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Specifications
FILE COPY August 22, 2003 John Abel CITY OF TIGARD Cornerstone Construction Management OREGON 5410 SW Macadam Avenue, Suite 250 Portland, OR 97239 RE: CFT ELEMENTARY SCHOOL, FOUNDATION, SLAB & STRUCTURE ONLY Site Permit: BUP2003 -00444 ���/ Construction Type: II -1HR Tenant Name: CFT E ementary / ?, c� Occupancy Type: E -1 Address: J 50 SW Grant Avenue Occupant Load: NA Area: 67,500 Sq Ft Stories: 2 The plan review was performed under the State of Oregon Structural Specialty Code (OSSC) 1998 edition. The submitted plans are approved subject to the following. Special Inspection: Special inspection is required for Concrete, Reinforcing Steel, High - strength Bolting, Masonry, Structural Welding and Special Moment Resisting Frames. The special inspection agency of record shall furnish inspection reports to the Engineer of Record, Nishkian Dean, the General Contractor, Baugh - Skanska and the City of Tigard, Building Division, attention Hap Watkins. All discrepancies shall be brought to the immediate attention of the general contractor for correction. The special inspector shall submit a final signed report stating whether the work requiring special inspection was, to the best of the inspector's knowledge, in conformance with the approved plans and specifications and the applicable workmanship provisions of the code. 1701.3 OSSC Approved Plans: 1 set of approved plans, bearing the City of Tigard approval stamp, shall be maintained on the jobsite. The plans shall be available to the Building Division inspectors throughout all phases of construction. 106.4.2 OSSC Premises Identification: Approved numbers or addresses shall be provided for all new buildings in such a position as to be plainly visible and legible from the street or road fronting the property. When submitting revised drawings or additional information, please attach a copy of the enclosed City of Tigard, Letter of Trai iilittal. The letter of transmittal assists the City of Tigard in tracking and pro essing the documents. Respect , Brian Bl., o , Senior :A . ns Examiner 13125 SW Hall Blvd., Tigard, OR 97223 (503) 639 -4171 TDD (503) 684 -2772 (j /p1 /ZOOi u7.:414 IAA 19UO..)6�yYa4 !\ 1 .' 111\1(11\ linA1 .a✓•, rd1 _y S -c R UCT UR,4 . 1 N EA 0� ./ ,L-,- 7159. \ � • OR GON ! " <C\ ' G , y t 6 �c ' P � 4 D L. GO,G� !EXPIRATION DATE: 6- 30 -05! 3/16 \ 4 © . 3/16 4 ' 56.6 W8x28 4x4 TUBE T=ic W16x36 / Tur f Ht , / / 3/8" STIFF. PLATE \ ,' .= 1/a V (TYP. EACH SIDE OF BEAM / / ` / PL 1x16x1' -4" (2) #4 TIES - 1/4V/ v \ \ / NON— SHRINK GROUT w/ 135' SEISMIC N / / HOOK EA. END. y. \ • CV ® 15' -2" �= - �\ (4) 1 "0 ANCHOR BOLTS _ w/ 1/2" x3" SQ. PLATE .� I WASHERS WITH DBL. NUTS .IIIIIIIIIIIIIII r ... IM MB / 6 " ), 6 - #3 SPIRAL x 3" PITCH iL ® • DI - TAIL 6 3/4-.1 f -0f' SELIG / LEE /RUEDA .` X x ' '4, °' SELIG / LEE / RUEDA C.F.T. ELEMENTARY SCHOOL REPLACEMENT S . 1 R C Li , T E C T S P L A N N E R S S TIGARD- TUALATIN SCHOOL DISTRICT No. 23J RS. 1 ;� � ate Ali s a .. f.i r•,, l•ee ,01 f•rll.• /. Or{.v v';fl - 1`171 ::l 01'] ND430.0O IS AUG 2003 CFT ES - STRUCTURE & UNDERSLAB MEP - ADDENDUM NO. 2 - 15 AUGUST 2003 Architects SLX ARCHITECTS AND PLANNERS 224 S.W. FIRST AVENUE PORTLAND, OR 97204 (503) 224 -0173 C.F.T. ELEMENTARY SCHOOL REPLACEMENT ) PACKAGE 2 - STRUCTURE & UNDERSLAB MEP FOR TIGARD - TUALATIN SCHOOL DISTRICT ADDENDUM NUMBER TWO (2) Tigard - Tualatin School District Washington County This Addendum to the Contract Documents is issued to clarify and correct the Drawings and Specifications. This document is hereby made a part of the Contract Documents to the same extent as though it were originally included therein. Acknowledge receipt hereof by inserting the above Addendum number in the space provided in the Official Proposal Form prior to submitting bid. Failure to do so may subject bidder to disqualification. 2A SPECIFICATIONS 2A -1 TABLE OF CONTENTS a. Add Section 14420, Wheelchair Lift (new section attached to this Addenda.) (Note: Lift located on east side of Stage at 3" recessed slab. See Sheet 2.0C.) 2A -2 SECTION 03300 - CONCRETE MIX DESIGN, CAST -IN -PLACE a. At 3.3 Concrete Finishing, Item F. Plain Slabs - Finish, add the following: "The following rooms will have exposed concrete and require concrete sealer: Custodial A119 Machine B] 15 Custodial C105 Storage 8202 Custodial B116 Storage C107 Electrical B203 Electrical B117 Storage C 108 Electrical C202 Water B l 18 Storage C 1 13 Storage C102 Storage C114 RECEIVED SEP 2 4 2003 E PP� IOG CITY OF TIGAR ._ '•`,'a'r:; °ti`,:s,,' BU IL D ING D IVISION , CFT ES - STRUCTURE & UNDERSLAB MEP - ADDENDUM NO. 2 - 15 AUGUST 2003 2A -3 SECTION 05310 - STEEL JOIST AND DECK PHASE a. At 2.2 Roof Deck, add the following: "B. Acoustical Steel Roof Deck: Fabricate panels, without top - flange stiffening grooves, to comply with "SDI Specifications and Commentary for Steel Roof Deck," in SDI Publication No. 29, and the following: 1. Galvanized Steel Sheet: ASTM A653, Structural Steel (SS), Grade 33, G60 Zinc Coating. 2. Shop Primed Steel Sheet: ASTM A653, Structural Steel (SS), Grade 33, G60 zinc coating; primed with manufacturer's baked -on, lead and - chromate -free rust inhibitive primer complying with performance • requirements of FS 7-P -664. 3. Deck Profile: N. 4. Profile Depth: 3" 5. Span Condition: As indicated. • 6. Side Laps: Interlocking seam. -T. Acoustical Perforations: Vertical webs perforated with 5/32" diameter holes staggered 7/16" centers to provide .85 Noise Reduction Coefficient. NRC of completed assembly shall be as determined by tests in accordance with ASTM designation C423 conducted by Riverbank Acoustical Laboratories. 8. Sound - Absorbing Insulation: Manufacturer's standard premolded roll or strip glass fiber or mineral fiber. 9. Acoustical Performance: NRC 0.75, tested according to ASTM C423. 10. Refer to Structural Drawings for Gauge and attachment. 2A -4 SECTION 14420 - WHEELCHAIR LIFT Add new Section 14420 Attached to this Addendum. 2B DRAWINGS 2B -1 SHEET S2.1A - FOUNDATION PLAN SECTOR A a. Near intersection of Grids J -20 change detail call out from 8/S1.2 to 8/S1.1 2B -2 SHEET S2.2A - FLOOR FRAMING PLAN SECTOR A a. Near Grid P -20 change detail call out from 1 /S5.0 to 2/S5.0 b. Near Grid P -20 change detail call out from 2/S5.0 to 1/S5.0. 2B -3 SHEET S2.2C - FLOOR FRAMING PLAN SECTOR C a. Detail 14/S2.2C, change call out from 13 /S 1.2 to 17/S1.2. b. Plan 1 /S2.2C and details 14, 15,18, & 19/S2.2C add concrete curb per item 1 B- 3 of Addendum No. i . 2B -4 SHEET S2.3B - ROOF FRAMING PLAN SECTOR B a. At Grid M change bottom of deck elevation from 1 16' -1 1 1/2" to 117-1 1/2" b. At Grid D change bottom of deck elevation from 118'-0" to 118-2" 2B -5 SHEET 2.3C - ROOF FRAMING PLAN - SECTOR C a. Change metal roof deck to be acoustical steel deck (3" x 18 gauge) at curved Gym roof and at Multi Purpose Room. PAGE 2 t r'c •k CFT ES - STRUCTURE 8, UNDERSLAB MEP - ADDENDUM NO. 2 - 15 AUGUST 2003 2B -6 SHEET S3.2B - BRACED FRAME DETAILS & SCHEDULES a. Detail 17/S3.2B change footing width from 6' -0" to 4' -0" b. Gusset plate welding schedule Frame MK B3 change "VI" dimension from 2' -6" to 2' -2" c. Gusset plate welding schedule Frame MK B10 change "VI" dimension from 1'- M 8" to 1 ' -6 ". 2B -7 SHEET S2.3C ROOF FRAMING PLAN SECTOR C a. At Grid K change BOD elevations from 121' -10" to 121' - 6" b. At Gid S change BOD elevations from 123' -3" to 123' - 8" c. At Grid S change BOD elevations from 138' -0" to 137' - 4" d. At Grid W change BOD elevations from 126' -3" to 125' - 4 1/2" e. Grid S and 20 feet west of Grid 3 change call out from 19/S6.6 to 19/S6.5 2B -8 SHEET S3.1A - BRACED FRAMES SECTOR A a. Details 18 change call out from (6) 1 1 /4 "anchor bolts to (4) 1 1/4" anchor bolts 2B -9 SHEET S3.1C - CONCRETE WALL ELEVATIONS SECTOR C a. Detail 8/S3.1C change detail call out from 3/S6.5 to 4/S6.5 2C SUBSTITUTIONS No Items this Addendum. END OF PACKAGE 2 - ADDENDUM NUMBER TWO (2) 4,3 ' L;, PAGE 3 i 4,"4; f p : : in , A.; r'f� ,... 14 A - ` 1 . fs.,;w.�v .. +.�: •� - �/�.'.",.: 'Y^L�#tr',:"ir ,..? ..�'' i 9' akP• < { :y r,.c, § { b W,,. - - � i. 7r�u .,.c y� J��d .. `•^ � - • � SsS �� r rs s,�,A, C �" .. • . 7'" • Y � F��1r� n"t .�'�.:f�: "...+":. , *• " � y r .4'rf,; �F..iJ,.='.3� -' - � y • :r _ . , 4'_`R�i.� N' �ff+'y Y ..t +.:wM ^ ... ^ •tC ^ .ram"��gys a �•egl ati ri."zii` .<�� 'i .e% • , U �g * n „ t` s.- . _ - C. _ r t' . t- $b .. ..f F�%�`° - f33'.373r;:.C'��'� 1;�,ti:.<a�•fr :'."�.• #..•. " < •,�'a.�; ,r�'�e...3. a +� cEr: /a �� -'xJ" • t„r i - rrtLI .MAJC c yr nttLLIIAUUC Lit' t STRUCTURE & UNDERSLAB MEP SECTION 14420 - WHEELCHAIR LIFTS PART 1— GENERAL 1.1 SUMMARY A. A vertical platform (wheelchair) lifting device designed to provide access to or within a building for mobility impaired persons. Lift consists of machine tower and lifting platform selected and dimensioned to provide adequate lifting height to suit building access requirements indoors and out. 1.2 REFERENCES A. Lift shall be designed, manufactured and installed in accordance with the following standards: American National Standards Institute (ANSI). American Society of Mechanical Engineers (ASME). ADA Accessibility Guidelines (ADAAG). Underwriters Laboratories (UL). International Building Code (IBC). National Electrical Code (NEC). American Society for Testing Materials (ASTM). American Welding Society (AWS). 1.3 SYSTEM DESCRIPTION A. Drive: 1. AC powered ballscrew drive; 1/2 hp, 120 V, 60Hz, instant reversing motor. B. Number of Stops: Two. C. Platform Configuration: straight -thru. D. Maximum Travel: 53" E. Rated Load: 750 lbs. with minimum safety factor of 5X. F. Rated Speed: 9 -12 fpm. G. Platform Size: 36 "x48" with 42" high guard panels. H. Enclosure: 56" high wall panels. L Main Powei Supply Wiring: Electrical contractor shall provide 115 VAC, single phase, 20 amp, 60 Hz power circuit. J. Operating Features: 1. Platform Controls: Directional paddle switch, on/off key switch, emergency stop switch with alarm and illuminated alarm button. 2. Landing Controls: Directional paddle switch and on/off key switch mounted inside gate /door frames. 3. Constant pressure operation. 4. Grounded electrical system with upper, lower and final limit switches and 24 V operating controls. 5. Platform underpanel equipped with obstruction sensors. 6. Non -slip surface on platform floor. 7. Grab rail on platform. 8. Manual lowering device. 9. Integral ballscrew safety device and electromechanical brake. 10. Pit switch. 11. Telephone jack on platform. 12. Upper Landing Gate/Door: a. 42" high, self - closing gate with VDR mechanical interlock and steel sheet. 13. Platform Gate: 42" high, self - closing gate with VDR mechanical interlock and steel sheet. 14. Lower Landing Gate: 53" high, self - closing gate with VDR mechanical interlock and steel sheet. 15. Automatic Gate/Door openers. • ` WHEE LIFT ' "" r PAGE-1 • 'L tcPi #ke g ."i�t . ." .. �'G�ro ti��i'f.: M1 • ' • .. `.€ .2�'Ali� dY.i F,:,�k:1F'.4x _xrr'.� =: ; "'v'i;� ✓icvt�'lr `. '''5:14!i' .. • - . • emir 1 STRUCTURE & UNDERSLAB MEP 1.4 QUALITY ASSURANCE • A. Manufacturer: Provide wheelchair lift manufactured by a firm with a minimum of 25 years experience in fabrication of wheelchair lifts equivalent to those specified. B. All designs, clearances, workmanship and material, unless specifically accepted, shall be in accordance with all codes having legal jurisdiction. C. All load ratings and safety factors shall meet or exceed those specified by all governing agencies with jurisdiction and shall be certified by a professional engineer. D. Lift shall be subject to applicable state, local and city approval prior to installation and subject to inspection after installation. Determination of and adherence to these regulations is the responsibility of the lift contractor. E. Welders certified in accordance with requirements of AWS D1.1 shall perform all welding of all parts. F. Substitutions: No substitutions permitted. 1.5 WARRANTY A. Manufacturer shall warrant the vertical platform lift's drive system for a period of two years after installation and all other components for one year after installation. 1.6 MAINTENANCE A. The vertiEal platform lift must be maintained in accordance with manufacturer's instructions. PART 2 - PRODUCT 2.1 MANUFACTURER A. Porch -Lift vertical platform lift model PL -TG (toe guard) manufactured by Access Industries. B. Or approved equal. 2.2 MATERIAL A. Machine Tower: 14 ga. steel sheet. B. Guide Rail: 3" x 2" x 1/8" ASTM A500 grade B steel tubing. C. Base Frame: 2" x 2" x 1/4" structural steel tubing and angle. D. Lift Weldment: 3/8" hot rolled steel plate and 2" x 2" x 1/4" wall structural steel tubing. E. Side Guard Panels: 18 ga. galvanealed steel sheet in I" x 2" x 14 ga. steel tubing frame. F. Enclosure: 18 ga. galvanealed steel sheet in 1" x 2" x 14 ga. steel tubing frame. G. Front Access Panel: 20 ga. galvanealed steel sheet. H. Platform: 11 ga. steel plate. I. Access Ramp: 11 ga. steel plate. 2.3 FINISHES A. Components shall be prepared with 1)alkaline detergent wash, 2)clear water rinse, 3)iron phosphate coating, 4)clear water rinse and finished with electrostatically applied and baked thermostatic powder coat finish for indoor or outdoor use. Custom color. 2.4 ELECTRICAL SYSTEMS A. The electrical contractors shall provide a 115V, single phase, 20 amp, 60 Hz electrical power source connection. B. Electrical piping and wiring supplied by others. C. Final electrical connections performed by lift contractor. PART 3 - EXECUTION 3.1 ACCEPTABLE INSTALLERS A. Installers shall be experienced in performing work of this section who have specialized in work comparable to that required for this project. B. Installers shall be certified and trained by the manufacturer. • WHEELCHAIR LIFT ° t n . ::, � r �M - PAGE . , ,' r •. ' �y 7r�� ; �,fgypyd�'q^ � - . 3 " • l .isq S % !!i '10eg fAtti a'�U, .°T '1 �. • -• 'i T •— LC — 'aGLL'. iuR.„\ LAP STRUCTURE & UNDERSLAB MEP 3.2 EXAMINATION A. Use field dimensions and approved manufacturer's shop drawings to examine substrates, supports and other conditions under which this work is to be performed. Do not proceed with work until unsatisfactory conditions are corrected. 3.3 INSTALLATION A. The vertical platform lift shall be installed in accordance with manufacturer's instructions and as specified and approved by architect. B. Upper landing gates and doors shall be installed by others. Electrical piping and wiring by others. Final electrical connections and lift adjustments by lift contractor. 3.4 DEMONSTRATION A. The lift contractor shall make a final check of the lift's operation with the Owner or Owner's representative present prior to turning the lift over for use. The lift contractor shall determine that operating and safety devices are functioning properly. END OF SECTION • A �,4 -4fit i r . r t:ii'• r 3'j k s h r rg dt i :A . I �, - _ f 17 �r r r • . s ; "� ,r a =, PAGE -3 , � • fi , :A rii'T -` ✓ `� i ,�„r s k � Y •. a �7�. "� �'' ms ` ' .; t1 �! Qi . t }i '' r; .m' �: � „ dG �'r. "'�`.- • },� i 47r�Y�y�" � � `�'� � 4�%" . '....:_ ,`t` "�'' da .,i,r ,; . t ` " F f tn, ' . ' �*'si J' ,« _� t:e s 7 ;4 1 . `.a �f; x z'N. �.r.a t ' � ' ' t { + 4J 7,r1 •. . ".?'.: ;, �',F ":k.°d is, ' . B augh CF Tigard Elementary School Date:8 /15/03 SKANSKA Bid Package:Two (2)A ) Addenda #2 Bid Package #2A Structure and Under Slab MEP For: CF TIGARD ELEMENTARY SCHOOL Scope of Work: DIVISION #4, 14, 15,16 Issue Date: August 15, 2003 Bids Due: _ 1. Base Bid — August 19, 2003 — 2:00 PM Pacific Standard Time at Baugh /Skanska Main Office - . 2. Bids may be delivered in a sealed envelop. FAX to (503) 643 -0646 Page 1 of 2 • • 1 • CF Tigard Baugh Elementary School . 9 SKANSKA Bid Package: 2. ADDENDA #2 - Structure and Under Slab MEP: 1. Reference drawing E1.0 dated August 1, 2003: The following scope of work has already been installed by others. Do not include pricing for the items identified below. Reference attached sketch. • Delete scope of work for Note #1 — Primary Underground Conduit. • Delete scope of work for Note #2 — Primary Vault for PGE • Delete scope of work for Note #3 down to bottom edge of "turn about" — Primary underground conduit. • Delete scope of work for Notes #5 and #6 — Conduits to water vaults. 2. Reference drawing E1.1 dated August 1, 2003: The following scope of work has already been installed by others. Do not include pricing for items identified below. • Delete scope of work for underground conduits in East parking lot. Reference attached sketch. Conduits that are crossed out with an "X" are by others. Page 0 of 2 • Y { k sue • t i�`n.'4 �i . { {{ }r _ .�.E -• . • .• ,• '.• --.....' ..7,,,..;.,1 1 \ • .. .. , _ ,. ... ••., „ .... „•,. - wi.,, It SINGLE FAMILY . 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PACKAGE 2 - STRUCTURAL a UNDERSLAB MEP AD2.2 ' ., .: '';'', architects SLX , ,, 'ADDENDUM No. 2 . . , , . -.7.:-.1., .., - ,,, , i;a-- - . nAmmir AMIE 1011164111111.1119111111111 :•;;.... Arimd.........., ........-- —...- .......... ...... ........ ..i... .... . . - 1 Form 2a Project Name: C.F. Tigard Elementary School Page: SUMMARY Project 1. Project C.F. Tigard Elementary School - 2. Project Address 12850 SW Grant Street 3 R City/Town,r.:� . . Tigard 97223 . 5. County Washington • . 4..Btailding,` Gross Area ,(ft 68,954 6. No. of floors, 2 Chapter Type ID Description Attached Attached Building Envelope Form 3a Building Envelope - General ❑ Forms and 3b Prescriptive Path - Zone 1 ❑ Worksheets 3c Prescriptive Path - Zone 2 ❑ � ❑ indi.'At 3 d Simplified Trade -off ( use CodeComp software) form a worksheets — CI 3a Wall U- factors w OCT 21 2003 3b Roof U- factors ❑ 3c Floor U- factors ' ; ❑ CITY OF TIGARD Systems Form 4a Systems - General ❑ BUILDING DIVISION - ❑ 4b Complex Systems Worksheet 4a Unitary Air Conditioners - Air Cooled ❑ 4b Unitary Air Conditioners - Water Cooled ❑ 4c Unitary Heat Pump - Air Cooled ❑ 4d Unitary Heat Pump - Water Cooled ❑ 4e Unitary AC & Heat Pump - Evaporatively Cooled ❑ 4f Packaged Terminal Air Conditioner - Air Cooled ❑ 4g Packaged Terminal Heat Pump - Air Cooled ❑ 4h Water Chilling Packages - Water and Air Cooled El 4i Boiler - Gas -fired & Oil -fired El 4j Furnaces and Unit Heaters - Gas and Oil -fired Cl Lighting Form 5a Lighting - General El GI 5b Interior Lighting Power - Occupancy Method 5c Interior Lighting Power - Space -by -Space Method ❑ Worksheet 5a Interior Lighting Power 0 5b Lighting Schedule ' . 5c Interior Control Credits 0 Applicant 7. Name Christian D. Goins 10. Telephone (503) 297 -7738 8. Company Cundi _ • • . ,,I, 11. Date . 9/16/2003 9. Signature'' .... ±`a...�' %lam I , Attached No of Pages' - Description of Document -.-,. ' • - . Documen- . tation t i/V ° --f•It\ 4 4 6!_ . ? ' ..., - S • :1 ell y �'L 7.>"' s OFFICE COPY Form 5a Project Name: C.F. Tigard Elementary School Page:. LIGHTING - GENERAL . 1. Interior Exceptions (Section 1316.1) Exceptions ❑ No Interior Lighting. The building plans and specifications do not call for new or Discussion of qualifying altered interior lighting. Skip to item 4, Exterior building Lighting - General, below. exceptions on page 5 -7. El Exception. The building or part of the building qualifies for an exception from code lighting requirements. The applicable code exception is Section: IE2.1A,B,C & E2.2A Exception(s) I 2. Local Shut -off controls (Section 1316.1.2.1,1) C3 Complies. At least one local shut -off lighting control for every 2,000 square feet of Exceptions lighted floor area and for all spaces enclosed by walls or ceiling height partitions. Discussion of qualifying This control(s) is detailed in the building plans on drawing number: I I exceptions on page 5 -8. ❑ Exception. The building or part of the building qualifies for an exception. The applicable code code exception is Section 1316.1.2.1.1, Exception: I Portions of the building that qualify: 3. Office Controls (Section 1316.1.2.1,2) Exceptions o Not Applicable. Contiguous office floor area is not over 2,000 square feet. Discussion of qualifying ❑ Complies. All interior lighting systems are equipped with a separate automatic exceptions on page 5-9. control to shut off the lighting and local override switching. These control(s) are detailed in the building plans on drawing number. I ❑ Exception. The building or part of the building qualifies for an exception. The applicable code exception is Section 1316.1.2.1,2, Exception: I Portions of the building that qualify: Definition 4. Exterior Building Lighting - General El No Exterior Building Lighting. Skip the rest of this form. El Complies. Complete items 5 and 6 below. EXTERIOR BUILDING LIGHTING 1 I is lighting directed to illuminate the exterior 5. Exterior Building Lighting Controls (Section 1316.1.2.2) of the building and O Complies. The building plans require that all exterior building lighting is equipped adjacent walkways and loading areas with automatic controls described in Sec. 1316.1.2.2. These controls are detailed with or without canopies. in the building plans on drawing number. I I ❑ Exception. The exterior building lighting is intended for 24 -hour continuous use. 6. Exterior Building Lighting Power (Section 1316.2.2) is Complies. The plans do not call for incandescent lamps greater than 10 Watts for use in exterior building lighting. - ❑ Exception. The building plans indicate luminaires with incandescent lamps greater than 10 Watts, but they are 5 percent or less of the total installed exterior lamps. Total number of exterior lights: Total number of exterior incandescent lights: N a Form 5b Project Name: C.F. Tigard Elementary School Page: • INTERIOR LIGHTING POWER - Occupancy Method Lighting (a) • . - (b) (c) (d) (e) (f) Budget - Ceiling Floor Area Max Power Lighting Group Occupancy Use Height s "ft Dens Power Budget g (� q (W /sq'ft) (W) Retail or Retail lighting, d epartment stores, drug Merchandise M stores, markets, eta Any varies (Group M only) under 15ft 58,676 1.2 70,411 E - Educational occupancies K -12 I 1r Other Occupancy/ 15ft or more 10,278 1.5 15,417 Use Types See page 5 -11 for under 15ft n/a - instructions B ■ 1 V 15ft or more n/a .. - - under 15ft n/a E V — I 0 15ft or more n/a - under 15ft n/a t F I iV 15ft or more n/a under 15ft n/a H - 1v ' 15ft or more n/a - under 15ft n/a - I 1.. , sr 15ft or more n/a - under 15ft n/a - R I V ■ 15ft or more n/a - 1. Total Interior Lighting Power Budget (Watts) for building. 85,828 Track 2. Total length of track lighting (ft) Lighting 3. Line 2 multiplied by 37.5 Watts /ft 0 Power 4. Total amperage of circuit breaker(s) serving track lighting (amps) 5. Voltage of circuit breaker serving track lighting (volts) 6. Wattage of circuit breaker serving track lighting (line 4 x 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 + 74,451 Power 10. Total Control Credit from Worksheet 5c . , - - Total Adjusted Lighting Power - 11.. = 74,451 (line 8 +'line 9 =.line 10) , 12. Does design m eet budget? Line 11 must be no greater than line 1. YES 0 tis , - Worksheet 5a Project Name: C.F. Tigard Elementary School • • Page: . . LIGHTING SCHEDULE . . . . , , • . . . ID is the '',:,(a) (6 ) ,= ,.k - d ( -.1 k .g :,:', . - , '`,: • identification ' :=. .W.:",' ';‘ '; '' ', ';e ',,- := : ..v,,, . number or letter 1 -,, .:., :, - ,, : 4 , :1 - ,;,,. Type :(,-., - ,,. -,,•.-, - :; , :y .,„-: , ,:, , :, - Liarrip,/,gallastpe,P,cfiRtion :' , Power (W) used in your plans or specification „ A 4R Rapid Start T8 NP 3-F32T8 2-ELECT 'V '..94 B 4ft Rapid Start T8 II 2-F32T8 1-ELECT Iv • Enter the number and type 61 4R Rapid Start T8 V 2 1 v . . 62 of lamps in the luminaire. See , B2 4R Rapid Start TB 'V 2 1 V : ; 62 Table 5b for typical — lamp codes C Compact Fluorescent Triple II 1 1 V "b5 D 4ft Rapid Start T8 V 3 2 V . '" Enter the . .. 94 number and type F 4ft Rapid Start T8 I 3-F32T8 2-ELECT V ' ' 94 of ballasts In the luminaire. For Fl Fluorescent Twin (40 V 3 2 V ' 107 fluorescent and J ..... Compact Fluorescent Triple ! V 1-CFM42W/GX24q-3 1-ELECT ■ high intensity : 46 discharge lamps, K Incandescent 'V 150 Watts V 150 typical abbreviations are: L 4ft Rapid Start T8 V 2-F32T8 1-ELECT 'V 62 MAG STD for N Metal Halide HID NI 1-MH100 1-MAG STO I - 142 Magnetic Standard Q Compact fluorescent Triple v 1-CFM32W/GX24q-3 1-ELECT W ? ' 35 MAG EE for R 4ft Rapid Start T8 V I 1-F32T8 1-ELECT NV ' 32 Energy Efficient Magnetic S 4ft Rapid Start TB 1N j 2 1 •Ir 62 ELECT for T Incandescent v 160 Watts V 60 Electronic X Incandescent 1r 15 Watts V 15 _ See Table 5b for V 1 M" Wattage other ballast abbreviations LIP ---I Nr Wattage Ny Wattage Nr y Wattage V Ni Wattage _ , ir ■ Wattage . ® ■ Wattage j v v• Wattage • v• I. Wattage V v Wattage User Defined Fixtures - Cut Sheets must be included to verify wattage of complete luminaire :''.• 1 ,.- , 1, , .4., ' .::::A.,: ,2 ; :, 7,7 ' ' Fixture and Lanrip ;:'': - :`-;-,,: . • Power H Highbay type w/ (8) 42W triple tube compact fluorescent lamps, aluminum reflector 360 I Highbay type w/ (8) 42W triple tube compact fluorescent lamps, Polycarbonate refract 360 . , . , c corr., A ( _ , . : • • Niks • , . • • , • . • .-- Worksheet 5b Project Name: .C.F. Tigard Elementary School Page: INTERIOR LIGHTING POWER Worksheet No 5b -1 • Enter the :1 ; I, :`. , e;; -;;` quantity for every '`s non -exem ;,'; `r- °jEc;�' t ` '' . p . : - ,-o� ' K _ Q ` Quanti of L Lighting 3�' �:�: ° ' "' ',:.:-',,=.''''', 1, ry g g Iuminalre. Do not consider track , °.` . 'Sheet No " ', . ',.Ro or, Plans, Designat ° ` .. - ' L um inaire`I D , ,°Luiminaires* Power (Watts) Power (d) x (e) lightlsheet. E2.1A First Floor Lighting Plan - Sector 'A' B V 1 62 62 worksheet. Track lighting is B1 ° 14 62 868 accounted for on Form 5b C V 37 35. 1,295 •• Additional ° V 196 94 18,424 '. pages may be F ° 21 94 1,974 necessary if building has more L ° rooms than there 4 62 248 '_ . , are lines in this Q ° 4 35 140 form x ° ," 20 15 300 E2.1B = irst,Second Floor Lighting Plan-Sector 'B A ° 14 94 1,316 B ° 9 62 558 B1 ° 11 62 682 - B2 V 7 62 434 . • C V 4 35 140 . V 16 94 1,504 Fl ° 55 107 5,885 _ ° 4 46 184 1 V 2 150 300 _IN ° 24 142 3,408 Q ° 3 35 105 R V 11 32 352 ' x ° 15 15 225 E2.1C = irst,Second Floor Lighting Plan-Sector 'a ° 16 94 1,504 B V 3 62 186 82 V 29 62 1,798 H ° 12 360 ' 4,320 r ° 12 360 . ' 4,320 3 ° 5 46 230 T ° 1 60 60 .IF;YOU DO'NOTRHAVE ENOUGH SPACE:FOR ALL ;YOUR "FIXTURES, USE ADDITIONAL PAGES RIGHT ,' ,' fi :'• *v r.,. _. ��` , �.. ... �VNorksheet 5b-1 Total 50,822 Othe Pagea �, 1Norksheet No: ,;xµ ��;�' : ° Descri tior► o tional) =`'`-' ,�' ';'"�"`�� ;'s` " °� %��� Worksheet Totals Llst the adamonal ,., , _ � . ;.a,... „?�,;,, � „: ,�w . , ... ..p .�( "� -p..,. ,... �,,'� " . worksheets necessary F,,, - ' =to catalog all ' 5b :1 -, 50,822 luminaires in building ' { " 23,629 ' 5b -2,- -;� _ i: " ;: 5 b � 3 - ' . « ='r F'5ti -4 - :.. :,:7 :I , ice `' -. '„' x, ",�.,` -F',t '�; � 4 R'ii'. �'t'± "' „ !M„; "'r $4"'�'`n� :., ,,' : " %,• ?r', ..'r �;i% '' " ?:x ' r; c �� ;? ,, , , , " A S, , ,, ' ip %. 4 4 ;. r ' 4 , , '' `” ` Tot a l.I nterior L htin Po wer ( all worksheets) 74 451 - 1.rtf f, rse <<s',3�`7��`�� €;.jd.(`rtl.�:. g g f Worksheet N 5b-1 Worksheet 5b Project Name: C.F. v Tigard Elementary School Page: . INTERIOR UGHa ING POWER - Worksheet No 5b -2 (e) w 4 %� :, ',':,:Z :,,4,,,' 't"`> f i ;41' a:`: k.,I iiT q :' n ''',:'-',,:'''',-2,' - .. • Enter the Mf ' �=:. ,, � " �i�x � ; :�a•�t�� .�. ,, ; .<; a s a ,, � ., ': < J b ) . � ; c " ` f1 quantity for every 4 :4, l' :.. -rs a -TPI ;''. a °a " ;' :_ =3: x .• .;yep e . ° s . ; . �;.r °: -< k .., k �,, Ro - : ,. r' f < 'ar- ,,',.�:b-: "�; ,r, ',, .. _o..:�• - :.", , ,,Q non - exempt tit of Luminaire Lighting iUminaire. DO not sir,i _.y �� 4 �s .,u.r�e�> >.._a i,p .i% d�' �t�� . �Gy� ,��.,.Gp:,tn. � ° " ��,a•' „ p . Y , consider track tl N o. ; ` : ; , : „ ° Ro o m or Designation `,ai :Z • :', < Lur"tiinaire`ID , ', Luminaires' Power (Watts) Power (d) x (e) lighting on this worksheet. Track E2.1C =irst,Second Floor Lighting Plan- Sector 'C x ® 8 15 120.0 work lighting is E2.2A Second Floor Lighting Plan - Sector 'A' B V 1 62 62.0 accounted for on Form 5b Bl W 14 62 868.0 •* Additional c V 37 35 1295.0 pages maybe D V 196 94 18424.0 necessary if building has more F V 21 94 1974.0 rooms than there are lines in this J V' 8 46 368.0 form ., L V 4 62 248.0 ,_. " " x B 18 15 270.0 ■ 0 0.0 ' ,,... V 0 0.0 V 0 , -, 0.0 ■ 0 0.0 . V 0 0.0 .. , O 0 0.0 0 0.0 ® 0 0.0 V 0 0.0 V 0 0.0 0 0.0 ' 'r 0 0.0 0 0.0 yr 0 0.0 1r 0 0.0 ■ 0 0.0 0 0.0 . V 0 0.0 Nr 0 0.0 l 0 0.0 ° 0 0.0 ■ 0 0.0 ■ 0 0.0 V 0 0.0 1r 0 0.0 V 0 0.0 ® 0 0.0 '�,:a.� � , �;�� �, ��^ $ 4% :��;; '�� �� t �����,. ; , °� ����„4k� = Wo rk sheet 5b -2 Total 23,629 ":. Worksheet No 5b -2 Form 2a • Project Name: C p -(' Page: SUMMARY Project 1. Project Name TIt; b - DUPC.1 - IN Sc tibe�,.. D S1Rtcr C.F T!GA - RD CL4A -m3/./ ?hey .SC ot-. REPLAC 2. Project Address 12 85 0 S W CsQryt .fl A SV N (.1E. 3. City/Town ri6- r 9722-3 5. County WhStf -TUI 4. Building, Gross Area (ft2) 4,5 500 6. No. of Floors 2.. Chapter Type ID Description Attached Attached Building Envelope Form 3a Building Envelope - General Forms and 3b Prescriptive Path - Zone 1 Worksheets 3c Prescriptive Path - Zone 2 ❑ Check boxes to 3d Simplified Trade -off (use CodeComp software) ❑ m isa nd attached — forms Worksheet 3a Wall U- factors f� forms e worksheets 3b Roof U- factors 3c Floor U- factors [� Systems Form 4a Systems - General 4b Complex Systems Worksheet 4a Unitary Air Conditioners - Air Cooled 4b Unitary Air Conditioners - Water Cooled ❑ 4c Unitary Heat Pump - Air Cooled ❑ 4d Unitary Heat Pump - Water & Ground Cooled ❑ 4e Unitary AC - Evaporatively Cooled ❑ 4f Packaged Terminal Air Conditioner - Air Cooled ❑ 4g Packaged Terminal Heat Pump - Air Cooled ❑ 4h Water Chilling Packages - Water & Air Cooled 0 4i Boiler - Gas -fired & Oil -fired 4j Furnaces and Unit Heaters - Gas -fired & Oil -fired ❑ Lighting Form 5a Lighting - General ❑ 5b Interior Lighting Power - Occupancy Method ❑ 5c Interior Lighting Power - Space -by -Space Method ❑ Worksheet 5a Interior Lighting Power ❑ 5b Lighting Schedule ❑ 5c Interior Control Credits ❑ Applicant 7. Name Torl (,, 10. Telephone 5 22.G-2.9 Z.1 8. Company ¶'kF Ca ►.l Sv LT N 8 11. Date q (rt d o 3 9. Signature i 2 Attached No. of Pages Description of Document Documen- tation ( Lit (� T . Q cc •1Z. S lL , 4 (10/00) Forms 2 -1 • Form 3a Project Name: C F.T • - Page:2 BUILDING ENVELOPE Check all boxes 1. Exceptions (Section 1312) that apply ❑ No Envelope Components. The building plans do not call for new or altered building envelope components, e.g., walls, floors or roof /ceilings. O A Non - conditioned Building. The proposed structure has no spaces heated or cooled by an HVAC system. Exceptions 0 Exception. All new or altered building envelope components do not comply with the require- ments of Sec. 1312, but qualify for exception # ____. Portions of the building that qualify: Discussion of . The plans /specs qualifying ge 3- s how compliance with this requirement on the following pages: Lions on page 3 -g. P q 9 P 9 -- -- 2. Air Leakage (Section 1312.1.1) A Complies. Plans require that penetrations in the building envelope are sealed and that windows and doors are caulked, gasketed or weatherstripped. The plans/specs show compliance with this 3 �. requirement on the following pages :_ 072 JO 3. Suspended Ceiling (Section 1312.1.2.1) A Complies. The building plans do not call for a suspended ceiling separating conditioned spaces from unconditioned spaces. No exceptions are permitted. 4 Recessed Light Fixtures (Section 1312.1.2.2) A Complies. The building plans do not show recessed light fixtures installed in ceilings separating conditioned spaces from unconditioned spaces. Exceptions Exception. The building plans require that fixtures installed in direct contact with insulation be insulation coverage (IC) rated. The plans /specs show compliance with this exception on: Discussion of qualifying excep- tions on page 3-10. _ 5. Moisture Control (Section 1312.1.4) 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 with this requirement on: D 4 1�- Exceptions 0 Exception. All new or altered building envelope components do not comply with the vapor retarder requirements of the code, but qualify for an exception. Note applicable code exception. Discussion of qualifying excep Section 1312.1.4, Exception — __ . Portions of the building that qualify: tions on page 3 -11. • 6. Climate Zones Climate )1 Zone 1 - A building site is in Climate Zone 1 if its elevation is less than 3,000 feet above sea level Zones and it is in one of the following counties: Benton, Columbia, Clackamas, Clatsop, Coos, Curry, Zone 1 Buildings: Douglas, Jackson, Josephine, Lane, Lincoln, Linn, Marion, Multnomah, Polk, Tillamook, Yamhill, Complete Form 3b. or Washington. Zone 2 Buildings: l Zone 2 - Building sites not in Zone 1 are in Zone 2. Complete Form 3c. 6 • (10/00) ; 4 • Forms & Worksheets 3-1 w ' ^' G ( 'T, 3S3 ( - ( 4s300 IX100 =( 4 '0 r Yw"> " "d' Calculation Total Building Window Total Building Exterior Building Glazing , ` � , w Area (total rough frame ft Wall Area (gross ft Fraction r'` cr • Windows Thermal Performance' (U- Factor) Shading Coefficient (SC) 1Windows O, V-41 0 .1.2:::-'...'7":..,-, . Walls Wall / Insulation Type R -Value Insulation only [ U- Factor' r = , `` T1PE Q00 mASOAR - 1 Vt'-1.3 {Z., w( R--t9 or l'iPe Sa Me1i4L5tD10L wt R.t9 Or Cr f0 rf lqPE 4.03 -coroc 81-ocK. wl Rtq or D, / or !� Below- Below -Grade Walls R -Valor Insulation Only I U-Factor (Max. (M 0.11) r Grade I (Min. R-7.5) t Wal M o j . � Code f Max. I Wall Requirements I Window Requirements v Req'mnts. Glazing Wall l Insulation Type Min. R -Value Max. Sh 9,3 Insulation Fraction Max. U- Factor Max. U- Factor Coefficient Discussion of this section of Up to 15% CMU Masonry', w /integral loose fill" insulation NA 0.30 0.54 0.57 o Masonry or concrete', wlcont. exterior Insulation 1.4 or 0.30 M the form on i v pages 3 12 CMU Masonry', w/ integral rigid fill insulation NA 0.21 CD through 3 -14 Masonry or concrete', w/ interior insulation 11 or 0.13 H+ n C li Up to 30% Masonry or concrete w /cunt. exterior insulation 2.8 or 0.21 0.54 0.57 FA- I Frame' (wood or metal framing) 13 or 0.13 I I Other (provide short d'e tfon 13 0.13 I CMU Masonry', w/ rigid ill ° insulation NA 0.21 Masonry or concrete', w/ interior insulation 11 or 0.13 Up to 40% io p Masonr� or concrete c w /colt, exterior insulation 2.8 or 0.21 I 0.37 I 0.35 10 • (Frame (wood or metal framing) 13 or 0.13 I I (Other (provide short description) 13 I or 1 0.13 I I ' Enter 'overall' U- factor for window assembly or write -in DTS (deemed to satisfy). See 'Window Requirements' in table above for specific DTS requirements. 0_11.121 .1. For multiple types of a and U- factors, enter the highest U- factor of the p. Maximum window U -factor is for entire window assembly per ASHRAE pws ..� Y 1997 Fundamentals or NFRC Thermal Performance Rating Certification and Labeling Program. < r , 2 requirements_ - Fleet ) for or n D N t d to saUs{y� -yy Requir s in table above for specific S of � , "- � coefficient ($C) ShFGC per r NFRC) can be convei{ed to SC ion: SFI this equation: GC +0.87 = SC. For multiple types glass and shading coefficients, enter the highest shading coefficient of the group. x;" ` . 1. � + ' Submit Worksheet 3a for each calculated assembly U- factor. ra t i , '' ? s M inimum we The Simplified Trade -off Approach must be used if glazing fraction exceeds allowable percentages. l"1 v weight `��,,,�. ,�,., y, ° ig of masonry and concrete walls = 50 of wall face area. 5? All cores to be fined. At least 50 percent of cores must be filled with vermiculite or equivalent Insulation. Fa W P N E_ . G'1 7 frame. g S ri 'deemed to �ptisfy' (DTS) idac or description is double glazed, 0.5 -inch airspace. low - emissivity (e) coating no greater than 0.4 and aluminum ra g t ptwn is a tinted outboard pane of glass. CD C - f? 0 r".- 6 All cores except bond beams must contain rigid insulation inserts approved for use In reinforced masonry. O OCT 2001 ,n Batt insulation installed in metal or wood frame walls shall be Insulated to full depth of cavity, up to 6 Inches in depth. N Prescriptive - deemed to satisfy - (DTS) U- factor description Is double glazed. 0.5 -inch argon filled space, (owe coating no greater than 0.05 & thermal break frame. DTS shading coefficient descnption is 0.25 -inch thick glass. low-e coating on surface 2, no greater than 0.05 Stinted outboard pane. Worksheet 3a (cont.) Project Name: C F r • Page: 4 + +-mow SI _O � � � L ayer Des D et a il R- e Stud Wall •;21 Exterior : :�'R y<- S F "jIRA 1 Surface Moving Air x y;Y , See Table 3a kx R- •:•:: „1, ,, k h,, ' 0.17 ; values of framing/ : . 4 insulation. • 4 ■ A Alum n See Table 3b ix R- j7j - - - values of aluminum ' sni - Air Space siding. plywood • � wo • f _ sheathing and ta gypsum wallboard. I: 4 C Sheathing See Table 3d itx R- !: _ values of air • • • 0 insulation spaces. • • • 1 . � 1 E Wallboard •4 .v, • Interior ` , . .- t : 4 4 StDI Air s �. z; 0.68 , 4 4, 4 Surface *.l ,,, A 1. Total column (d) I � f2` O O 2. U- factor. Invert the amount in line 1 Generic t.= • (b) (c) (d) Wall = Layer Description Detail R -value See Tale 3a for R - a Surface Moving Air 1 #� a t 1 values of framing/ ` - .. insulation. .•' Mk6o'JLi �rr O (o O D See Table 3b for R- w A V - values of building ,• '•= f materials. • B / S P a i See Table 3d ibr R- values of exterior ;:'- C � u surfaces. ' M 1�2 v 45 and interior •” t . ILIi� E § O S IB I r 01 50 w Interior *; D 2 • Surface Still Air ru t � X,' /1 1 t rek s,'u art «ra 1. Total column (d) 1 ie 0 O 2. U- factor. Invert the amount in line 1 0.09 ,:1 (10/00) • ' Forms & Worksheets 3 - • , . . , , .. . , . Worksheet 3a (cont.) Project Name: CFI Page:5 ) . . . .. , •< .!..! , - 13 , • - Aluminum - • • 4 (b) (b) ------..,— (d) Siding on . • 4,4 . Layer Descripdon Detail R-value Stud all t,4 e Exterior k'''-.'•17.r..;X:';:,70 . )ti•I , 0 surface Moving Air I i ik7e3P,4, 1 11i,y,' 0.17 See Table & e 3a I R- . * • 4 values of framing/ • • 4 Alurninum insulation. A A Sidi • ' 4 See Table 3b kr R- 4 values of aluminum 4.4 I B Air Space siding, plywood • • sheathing and • • • • • 4 gypsum wallboard. :i .e'' C Sheathing See Table 3d ibr R • 4 . • • 4 Frarning/ values of air • • • al D • 4 Insulation - spaces. • • •••• • 4 • • •.4 • 1 4 • • • 4 • . •.4 — E 41 Interior Surface 1 Wallboard Still Air 0.68 :..!.. • P".:.,Q 1. Total column (d) F. 2. U4actor. Invert the amount in line 1 - ILI m 52- .. . Generic _ : ... . (b) (c) (d) 11 a .: ... . Wall 1.7.1..i Layer Description Detail R-value Exterior ..0v. Air ‘4 ,,,,,:, See Table 3a for R S - -'-' :• . urface Mov ing A I Y 6 (1 insulation. - ix A e..TAL- _. '1 See Table 3b for R- -s-- ,,: 43tDAP461 04, values of building 4LIPSoni II ii materials. c ..," B .-,:- • ' L 5AEXT4gli... See Table 3d AN R- .i .-: . a c R _ 1 9 6,11 -ii."0c. values of exterior , rh 10 and interior : ' -. ., Kg Fith surfaces. r . .. D :,-..?'!' gl( 6/15" 0, 5 0 E • S Interior Still Air ,.,, '^'P'-* EY (1 0 . u rfa ce 1. Total column (d) 1, 5 / _ 2. U-factor. Invert the amount in line 1 1 , 0 • . • • • (10'00) . . ' Forms & Worksheets 3-5 ,. -, -'• - ,i',,,, o •, , .. . • • -.,.. -;',., ' ,';'• ::5;.:..i.Oielt..1 ' . • • ' . Worksheet 3a (cont.) Project Name: C. e r Page:6 . . 4 , ...T...... ' ' i :: Ik S 1 _ , • t......... Aluminum .4. • 4 (b) (C) , • (il) Si. . on , • *,,4 • .. Layer Description Detan ---R-value Stud ' ' all . 4 •••• 6 ...sr,.:.. Exterior m ov i ng Ai . • .: • 4 Surface See Table .3a ky R- A values of 'taming/ * 1 umlnum •. --• A Siding insulation. ..4 * See Table 30 kor R . . • n 4 values of aluminum 4-4 B Air Space siding, plywood 4:4 • •,:4 sheathing and • gyp • C Sheathing ' sum wallboand. 4,4 • .: See Table 3d for R. • 4 Framing/ * values of air . • 41 0 • 4 • Insulation 1 spaces. • * • 4 - • .. , * ••" 4i E Wallboard • 4 • • 247.7 7 A - rt.A * 4 .4 Interior Still Air ... 0.68 . • • 4 Surface ... .,-.. .....1..0....-.1 a •... 4 1. Total column (d) 2. U-factor. Invert the amount in line 1 iqr6 + Generic (b) (e) (d) Wall - " ,•-. -, Layer Description Detail R-value ',.....', ::.. 'ti;VWt,,:f: See Table 3a ibr R - , Exterior ..• Surface Moving Air ,:ii. , Ti ,r) il - values of framing/ .--.- -%:.-- 1' . insulation. .. .4. CO WC, A 8" 1,5 See Table 3b for R- =. :.,.. • 61-0W- , . values of building , I 1/ It 2d 0,10 materials. .. .., B 4-flika' '-:-Z.,: , a ii _tci /. :/(p ex- 7 See Table 3d kir R- ■ , : i . - . . values of exterior • C and interior :. ,,,„ .‘, '• 0 ova. nu , surfaces. - 'sr', Ct :„ D PL114)600 :_...., E ,..--,,... Interior t a.. 4 ?"1 1 rl I- A Still Air ,, ii..44Ftz.N.-4,:lx. ti , w (.. Surface 1. Total column (d) /O 53 2. U-factor. Invert the amount In Ilne 1 0. 0 ? ' . ■ • 4 \ t (10/00) , 1 . Forms & Worksheets 3-5 , . Form 3b Project Name: C. F T Page: 7 PRESCRIPTIVE PATH — ZONE 1 Part 2 of 2 r t Roof /Ceilings R -Value 2 Roof /Ceiling Insulation Only (Max. 050) Discussion of this (Min. R -19) section of the form ht I %t - pax W l 3 II -xue5 El6111) l kKIlifrtJ or 0,U ¢. on page 3 - 1 Write -in a short description for assembly with the lowest insulation R -value or the highest assembly U- factor. 2 Submit Worksheet 3a for each calculated roof /ceiling assembly U- factor. Skylights s X 100 Includes glazed — , smoke vents. Total Skylight Area Total Conditioned Skylight _ (total rough frame ft Roof /Ceiling Area' (gross ft Percentage Discussion of this Thermal Performance s section of the form Skylight (U- Factor) Shading Coefficient (SC) on page 3 -14 Compliance Option Thermal Performance (U- Factor) Maximum Shading Coefficient (SC) : Performance U -123 for overall assembly in overhead plane SC -0.57 center -of -glass Deemed to Satisfy (DTS) Double glazed, 0.5 -inch airspace Tinted outboard pane - ' Total roof /ceiling area includes the portions that are over conditioned building space. :s .. . ::• s ;.. ' Skylight percentage area is based on total skylight and smoke vent rough frame area divided by total conditioned roof area 4.thai�itrtat Percentage must not exceed 6 percent of total roof/ceifng area cm oond�oned building space. The Simplified Trade-off E a ia X s Approach must be used if glazing fraction exceeds allowable percentages. C Enter °overall' l factor e for skyh t of ass the gro embly or up write-in DTS (deemed to satisfy). For multiple types of glass and U- factors enter t highest U OC T 2 0 01 9 En ter center eoet ldert (SC) for lass orwritein DTS (deemed to satisfy). Solar Heat Gan Coeffi lent ' (overall Window C) can be to SC to equation: SHGG�.87 =SC. For multiple types of glass and shading coefficients, enter the highest shading coefficient of the group. Floors Floors over Unconditioned Spaces Insulation a U-Factor ti,, Only :is:-.....'. k it Discussion of this I or I '..;{, section of the form on page 3-15 - -'a ue Heated Concrete Slab Edge9 Ins f F , } Component Compliance Options Min. R -value of Insulation On I Max. Component U- Factor Floor over Unconditioned Spaces 11 or 0.070 ' Heated Concrete Slab Edge 7.5 7 Write -in a short description for assembly with the lowest insulation R -value or the highest assembly U- factor. ° Submit Worksheet 3a for each calculated floor assembly U factor. 9 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. Doors to R - Value U Factor `p ; .:` ;; - Doors Insufation Only Center -of -panel c �J� '° ' " with leaf width greater than 4' Min. R -5 Discussion of this ( ) _ (Max. 0.20) fs section of the form or I f . on page 3 - 10 Write -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 & shading coefficient requirements. Doors with a leaf width Oft or less & overhead coil doors are exempt. ,.1 3-2b , , ' Forms & Worksheets 10/01 Worksheet 3b (Cont'd) Project Name: C F-T° Page:8 • R ,..vrr 0 .Q.,S Generic (a) (b) (c) (d) Roof 4 q , a y N m �i , 1 , r 7� , i q Layer Description Detail R -value See Table 3a for R- �� ;.c 'I" .r t � " .. x o . ..'. . ' :.. .. i , , , Exterior , ° 'W `3 values of metal and • Surface Moving Air 4 O � ) n wood stud/ t insulation and metal A I U (L -up O 3 2 truss/lnsulation. Q ODES ✓ 1 SeeTabie36kxR- g P( 61I 0 . 1t , values of building 1IInOtAr�� I' ? 21,45 materials. See Table 3d for R- C � q ( J I { 1 I ) 0 , (r) values or exterior and interior _ p surfaces 01 r (lam 1 t / , es and air Rb IP0r a /Q 0141 spaces' E C I c r,u ef ›t C8 0.[ S ri Interior Stil ^ v "'i / // , Surface Air •,?'s IJr \9 0 0 -- • ' i 1. Total column (d) -24,81 ty' 2. U- factor. Invert the amount in line 1 dt 04.-- ° ' ! i ,t.. (10/00) ' ; Forms & Worksheets . 3 -7 • • Form 4a Project Name: 11151) c r( -40 Page: . Exceptions 1. Exceptions (Section 1313) Discussion of ❑ No HVAC. The building plans do.not call for an HVAC system. Skip to Item 12 below. qualifying excep- ❑ Exception. The building or part of the building qualifies for an exception from HVAG code lions on page 4 -14 requirements. The applicable code exception is Section 1313, Exception ___ . Portions of the • building that qualify: ____________ _ See page 4 -14 Para 2. Simple or Complex Systems (Section 1313.2 or 1313.3) discussion of simple 0 Simple System. The planned HVAC system qualifies as a Simple System. If true, complete this vs. complex form (4a) and equipment efficiency worksheets as required. Form 4b is not required. systems. Complex System. The planned HVAC system is a Complex System. Complete this form (4a), Form 4b and equipment efficiency worksheets as required. • Exceptions 3. Economizer Cooling (Section 1313.1.2) Complex systems 0 No Cooling. The building plans do not call for a new fan system with mechanical cooling. may claim the same pit Complies. The new fan system has an air economizer capable of modulating outside -air and exceptions allowed return -air dampers to provide up to 85 percent of the design supply air as outdoor air. for simple systems, plus three excep- ❑ Exception — Simple Systems. The new fan system qualifies for an exception. The applicable Lions allowed in code exception is Section 1313.1.2, Exception___, or Section 1313.2.1. Portions of the Section 1313.1.2. building that qualify: See page 4-15 for a discussion of these ❑ Exception — Complex Systems. The new fan system qualifies for an exception. The applicable exceptions. code exception is Section 1313.1.2, Exception _, or 1313.3.1, Exception ____. Portions of the building that qualify: 4. Economizer Cooling — Overpressurizing (Section 1313.1.2) Cl No Economizer. The building plans do not call for a new fan system with an economizer. X Complies. The drawings specifically identify a p'ressure relief mechanism for each fan system .1, that will exhaust the extra air introduced by the economizer, and the economizer system is capable of providing partial cooling even when additional mechanical cooling is required to meet the remainder of the load. 5. System and Zone Controls (Sec. 1313.1.3.1 & 1313.1.3.2) Complies. All new HVAC systems include at least one temperature control device responding to temperatures within the zone. ❑ Exception. The new HVAC system qualifies for an exception from the zone control require - Exceptions ments. The applicable code exception is Section 1313.1.3.2, Exception 1 and 2. Portions of the Discussion of building that qualify: ______ qualifying excep- tions on page 4 -16. 6. Control Capabilities (Sec. 1313.1.3.2.1) Complies. Zone thermostats are capable of being set to the temperatures described in Sec. 1313.1.3.2.1. 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 1313.1.3.2.1, Exception___ . • (1 MO) s • Forms & Worksheets 4 - Form 4a (cont.) Project Name: f15D C. Tl }{rage: ( F � -) SYSTEMS - GE1' E Off -hour Controls — HVAC Systems (Section 1313.1.3.3) l. All new HVAC systems are capable of automatic setback or shutdown during periods of non -use or alternate use of the space served by the system. ❑ Exception. Equipment has full load heating demands of 2 kW (6,826 Btu/hr) or less and is controlled by a readily accessible manual off -hour control. 8 Off - hour Controls — Supply and Exhaust Systems (1313.1.3.3) Complies. Plans require that outdoor air supply and exhaust systems have a means of auto- matic (either motorized or gravity damper) volume shutoff or reduction during periods of non -use or alternate use of the space served by the system. ❑ Exception. The building qualifies for an exception to the requirement for automatic shutoff or reduction. The applicable code exception is Section 1313.1.3.3, Exception 9. Heat Pump Controls (Section 1313.1.3.4) No Heat Pump. The plans/specs do not call for a new heat pump. ❑ Complies. Al new heat pumps equipped with supplementary heaters are controlled as required in Section 1313.1.3.4.. 10. Equipment Performance (Section 1313.1.4) ❑ No New HVAC Equipment. The building plans do not call for new electrical HVAC equipment, combustion heating equipment or heat - operated cooling equipment. Complies. All new HVAC equipment has efficiencies not less than those required by the code. The following equipment efficiency worksheets are attached: __ _ 11. Duct Insulation (Section 1313.2.2 as 1313.3.2) Cl No Ducts. The building plans and specifications do not call for new HVAC ducts or plenums. ❑ Simple System: Complies. The plans and specifications call for a Simple System, and all exterior supply /return air - handling ducts and plenums and all outside air ducts are insulated as required by Section 1313.2.2. Complex System: Complies. The building plans /specs call for a Complex System, and all air - handling ducts and plenums are insulated as required by Sec. 1313.3.2. 12. Piping Insulation (Section 1314) Exceptions 0 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. Discussion of qualifying excep- Complies. All new piping serving a heating or cooling system or part of a circulating service (ions on page 4-18 water heating system complies with the requirements of the Code, Section 1314.1. ❑ Exception. New piping qualifies for the following exception: Section 1314, Exception . 13. Service Waterlieating (Section 1315) ❑ No New Water Heating. The building plans and specifications do not call for new water heaters, hot water storage tanks,.service hot water distribution systems, swimming pools or spas. Exceptions " Complies. All new water heaters, hot water storage tanks, service hot water distribution sys- Discussion of tems, swimming pools or spas comply with the requirements of the Code. qualifying excep- [] Exception. The applicable code exception is Section , Exception ___ . Portions of lions on page 4 -18 the building that qualify: „ 1 A 4.2 Forms & Worksheets (00100) • Form 4b Project Name: C F'r Page:( 1. Simple or Complex System (Sections 1313.2 & 1313.3) Note: This form is required for complex systems only. If your plans qualify as a simple system as defined by the code, you can skip this form. 2. Simultaneous Heating and Cooling (Section 1313.3.3.1) ❑ No Cooling. The building plans and specifications call for a heating -only system. Complies. Temperature and humidity controls are capable of operating in sequence the supply of cooling and heating energy to the zone as required b yte code. Controls for this purpose are Exceptions detailed in the plans and specifications on: —_— I Q ❑ Exception. The building or part of the building qualifies for an exception from the code. The Discussion of applicable code exception is Section 1313.3.3.1, Exception: _ . Portions of the building that qualifying excep- — qualify: lions on page 4 -20. -- - -- — 3. Humidity Controls (Section 1313.3.3.2) No Moisture Added to Building. The building plans do not call for a means to add moisture to maintain specific humidity levels. ❑ Complies. All new humidity control systems are equipped with a humidistat as required by code. 4. �lir Transport Energy (Section 1313.3.4.2 & Table 13 - L) Air Complies. The energy demand of all HVAC fan systems meets code requirements. Complete Transport the form below. Energy ❑ Exception. The applicable code exception is Section 1313.3.4.2, Exception:__ . Portions of the See Table 134, • Fan VAV or Max page 4 -24, for System Constant Design Motor Allowed Where noted in maximum horse- ID Description Volume Airflow cfm HP HP power allowed p ( ) plans /specs R1U -I RooFfoP Uurr VA v (2,too- 20 a5 rytO,a- �t� - Rot'top umf VAV 28. ®o 55 tD v\i to. ) RfU 3 RoofTop axf VAV 19 20 vvl n. Rt�•�- R ooFTop ttu+f t l f oo 2 0 2s _ ran n.'- . c sitnuubuvr Cy �ooc (S, l5 O,y building that qualify: 5. Motor Efficiency (Section 1313.3.5 & Table 13 - M) ❑ Not Regulated. There are no NEMA Design A & B squirrel cage, T -frame induction, permanently wired polyphase motors of one horsepower or more which serve built -up HVAC systems (regu- lated motors). Complies. The efficiency of all regulated motors meets code requirements. Exceptions ❑ Exception. The applicable code exception is Section 1313.3.4.2, Exception:_ . Portions of the Discussion of building that qualify: qualifying excep- lions on page 4 -22. 6. Variable Speed Drives (Section 1313.3.5.1) ❑ Not Regulated. The building plans and specifications do not call for fan and pump motors 25 horsepower and greater that serve variable -flow air or liquid systems. Complies. All fan and pump motors 25 hp and greater which serve variable -flow air or liquid systems are controlled by a variable -speed drive. 4 (10/00) Forms & Worksheets 4 - • , Worksheet 4a Project Name: TTj _ C.F. n it U TTAR' AIR CON ITT. - : Equipment Proposed Discussion of Cooling Proposed Seasonal or Part equipment ratings E q p Model Designation Capacity Steady State Load Efficiency Ref. and equipment (Btu/h) Efficiency (EER (SEER or IPLV) Line definitions on page 4 -19 RTu -t M C QvA-t R P564oc- 4a. 14)- to,a 13.16 3 f?Ttt -> ) c. WM t,P"O O(, I, DU ,4-z '1 4. II.5 5 RT113 mcGoi KPSoaSG 31 16 13, I( 3 R-1L-4' KcavA1 Re5025G 445 - 1714 10.7% 13.1• 3 FC eARRIER.42C1412 4l +3 t0 Z PAH PI lr5u (5141*w j31 1 o , 3 2 Required Indicate source of Information Documents- AR/ Unitary Directory, Section AC, page: Lion • AR! Applied Products Directory, Section ULE, page: Product data (Attach data furnished by the equipment supplier, i.e., 'cut sheets ") Highpoht or otherwise Indicate equipment selected on documentation provided Co Cooling Capacity (Btu/h) Minimum Rating FFequired Equipment Type 1 Ref. Efficiencies Equal to or But less than Steady State Seasonal or Une greater than Part Load This schedule of Single Package 0 65, 000 na 9.7 SEER equipment efficiencies without a 65,000 135,000 10.3 EER 10.6 IPLV was reformatted from heating section 135,000 240,000 9.7 EER 9.9 IPLV ( the code, Table 13 G or with electric 240,000 760, 000 9.5 EER 9. T IPLV resistance heat 760,000 - 9.2 EER 9.41PLV 0 65,000 na 10.0 SEER -Split System '' without a 65,000 135,000 10.3 EER 10 B IPLV heating section 135,000 240,000 9.7EER 9.9 IPLV (2) or with electric 240,000 766, 000 9.5 EER 9.7 IPLV resistance heat - - -' 9.2 EER 9.4 IPLV 760,000 0 - Single Package 0 65,000 na 9.7 SEER with a heating 65,000 135,000 10.1 EER 10.4 IPLV section other 135,000 240,000 9.5 EER 9.7 IPLV ( C)!? E c4 n N than electric 240, _ 000 ' 76 9.3 EER 9.5 IPLV , a resistance heat Its" 760,000 - 9.0 EER 9.2 IPLV 0 r,„�..,;� Split System 0 65,000 na 10.0 SEER :: ;" .with a heating resistance heat 65,000 135,000 10.1 EER 10.4 IPLV ii ; ' , : section other 135,000 240,000 9.5 EER 9.7 IPLV ( ,��,�1 I � Z 1 than electric 240,000 760,000 9.3 EER 9.51PLV "• • 760,000 - 9.0 EER 9.2 IPLV - .1 Y . FORMS �C onde n sing Unit 135,000 - 10.1 EER 11.2 IPLV ( OCT 2000 . 4 -4 Forms & Worksheets moo) . • Worksheet 4i Project Name: 'r s P Tlbpo rage: 13 BOILS — GA134 Equipment Heating Proposed Proposed Proposed Discussion or Equip. Model Designation Capacity Minimum Combust. Thermal Ref. equipment ratings ID (Btu/h) AFUE Efficiency Efficiency Line and equipment definitions on page Q q 4 -19 3,-I AE Kc -Joao cr2g 'I a 1 e -Y A-Mco Kc -1060 Rd 0, 0 61 t • . Required Indicate source of information Documenta GAMA Consumer Directory, page: to tion Q Product data (Attach data furnished by th6 equipment supplier, i.e., "cut sheets" Highlight or otherwise indicate equipment selected on documentation provided Code Heating Capacity Required M inimum Rating Efficiencies (Btu/h) g Ref Equipment Type Season. Line This schedule of Equal to, or But less Combust. Thermal equipment efficiencies greater than than Rating Efficiency Efficiency was reformatted from AFUE the code, Table 13-J 0 300,000 80% na na Gas Fired Hot Water 300,000 2,500,000 na na 75% (1) 2,500,000 - na 80% na Q.R - 0 300,000 75% na na iii. ^ = ' a`R'; 75% Gas Fired Steam 300,000 2,500,000 na na 75% (2) "l` , z� ri" 2,500,000 - na 80% na f � `" 0 300,000 80% na na � ' 'I ' Oil Fired 300,000 2,500,000 na na 78% (3) /� 2,500,000 - . na 83% na s- .. E1.LE.R_CZ:Y Oil Fired (Residual) 300,000 2,500,000 na na 78% (4) FORMS 2,500,000 - na 83% na OCT 2000 4 N r• \ 4 4 - , , • Forms & Worksheets (1woo) giEnceo MODEL KC -1000 GWB TECHNICAL DATA • . AERCO KC Gas Fired Hot Water Boiler System The AERCO KC Water Boiler is a true industry advance that meets the needs of today's energy and environmental concerns. Designed for application in any closed loop hydronic system, it • relates energy input directly to fluctuating system load, yielding seasonal efficiencies as high as 95%. Its efficiency actually increases as the load decreases due to its unique inverse efficiency curve. The boiler can be used singly or in modular arrangements for Inherent standby with minimum space requirements. Venting flexibility permits installation without normal restrictions. The advanced electronics of each boiler module offer selectable modes of operation. The options ` 4, available include: Constant Temperature Internal Setpoint Indoor /Outdoor Reset • 4 -20ma Linear Signal Response AERCO Boiler Management System Integration AERCO Combination Domestic Water /Boiler Plant Regardless of the mode of operation, the load tracking capability of every unit delivers the ultimate in energy control through energy input modulation with a 14:1 ratio while meeting all load demands. With condensing capability, the KC Boiler is ideally suited for modern low temperature as well as conventional heating systems. Because of the compact design with direct or con- ventional venting, the KC Boiler system is applicable to either new construction or retrofit application with the same excellent results. Efficiency, reliability, and longevity make the KC Boiler System a true step forward in heating system design. KC1000 FEATURES - • Natural Gas or Propane • Quiet Operation throughout Firing Range • 14:1 Turndown Ratio • Internal Low Water Cutoff and Dual Over • Direct Vent or Conventional Vent Capabilities Temperature Protection • ASME 150 PSIG Working Pressure Certified • • UL, ULC Listed, FM Approved, ASME Coded Compact Space Efficient Design • UL, ULC Listed for Alcove Installation on • Precise Temperature Control +/- 2F Combustible Flooring • Optional Sealed Combustion KC - 1000 Specifications BTU Input 1,000,000 BTU/Hrt Minimum Water Flow 25 GPM Net Output @ full Input 860,000 - 930,000 BTU/H' Maximum Water Flow 150 GPM ASME Working Pressure ,... 150 PSIG Water Pressure Drop 0.23 Ft. 100 GPM Electrical Requirement 120/1/60 20 Amp Water Volume 23 Gallons Gas Requirements 8.5" W.C. Minimum @Full Load 50F to 220F 14" W.C. Maximum Control Range Vent Size 6" Diameter Standard Listings & Approvals UL, ULC, FM, ASME Water Connections 4" Flanged 150 lb. ANSI Optional Approval IRI Gas Connection 1.1/4" NPT Weight, Installed 1350 lbs. 'Output is dependent upon return water temp. and firing rate— tUp to 2000' Altitude. see efficiency curves on reverse. • (0 1 U DC ) • Dimensions KC -1000 Boiler • • ALL DIKNSIG•S AnD SIZES OWNENS13I$ARE SUBJECT TO CMAvGE • S•CVN ARE M VK. {S. METIER CRAVINGS ARE AVAILADLC CV REDUCS' • 9' —e -3 /4 Overall Length F vALVE 1 -- i� T „ I ' - 1304 FLG'0 • i ~ VATFR CUTLET ( 1 i /-VATER IKETG 0 / 10 014 to E ID MEN 0111 �' �. caN CT lt71 (''' Ac SERVICE I TI :/e i• / V-9. \ C7ANECTIaN OVERALL NE1317 6R -t/ 4 / / Depth e• 6R -3/1 0 tl 23 I. IIIIII i II I ... PIM t6-1 /2 1 23 . i • I1 - - 2A 22 -1 /e J AIR P4LET t IUlnimum I.1 /1 MT r +--^ 35 GAS INLET ENSCIR S • TST7E AIR ` t' GRAM VMVE Typical Modular Boiler Dimensions (KC- 1000 -3) C@rt Ratings and Dimensions Modules Model Mbh Input MBH Output Length Depth Height Weight 1 (a) (b) (b) (c) J One (1) KC -1000 1000mbh 860mbh- 930mbh 1'10" 4'9" 6'8" 1200lbs. Two (2) KC- 1000 -2 2000mbh 1720mbh- 1860mbh 5'10" 4'9" 6'8" 2400Ibs. Three (3) KC- 1000 -3 3000mbh 2580mbh- 2790mbh 9'8" 4'9" 6'8" 3600Ibs. Four (4) KC- 1000 -4 4000mbh 3440mbh- 3720mbh 13'6" 4'9" 6'8" 4800Ibs. Five (5) KC-1000-5 5000mbh 4300mbh- 4650mbh 17'4" 4'9" 6'8" 6000Ibs. Six (6) KC- 1000 -6 6000mbh 5160mbh- 5580mbh 21'2" 4'9" 6'8" 7200Ibs. even (7) KC- 1000 -7 7000mbh 6020mbh- 6510mbh 25' 4'9" 6'8" 84001bs. 1 -~ I Eight (8) KC- 1000 -8 8000mbh 6880mbh- 7440mbh 28'10" 4'9" 6'8" I 9600Ibs. 1 1 (a) Style to be Determined by Individual Application Requirement (b) Altitude below 2,000'. Apply Altitude Correction Factor above 2,000' (c) Output dependent upon application -see efficiency curves. • Efficiency Curves Programmable Modes of Operation 102 — - ---- -- Constant Temp Setpoint Indoor /Outdoor Reset 100 I 220F 220F / 98 • Seice,"t N ot er y / // 981 Temp / p9,1 / , E 92 90 �.. 5 0F 70F / 0 Load 9. 100 70F Outdoor OF 88 Temperature 88 - 4 -20ma R emote Signal 84 9 Boiler Management System 82 220F 80 I 1 -- BMS . 50 70 90 110'4 130 150 170 1$$ RETURN WATER TEMPERATURE a s PERCENT FIRE II I.- -- e--0 50F �� '� 1 100X FIRE 75% FIRE AVG 25 11 50% 4 4 -20ma Signal 20 i0 1 , ' Represented by: HEAT EXCHANGES • WATER HEATERS • BOILERS ;` - CONTROL VALVES • STEAM GENERATORS . • . . RE • A • HOT WATER SYSTEMS aFB-1 BBC 5/99 3M AERCO INTERNATIONAL INC. • 159 PARIS AVE., P.O. BOX 128 NORTHVALE, N.J. 07847 -0128 • (201) 788.2400 • FAX 201.7884789 . • * _ Data* Fax . • • • To: -' ' Kurt SchUlheist From: Philip Adam (;..- , , .: . Oregon Air Reps Applied.Prodicts Group '-, ):.' • ... "63 . • Return Phone No.: ein-553-5427 . Fax No.: Return Fax No.: -. 642-663.1 667 C.ETi GARD . • . - . EER3 of--,DOC Ltivve&rkizi Page 1 at 1 . Data: . 03/08/00 . • • • Subject Latest and Greatest EER and IPLV Ratings of RPS Units. , . • . • Unit Model # EER Redp IPLV Redp • EER Scroll IPLV Scroll ' . RPS-018C 10.7 . 12.80 11.31 • RPS-020C 9.6 12.41 10.50 • 12.42 grU , RPS-025C 9.7 12.40 10.48 • RPS-030C - 9.2 . 11.57 . 1.11 • RPS-036C 9.0 11.72 O. ; etati■ RPS-040C 8.9 11.42 10.20 401130 "kti" 1 " RPS-045C 10.0 • 1 . 5 . . • . RPS-050C 10.1 . • 12.63 9.93 12.63 RPS-000C • 9.6 11.93 9.60 - . 12.15 • . . RPS-070C 9.9 11.76 • RPS-075C 8.9 • • RPS-080C 10 107 OW IZTO - 2 -- . • RPS-105C i • .8 RPS-115C 9.6 - 12.43 RPS-125C .9.5 RPS-135C 9.2 11.85 • ' • ROT-045C 10.1 RDT-050C 9.9 RDT-060C 9.6 11.74 . ROT-070C 9.8 ROT-075C • 8.9 . , RDT-080C• 10.3 . • RDT-090C 9.4 11.67 - .. RDT-105C . , 9.7 RDT-115C 9.5 12.09 ., - - • . . RDT-125C 9.3 . 11.83 .ROT-135C 9.1 , . • . • ......... • • .. . • _ . - • -.-, . . - . . - • , . . • ,, • t World Headciiarters 13800 Inductrial Park Boulevard • ,4N . Mlmeapols, MN 55441 612-5534330 • 4 ' • • . ' •.' . J-Itip /31g,5iL • • •----.• , --, • • 7 0 • ,.. ., , -. ',._ - ,- ssz... .__:, ...,. NcQUAY PACKAGED ROOFTOP UNIT bate saved : 9112/2003 10:30 AM JOB NAME CAH241(RT000) REP. OFFICE Oregon Air Reps - JOB DESCRIPTION Metzger Elem School SALESPERSON HJB - .\ MODEL NUMBER RPSO40C CUSTOMER t ; UNIT TAGGING RTU -1. ROOFTOP VERSION 4.22 1682 'D 2. GENERAL DATA ELECTRICAL DATA 1 lifo Unit dimensions (HxWxL ins) 55.5 x 94.0 x 396.0 Unit voltage' (V /Hz/P) 460/60/3 '� Unit weight (Ibs) 10516 MCA (amps) 112.2 Return / Discharge location Bottom / Bottom MROPD (amps) 125.0 Approval Rsting ETUMEA - UL Temperature controls None COMPRESSOR DATA ENERGY RECOVERY COOLING HEATING Type I Quantity -Size Scroll / 4 - 10 Wheel/Mixed LAT (db /wb) Capacity control 4 Steps Wheel pressure drop (in WC) Compressor kW (Total) 40.4 Total Effectiveness Condenser kW (Total) 4.3 Sensible Effectiveness COOLING PERFORMANCE DRAW -THRU BLOW -THRU Rows / FPI 3 / 10 Total capacity (Btu/hr) 465402 Sensible capacity ( Btu/hr) 404076 Ambient (F) - 95.0 / 75.0 Entering db I wb (F) 84.2 / 85.5 Leaving db / wb (F) 54.4 / 52.9 Face area (ft2) 27.0 ' Face velocity (ft/min) 458 Air pressure drop (in WC) 0.34 Refrigerant type R22 FAR PERFORMANCE SUPPLY RETURN ! EXHAUST ' Air volume (dm) 12400 10500 Total staec (In WC) 4.47 1.50 Fan diameter/ type 24"/ AF DWDI 30" / AF SWSI Fan speed (rpm) 1543 996 Fan brake horsepower (HP) 11.5 5.1 Motor size (HP) 15.0 7.5 HEATING PERFORMANCE Type of heal Natural gas Capacity @tuft) 800000 EDB / LDB (F) 0 0 / 59.2 Air pressure drop (in WC) 0.18 EWT /LWT(F) -/- Water flow rate (gpm) Water pressure drop (in Ft) - Steam pressure (psi) - Condensate (Ibs/hr) - Electric heat kW - AIR BLENDER None • FILTER DATA DRAW -THRU FINAL Filter efficiency I type 85% / Cartridge Face area (ft2) 24 Face velocity (ft/mki) 517 Air pressure drop (In WC) 0.81 UNIT SOUND 83 Hz 125 Hz 250 Hz 500 Hz 1000 Hz 2000 Hz 4000 Hz 8000 Hz Radiated 98 95 94 93 91 85 78 - Unit discharge 85 81 78 73 70 64 56 48 Unit return 88 86 J 83 80 77 71 62 55 SHIPPING SECTION DETAILS LENGTH WEIGHT Section 1 396.0 10516 , Notes As a standalone component, unit meets or exceeds requirements of ASHRAE 90.1 - 1999. The approving authority is responsible for compliance of multi- component building systems. 4 McfaMa .. MCQUAY PACKAGED ROOFTOP UNIT Date saved : 9/12/2003 10:30 AM JOB NAME CAH241(RT002) REP. OFFICE Oregon Air Reps JOB DESCRIPTION Metzger Elam School SALESPERSON HJB • l MODEL NUMBER . RPS090C CUSTOMER - . r a 4 • ' UNIT TAGGING R T ROOFTOP VERSION 4.22 1 , JI+ GENERAL DATA ELECTRICAL DATA 1 Lv 1' s Unit dimensions (HxWxL ins) 97.0 x 99.0 x 551.0 Unit voltage (V /Hz1P) 460/60/3 Unit weight (tbs) 18548 MCA (amps) 247.1 Return I Discharge location Bottom I Bottom MROPD (amps) 250.0 Approval listing ETLIMEA - UL Temperature controls None COMPRESSOR DATA ENERGY RECOVERY COOLING HEATING Type / Quantity-Size Reciprocating Semi - Hermetic / 2 Wheel/Mixed LAT (db/wb) -40 . Capacity control 8 Steps Wheel pressure drop (in WC) Compressor kW (Total) 92.1 Total Effectiveness Condenser kW (Total) 8.6 Sensible Effectiveness COOLING PERFORMANCE DRAW -THRU BLOW -THRU Rows /FPI 5 /10 Total capacity (Btufir) 1028710 Sensible capacity (BtuThr) — 956858 Ambient (F) 95.0 / 75.0 Entering db / wb (F) 84.0 / 65.5 Leaving db / wb (F) 54.3 / 53.9 Face area (ft2) 60.8 Face velocity (ft/min) 485 Air pressure drop (in WC) 0.60 Refrigerant type R22 • FAN PERFORMANCE SUPPLY RETURN ! EXHAUST . Air volume (dm) 29500 26300 Total static (In WC) 5.08 1.50 Fan diameter/ type 40" I AF DWDI 44" / AF SWSI Fan speed (rpm) 978 714 Fan brake horsepower (HP) 33.6 11.8 Motor size (HP) 40.0 15 0 HEATING PERFORMANCE Type of heat Natural gas • Capacity (B r) 1500000 EDB / LDB (F) 55.0 / 101.6 Air pressure drop (in WC) 0.42 EWT /LWT(F) -/- Water flow rate (gpm) - Water pressure drop (in Ft) - Steam pressure (psi) - Condensate (Ibs/hr) - • Electric heat kW - AIR BLENDER None FILTER DATA DRAW -THRU FINAL Filter efficiency / type 65% / Cartridge Face area (R2) 84 Face velocity (f /min) 481 Air pressure drop (in WC) 0.88 UNIT SOUND 63 Hz 125 Hz 250 Hz 500 Hz 1000 Hz 2000 Hz 4000 Hz 8000 Hz Radiated 103 100 99 97 97 89 . 89 89 ' Unit discharge 87 83 75 73 70 64 56 48 Unit return 90 88 83 81 79 73 65 58 SHIPPING SECTION DETAILS LENGTH WEIGHT Section 1 551.0 18548 Notes As a standalone component, unit meets or exceeds requirements of ASHRAE 90.1 • 1999. The approving authority Is responsible for compliance of multi - component building systems. • t ' N , ,`�o • JNcQUAY PACKAGED ROOFTOP UNIT Data saved: 9/12/2003 10:30AM JOB NAME CAH241(RT005) REP. OFFICE Oregon Air Reps - JOB DESCRIPTION Metzger Elem School SALESPERSON HJB MODEL NUMBER RPS036C CUSTOMER ' UNIT TAGGING RTU-3 ROOFTOP VERSION 4.22 L. R. 10.78 GENERAL DATA ELECTRICAL DATA ,V I l Co Unit dimensions (HxWxL ins) 55.5 x 94.0 x 396.0 Unit voltage (V /Hz/P) 460/60/3 Unit weight (Ibe) 9874 MCA (amps) (amps) 89.2 Return / Discharge location Bottom / Bottom MROPD (amps) 90,0 Approval listing ETUMEA - UL Temperature controls None COMPRESSOR DATA ENERGY RECOVERY COOLING HEATING Type / Qumntity -Site ScroN / 2 - 6.7, 2 -10 WheeUMixed LAT (db/wb) Capacity control 4 Steps Wheel pressure drop (in WC) Compressor kW (Total) 31.8 Total Effectiveness Condenser kW (Total) 4.3 Sensible Effectiveness COOUNG PERFORMANCE DRAW -THRU BLOW -THRU Rows /FPI • Total capacity (Btu/hr) 3 / 8 Ambient (appacity (Btu/hr) — 321558 558 321 95.0 / 75.0 Entering db / wb (F) 80.9 / 84.5 Leaving db / wb (F) 54.2 / 52.4 Face area (R2) , 27.0 Face velocity (ft/min) 07 Air e 2 drop . Refrigerard t. R22 R2 4 22 FAN PERFORMANCE SUPPLY RETURN / EXHAUST Total static ( (In ) C 11000 9600 ) 3.87 1.25 Fan diameter / type 24' / AF DWDI 30" / AF SWSI Fan speed pm) 1390 910 Fart brake horsepower (HP) 8.4 3.9 Motor size (NP) 10.0 5.0 HEATING PERFORMANCE Type of heat Natural gas Capacity (tutr) 250000 EDB / LDB (F) 55.0 / 75 9 Air pressure drop (m WC) 0.15 EWT / LWT (F) - / - Water flow rate (gpm) . Water erasure drop (in Ft) - Steam preserve (psi) - Condensate (lbe/hr) - Electric heat kW - AIR BLENDER None FILTER DATA DRAW -THRU FINAL Filter efficiency / type 85% / Cartridge Face area (ft2) 24 Face velocity (f /min) 458 Air pressure drop (in WC) 0.67 UNIT SOUND 83 Hz 125 Hz 250 Hz 500 Hz 1000 Hz 2000 Hz 4000 Hz 8000 Hz Radiated 98 95 94 93 91 85 78 Unit discharge 83 79 76 71 68 82 54 46 Unit return 86 84 81 78 75 69 60 53 SHIPPING SECTION DETAILS LENGTH WEIGHT Section 1 396.0 • 9874 Notes . As a standalone component, unit meets or exceeds requirements of ASHRAE 90.1 • 1999. The approving authority Is responsible for compliance of multi- component building systems. n N 4 • • • • . IVY ' • McQUAY PACKAG D ROOFTOP UNIT Date saved : 9/12/2003 10:30 AM JOB NAME CAH241(RT003) REP. OFFICE Oregon Air Reps JOB DESCRIPTION Metzger Elem School - SALESPERSON HJB i MODEL NUMBER RPS098C CUSTOMER _. ��� 1038 UNIT TAGGING RTU-4 ROOFTOP VERSION 4.22 . GENERAL DATA ELECTRICAL DATA =Iv 13, 14. Unit dimensions (HxWxL Ins) 55.5 x 94.0 x424.0 Unit voltage (V /Hz/P) 460/60/3 Unit weight (Ibs) 10451 MCA (amps) 06.4 Return / Discharge location Bottom / Bottom MROPD (amps) 100.0 Approval listing ETL/MEA - UL Temperature controls None COMPRESSOR DATA ENERGY RECOVERY COOLING HEATING Type / Quantity -Size Scroll / 2.6.7, 2 - 10 Wheel/Mixed LAT (db/wb) Capacity control 4 Steps Wheel pressure drop (In WC) Compressor kW (Total) 32.5 Total Effectiveness Condenser kW (Total) 4.3 Sensible Effectiveness COOUNG PERFORMANCE . DRAW -THRU BLOW -THRU Rows / FPI 4 / 10 Total capacity (Btu/hr) 426243 Sensible capacity (Btu/hr) 383083 Ambient (F) — 95.0/ 75.0 Entering db / wb (F) 80.0164.1 Leaving db / wb (F) 54.2 / 53.5 Face area (ft2) 27.0 Face velocity (ft/min) 503 Air pressure drop (in WC) 0.52 Ref tgerant type R22 FAN PERFORMANCE SUPPLY RETURN / EXHAUST Air volume (c*n) 13800 10250 Total static (In WC) 4.21 1.25 Fan diameter/ type 24' / AF DWDI 40" / AF SWSI Fan speed (rpm) 1561 517 Fan brake horsepower (HP) 12.0 2.6 Motor sae (HP) 15.0 5.0 HEATING PERFORMANCE Type of heat Natural gas Capacity (Btumr) 500000 , • EDB /LDB(F) 0.0/33.7 Air pressure drop (in WC) 0.09 EWT /LWT(F) -/- Water Plow rate (gpm) - Water pressure drop (in Ft) - Steam pressure (psi) - Condensate (Ibs/hr) - Eiectric heat kW - AIR BLENDER None FILTER DATA DRAW -THRU FINAL Fitter efficiency / type 85 %! Cartridge Face area (ft2) 24 Face velocity (it/min) 587 Air pressure drop (in WC) 0.94 • UNIT SOUND 83 Hz 125 Hz 250 Hz 500 Hz 1000 Hz 2000 Hz 4000 Hz 8000 Hz Radiated - 98 95 94 93 91 85 78 Unit discharge 85 81 78 73 70 64 56 48 Unit return 87 83 82 77 73 85 55 46 - SHIPPING SECTION DETAILS LENGTH WEIGHT Section 1 424.0 10451 Notes As a standalone component, unit meets or exceeds requirements of ASHRAE 90.1 -1999. The approving authority Is responsible for compliance of multi- component building systems. ri h 4 . ... ...._ ... . . .._... _ .. . . , . • • 4 •-°.:.=.*`-. ... 1 ,.. pci s.:.,,I.....,...,....,,... ..:,..k....c.:;,....t.,..... . pu , SERIES tt,t;t k i - ':.i..;'.' \ • • . . Sii ' fer Air . , , , " . 1 . i' 1 1 1 , 1 1 I , 1 i I 1 I I i L ; ' i 1 ! 1.1 I 1 II i ..: :' ..,., , ilit'.X.r:N.ti••,-,::'_, • ... .•' - - ,--- •• , - - . ....,. = . ..t4,.•'A ...,,,..._‘• E ; I I . .1 I . . . 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PCH42EX - 7/6 • For more details rater to Technical 8 Service Manual. • • 'Al /.N ,•.: V Ei► LISTED »' * All specifications are subject to change without no6Ce. Mitsubishi Electric Corporation Mitsubishi Electronics America, Inc. 'gad Office: '. 5665 Plaza Drive dsubishl Denki Bldg., " ~ P.O. Box 6007 Cypress, Marunouchi, Tokyo 100 CA 90630 -0007 Telex: J24532 Tel (714) 220 4640 TECHNICALLY, ANYTHING IS POSSIBLE Cable: MELCO TOKYO • Fax: (714) 229.3821 R- C3835 -A SI - 9102 Printed in the U S A. MITSUBISHI El F !_.TN!' - •omoination ratings continued . I FACTORY- SEER • • SUPPLIED Carrier Gas UNIT INDOOR TOT. CAP. ENHANCE- Standard Furnace or Accessory SIZE- SERIES MODEL BTUH MENT Rating TDRt TXV$ EERA i CK5A/CK58NO36 31,400 NONE 10.00 10.20 10.20 9.30 '., CK5A/'CK5BN042 33,800 NONE 10.00 10.20 10.20 9.20 CKSA/CK5BT038 33,800 NONE 10.00 10.20 , 10.20 9 - CK5A/CK5BT042 33,800 NONE 10.00 10.20 10.20 9 CK5A/CK5BW036 33,800 NONE 10.00 10:20 10.20 9.20 F� A,B)4AN(F,B C)0�442 33,800 TDR 10.00 - 10.00 9.15 A,66)4AN(F,C) 33,000 TDR 10.00 - 10.00 8.90 FC4BN(F,B)042 33,800 TDR & TXV 10.00 - - 9.15 FC48N8054 34,800 TDR & TXV 10.50 - - 9.70 FC4BNF036 33,000 TDR & TXV 10.00 8.90 - -- -. FG3AAA036 32,800 NONE - 10.00 10.00 9.05 40FKA/FK4CNB006 35,200 TDR & TXV 11.00 - - 10.55 40FKA/FK4CNF001 33,000 TOR & TXV 10.00 - 9.60 '4OFJWFK4CNFOO2 33, • • • TDR & TXV 10,00 9.60 40FKNFK4CNF003 33,: • • TDR & TXV • 10:50 - - 10.05 40FKA/FK4CNFOO5 354! • TXV • 11.00 ' • :' !� : 477 • .'rrx .�a -may. + CTv T * t r 717. I tt ' a. 1035 - .ie.....,. , E�2 , ...:; 1 bi �°`'..eC a't3"t- ' - ti ..:,. ' ,.......•. i :.. � .::. � P `rt',�. �Ss srs ;�'�+�+�5t . .�....�a...,:_� F��"6�i..'�f�.t..�3.�.aFy:.. 1'4;4 r o-+ CCSMCD5AAO42 • .. 33,400 •-• - TOR - - - 14 ,. - - ,, - 10.80 • : 9.75 CD5AW036 33,400 TDR 1050 - 10.50 ' 9.70 CK5A/CK58A042 33,400 TDR 10.80. , ' - 10.80 9.80 CK5A/CK5BT042 33.400 TDR • t0,80 - 10.80 980 s . ] ,,.... ' : ' +gt �j '�!' itu•r�i` cy> 1 -,•^7., .1 . f - • , T r ^a'w :va s • n ._ a ml.�.,_•n ,+r... .. -.M �.�'c....a . ' . ` w1, . : i . - �s. CC5A/CD5AA038 33400 TDR 1 11150 - . ' 10.50 • 9.70 CK38A036 33,400 TDf# 10.50' = 10.50 9.70 CK38A042 33,400 TDR 10 :110 - - 10.80 9.75 C=43366 33,400 TDR •'10.50 _ 10.50 9.70 33,400 TDR • • 10.50 • 10.50 • 9.70 33,40Q TDR • 1 ' - • 10.50 9.75 'CCSAICp •� v • " � ._. J. �. t ..e- _t `c•:�.luY._� .. ,sj . • 3400 TOR • .. 10.80 , 9.80 • f CSMCOSAW042 33%400 • TDR 10.84 - 10.80 . • 9.75 • ' CO54110/036 33;400 TDR 10:50 - 10 50 . 9.75 • CK38A042 33 TDR 411 10.80 9.85 CK5MCK58A042 • .33400 - TDR r. 10.80 - --- 10.80 , 9.85 • - CKSAK 33.400 TDR - 10.80 - , - 10.80 , 9.85 CK5NCK5BW036 33,400 TDR 10.50 - 10.50 • 9.80 . ., t.e "' Vi 's. " 't^r` . : � a._..r .' � `��(s!'e�',' ;.�. �. s vr^ 7 � - .: �y.�r:�,. 74 •c may{ .yYl1r!}.ta -.J .!!. � 1._t:�rt�L•f� � _. �::-L3- +,�''�',. =T]'; CC5A/CD5AA042 33,400 TDR 10.80 - 10.80 9.75 036 -54, 61 CC5NCD5AW042 33,400 TDR 10.80 - 10 80 9.70 CD5AW036 33,400 TDR 10.50 - 10.50 9.65 CK38A042 33,400 TDR 10.80 - 10.80 9.75 CK5A/CK5BA042 33,400 TDR f0,80 - 10.80 9.75 CK5A/CK58T042 33,400 TDR 1Q.80 - 10.80 9.75 CK` /CK58W036 33;400 TDR 10.40 = 10.40 9.70 IST7 '.` 1. , , - . . 7 . IL-- .) ' r Y r Tf Q: ,!: " .. . �:: ; -; R ,- Y ^ : . ' v . ' . : ,, 4."46 : 1 _, a • CC5NCD5AA042 '33, •• • - TDR • ' .1010 -. • - • 10.80 9.95 CC55A/CD5AW042 33,400 TDR 10.80 - - 10.80 9.90 CD5AW036 33,400 TDR - 10.50 - 10.50 9.90 CKSNGK58A042 33.400. TDR • - .10.80 - ' 10.80 . .10.00. . CKM/CK5BT042 33,400 TDR 10.80 - ' 1080 10.00 _ CKSAPC I. • -- 33 , • , TDR x lQ 10.40 �. j i 9.95 fa.•v; :. -•. ., .t.: i,E=ZE1✓, S • n.,i _ ^, .. i. .1.•.e7..: ' 1.LLT,,.-2....tke�; .�7 ' -wr C ah�, CC5NCD5AA042 33,400 - TDR 10.80' . - " ' • . 10.80 9.90 CD5AW036 33,400 , - TOR ' 10.50 - 10.50 9,85 , 'CK5A/CKSBA042 33,400 TOR 10.80 - 10.80 • 9.95 'CK5A/CK58T042 33.400 TDR 10:30. - 10.80 9.95 • • • W038 33 400 TDR 1050 . • - 10 50 • 9.90 .X r t `3t , ' "e r 1 a _ '' 9 T-, ?' r t,.., :17. . „ t. - Pa ;_ ' • JJHC ? , .. _,. .. = T.'�.erlwaYY�t: J A,�:^Y..� r yy' 1 I �.ry /..�� .� �';�� Ch Y l. aa .:.�i.�.: a,ivXlalai�`*f+ "31LQ�t '•3"� 3Y:� Q1L�w.�✓ CCSAICD5AA038 33,400 TDR - 10.50 . - • - • 10 50 .9.65 CK38A036 - • 33,400 TDR 10.50 - - • - 10.50 9 85 • - CK5NCK5BA038 • 10.50 • 9,55 33,400 TDR 1,0,50 - 10.50 9.65 T 3t 4 • we 10 • -- • - - - C • � 1 � •4, 033 3.3 ' ° ' TOW 50 10,50 . 9.65 77.:-'11:1 i .�tt^ryT{ ,fi� = e ,. • { t � + i ., r� I„rr yS ' „�'Q'z ./��,yyy + ys_.sry,y� ., L . ..{_. .�i�,tk./ . • -.. t�...a..,u K.. �:.,wL C4b1 •C+ _.. Lw.i.t�•bY.�t�h� �eL,./� •q:'Kry.T7d.6 .LII :.,i'1ii71 ' 4^ , 54 2 - -33,400 TDR 1+ :80. - = 10.80 . . 9.85 - CC5NCD5AW042 33,400 TDR 10,80.: - • 10.80 : 9.80 },' COSAWO36 33,400 • TOR 14.50 - 10.50 9.80 CK3BA042 33,400 TDR 10.80 _ - - • - 10.80 ' 9.65 'S'- CK5A/CKSBA042 33,400 TDR 10.80 - - 10.80 ' 9.85 , . 'CK5A/CK58T042 ' 33,400 - TDR • -10.60. .. - 10.80 - 9.85 CK5NCK58W036 ' 33,400r!�ysy�t yam��y.:� - TOR ,50 1050 10.50 9 80 �,M;fii iS . ` 6,{ tY..;. W, r • •! t .r.:...a� Ii1. +rya �xlS�a'eiMrtc'•'.4 'J.:. CC5A/CD5AA042 33,400 TDR 10.80 • - ' - - 10.80 10.05 CO5AW036 33,400 TDR 10.50 • - • 10.50 10.00 CK5A/CK5BA042 33,400 TOR 10 80 - • . 10.80 - ' 10.10 CK5A/CK58T042 33,400 TDR 10.80 - 10.80 10.10 CK5NCK5BW038 33,400 TOR _ 10.50 - • 10.50 10.05 Joe notes on pg. 18. - • • 12 92 •