soluble amorphous • wool blanket, either completely or partially Availability • encapsulated (single faced) in a UL classified, Firetemp® Wrap SL is available: aluminum foil, fiberglass reinforced scrim. The product complies with 25/50 flame and smoke Facing Width Length Thickness requirements per ASTM E84. Fully 2' &4' 20' 2" Encapsulated Simplified Installation. Firetemp® Wrap SL is lightweight and flexible. Cutting, fabrication, • Coverage and wrapping of -ducts Is easily accomplished, Fireternp® Wrap SL for grease duct application thereby minimizing labor cost. requires one layer of product. The wrap is e Space Firetemp® SL single layer applied with an overlap of three Inches. The pace 5avin 9 P 9 Y insulated duct Is pinned using steel pins or system allows for zero clearance from • banded with stainless steel straps. Refe tr o combustible materials at all Joints and 2" from the Installation guide for further detail. combustibles for all other areas, which makes It Ideal for tight installations. Through penetration are firestopped using Firetemp® CI firestopping product. All Tough Scrim . The flame - resistant Firetemp® penetrations are packed with Firetempe Wrap Wrap SL scrim is fiberglass reinforced and ' ' blanket and the hole sealed with 1/4" depth of - • designed to survive the rigors of installation, the firestop product. • provide enhanced weather and water resistance, and the encapsulated product Technical Services - minimizes absorption of grease into the For assistance regarding application Insulation blanket. • information, code approvals and performance specifications, call your regional Fire Protection Core Material. The core material of Firetemp® Specialist. Product literature is available from ' Wrap SL is soluble amorphous wool. Johns Manville Product Information Center, 1- - 800 -654 -3103. System Testing and Approvals Firetemp® Wrap SL has been fully tested Order Placement '. against internal grease duct fires (UL 1978), Meier to the maps on the back page to find the external fires (ASTM E119/ UL 263), through appropriate location for placing orders. penetration, insulated duct fires (ASTM E814/ UL 1479), and surface burning (ASTM E84/UL 723). Omega Point Laboratories (OPL) fire c. . endurance testing agency accredited by ICBO, • • BOCA and SBCC1 (National Evaluation i r Services) in the United States performed these tests and have provided reference listings. • z • .:&. - 5 FPS 200 7 -01 (NEVI/) . MAR -31 -04 11:05AM FROM -EJ Bartells Co 5034914999 I - 4 o i r.uuaiuco r - oiu • • Firetemp® Wrap General Component Information • Soluble Amorphous Wool Blanket UL & OPL Listed • (Nominal Values) • Facing • Chemistry UL and OPL Listed (Nominal Values) ' Oxide Wt % • Silica 65 Fully Encapsulated or Single Sided Calcia 31 Magnesia 3 • Components Alumina • 0.3 Iron Oxide 0.3 Foil /Poly /Fiber glass Scrim Color Bluish White Flammability - ASTM E84 (Facing) Continuous Use Limit • Flame (max) • 25 - 1832 F • Smoke (max) 50 Melting Temperature 2.300 F Permeability 0.02 • (Perms) Non - Combustible Pass per ASTM E136 Facing Label (one side only) Flammability = ASTM •E84 (Blanket and Facing Unslit) • • Flame • 0 Smoke 5 EF74 Thermal Resistance • (R value per layer 1 1/2 ") 5.5 Thermal Conductivity • Temperature • Thermal Mean Conductivity (F) (Btu In/Hr Sqft F) Firetemp® Wrap • 100 0.27 • 500 0.35 . 1000 0.85 6 FPS 200 7 -01 (NEW) l 7 MAR -31 -04 11:09AM FROM -EJ Bartell& Co 5U348I441 ay 1- .7u r ULIrVt.� t -'- I P SUGGESTED INSTALLATION . FOR 90°SHAFT WALL TRANSITION BETWEEN FIRETEMP WRAP - SL • AND SHAFT WALL LINER _ ` - 11 ), , • 5 6 �� j., lk I 3 2 , I ; M`I I 1 � •�. i! , . NOTE: ST PINS ARE IT • 'REQUIRED FOR BOTTOM OF I�� l DUCT RISETO SUPPORT BLAN- KET (EVERY 91/2" AND • 4 SPACED 12" APART) NOTE: PINS MAY 6 BE USED IN PLACE �N. OF STEEL BANDS 4 - .11111111111111.pr P." 'i; fi I) ...iq` �L` :5:... KCC�� } }if.:,:. - oats;; . • • I F(ENf 1 GREASE DUCT 2 FIRETEMP WRAP -SL . • 3 SHAFT WALL LINER • 4 1" BY 1/8" STEEL BAR STOCK 5 1/2" STAINLESS STEEL BANDS • 6" COARSE DRYALL SCREWS 18 FPS 200 7 -01 (NEW) MAR -31 -04 H :09AM FROM-EJ Bartel I Bartel 15 Co b ud4al4ee I /rft Wk!. SUGGESTED INSTALLATION FOR VERTICAL OR HORIZONTAL SHAFT WALL TRANSITION BETWEEN FIRETEMP WRAP - SL • AND SHAFT WALL LINER • ,..Ides 3 • s NOM _ _ _ _ _ ..\, f 0 is 16 ter_. 2 — ft-- 5 V at' • WITH AIR GAP AT CEILING A A • ti :: PS fY 7. ti mi :.._:�L�'ae r' iii 1�L� =' � �'v: "'i'• p �.� . i.�r 1: � : I N _i li ` I �I� \.:i l F 9l .1. r Y (�: 1/ �R,. ��t, c .Ii!; �1:r9F :>... f. .1•1a:: : :„ �..�� Yr• �ti�lr:,.�'�I. �I � � � Fic v � r. = ..A � la'._�FJ -. � /�d 1� ":5� ir r.i' L.I 3 ' iikiMMINWAilla al-JIM- . . • 'sue ENV.. I I = _ w E a it 5 A 7 A r . . L.• NOTE: PINS MAY BE SUBSTITUTED . FOR METAL BANS ON WRAPPED LEGEND ` 1 GREASE MGT DUCT 2 FIRETEMP WRAP-SL. • } 3 SHAFT WALL LINER �� 4 Z BY 1/3" THICK BAR STOCK • 9 UY STAINLESS STEEL BANOS • 1. •• NOTE: WRAP IS OVERLAPPED OR EXTENDED B COARSE ORYALL SCREWS & WASHER ; - OVER DRYWALL OR CONCRETE CEILING A T snail_ PINS ANO CLIPS S CONCRETE FLOOR/CEILING MINIMUM OF 3" - ' • B CONCRETE ANCHOR WITH WASHER t C . • t 19 FPS 200 7 -01 (NEW) OB 111PI I.'i®, C ® / 0 BOCA International Evaluation Report 11.11 ;�- .: - ;: . x ��,,1 ;: , x • >:: ' conditions Research Report wa e' r $ 4' � of use ,.3R « S te.�} : ` ' Y; i'n''" ., *• . �" ��tiF�x» '. C mplianc with fhe foll n ' -; This report is limited to the applications and , 6 : O Nat B • "Mink " x° 99 °r' 5 products specifically as stated in this report. 99 ®2 7 w BO CA , .Nali _ ona l - 'BuiM i nk C ode /1`99 9; ; 'u ''' °_., "n at „ ; %.. ,.- ,.,.,3:.^ -- _ * 0 A 4' ' BOCA ES intends that the report be used by 4 ,34 ,' /• Y:` N `', : -' ` ' r, : t, ' ' ''' ' t ect c �om o lies� a with d the h re r upr ort su - to q' = z �' SS 1 04: 1'. 1 p q M ANUFACTURER: `` : ' p c p .( v•; ,, r ; "'',` s p e cific ally addressed in this repo provided . ■; Sectta Alternat - that the products are ins talled in accordance x equi p ; ° ;; ;,,. <,.' £ :.,. e; z :,.; ; ; JOHNS MANVILLE ;': - - << °and�equi =�� �.�- �x:� .< , _,, uw _,__ with the foll owing limitation 111016 ROAD ' REDUCTION OF; CLEARANCE TO' ..' . ' .; ` : .% , ; mot ;, ,:, ,� N -' , y ; ; ■Firetemp® Wrap shall be instal led in accor- FRU ITA, CO 81521 -2029 sCOMBUSTIESE L X d ance wi the manufacturer's published ` ,a e li 7 04.4 1` 1 :Eleme x installat instructions, titled Firetemp® DIVISION 07 "' x " °' " ' °x"' THERMAL AND MOISTURE °mate als � ,' " - Wrap Inst all, da Octob 1999, subject to y = -''' x ' ' the conditions of this report. ;;;=` INT ERIOR FINISH, „ RIAi° 5 -" ' PROTECTION Se c tio b8 , : , , ■ Use of Firetemp® Wrap as an alternative to ' , of,' '6 - c 4 F: ' . ., -.,,,x, - r ,, . �%s,, ,0--,,,,;,0,,' :. h° Section 07250 — F ir e proofing Ivi ; , z - E . a fireresistance r shaft enc sha be 1 -998 Interna tionalMecf i an ical Co ,, limited to kitchen gr ease d uct s and HVAC '4 ** .,,'', : ':;� - . _,: ° , .:,': A EVALUATION SUBJECT: ET ; ENC LOSURES ' ',' ' E 'i k :, `''''::i; ° ducts constructed of a mi nimum nominal r `� ' thickness of 0.06 in. (1.52 mm) (No. 16 Sectio i(14=1 . Penetrati 3, „s ` ' ' ,; ; � . , G age) steel. FIRETEMP® WRAP °• , °`'' `� °S floor (asse a nd sfir' 5 � 5 Ae- resistance= rated�as _ , °'� ■ Firetemp ® Wrap used as an alternative to a ;s" z one- or two -hour fireresistance rated shaft Section 5 6. 3: l D ct>encl os ure `<" ;; H x, ; -_` u ' ,,• ' ', > „ ,;,• ' " " enclosure shall be installed in a two -layer F REDUCTION, O C L E ARA N C,E<T O �'�� CUMBI J S TIBL-ES�� � '�” ,���_ :,, '^�'� wrap application as described in this report. - ''' 1\ ` � ' . 4 ` " r " ''� " ` Use of Firetemp® Wrap as a means of �r R v'„' Section 2 e al:, : ■ "y `' "'':* (Non�comb stible mate al)� . -. -y ;, is liim t d to N '' ' ''' construct d of a mini '''q ✓kzbia ,•`:•"n ,3�{',::t ✓,,.i r.��:. ��:if.. • `�.� ' -�2 �`, `x .'"xgY'a °S• ,1> -Jr� a �F Sec 308 Pirotective assembly, mum nominal thickness of 0.055 in. (1.4 i n .,,eeonstiuction and'installation !!;;`� mm) (No. 16 Gage) steel, with a maximum ' `' ' ` n "` 8 �' , " , �_ c° -'• " ' dimension of 24 in. (610 cross-sectional area mm) and a maxi - ,' � > , : �i on , 614;Allpwable °re ,,n ' ' „. � ,,; ^ ''::::� `• r - a ssem b lie s , . ' (37161 m m 2 ). k g I' N T ERIOR;FINISH -M , ER61. :§ w,„ -, ..,, , ;. , " ■ Firetemp® Wrap shall extend fora mini - "£� ',:. N .:Yir�. ,--� Q�p , :4,04 - w -- .64S . .. '•; r •+ ' i i i ,. . �=` Sec - 60 4`. 3 Coveri Fand l mum distance of 36 in. ( 914 mm) beyond "`'' "'``' "�° the edge of the combustible material when the duct wrap is used for zero - clearance to combustible installations, when the entire description length of the duct is not completely The Firetemp® Wrap is a flexible blanket wrapped. composed primarily of amorphous, soluble ■The through penetration firestop system, in - mineral wool fiber. The Firetemp® Wrap is conjunction with Firetemp® Wrap, is Hill- completely encapsulated in an aluminum foil, • ited to penetrations of fireresistance rated fiberglass scrim intended to prevent the ab- floor or wall assemblies by kitchen grease sorption of grease or water condensation by ducts and HVAC ducts as follows: PRINTED JANUARY, 2001 the blanket. The wrap is manufactured in a thickness 1.5 in. (38 mm) with roll sizes of 25 • • Duc constru Steel, minimum Page 1 of 5 ft (7620 mm) long and 2 ft (610 min) or 4 ft nominal thickness of 0.055 in. (1.4 mm) (1219 mm) wide. (No. 16 Gage) Copyright© 2001, (Continued on Page 2 ) (Contin on Page 2) BOCA Evaluation Services, Inc. A Part Member of the NES, Inc. Page 2 of 5 Research Report No. 99 -27 description (Continued from Page 1) conditions of use (Continued from Page 1) In addition to Firetemp® Wrap, the following accessories are • Duct size: Maximum 24 in. by 24 in. (610 mm by 610 mm) used for the complete installation of the duct wrap system. • Annular space:1 1/4 to 1 314 in. (32 mm to 44 mm) • Tape: Filament type, a minimum 1 in. (25 mm) wide, is used • Floor construction: Minimum 4 1/2 in. (114 mm) thick to temporarily secure each layer of the duct wrap in place prior normal weight concrete slab to installation of steel banding. Aluminum tape, a minimum 3 in. (76 mm) wide, is used to seal cut edges of a blanket. • Where the Firetemp® Wrap enclosure penetrates a fireresist- ance rated assembly, the perimeter of the penetration shall be • Steel Banding: 0.5 or 0.75 in. (12.7 or 19.1 mm) wide x 0.015 protected by the through - penetration firestop system shown in in. (0.38 mm) thick Type 302 stainless steel banding material Figure 2. with 0.5 in. (12.7 mm) wide by 1 in. (25 mm) long Type 302 • Installations where a Firetemp® Wrap enclosure penetrates a stainless steel crimp clips are used to secure the outer layer of floor assembly other than listed in this report shall be enclosed duct wrap in the final position, depending upon the intended in a fireresistance rated shaft enclosure in accordance with the application. requirements of Section 710.0 of the BOCA National Building • Insulation Impaling Pins: 12 gauge, 300 series stainless steel, Code /1999. 6 in. (152 mm) in length which are welded to the duct surface, • Installations where the Firetemp® Wrap enclosure of air ducts 12 in. (305 mm) on center, used to secure the duct wrap in which penetrates a floor assembly other than listed in this place and keep the duct wrap in contact with the surface of report, and does not connect more than two stories, shall be ducts wider than 24 in. (610 mm). The insulation is secured on provided with a fire damper installed at the floor line in the pins by 1.5 x 1.5 in. (38 x 38 mm) square or 1.5 in. (38 accordance with the requirements of Section 714.2.5 of the mm) diameter galvanized steel speed clips. BOCA National Building Code /1999. • Grease Duct Access Door Hardware: Hardware for installa- tion of the duct wrap to grease duct access doors consists of items requiring verification insulation impaling pins, 0.25 in. (6.4 mm) diameter x 4.5 to The following items are related to the installation of the report 5 in. (114 to 127 mm) long galvanized steel threaded rods subject, but are not within the scope of the evaluation. These welded to the access door frame, 0.25 in. (6.4 mm) diameter items are related to determination of code compliance for the wing nuts with 0.25 in. (6 4 mm) diameter steel washers, and structure on which the subject is used. 4 in. (102 mm) long hollow steel tubing to fit threaded rods. V Construction and installation of grease ducts and HVAC • Through - penetration Firestop System: Component materials ducts comply with the applicable provisions of the 1998 of the through - penetration firestop system are Firetemp® International Mechanical Code. Wrap and a sealant [Firetemp® CI Mastic (orange)]. Three layers of Firetemp® Wrap are wedged into an annular space application for permit with a nominal width of 1 1/4 in. to 1 3/4 in. (32 mm to 45 rm ) (with one wedged into a fold) for a depth of 4 in. (102 mm). To aid in the determination of code compliance with this research The top 1/2 in. (12.7 mm) of the annular space is filled with report, the following represents the minimum level of information Firetemp® CI Mastic (orange). to accompany the application for permit: USE AND APPLICATION • The language "See BOCA Evaluation Services, Inc. Research Report No. 99 -27" or a copy of this report. Firetemp® Wrap is intended for use as: • All ducts proposed to be protected; • An alternative to a one- and two -hour fireresistance rated shaft enclosure for kitchen grease ducts and HVAC ducts; • Fireresistance rating(s) required and provided; and • Type and material of all ducts to be protected; • A method for reducing required clearances to combustible • Size(s) and nominal thickness of all ducts to be protected; materials. • Details of duct hangers and/or supports; Firetemp® Wrap used as an alternative to a shaft enclosure or as • Locations and details of all grease duct access doors; a means of reducing clearance to combustibles is installed in direct contact with the exterior surface of the grease duct or • Location(s) of duct penetrations through both fireresistance HVAC duct to be enclosed. Every portion of the duct surface is and non fireresistance rated assemblies; protected with a minimum of two layers of Firetemp® Wrap • Construction and required fireresistance rating of the assem- material. The first layer is installed with joints in the wrap butted blies penetrated; tightly. The horizontal and longitudinal joints of the second (outer) layer are overlapped by a minimum of 3 in. (76 mm) with • Detail(s) of fireresistance and non fireresistance rated assem- a minimum offset of 6 in. (152 mm) from any interior (first layer) bly penetrated and of the proposed through - penetration firestop joint. The duct wrap material is held in place temporarily with the system; 1 in. (25 mm) filament tape prior to the installation of the steel • Specifications for handling, storage and installation of all banding. Stainless steel banding is used to secure the Firetemp® system components. Wrap to the duct. (Continued on Page 3) sa BOCA International Evaluation Report Research Report No. 99 -27 Page 3 of 5 description (Continued from Page 2) • Omega Point Laboratories, Proj ect No. 15956-104736A, dated May 5, 1999, containing test results of UL 1978, Standard for Where the width of the duct to be protected exceeds 24 in. (610 Grease Ducts. The results of this testing indicate that the mm), insulation impaling pins are welded to the duct and the duct temperature of the unexposed surface of the Firetemp® Wrap wrap is impaled on these pins and held in place with steel speed did not exceed 250 °F (121 °C) and ignition of combustible clips. See Figure 1 at the end of this report for a diagram of wood panels installed in direct contact with the unexposed typical insulation pin layout. surface did not occur when subjected to an abnormal tempera- ture test of 2000 °F (1093 °C) for 30 minutes. Horizontal and vertical duct support members are not required to be wrapped with the duct wrap material when the support system • Underwriters Laboratories Inc., Project 99NK31147, File consists of a minimum 0.5 in. (12.7 mm) diameter steel rods and MH19893, dated September 15, 1999 containing test results 2 x 2 x 0.25 in. (51 x 51 x 6.4 mm) thick steel support angles. which indicate that Firetemp® Wrap exhibited a flame spread The all thread rods are attached to the steel support angles and are rating of 25 or less and a smoke - developed rating of 50 or less spaced 12 in. (305 mm) away from the edge of the bare duct and and complies with the requirements for a Class I flame spread 2 in. (51 mm) away from the edge of the support angle. See classification, when tested in accordance with ASTM E84. Figure 1 at the end of this report for a typical fireresistance rated and zero clearance installation configuration. • Report from Shawn Brill, P.E., representing Burke Associates, Inc., dated October 13, 1999, containing results which indicate Grease duct access doors at horizontal cleanouts, as required by that Firetemp® Wrap did not flame, glow, smolder or smoke and located in accordance with the 1998 International Mechani- when tested in accordance with ASTM C411. cal Code, are protected by three layers of Firetemp® Wrap. Each succeeding layer shall overlap the previous by a minimum of 2 • Manufacturer's installation instructions, titled Firetemp® Wrap in. (51 mm). The wrap is installed on a metal frame attached with Install, dated October 1999. four bolts. See Figure 3 at the end of this report for a diagram of a typical grease duct access door installation. product identification Through - penetration Firestop System All Firetemp® Wrap manufactured in accordance with this research report shall be marked at the plant with the following Penetrations of fireresistance rated floor /ceiling by grease ducts identification: or HVAC ducts protected with Firetemp® Wrap shall be protected by the through-penetration firestop system described in • °See BOCA Evaluation Services, Inc. Research Report No. this report and shown in Figure 2 at the end of this report. 99 -27." • A label stating the product name and the mark of the labeling information submitted agency Omega Point Laboratories, Inc. (NER- QA337). • Omega Point Laboratories, Project No. 15956- 105520, dated September 14, 1999, containing results of large -scale wall fire yea testing of Firetemp® Wrap, performed in accordance with ASTM E119. • Omega Point Laboratories, Project No. 15956- 104737, dated June 2, 1999, containing results of full -scale engulfment and through - penetration firestop system testing of the Firetemp® Wrap system. The full -scale engulfment testing was performed in accordance with ASTM E119 test criteria to determine structural integrity. Through - penetration firestop system testing was performed in accordance with ASTM E814. • Firetemp® Wrap, Omega Point Laboratories, OPL Document No.16064 -1, dated June 1999, containing the signatures of the manufacturer and the third -party inspection and labeling agency. The manual contains the procedures related to third -party inspection and labeling of the duct wrap material. Omega Point Laboratories (NER- QA337) is identified as the labeling agency. • Omega Point Laboratories, Project No. 15956 - 105486, dated September 28, 1999, containing test results which indicate that Firetemp® Wrap complies with the requirements for classifi- cation as a noncombustible material, when tested in accor- dance with ASTM E136. BOCA International Evaluation Report Research Report No. 99 -27 Page 5 of 5 Legend Firetemp® Wrap 1. Access door opening _ Clean Out Door Details 2. Frame Welded to duct 3. 1/4" dia. threaded rod 4. Access door cover panel 5. Insulation pins - welded to cover 6. 1 layer Firetemp® Wrap 4111111°-jll° 7. 2 layer Firetemp® Wrap 8. 3 layer Firetemp® Wrap 9. Speed clips. Washers © 10. Cut Edges sealed with foil tape \ 0,1, �' i ► 11. Hollow steetubing 5/16" (optional) © 0 12. 1/4" dia. wing nuts 0 , � I �� � in Three layers of Firetemp® Wrap are Required for the access door cover. GREASE DUCT ACCESS DOOR Figure 2* Firetemp® Wrap Firestop Penetration For Duct < 24" Firetemp® CI firestop mastic 1/2" thick 4 Concrete or two hour Firetemp® Wrap fire rated gypsum for • ■ C::.:: wall 4 Firetemp® Wrap or 8 pcf solubl - teel grease duct amorphous wool blanket wedged between fire rated floor or wall and Firetemp® Wrap PENETRATION SEAL THROUGH - PENETRATION FIRESTOP SYSTEM Figure 3* *THESE DRAWINGS ARE FOR ILLUSTRATION PURPOSES ONLY. THEY ARE NOT INTENDED FOR USE AS CONSTRUCTION DOCUMENTS FOR THE PURPOSE OF DESIGN, FABRICATION OR ERECTION. BOCA International Evaluation Report