The URL can be used to link to this page

0201-195 (RC) Title 24TITLE 24 REPORT Title 24 Report for:. ' LG'S PRIME STEAKHOUSE 78-525 HWY 111 SUITE 100 LA QUI NTA, CA 92253 Project Designer: Report Prepared By: BOB S I POVAC Sipovac Construction 72651 Theodora Lane Palm Desert, CA 92260 • (760) 779-0790 CITY OF LA QUINTA BUILDING & SAFETY DEPT. APPROVED FOR CONSTRUCTION DATE J14142- BY Job Number: 01-2002 Date: 2/8/2002 The EnergyPro computer program has been used to perform the calculations summarized in this compliance report. This program has approval and is authorized by the California Energy Commission for use with both the Residential and. Nonresidential 2001 Building Energy Efficiency Standards. This program developed by Gabel Dodd/EnergySoft, LLC (415) 883-5900. EnergyPro 3.1 By EnergySoft Job Number. 01-2002 . User Number. 5289 I TABLE OF CONTENTS I Cover Page Table of Contents Form LTG -1 Certificate of Compliance Form LTG -2 Lighting Compliance Summary Form LTG -MM Lighting Mandatory Measures Form MECH-1 Certificate of Compliance Form MECH-2 Mechanical Equipment Summary Form MECH-3 Mechanical Ventilation Form MECH-4 Mechanical Sizing and Fan Power Form MECH-MM Mechanical Mandatory Measures HVAC System Heating and Cooling Loads Summary Room Load Summary Room Heating Peak Loads Room Cooling Peak Loads Room Cooling Coil Loads 1 2 3 8 10 11 16 18 19 29 31 41 51 61 71 ErkeravPro 3.1 By EneravSoft Job Number. 01-2002 User Number. 5289 CERTIFICATE OF COMPLIANCE Part 1 Of 3 LTG -1 PROJECT NAME DATE LG'S PRIME STEAKHOUSE 2/8/2002 PROJECT ADDRESS 78-525 HWY 111 SUITE 100 LA QUINTA t " ; � ' PRINCIPAL DESIGNER - LIGHTING TELEPHONE Bwld�ng Pennd # SYSTEM ELECTRIC 760-327-7847 : ; DOCUMENTATION AUTHOR TELEPHONE <° Checked by/Date ' Sipovac Construction 760 779-0790 GENERAL INFORMATION DATE OF PLANS BUILDING CONDITIONED FLOOR AREA CLIMATE ZONE 08/01/01 11,143 Sq.Ft 1 15 BUILDING TYPE ® NONRESIDENTIAL HIGH RISE RESIDENTIAL HOTEL/MOTEL GUEST ROOM PHASE OF CONSTRUCTION © NEW CONSTRUCTION ADDITION ❑ ALTERATION EXISTING + ADDITION METHOD OF LIGHTING ®. COMPLETE BUILDING AREA CATEGORY ❑ TAILORED PERFORMANCE COMPLIANCE STATEMENT OF COMPLIANCE This Certificate of Compliance lists the building features Viand performance specifications needed to comply with Title 24, Parts 1 and 6 of the California Code of Regulations. This certificate applies only to building lighting requirements. - r The documentation preparer hereby certifies that the documentation is accurate and complete. DOCUMENTATION AUTHOR SIGNAT DATE BOB SIPOVAC 2 0 The Principal Lighting Designer hereby certifies that the proposed building design represen d in this set of construction documents is consistent with the other compliance forms and worksheets, with the specifications, and with any other calculations submitted with this permit application. The proposed building has been designed to meet the lighting requirements contained in Sections 110, 119, 130 through 132, and 146 or 149 of Title 24, Part 6. Please check one: F] I hereby affirm that I am eligible under the provisions of Division 3 of the Business and Professions Code to sign this document as the person responsible for its preparation; and that I am licensed in the State of California as a civil engineer or electrical engineer, or I am a licensed architect. I affirm that I am eligible under the provisions of Division 3 of the Business and Professions Code by Section 5537.2 or 6737.3 to sign this document as the person responsible for its preparation; and that I am a licensed contractor performing this work. 0 I affirm that I am eligible under the exemption to Division 3 of the Business and Professions Code to sign this document because it pertains to a structure or type of work described as exempt pursuant to Business and Professions Code Sections 5537, 5538 and 6737.1. PRINCIPAL LIGHTING DESIGNER - NAME SIGNATURE DATE LIC. # SYSTEM ELECTRIC LIGHTING MANDATORY MEASURES Indicate location on plans of Note Block for Mandatory Measures INSTRUCTIONS TO APPLICANT For detailed instructions on the use of this and all Energy Efficiency Standards compliance forms, please refer to the Nonresidential Manual published by the California Energy Commission. LTG -1: Required on plans for all submittals. Part 2 and 3 may be incorporated in schedules on plans. LTG -2: Required on all submittals. LTG -3: Optional. Use only if lighting control credits are taken. LTG4: Optional. Use only if Tailored method is used. LTG -5: O tional. Use only if Tailored method is used. EnergyPro 3.1 By Energysoft User Number 5289 Job Number. 01-2002 Page:3 of 80 LIGHTING COMPLIANCE SUMMARY Part 2 of 3 LTG.1 PROJECT NAME LG'S PRIME STEAKHOUSE DATE 2/8/2002 . 4� i•(4 ��t7Y{\ Y� l� �, ;Y �...r�'1 Y. \_ �,-\K \; J•'ly, ?C)� ,..) �F%�V. i. 1}.� \ \ T•),... a.. r. :._ ii:.,::•.;:.t ;?:r .:`Y,,.2,.,.:.s:,tr,ta, x rk y. :>'>tr.,.• c.•::;: I �> ..<qt ..... ,..v ., _vim:?,5`o.u.>,•.�v;:y :t >.\�'<�...: +,, ...v-+.. -•. ,i>< ,!r:. ., :. ,>.. "., .... ,s 'v.. .,-:�:Yr �: ':. �•m « , s.},•::.. ,i:^YJZ <% ::'a�,,.r ';;:�ttt;,•-, v J .. .g:<.1 T ...-x- f , .t.r ,•l. .. .5-:,,, x?T :..5... x. :1 . .,. M. � ..i,.-,1 7.a \.y.y-n,x l:<n.$.., .. �: :, .�< l ,ti r3 {s,;r., ;p•.. .s......... u; S:c' ,::+4.1....<.1?-tr b'. \:ri>; ,,,r).r .�:'s.. %3!. >}, INSTALLED LIGHTING SCHEDULE . i - h- u'R... •f... ,.a "iii" "1:�: >4?•. F,� 1 t,: "'�� ) �(vi,. { . .�?�:. •.,,i S - •tC,•,.-a^, '.K., a'sa\:..1^�•h�.}:a! ,a�,,.1'?�,5�•C.1 ,`t<'k,,,�, ',e,. k }>ii"�,Z,, `j.y. J1 k+ia"•:n. [-; 'i:,> t,', : , .n. . a . . >.=a, 4'� •° - S a,. � 'h. .331\. :':bn .� .i .' S S.>.`, �.. �. �,.- } Ertergyft 3,1 By EnergySoft User Number. 5289 Job Number. 01-2002 Page:4 of 80 LAMPS BALLASTS Luminaire Code LUMINAIRE DESCRIPTION TYPE DESCRIPTION # P� Per . DESCRIPTION # Lam + Ballast Total Watts # watts A PEND -LV FIX 1 37 Electronic 1. 3 37.0 111 B PEND -FLOUR il 321 Electronic 1.0 1 32.01 32 D FLOUR STRIP 1 32 Electronic 1.0 82 32.0 2,624 F WALL SCONCE 1 60 No Ballast 36 60.0 2,160 G TABLE LAMP 100 No Ballast 2 100.0 200 H ALL SCONCE 11 60 No Ballast 1 41 60.01 240 J -WALL SCONCE 1 32 No Ballast 8 32.0 256 K CUSTOM FIX 1 32 No Ballast 3 32.0 96 L DECO SCONCE 2 13 No Ballast 6 13.0 78 P " REC INCAN 11 901 No Ballast 13 90.0 1,170 Q DECO SCONCE 2 13 No Ballast' 6 26.01 156 W DECO SCONCE 1 60 No Ballast 4 60.0 240 X. 5" REC INCAN 1 60 No Ballast 85 60.01 5,100 Lighting Schedule on Plans Shows Exterior Lighting ' Subtotal from this Page Meets Total 12,463 12,722 r� • y 0 Efficacy and Control Requirement of g 30(c) Portable Lighting (From LTG -1) 0 Less Control Credit Watts (From LTG -3) ❑ Control Requirements of G131(f) Adjusted Actual Wafts 12,722 MANDATORY AUTOMATIC CONTROLS CONTROL LOCATION CONTROL CONTROL TYPE NOTE TO (Room #) IDENTIFICATION (Auto Time Switch, Exterior, etc.) SPACE CONTROLLED CONTROL LI (Room # or CONTROL IDENTIFICATION CONTROL TYPE NOTES TO FIELD - For Building Department Use Only 4� i•(4 ��t7Y{\ Y� l� �, ;Y �...r�'1 Y. \_ �,-\K \; J•'ly, ?C)� ,..) �F%�V. i. 1}.� \ \ T•),... a.. r. :._ ii:.,::•.;:.t ;?:r .:`Y,,.2,.,.:.s:,tr,ta, x rk y. :>'>tr.,.• c.•::;: I �> ..<qt ..... ,..v ., _vim:?,5`o.u.>,•.�v;:y :t >.\�'<�...: +,, ...v-+.. -•. ,i>< ,!r:. ., :. ,>.. "., .... ,s 'v.. .,-:�:Yr �: ':. �•m « , s.},•::.. ,i:^YJZ <% ::'a�,,.r ';;:�ttt;,•-, v J .. .g:<.1 T ...-x- f , .t.r ,•l. .. .5-:,,, x?T :..5... x. :1 . .,. M. � ..i,.-,1 7.a \.y.y-n,x l:<n.$.., .. �: :, .�< l ,ti r3 {s,;r., ;p•.. .s......... u; S:c' ,::+4.1....<.1?-tr b'. \:ri>; ,,,r).r .�:'s.. %3!. >}, , ,..1 .. v.. .., . .., ,:.. ,.. .:... .0 ... .:. .. �.... ..> .� ...,�, ..;r r:r _ .tai:: _C x' :.:F. ..,y:.'...p�...h:,.,. .. , .. \ •. ?, \. v...L.,. ., ..r 7v .. ,r ... :.1. .r,>... ,.:.. ,1,><...... .... .., �,.. .., ..a,« �=:,;, .. a .: ,. . „ ..z ...r,., ..Ls. "g.:ti,,.-':., ..cY ,��.A. `,...i?..., :yl.,.. \:.n :::;`..r ::;1, ::.t...: . i - h- u'R... •f... ,.a "iii" "1:�: >4?•. F,� 1 t,: "'�� ) �(vi,. { . .�?�:. •.,,i S - •tC,•,.-a^, '.K., a'sa\:..1^�•h�.}:a! ,a�,,.1'?�,5�•C.1 ,`t<'k,,,�, ',e,. k }>ii"�,Z,, `j.y. J1 k+ia"•:n. [-; 'i:,> t,', : , .n. . a . . >.=a, 4'� •° - S a,. � 'h. .331\. :':bn .� .i .' S S.>.`, �.. �. �,.- } Ertergyft 3,1 By EnergySoft User Number. 5289 Job Number. 01-2002 Page:4 of 80 _IGHTING COMPLIANCE SUMMARY Part*2 of 3 LTG -1 (PROJECT NAME DATE' LG'S PRIME STEAKHOUSE 2/8/2002 I AuioC I ner i ACTe II Luminaire Code LUMINAIRE DESCRIPTION TYPE DESCRIPTION# CONTROL IDENTIFICATION Watts Lamp DESCRIPTION # Lam + Ballast Total Watts # Watts Y 5" LV REC 1 37 No Ballast 6 37.0 222 Z 2 12" REC LV 1 37 No Ballast 1 37.0 37 CONTROL LOCATION (Room # or Dwg. #) CONTROL IDENTIFICATION CONTROL TYPE (Occupant, Daylight, Dimming, etc.) NOTE TO %;FIELD I TYPE # OF LUMINAIRES NOTES TO FIELD - For Buildinq Department Use Only ti?As1\fix,.L\t� .'+` �':'.`%:::= .\�. 1y.\ \.'...� ;y _Y, .\,- \ L L...\.. \-a`%: '•'';F J zf _s;�, �2' si ,L s _.� Y::} t ?* t Y �'\ :.<.;:..n,.y� :.: - or:': .- - r � �:w: , ->,w •mss. <ia'!Li?: sk , u.,. ... .. .. . .,! <.. .. , 7 ..r.:li., i �' <`%.q,y .:l'n\••.'Y.�. Y\,;7;:<: `. it t, `:; ,�>:. ^,:1}:l ,,\dt.\\v ! ,. L.�. ,?tYLto }.,�t , 1. 0 Zl ii?.i y.�. ✓l�.s .:.�h., `.}n .\: :kl'tf '� 1 i l l\, -%" 4 - 1 i\ .t. ? \ t..ty �\.y •:.k \ i t h t i i,. i... :)...� �a \>� � �� ,.�:��•;' �'s,,�s,u:..�,:,, ? L� t a.l :+..i,,,,:'.\�, , >r. -3� q;'Y`:>t>•r,S+.>i::t. .:.i-nk `Y -5.. } \.<,. ; :1; tiw.�:s:s >.'.. /%,.. '�\, \ •.`V„r Y -,:fi \: 'J ..,i. +.,`'.$^'i'�. .4. ..:_C. :y `i.2 .tf•�;)`?\, �} -:i �h} -Y t;,•1 i4>?"(, ..Yi'.: \u. r.1-, t..}3t \5 .. '4 u. �5 �.. ! rt, ��. � .�1\. i�.-l-C.:)t,, .: tri. i. .i 1. ��-. `,\I.. ��.. K �\� � t ',\� \4-. �.i� �::\:51: n,� i'}"Vl.l"� � -}': : ', Yi l�\+` F '.� .;:.\, •: .•.F "( 2 ) S � vi"(G', (!j �. � ) � �4 s1 .Y � :a .;Lr.: C., :1>}.. �:. �.,, �1. ,.: ♦ :.1 > ,;ih;'i�'� 3 \1 „}<f ,_ hl .W ) �. J� �}. <a'J5i.�\,1:. a Y�L 1 \ 1...,y..f nk \T \,`.^!S �. .-t �2 . 1 . :v1 ,- l' • �1 a; 'Yo : it , .. �> \ Ya l '�' �.$::::::>).,;, y, 's '< � >.,S ..�.<;;:. :, d..<.>..<. .:. .,��.,.,<..>,:.,.�>,,tti,•:}. .;...>,:}.+.t` '\:,,.n:".'. ,:.�.. ..1:''- ..>a•, :............... ,,.�„i,....:. .,x::),5.:5 Subtotal from this Page Lighting Schedule on Plans Shows Exterior Lighting 259 Meets Total 12,722 Portable Lighting (From LTG -1) ❑ Efficacy and Control Requirement of 6130(c) Less Control Credit Watts (From LTG -3)• ❑ Control Requiremerrts of 031(f) Adiusted Actual Watts 12,722 MANDATORY AUTOMATIC CONTROLS ' CONTROL LOCATION (Room #) CONTROL IDENTIFICATION ;NOTE TO ��;FIELD CONTROL TYPE (Auto Time Switch, Exterior, etc.) SPACE CONTROLLED CONTROLS FOR CREDIT CONTROL LOCATION (Room # or Dwg. #) CONTROL IDENTIFICATION CONTROL TYPE (Occupant, Daylight, Dimming, etc.) NOTE TO %;FIELD I TYPE # OF LUMINAIRES NOTES TO FIELD - For Buildinq Department Use Only ti?As1\fix,.L\t� .'+` �':'.`%:::= .\�. 1y.\ \.'...� ;y _Y, .\,- \ L L...\.. \-a`%: '•'';F J zf _s;�, �2' si ,L s _.� Y::} t ?* t Y �'\ :.<.;:..n,.y� :.: - or:': .- - r � �:w: , ->,w •mss. <ia'!Li?: sk , u.,. ... .. .. . .,! <.. .. , 7 ..r.:li., i �' <`%.q,y .:l'n\••.'Y.�. Y\,;7;:<: `. it t, `:; ,�>:. ^,:1}:l ,,\dt.\\v ! ,. L.�. ,?tYLto }.,�t , 1. 0 Zl ii?.i y.�. ✓l�.s .:.�h., `.}n .\: :kl'tf '� 1 i l l\, -%" 4 - 1 i\ .t. ? \ t..ty �\.y •:.k \ i t h t i i,. i... :)...� �a \>� � �� ,.�:��•;' �'s,,�s,u:..�,:,, ? L� t a.l :+..i,,,,:'.\�, , >r. -3� q;'Y`:>t>•r,S+.>i::t. .:.i-nk `Y -5.. } \.<,. ; :1; tiw.�:s:s >.'.. /%,.. '�\, \ •.`V„r Y -,:fi \: 'J ..,i. +.,`'.$^'i'�. .4. ..:_C. :y `i.2 .tf•�;)`?\, �} -:i �h} -Y t;,•1 i4>?"(, ..Yi'.: \u. r.1-, t..}3t \5 .. '4 u. �5 �.. ! rt, ��. � .�1\. i�.-l-C.:)t,, .: tri. i. .i 1. ��-. `,\I.. ��.. K �\� � t ',\� \4-. �.i� �::\:51: n,� i'}"Vl.l"� � -}': : ', Yi l�\+` F '.� .;:.\, •: .•.F "( 2 ) S � vi"(G', (!j �. � ) � �4 s1 .Y � :a .;Lr.: C., :1>}.. �:. �.,, �1. ,.: ♦ :.1 > ,;ih;'i�'� 3 \1 „}<f ,_ hl .W ) �. J� �}. <a'J5i.�\,1:. a Y�L 1 \ 1...,y..f nk \T \,`.^!S �. .-t �2 . 1 . :v1 ,- l' • �1 a; 'Yo : it , .. �> \ Ya l '�' �.$::::::>).,;, y, 's '< � >.,S ..�.<;;:. :, d..<.>..<. .:. .,��.,.,<..>,:.,.�>,,tti,•:}. .;...>,:}.+.t` '\:,,.n:".'. ,:.�.. ..1:''- ..>a•, :............... ,,.�„i,....:. .,x::),5.:5 EnergyPro 3.1 By EnergySoft User Number: 5289 Job Number. 01-2002 Page:5 of 80 LIGHTING COMPLIANCE SUMMARY Part 3 of 3 LTG -1 PROJECT NAME DATE LG'S PRIME STEAKHOUSE 1 1 2/8/2002 ROOM f DEFAULT AREA OR ZONE ID / SF TOTAL WATTS B X C OFFICE AREAS >250 SQUARE FEE BAR AREA 1 056 F o 0 o a a a SKYLIGHT DINING 920 LUMIN. TASK #OF TOTAL TOTAL TOTAL 0 0 ITABLE 1 - PORTABLE LIGHTING WN ON PLANS FOR OFFICE AREAS >250 SQUARE FEE BAR AREA 1 056 F o 0 o a a a SKYLIGHT DINING 920 LUMIN. TASK #OF TOTAL TOTAL ROOM # PORTABLE LIGHTING # OF WATTS PER AREA TASK AREA (SF) WATTS OR ZONE ID Descriotlon FIXT. FIXTURE (SF1 - AREAS (D x El (C x EI DINING 1 658 1 658 BAR AREA 1 056 1 1,056. RECEPTION & BAR 741 1 741 SKYLIGHT DINING 920 1 920 DINING ROOM 1,499 1 1,499 KITCHEN & BATH 1 2.411 1 1 2 411 DINING & SERVICE 1.413 1 1,413 ROTUNDA DINING 775 1 775 TOTAL 9,473 0 ROOM 9 OR ZONE ID I TOT (S ;REA TOTAL I 0 Designer needs to provide detailed documentation that the lighting level provided by the overhead lighting meets the needs of the space. The details include luminaire types, CU, and mounting locations relative to work areas. TOTAL AREA (SF) TOTAL WATTS BUILDING SUMMARY (FROM TABLES 1A+10+1C) (FROM TABLES 1A+1B) BUILDING TOTAL 11,143 0 Enewft 3.1 By EnergySoft User Number: 5289 Job Number. 01-2002 Page:6 of 80 LIGHTING COMPLIANCE SUMMARY Part 3 of 3 PROJECT NAME,I DATE L'S PRIME STEAKHOUSE 2!8!2002 ROOM # DEFAULT' AREA OR ZONE ID /s SF TOTAL WATTS B X C OFFICE AREAS >250 SQUARE FEET FA a © [D:] o a LUMIN. TASK i TOTAL TOTAL TOTAL 0 0 TABLE 1B - PORTABLE LIGHTING SHOWN N PLANS F OFFICE AREAS >250 SQUARE FEET FA a © [D:] o a LUMIN. TASK # OF TOTAL TOTAL ROOM # i PORTABLE LIGHTING # OF WATTS PER AREA TASK AREA (SF) WATTS OR ZONE ID Description FIXT. FIXTURE (SF) AREAS (D x E) (C x E) ROTUNDA DINING 775 1 775 WINE CELLAR 895 1 895 i TOTAL 1,670 0 ROOM # TOTAL AREA OR ZONE ID (SF) TOTAL 0 Designer needs to provide detailed documentation that the lighting level provided by the overhead lighting meets the needs of the space. The details include luminaire types, CU, and mounting locations relative to work areas. TOTAL AREA (S TOTAL WATTS BUILDING SUMMARY (FROM TABLES 1A+1 +1C) (FROM TABLES 1A+1B) BUILDING TOTAL 11,143 0 EnemvPro 3.1 By EnerovSaft User Number: 5289 Job Number. 01-2002 Paae:7 of 80 ri LIGHTING COMPLIANCE SUMMARY LTG -2 BUILDING CATEGORY (From Table 1-M) ip Bldg Office e- - � k 'S � 5 L �`�Ll T as _, r!. �ti-. t �� •; EnergyPro 3.1 By Energy8cft User Number 5289 DATE 2/8/2002 WATTS PER LUMINAIRE Includin Ballast )ROJECT NAME LG'S PRIME STEAKHOUSE Y N' ACTUAL LIGHTING POWER LUMINAIRE NAME 32.0 NUMBER OF LUMINAIRES DESCRIPTION., 100.0 60.0 3 32.0 13.0 1 13,371 Less Control Credit Watts (From LTG -3) 82 Adjusted Actual, Watts 36 2 r H 4 8 3 F 6. 13 BUILDING CATEGORY (From Table 1-M) ip Bldg Office e- - � k 'S � 5 L �`�Ll T as _, r!. �ti-. t �� •; EnergyPro 3.1 By Energy8cft User Number 5289 DATE 2/8/2002 WATTS PER LUMINAIRE Includin Ballast CEC DEFAULT Y N' 37.0 ® ❑ ® ❑ ® ❑ ❑ FK ® ❑ X1 ❑ ' ® ❑ ® ❑ [XI El ❑ 32.0 32.0 60.0 100.0 60.0 32.0 32.0 13.0 90.0 Total Watts 111 32 2,624 2,160 200 240 256 96 78 1,170 Subtotal from this Page b, `Jb 1� Building Total 12,72 COMPLETE ALLOWED PER SF Portable Lighting (From LTG4) WATTS 1.20 0 13,371 Less Control Credit Watts (From LTG -3) Adjusted Actual, Watts D2 72 WATTS AREA ALLOWED PER SF (SF) WATTS PAGE TOTAL BUILDING TOTAL AREA WATTS "'.M." SO TOTAL ALLOWED WATTS (From LTG4 or from computer run.) Job Number. 01-2002 Pane:8 of 80 WATTS COMPLETE ALLOWED PER SF BLDG. AREA WATTS 1.20 11,143 13,371 WATTS AREA ALLOWED PER SF (SF) WATTS PAGE TOTAL BUILDING TOTAL AREA WATTS "'.M." SO TOTAL ALLOWED WATTS (From LTG4 or from computer run.) Job Number. 01-2002 Pane:8 of 80 LIGHTING COMPLIANCE SUMMARY LTG -2 PROJECT NAME DATE F. LG'S PRIME STEAKHOUSE 2/8/2002 CTUAL LIGHTING POWER LUMINAIRE NAME • r_ NUMBER OF LUMINAIRES 6 4 85 6 1 WATTS PER LUMINAIRE Includin Ballast CEC DEFAULT Y I N' 26.0 ❑ ❑ Al ❑ ❑ ❑ ❑❑ El F-1 ❑❑ ❑❑ ❑❑ 60.0 60.0 37.0 37.0 Total Watts 156 240 5,100 222 37 Subtotal from this Page 5 755 Building Total 12,72 r Portable Lighting (From LTG -1) Less Control Credit Watts (From LTG -3) Adjusted Actual Watts 12 72 BUILDING CATEGORY (From Table 1-M) WATTS COMPLETE ALLOWED PER SF BLDG. AREA WATTS Comp Bldg Office 1.20 11,143 13,371 AREA CATEGORY (From Table 1 N) EnergyPm 3.1 By EnergyS User -Number 5289 WATTS AREA ALLOWED PER SF (SF) WATTS PAGE TOTAL D D BUILDING TOTAL O O 11.o. AREA WATTS w.C;4t-'' �y�` r 4.,}u' *. S i E y Ya {`•s� :3r ; ; i� ,?� y �, � 13 2�' qJl" ;;. TOTAL ALLOWED WATTS D (From LTG -4 or from computer run.) Job Number. 01-2002 Page:9 of 80 LIGHTING MANDATORY MEASURES LTG -MM NAME DATE LG'S PRIME STEAKHOUSE 2/8/2002 DESCRIPTION Desi ner Enforcement § 131(d)1 For every floor, all interior lighting systems shall be equipped with a separate automatic control to shut off the lighting. This automatic control shall meet the requirements of Section 119 and may be an occupancy sensor, automatic time switch, or other device capable of automatically shutting off the lighting. ❑ § 131(d)2 Override for Building Lighting Shutoff: The automatic building shutoff system is provided with a manual, accessible override switch in sight of the lights. The area of override is not to exceed 5,000 square feet. 0 §' 119(h) Automatic Control Devices Certified: All automatic control devices specified are certified, all alternate equipment shall be certified and installed as directed by the manufacturer. ❑ Fluorescent Ballast ind Luminaires Certified: All fluorescent fixtures specified for the project are certified and listed In the Directory. All installed fixtures shall be certified. El§ 132 Tandem Wiring for One and Three Lamp Fluorescent Fixtures: All one and three lamp fluorescent fixtures are tandem wired with two lamp ballasts where required by Standards Section 132; or all three lamp fluorescent fixtures are specified with electronic high -frequency ballasts and are exempt from tandem wiring requirements. § 131(a) Individual Room/Area Controls: Each room and area in this building is equipped with a separate switch or occupancy sensor device for each area with floor -to -ceiling walls. ❑ § 131(b) Uniform Reduction for Individual Rooms: All rooms and areas greater than 100 square feet and more than 0.8 watts per square foot of lighting load shall be controlled with bilevel switching for uniform reduction of lighting within the room. ❑ § 131(c) Daylight Area Control: All rooms with windows and skylights that are greater than 250 square feet and that allow for the effective use of daylight In the area shall have 50% of the lamps in each dayllt area controlled by a separate switch; or the effective use of daylight cannot be accomplished because the windows are continuously shaded by a building on the adjacent lot. Diagram of shading during different times of the year Is Included on plans. .F—] § 131(f) Control of Exterior Lights: Exterior mounted fixtures served from the electrical panel Inside the building are controlled with a directional photo cell control on the roof and a corresponding relay In the electrical panel. § 131(e) Display Lighting. Display lighting shall be separately switched on circuits that are 20 amps or less. EnergyPro 3.1 By Energy&A User Number: 5289 Job Number: 01-2002 Page: 10 of 80 CERTIFICATE OF COMPLIANCE Part 1 of 2 MECH-1 PROJECT NAME DATE OF PLANS DATE LG'S PRIME STEAKHOUSE 08/01/011 2/8/2002 PROJECT ADDRESS BUILDING TYPE ® NONRESIDENTIAL ❑ HIGH RISE RESIDENTIAL ❑ HOTEL/MOTEL GUEST ROOM PHASE OF CONSTRUCTION ® NEW CONSTRUCTION ❑ ADDITION ❑ ALTERATION ❑ EXISTING + ADDITION 78-525 HWY 111 SUITE 100 LA QUINTA COMPLIANCE PROOF OF ENVELOPE COMPLIANCE ❑ PREVIOUS ENVELOPE PERMIT ❑ ENVELOPE COMPLIANCE ATTACHED PRINCIPAL DESIGNER - MECHANICAL TELEPHONE Building Permit #, PAUL'S AIRCONDITIONING 760-323-4776 Checked by/Date <: DOCUMENTATION AUTHOR Sipovac Construction TELEPHONE (760) 779-0790 Erlorcementlgerrcyuse GENERAL INFORMATION DATE OF PLANS BUILDING CONDITIONED FLOOR AREA CLIMATE ZONE 08/01/011 11,143 sq.Ft. 1 15 BUILDING TYPE ® NONRESIDENTIAL ❑ HIGH RISE RESIDENTIAL ❑ HOTEL/MOTEL GUEST ROOM PHASE OF CONSTRUCTION ® NEW CONSTRUCTION ❑ ADDITION ❑ ALTERATION ❑ EXISTING + ADDITION METHOD OF MECHANICAL ® PRESCRIPTIVE ❑ PERFORMANCE COMPLIANCE PROOF OF ENVELOPE COMPLIANCE ❑ PREVIOUS ENVELOPE PERMIT ❑ ENVELOPE COMPLIANCE ATTACHED STATEMENT OF COMPLIANCE This Certificate of Compliance lists the building features and performance specifications needed to comply with Title 24, Parts 1 and 6 of the California Code of Regulations. This certificate applies only to building mechanical requirements. The documentation preparer hereby certifies that the documentation is accurate and complete. DOCUMENTATION AUTHOR SIGNATURE DATE BOB SIPOVA The Principal Mechanical Designer hereby certifies that the proposed building design represented in this set of construction documents is consistent with the other compliance forms and worksheets, with the specifications, and with any other calculations submitted with this permit application. The proposed building has been designed to meet the mechanical requirements contained in Sections 110 through 115, 120 through 124, 140 through 142, 144 and 145. Please check one: ❑ I hereby affirm that I am eligible under the provisions of Division 3 of the Business and Professions Code to sign this document as the person responsible for its preparation; and that I am licensed in the State of California as a civil engineer, or mechanical engineer or I am a licensed architect. ❑ I affirm that I am eligible under the exemption to Division 3 of the Business and Professions Code by Section 5537.2 or 6737.3 to sign this document as the person responsible for its preparation; and that I am a licensed contractor performing this work. ❑ I affirm that I am eligible under the exemption to Division 3 of the Business and Professions Code to sign this document because it pertains to a structure or type of work described pursuant to Business and Professions Code sections 5537, 5538, and 6737.1. PRINCIPAL MECHANICAL DESIGNER - NAME 7TSIGNATURE DATE PAUL'S AIRCONDITIONING MECHANICAL MANDATORY MEASURES Indicate location on plans of Note Block for Mandatory Measures INSTRUCTIONS TO APPLICANT For detailed instructions on the use of this and all Energy Efficiency Standards compliance forms, please refer to the Nonresidential Manual published by the California Energy Commission. MECH-1: Required on plans for all submittals. Parts 2 may be incorporated in schedules on plans. MECH-2: Required for all submittals, but may be incorporated in schedules on plans. MECH-3: Required for all submittals unless required outdoor ventilation rates and airflows are shown on plans per Section 4.3.4. MECH-4: Required for Prescriptive submittals. MECH-5: Optional. Performance use only for mechanical distribution summary. EnergyPro 3.1 By EnergySoft User Number. 5289 Job Number: 01-2002 Page: 11 of 80 CERTIFICATE OF COMPLIANCE Part 2 of 2 MECH-1 PROJECT NAME DATE LGS PRIME STEAKHOUSE 2/8/2002 YSTEM FEATURES ` MECHANICAL SYSTEMS SYSTEM NAMENOTE TOi DHW Heater HVAC 1 HVAC 2 e�cien�s: TIME CONTROL SETBACK CONTROL ISOLATION ZONES HEAT PUMP THERMOSTAT? ELECTRIC HEAT? FAN CONTROL ' VAV MINIMUM POSITION CONTROL? SIMULTANEOUS HEAT/COOL? HEATING SUPPLY RESET COOLING SUPPLY RESET ' HEAT REJECTION CONTROL - VENTILATION OUTDOOR DAMPER CONTROL ECONOMIZER TYPE DESIGN AIR CFM MECH3 COLUMN 1 HEATING EQUIPMENT TYPE HEATING EQUIPMENT EFFICIENCY COOLING EQUIPMENT TYPE COOLING EQUIPMENT. EFFICIENCY MAKE AND MODEL NUMBER HEATING DUCT LOCATION -VALUE COOLING DUCT LOCATION I R -VALUE PIPE/DUCT INSULATION PROTECTED? PIPE TYPE (SUPPLY, RETURN, ETC.)' PIPE INSULATION REQUIRED? VERIFIED SEALED DUCTS IN CEILING/ROOF SPACE n/a Na Na n/a n/a nla Na n/a n/a Na Na n%a n/a n/a n/a . Electric Res 99% AO SMITH PEC -120' Na Na n/a n/a n/a n/a Yes Supply HW Yes n/a Programmable Switch Heating & Cooling Required n/a Yes 0.0 kW Constant Volume No No Constant Tem Constant Tem n/a Air Balance Auto No Economizer 444 cfm Heat Pum 4.20 COP H dronic Heat Pum 12.0 EER BRYANT 548D072 Ducts in Attic 4.2 Ducts in Attic 4.2 Yes PIPE INSULATION REQUIRED? Yes No Programmable Switch Heating & Cooling Required n/a Yes 0.0 kW Constant Volume No No Constant Tem Constant Tem Na Air Balance Auto No Economizer 713 cfm Heat Pum 4.20 COP H dronic Heat Pum 12.0 EER BRYANT 548DO90 Ducts in Attic 4.2 Ducts in.Attic 4.2 Yes PIPE INSULATION REQUIRED? Yes No CODE TABLES: Enter code from table below Into columns above. HEAT PUMP THERMOSTAT? Y; Yes N: No TIME CONTROL SETBACK CTRL. ISOLATION ZONES FAN CONTROL ELECTRIC HEAT? S: Prog. Switch O: Occupancy Sensor M: Manual Timer H: Heating C: Cooling B: Both Enter Number of Isolation. Zones. 1: Inlet Vanes P: Variable Pitch V: VFD O: Other C: Curve VAV MINIMUM POSITION CONTROL? SIMULTANEOUS HEAT / COOL? HEAT AND COOL SUPPLY RESET? VENTILATION OUTDOOR DAMPER ECONOMIZER O.A. CFM HIGH EFFICIENCY? B: Air Balance C: Outside Air Cert. M: Out. Air Measure A: Auto G: Gravity : Air : Water N: Not Required Enter Outdoor Air CFM. Note: This shall be no PIPE INSULATION REQUIRED? PIPEIDUCT INSULATION PROTECTED? D: Demand Control EC: Economizer less than Col. H on N: Natural Control See Section MECH3. SEALED DUCTS IN CEILING/ROOF SPACE? 1144(e)3 NOTES TO FIELD _ Fnr Ruildinn nenartment Ilse Only xgyPro 3.1 By Er-gySoft User Number: 5289 Job Number. 01-2002 12 of 80 r CERTIFICATE OF COMPLIANCE Part 2 of 2 MECH-1 PROJECT NAME DATE LG'S PRIME STEAKHOUSE 2/8/2002 SYSTEM FEATURES SYSTEM NAME TIME CONTROL SETBACK CONTROL ISOLATION ZONES HEAT PUMP THERMOSTAT?. ELECTRIC HEAT? FAN CONTROL VAV MINIMUM POSITION CONTROL?. ' SIMULTANEOUS HEAT/COOL? HEATING SUPPLY RESET COOLING SUPPLY RESET HEAT REJECTION CONTROL VENTILATION OUTDOOR DAMPER CONTROL ECONOMIZER TYPE DESIGN AIR CFM MECH3 COLUMN I HEATING EQUIPMENT TYPE HEATING EQUIPMENT EFFICIENCY COOLING EQUIPMENT TYPE COOLING EQUIPMENT EFFICIENCY MAKE AND MODEL NUMBER HEATING DUCT LOCATION -VALUE COOLING DUCT LOCATION IR -VALUE PIPEIDUCT INSULATION PROTECTED? PIPE TYPE (SUPPLY, RETURN, ETC.) PIPE INSULATION REQUIRED? VERIFIED SEALED DUCTS IN CEILING/ROOF SPACE - MECHANICAL SYSTEMS HVAC 3 HVAC 4 HVAC 5 Programmable Switch Heating & CoolinA Required n/a Yes 0.0 MN Constant Volume No No - Constant Tem Constant Tem r n/a Air Balance Auto No Economizer 500 cfm Heat Pum 4.20 COP H dronic Heat Pum 12.0 EER BRYANT 548DO90 Ducts in Attic 42 Ducts in Attic 42 Yes A: Auto G: Gravity Yes No Programmable Switch Heabrin & Coolina Required n/a Yes 0.0 WV Constant Volume No No Constant Tem Constant Tem Na Air Balance Auto No Economizer 621 cfm Heat Pum 4.20 COP H dronic Heat Pum 12.0 EER BRYANT 548D120 Ducts in Attic 4.2 Ducts in Attic 4.2 Yes A: Auto G: Gravity Yes No Programmable Switch HeatinA & Cooling Required n/a Yes 0.0 kW Constant Volume No No Constant Tem Constant Tem Na Air Balance Auto No Economizer 1012 cfm Heat Pum 4.20 COP H dronic Heat Pum 12.0 EER BRYANT 548D102 Ducts in Attic 4.2 Ducts in Attic 4.2 Yes A: Auto G: Gravity Yes. No CODE TABLES: Enter code from table below into columns above. HEAT PUMP THERMOSTAT? Yc Yes N: No TIME CONTROL SETBACK CTRL. ISOLATION ZONES FAN CONTROL ELECTRIC HEAT?"' ' S: Prog. Switch O: Occupancy Sensor - M: Manual Timer H: Heating C: Cooling B: Both Enter Number of Isolation Zones. 1: Inlet Vanes P: Variable Pitch V: VFD O: Other C: Curve VAV MINIMUM POSITION CONTROL? SIMULTANEOUS HEAT / COOL? HEAT AND COOL SUPPLY.RESET? VENTILATION OUTDOOR DAMPER ECONOMIZER O.A. CFM HIGH EFFICIENCY? B: Air Balance C: Outside Air Cert. M: Out. Air Measure D: Demand Control N: Natural A: Auto G: Gravity : Air : Water N: Not Required EC: Economizer Control See Section 1 e Enter Outdoor Air CFM. Note: This shall be no less than Col. H on MECH�. PIPE INSULATION REQUIRED? PIPEIDUCT INSULATION PROTECTED? SEALED DUCTS IN CEILING/ROOF SPACE? TO FIELD - For Eluelding Department Use Only �}a,:�i,is,1.i"ce;,,` ^.f:Yf•,%7•...A:j:•:;jS.J + r1.�;\. 2. s.6'�.,.r),k i> 1-1111- .a5C��. 3\s.<4.<,'��'>:�o�,'s�,t::J:e�•Yn%:a,L< c3i•.,..0,+,.�:i n.v+.. '.= 1r1r-?\ .:\s.,..,� ....tn:n•. 5.,.r;•.jYr.�','t..:.r�...�.'U<l..:i-, .. ,yt.a.i,.r:,teivl.>,.);.;.,,�..',....:. e•t 4lx:<l.,;.,.•,f.S,?UJ+tt..�J•..•;,,.,. .^,.c,;.��a4o\.r +;h:. 31�,,ah:tt..v:x.. .•.t:a-;;�_'iv;i.;.:�r�l:. A�.{..•A+;:..•�3.o51.#`4,?. ,,3'v„;rb.>.r+t»,. ;. ...._s..1:•N'.i.1»..z 1•`�:�\1„1o<.>,...✓Y:.J.v:,>.�.. r. -,+ ^_'\',.^.avJ ,. i.Z �r•�L:.�..>. e5-:(>m,�.i...i,v.;.:,, v.,.,) .:. Y .. .}1t,.'� � .t,�;.i .\0.'.�'..,.rt`.c.4 .'.Y.l,`.'r".:,'<.` a.tt i=<>.l a��fi\'':,a .,:i:l >.- >�..��n. v'.v�r, ii.,..+.v,k.••..f .Y�,::�•>�•,..',,tCC;',a��,.� ..v',''an.�''',.>�?.r•'u.. . '>mst.a.. �s•.f? .v•."u..:'.!,,:,,,”..-:\. i.n,'.,.f. ' +..j .,. ,•... ...,•.t,.:.s..,a 7•. ,.., ...,.....Iia K,.. ,... t:. ,.i:.Yni.. �,.,. ,......i •! f.. t.. ,?�..� . 1.vti ri�:v. uY... .f EnergyPro 3.1 by EnergySoft User Number: 5289 Job Number: 01-2002 Page: 13 of 80 CERTIFICATE OF COMPLIANCE Part 2 of 2 MECH-1 PROJECT NAME DATE LG'S PRIME STEAKHOUSE 2/8/2002 SYSTEM FEATURES ` MECHANICAL SYSTEMS SYSTEM NAME HVAC 6 HVAC 7 HVAC 8 NOTE�TO FICI' A •` TIME CONTROL SETBACK CONTROL ISOLATION ZONES HEAT PUMP THERMOSTAT? ELECTRIC HEAT? FAN CONTROL VAV MINIMUM POSITION CONTROL? SIMULTANEOUS HEAT/COOL? HEATING SUPPLY RESET COOLING SUPPLY RESET HEAT REJECTION CONTROL VENTILATION OUTDOOR DAMPER CONTROL ECONOMIZER TYPE DESIGN AIR CFM MECH-3, COLUMN I HEATING EQUIPMENT TYPE HEATING EQUIPMENT EFFICIENCY COOLING EQUIPMENT TYPE COOLING EQUIPMENT EFFICIENCY MAKE AND MODEL NUMBER HEATING DUCT LOCATION -VALUE COOLING DUCT LOCATION IR -VALUE PIPE/DUCT INSULATION PROTECTED? PIPE TYPE (SUPPLY, RETURN, ETC.) PIPE INSULATION REQUIRED? VERIFIED SEALED DUCTS IN CEILINGJROOF SPACE Programmable Switch Heating & oolihn Required n/a Yes 0.0 kW Constant Volume No No Constant Tem Constant Tem nla Air Balance Auto No Economizer 916 cfm Heat Pum 4.20 COP H dronic Heat Pum 12.0 EER BRYANT 548DO90 Ducts in Attic 42 Ducts in Attic 42 Yes - Yes No Programmable Switch Heating & Cooling Required n/a Yes 0.0 kW Constant Volume No No Constant Tem Constant Tem n/a Air Balance Auto No Economizer 954 cfm Heat Pum 4.20 COP H dronic Heat Pum 12.0 EER BRYANT 548D120 Ducts in Attic 42 Ducts in Attic 4.2 Yes Yes No Programmable Switch Heating & Cooling Required n/a Yes 0.0 MN Constant Volume No No Constant Tem Constant Tem n/a Air Balance Auto No Economizer 233 cfm Heat Pum 4.20 COP H dronic Heat Pum 12.0 EER BRYANT WD090 Ducts in Attic 4.2 Ducts in Attic 4.2 Yes Yes No CODE TABLES: Enter code from table below Into columns above. EnergyPro 3.1 By EnergySoft User Number. 5289 Job Number: 01-2002 Page:14 of 80 n CERTIFICATE OF COMPLIANCE Part 2 of 2 MECH-1 PROJECT NAME DATE LG'S PRIME STEAKHOUSE 2/8/2002 SYSTEM FEATURES SYSTEM NAME TIME CONTROL SETBACK CONTROL ISOLATION ZONES HEAT PUMP THERMOSTAT? ELECTRIC HEAT? FAN CONTROL VAV MINIMUM POSITION CONTROL? SIMULTANEOUS HEAT/COOL? HEATING SUPPLY RESET COOLING SUPPLY RESET EAT REJECTION CONTROL VENTILATION OUTDOOR DAMPER CONTROL ECONOMIZER TYPE DESIGN AIR CFM MECH3 COLUMN 1 . HEATING EQUIPMENT TYPE HEATING EQUIPMENT EFFICIENCY COOLING EQUIPMENT TYPE '" COOLING EQUIPMENT EFFICIENCY MAKE AND MODEL NUMBER HEATING DUCT LOCATION -VALUE COOLING DUCT LOCATION I R -VALUE PIPE/DUCT INSULATION PROTECTED? PIPE TYPE (SUPPLY, RETURN, ETC.) PIPE INSULATION REQUIRED' VERIFIED SEALED DUCTS IN CEILINGIROOF SPACE - MECHANICAL SYSTEMS HVAC 9 H HVAC 10 Programmable Switch Heating & Coolinq Required n/a Yes 0.0 kW Constant Volume No No Constant Tem Constant Tem ' n/a Air Balance Auto No Economizer 524 cfm Heat Pump i 4.20 COP H dronic Heat Pum 12.0 EER BRYANT 548DO90 Ducts in Attic 42 Ducts in Attic 42 Yes PIPE INSULATION REQUIRED? Yes No Programmable Switch Heating & Cooling Required n/a n/a n/a Constant Volume No No Constant Tem Constant Tem n/a Air Balance Auto No Economizer 604 cfm Gas Furnace 80% AFUE Split DX 10.5 SEER / 9.3 EER BDP CO.561AJ060-' Ducts in Attic 4.2 Ducts in Attic 4.2 Yes PIPE INSULATION REQUIRED? Yes No CODE TABLES: Enter code from table below into columns above. HEAT PUMP THERMOSTAT? Y: Yes N: No TIME CONTROL SETBACK CTRL. ISOLATION ZONES FAN CONTROL ELECTRIC HEAT? S: Prog. Switch O: Occupancy Sensor M: Manual Timer H: Heating C: Cooling B: Both Enter Number of Isolation Zones. I: Inlet Vanes P: Variable Pitch V: VFD O: Other C: Curve VAV MINIMUM POSITION CONTROL? SIMULTANEOUS HEAT / COOL? HEAT AND COOL SUPPLY RESET? VENTILATION OUTDOOR DAMPER ECONOMIZER O.A. CFM HIGH EFFICIENCY? B: Air Balance C: Outside Air Cert. M: Out. Air Measure D: Demand Control N: Natural A: Auto G: Gravity : Air : Water N: Not Required EC: Economizer Control See Section 1 e Enter Outdoor Air CFM. Note: This shall be no less than Col. H on MECH3. PIPE INSULATION REQUIRED? PIPE/DUCT INSULATION PROTECTED? SEALED DUCTS IN CEILINGlROOF SPACE? MECHANICAL EQUIPMENT SUMMARY Part 1 of 2 MECH-2 PROJECT NAME LG'S PRIME STEAKHOUSE DATE 2/8/2002 Motor Location CFM Efficiency Tons PUMPS CFM BHP Equipment Name Equipment Type Qty. Tot Qty GPM BHP Motor Eff. Drive Eff. Pump Control none BRYANT 548D090 Constant Volume Draw -Through 855 0.20 77.0% 100.0% none BRYANT 548D120 Constant Volume Draw -Through 855 0.20 77.0%1100.0% none BRYANT 548D102 Constant Volume Draw -Through 855 0.20 77.0% 100.0% none BDP CO.561AJ060-' Constant Volume Blow -Through 2,210 0.75 77.0% 100.0% none QHW BOILER SUMMARY Energy Factor or Recovery Efficiency Standby Loss or Pilot TANKINSUL. System Name System Type Distribution Type Oty Rated Input (Gals.) Vol. Ext R -Val. O SMITH PEC -120' Storage Elec. Standard 1 15,359 109 0.85 n/a n/a CENTRAL SYSTEM RATINGS HEATING COOLING System Name System Type Qty Output Aux. kW Eff. Output Sensible Efficiency Economizer Type BRYANT 548D072 Hydronic Heat Pump 1 72,000 0.0 4.20 COP 72,000 0 12.0 EER No Economizer BRYANT 548D090 Hydronic Heat Pump 5 90,000 0.0 4.20 COP 72,000 q12.0 EER No Economizer BRYANT 548D120 Hydronic Heat Pump 2 120,000 0.0 4.20 COP 120,000 0 12.0 EER No Economizer BRYANT 548D102 Hydronic Heat Pump 1 102,000 0.0 4.20 COP 102,000 0 12.0 EER No Economizer BDP CO.561AJ06V Split DX 1 89,000 0.0 80% AFUE 57,000 39,90 10.5 SEER / 9.3 EER No Economizer c11aa1 v FAM I F-DCTIroM CAM System Name Fan Type Motor Location CFM BHP Motor Eff. Drive Eff. CFM BHP Motor Eff. Drive Eff. BRYANT 548D072 Constant Volume Draw -Through 855 0.20 77.0% 100.0% none BRYANT 548D090 Constant Volume Draw -Through 855 0.20 77.0% 100.0% none BRYANT 548D120 Constant Volume Draw -Through 855 0.20 77.0%1100.0% none BRYANT 548D102 Constant Volume Draw -Through 855 0.20 77.0% 100.0% none BDP CO.561AJ060-' Constant Volume Blow -Through 2,210 0.75 77.0% 100.0% none EnergyPro 3.1 By EnergySoft User Number: 5289 Job Number: 01-2002 Page: 16 of 80 MECHANICAL EQUIPMENTSUMMARY Part 2 of 2 MECH-21 PROJECT NAME ' LG'S PRIME STEAKHOUSE DATE 9i8ii00i Min. CFM FAN SUMMARY Motor Drive CFM I BHP Eff. Eff. I Tvoe Outout EXHAUST FAN EXHAUST FA 'Room Name oty. CFM BHP Motor Eff. Drive Eft. Room Name City. I CFM BHP Motor Eff. Drive Eff. EnergyPro 3.1 By EnergySoft User Number. 5289 Job Number: 01-2002 Pane: 17 of 80 1 MECHANICAL VENTILATION MECH-3 PROJECT NAME PRIME STEAKHOUSE DATE 2/8/2002 MECHANICAL VENTILATION FA ©© a a a© a o 0 0 ZONE/SYSTEM ZONE 1 HVAC 1 ZONE 2 HVAC 2 ZONE 3 HVAC 3 ZONE 4 HVAC 4 ZONE 5 HVAC 5 ONE 6 HVAC 6 ZONE 7 HVAC 7 ZONE 8 HVAC 8 -ZONE 9 HVAC 9 ZONE 10 HVAC 10 AREA BASIS DESIGN OUTDOO AIR CFM COND. AREA (SF) CFM . PER SF MIN. CFM (B'x C) 658 0.38 250 250 444 1,056 0.38 401 401 741 0.38 282 282 500 920 0.38 350 350 1,499 0.38 570 350 629 2,411 0.38. 916 570 1,413 0.38 537 916 916 775 0.38 295 775 0.38 294 954 895 0.38 340 295 233 62 295 294 233 524 294 524 340 604 340 604 OCCUPANCY BASIS NO. CFM MIN. OF PER CFM PEOPLE PERSON (ExF) Total Totwlol Total Total Total Total Total Total Total REWD O.A. tOF D OR G) DESIGN OUTDOO AIR CFM VAV MIN. RATIO TRANS- FER AIR 250 444 250 444 401 713 401 713 282 500 282 500 350 621 350 629 570 1,012 570 1,012 916 916 916 916 537 954 537 954 295 233 62 295 294 233 524 294 524 340 604 340 604 C Minimum Ventilation Rate per Section 121, Table 1-F. E Based on Expected Number of Occupants or at least 50% of Chapter 101997 UBC Occupant Density. I Must be greater than or equal to H, or use Transfer Air. Design Outdoor Air includes ventilation from Supply Air System & Room Exhaust Fans. K Must be greater than or equal to (H minus l), and, for VAV, greater than or equal to (H -J). I EnergyPro 3.1 By EnergySoft User Number: 5289 Job Number. 01-2002 Pane: 18 of 80 1 MECHANICAL SIZING AND FAN POWER MECH-4 PROJECT NAME DATE LG'S PRIME STEAKHOUSE 2/8/2002 SYSTEM NAME FLOOR AREA HVAC 1 658 NOTE: Provide one copy of this form for each mechanical system when using the Prescriptive Approach. SIZING AND EQUIPMENT SELECTION 1. DESIGN CONDITIONS: OUTDOOR DRY BULB TEMPERATURE OUTDOOR WET BULB TEMPERATURE - INDOOR, DRY BULB TEMPERATURE 2. SIZING: - DESIGN OUTDOOR AIR - ROOM LOADS - RETURN VENTED LIGHTING - RETURN AIR DUCTS - RETURN FAN - SUPPLY FAN - SUPPLY DUCTS (APPENDIX C) (APPENDIX C) SEE ASHRAE CHAPTER 8, 1993 OR APPENDIX B i 444 CFM (MECH 3; COLUMN 1) i TOTALS SAFETY / WARM-UP FACTOR MAXIMUM ADJUSTED LOAD (TOTALS FROM ABOVE x SAFETY I WARM-UP FACTOR) 3. SELECTION: INSTALLED EQUIPMENT CAPACITY (ADJUSTED FOR DESIGN CONDITIONS) IF INSTALLED CAPACITY EXCEEDS MAXIMUM ADJUSTED LOAD, EXPLAIN A] FAN DESCRIPTION Supply Fan FBI DESIGN BRAKE HP 0.200 © 0 EFFICIENCY MOTOR I DRIVE 77.0%1 100.0% NOTE: Include only fan systems exceeding 25 HP (see Section 144). Total Fan System Power Demand may not exceed 0.8 Watts/cfm for constant volume systems or 1.25 Watts/cfm for VAV systems. COOLING HEATING 112 OF 26 OF 78 OF 78 OF 72 OF 14,551 21,347 39,390 15,11 0 n/ 1,969 756 0 0 0 0 1,9691 75 57,926 37,973 1.21 1.43 70,090 54,302 01 1 72,7381 Btu / Hr Btu I Hr 0 NUMBER OF FANS 1 PEAK WATTS BxExT46I(CXD 194 CFM (Supply Fans) 855 TOTALS 194 855 TOTAL FAN SYSTEM POWER DEMAND 0.227 WATTS I CFM Col. F / Col. G L_ EnergyPro 3.1 By EnergySoft User Number 5289 Job Number. 01-2002 Page: 19 of 80 1 MECHANICAL SIZING AND FAN POWER MECH-4 PROJECT NAME . DATE LG'S PRIME STEAKHOUSE 2/8/2002 SYSTEM NAME FLOOR AREA HVAC 2 056 NOTE: Provide one copy of this form for each mechanical system when using the Prescriptive Approach. SIZING AND EQUIPMENT SELECTION 1. DESIGN CONDITIONS: - OUTDOOR DRY BULB TEMPERATURE - OUTDOOR WET BULB TEMPERATURE - INDOOR, DRY BULB TEMPERATURE 2. SONG: - DESIGN OUTDOOR AIR - ROOM LOADS - RETURN VENTED LIGHTING - RETURN AIR DUCTS - RETURN FAN - SUPPLY FAN - SUPPLY DUCTS SAFETY/ WARM-UP FACTOR (APPENDIX C) (APPENDIX C) SEE ASHRAE CHAPTER 8, 1993 OR APPENDIX B 713 CFM (MECH 3; COLUMN 1) TOTALS MAXIMUM ADJUSTED LOAD (TOTALS FROM ABOVE x SAFETY / WARM-UP FACTOR) 3. SELECTION: INSTALLED EQUIPMENT CAPACITY (ADJUSTED FOR DESIGN CONDITIONS) IF INSTALLED CAPACITY EXCEEDS MAXIMUM ADJUSTED LOAD, EXPLAIN FA-] FAN DESCRIPTION Fan FB] DESIGN BRAKE HP 0.200 © o EFFICIENCY MOTOR I DRIVE 77.0%1 100.0% NOTE: Include only fan systems exceeding 25 HP (see Section 144). Total Fan System Power Demand may not exceed 0.8 Watts/cfm for constant volume systems or 1.25 Watts/cfm for VAV systems. COOLING HEATING 112 of 26 OF 78 of 78 OF 72 of 24,305 855 34,218 34,836 16,14 0 n/ 1,742 80 0 0 0 0 1,74Z 80 62, 701 51,976 1.21 1.43 74 326 75 869 0 1 99,5851 Btu / Hr Btu I Hr FE] NUMBER OF FANS 1 0 PEAK WATTS BxEx748/(CXD 194 FRI CFM (Supply Fans) 855 TOTALS 1 194 855 TOTAL FAN SYSTEM POWER DEMAND 0.227 WATTS / CFM Col. F / Col. G EnergyPro 3.1 By EnergySoft User Number 5289 Job Number. 01-2002 Page: 20 of 80 MECHANICAL SIZING AND FAN POWER MECH,4 PROJECT NAME DATE LG'S PRIME STEAKHOUSE 2/8/2002 SYSTEM NAME FLOOR AREA HVAC 3 741 NOTE: Provide one copy of this form for each mechanical system when using the Prescriptive Approach. 71 SIZING AND EQUIPMENT SELECTION 1. DESIGN CONDITIONS: - OUTDOOR DRY BULB TEMPERATURE -.OUTDOOR WET BULB TEMPERATURE - INDOOR, DRY BULB TEMPERATURE 2. SIZING: - DESIGN OUTDOOR AIR - ROOM LOADS - RETURN VENTED LIGHTING - RETURN AIR DUCTS - RETURN FAN - SUPPLY FAN - SUPPLY DUCTS SAFETY / WARM-UP FACTOR (APPENDIX C) (APPENDIX C) SEE ASHRAE CHAPTER 8,1993 OR APPENDIX B 5OO CFM (MECH 3; COLUMN 9 TOTALS MAXIMUM ADJUSTED LOAD (TOTALS FROM ABOVE x SAFETY / WARM-UP FACTOR) 3. SELECTION: INSTALLED EQUIPMENT CAPACITY (ADJUSTED FOR DESIGN CONDITIONS) .IF INSTALLED CAPACITY EXCEEDS MAXIMUM ADJUSTED LOAD, EXPLAIN _ COOLING HEATING 112 OF 26 OF 78 OF 78 OF 72 OF 17,200 24,086 30,388 13,54 0 n/ 1,519 67 0 0 0 0 1,5191 1 67 50,651 38,989 1.21 1.43 61,288 55,754 01 1 92, 706 Btu/Hr Btu/Hr FAN POWER CONSUMPTION FA] a a o [k] a DESIGN EFFICIENCY NUMBER PEAK WATTS CFM FAN DESCRIPTION BRAKE HP MOTOR DRIVE OF FANS B x E x 746/(C X D) (Supply Fans) Supply Fan 0.200 77.0% 100.0% 1 194 855 TOTALS 194855 11 NOTE: Include only fan systems exceeding 25 HP (see Section 144). Total Fan System Power Demand may not exceed 0.8 Watts/cfm for TOTAL FAN SYSTEM constant volume systems or 1.25 Watts/cfm for VAV systems. POWER DEMAND 0.227 WATTS / CFM Col. F I Col. G Em WPro 3.1 By EnergySoR User Number 5289 Job Number: 01-2002 Page: 21 of 80 MECHANICAL SIZING AND FAN POWER MECH-4 PROJECT NAME DATE LG'S PRIME STEAKHOUSE . 2/8/2002 SYSTEM NAME FLOOR AREA HVAC 4 920 NOTE: Provide one copy of this form for each mechanical system when using the Prescriptive Approach. SIZING AND EQUIPMENT SELECTION 1. DESIGN CONDITIONS: - OUTDOOR DRY BULB TEMPERATURE - OUTDOOR WET BULB TEMPERATURE - INDOOR, DRY BULB TEMPERATURE 2. SIZING: - DESIGN OUTDOOR AIR - ROOM LOADS - RETURN VENTED LIGHTING - RETURN AIR DUCTS - RETURN FAN - SUPPLY FAN SUPPLY DUCTS SAFETY / WARM-UP FACTOR (APPENDIX C) (APPENDIX C) SEE ASHRAE CHAPTER 8, 1993 OR APPENDIX B 62 CFM (MECH 3; COLUMN 1) TOTALS MAXIMUM ADJUSTED LOAD (TOTALS FROM ABOVE x SAFETY / WARM-UP FACTOR) 3. SELECTION: INSTALLED EQUIPMENT CAPACITY (ADJUSTED FOR DESIGN CONDITIONS) IF INSTALLED CAPACITY EXCEEDS MAXIMUM ADJUSTED LOAD, EXPLAIN — 131 FAN DESCRIPTION Fan Fs -1 DESIGN BRAKE HP 0.200 © o EFFICIENCY MOTOR DRIVE 77.0% 100.0% NOTE: Include only fan systems exceeding 25 HP (see Section 144). Total Fan System Power Demand may not exceed 0.8 Watts/cfm for constant volume systems or 1.25 Watts/cfm for VAV systems. COOLING HEATING 112 OF 26 OF 78 OF 78 OF 72 OF 21,842 30,320 17,046 2135 0 n/ 852 10 0 0 0 0 854 1 10 40,609 32,668 1.21 1.43 49 137 46,715 . 0 128, 670 Btu I Hr Btu / Hr 0 NUMBER OF FANS 1 0 PEAK WATTS BxEx7461(CXD 194 FRI CFM (Supply Fans) 855 TOTALS 19411 855 TOTAL FAN SYSTEM POWER DEMAND 0.227 WATTS / CFM Col. F I Col. G EnergyPm 3.1 By EnergySoft User Number 5289 Job Number. 01-2002 Page: 22 of 80 1 MECHANICAL SIZING AND FAN POWER MECH-4 PROJECT NAME DATE LG'S PRIME STEAKHOUSE 2/8/2002 SYSTEM NAME FLOOR AREA HVAC 5 1,499 NOTE: Provide one copy of this form for each mechanical system when using the Prescriptive Approach. SIZING AND EQUIPMENT SELECTION 1. DESIGN CONDITIONS: - OUTDOOR DRY BULB TEMPERATURE - OUTDOOR WET BULB TEMPERATURE - INDOOR, DRY BULB TEMPERATURE 2. SONG: - DESIGN OUTDOOR AIR - ROOM LOADS - RETURN VENTED LIGHTING - RETURN AIR DUCTS - RETURN FAN - SUPPLY FAN - SUPPLY DUCTS (APPENDIX C) (APPENDIX C) SEE ASHRAE CHAPTER 8, 1993 OR APPENDIX 1 O12 CFM (MECH 3; COLUMN 1) i TOTALS SAFETY / WARM-UP FACTOR MAXIMUM ADJUSTED LOAD (TOTALS FROM ABOVE x SAFETY / WARM-UP FACTOR) 3. SELECTION: INSTALLED EQUIPMENT CAPACITY (ADJUSTED FOR DESIGN CONDITIONS) IF INSTALLED CAPACITY EXCEEDS MAXIMUM ADJUSTED LOAD, EXPLAIN A] FAN DESCRIPTION Supply Fan DESIGN BRAKE HP 0.200 EFFICIENCY MOTOR I DRIVE 77.0%1 100.0% NUMBER OF FANS 1 COOLING HEATING 112 OF 26 OF 78 OF 78 OF 72 OF 32,873 48,532 63,135 16,85 0 n/ 3,157 84 0 0 0 3,15 84 102, 322 67,0771 1.21 1.43 123,809 95,920 01 1 118, 053 Btu / Hr Btu I Hr 0� PEAK WATTS BxEx7461(CXD 194 CFM (Supply Fans) 855 194 855 NOTE: Include only fan systems exceeding 25 HP (see Section 144). TOTALS Total Fan System Power Demand may not exceed 0.8 Watts/cfm for TOTAL FAN SYSTEM constant volume systems or 1.25 Watts/cfm for VAV systems. POWER DEMAND 0.227 WATTS /. CFM Col. F / Col. G EnergyPm 3.1 By EnergySoft User Number 5289 Job Number: 01-2002 Page: 23 of 80 MECHANICAL SIZING AND FAN POWER MECH-4 PROJECT NAME DATE LG'S PRIME STEAKHOUSE 2/8/2002 SYSTEM NAME FLOOR AREA HVAC 6 2,411 NOTE: Provide one copy of this form for each mechanical system when using the Prescriptive Approach. SIZING AND EQUIPMENT SELECTION 1. DESIGN CONDITIONS: - OUTDOOR DRY BULB TEMPERATURE - OUTDOOR WET BULB TEMPERATURE - INDOOR, DRY BULB TEMPERATURE 2. SIZING: - DESIGN OUTDOOR AIR - ROOM LOADS - RETURN VENTED LIGHTING - RETURN AIR DUCTS - RETURN FAN - SUPPLY FAN - SUPPLY DUCTS SAFETY / WARM-UP. FACTOR (APPENDIX C) (APPENDIX C) SEE ASHRAE CHAPTER 8,1993 OR APPENDIX B F776_16 CFM (MECH 3; COLUMN 1) TOTALS MAXIMUM ADJUSTED LOAD (TOTALS FROM ABOVE x SAFETY / WARM-UP FACTOR) 3. SELECTION: INSTALLED EQUIPMENT CAPACITY (ADJUSTED FOR DESIGN CONDITIONS) IF INSTALLED CAPACITY EXCEEDS MAXIMUM ADJUSTED LOAD, EXPLAIN _ A❑ FAN DESCRIPTION Supply Fan DESIGN BRAKE HP 0.200 © 0 EFFICIENCY MOTOR I DRIVE 77.0%1 100.0% NOTE: Include only fan systems exceeding 25 HP (see Section 144). Total Fan System Power Demand may not exceed 0.8 Watts/cfin for constant volume systems or 1.25 Watts/cfm for VAV systems. COOLING HEATING 112 of 26 OF 78 of 78 of 72 OF 30,001 43,986 58,750 16,14 0 n/ 2,937 80 0 0 0 2,93T 80 94, 629 61,747 1.21 1.43 114, 501 88, 298 0 104,164 Btu I Hr Btu I Hr NUMBER OF FANS 1 . ❑F PEAK WATTS BxEx7461(CXD 194 a CFM (Supply Fans) 855 TOTALS 1 19411 855 TOTAL FAN SYSTEM POWER DEMAND 0.227 WATTS / CFM Col. F / Col. G EnergyPro 3.1 By EnergySoft User Number 5289 Job Number: 01-2002 Page: 24 of 80 MECHANICAL SIZING AND FAN POWER MECH-4 PROJECT NAME DATE LG'S PRIME STEAKHOUSE 2/8/2002 SYSTEM NAME FLOOR AREA HVAC 7 1,413 NOTE: Provide one copy of this form for each mechanical system when using the Prescriptive Approach. SIZING AND EQUIPMENT SELECTION 1. DESIGN CONDITIONS: - OUTDOOR DRY BULB TEMPERATURE - OUTDOOR WET BULB TEMPERATURE - INDOOR, DRY BULB TEMPERATURE 2. SIZING: - DESIGN OUTDOOR AIR - ROOM LOADS - RETURN VENTED LIGHTING - RETURN AIR DUCTS - RETURN FAN - SUPPLY FAN - SUPPLY DUCTS SAFETY/ WARM-UP FACTOR (APPENDIX C) (APPENDIX C) SEE ASHRAE CHAPTER 8, 1993 OR APPENDIX B 954 CFM (MECH 3; COLUMN 9 TOTALS MAXIMUM ADJUSTED LOAD (TOTALS FROM ABOVE x SAFETY / WARM-UP FACTOR) 3. SELECTION: INSTALLED EQUIPMENT CAPACITY (ADJUSTED FOR DESIGN CONDITIONS) IF INSTALLED CAPACITY EXCEEDS MAXIMUM ADJUSTED LOAD, EXPLAIN — FA FAN DESCRIPTION Fan .a DESIGN BRAKE HP 0.200 © a EFFICIENCY MOTOR I DRIVE 77.0%1 100.0% COOLING HEATING 112 OF 26 OF 78 OF 78 OF 72 OF 32,497 46,156 36,049 9,53 0 n/ 1,802 47 0 0 0 0 1,80 47 72,152 56,645 1.21 1.43 87 304 81 003 01 1 138, 886 Btu I Hr Btu I Hr 0 NUMBER OF FANS 1 ❑F PEAK WATTS BxEx748/(CXD 194 CFM (Supply Fans) 855 TOTALS 19411 855 NOTE: Include only fan systems exceeding 25 HP (see Section 144). Total Fan System Power Demand may not exceed 0.8 Watts/cfm for TOTAL FAN SYSTEM constant volume systems or 1.25 Watts/cfm for VAV systems. POWER DEMAND 0.227 WATTS I CFM Col. F / Col. G EnergyPro 3.1 By EnergySoR User Number 528.9 Job Number. 01-2002 Page: 25 of 80 MECHANICAL SIZING AND FAN POWER MECH-4 PROJECT NAME DATE LG'S PRIME STEAKHOUSE 2/8/2002 SYSTEM NAME FLOOR AREA HVAC 8 75 NOTE: Provide one copy of this form for each mechanical system when using the Prescriptive Approach. SIZING AND EQUIPMENT SELECTION 1. DESIGN CONDITIONS: - OUTDOOR DRY BULB TEMPERATURE - OUTDOOR WET BULB TEMPERATURE - INDOOR, DRY BULB TEMPERATURE 2. SIZING: - DESIGN OUTDOOR AIR' - ROOM LOADS - RETURN VENTED LIGHTING - RETURN AIR DUCTS - RETURN FAN - SUPPLY FAN - SUPPLY DUCTS SAFETY I WARM-UP FACTOR (APPENDIX C) (APPENDIX C) SEE ASHRAE CHAPTER 8,1993 OR APPENDIX B 2331 CFM (MECH 3;.COLUMN 1) TOTALS MAXIMUM ADJUSTED LOAD (TOTALS FROM ABOVE x SAFETY I WARM-UP FACTOR) 3. SELECTION: INSTALLED EQUIPMENT CAPACITY (ADJUSTED FOR DESIGN CONDITIONS) IF INSTALLED CAPACITY EXCEEDS MAXIMUM ADJUSTED LOAD, EXPLAIN — 0 FAN DESCRIPTION Fan DESIGN BRAKE HP 0.200 EFFICIENCY MOTOR DRIVE 77.0% 100.0% NOTE: Include only fan systems exceeding 25 HP (see Section 144). Total Fan System Power Demand may not exceed 0.8 Watts/cf n for constant volume systems or 1.25 Watts/cfm for VAV systems. COOLING HEATING 112 OF 26 OF 78 OF 78 OF 72 OF 8,219 11.3001 14,520 6,481 0 n/ 726 32 0 0 0 0 7261 32 24,1911 18,428 1.21 1.43 29 271 26,353 01 1 83,898 Btu IHr Btu IHr !EJ NUMBER OF FANS 1 ❑F PEAK WATTS BxEx '461(CXD 194 EGI CFM (Supply Fans) 855 TOTALS 1 194 8,551 TOTAL FAN SYSTEM POWER DEMAND 0.227 WATTS / CFM Col. F I Col. G EnergyPro 3.1 By EnewSoft User Number 5289 Job Number. 01-2002 Page: 26 of 80 MECHANICAL SIZING AND FAN POWER MECH-4 PROJECT NAME DATE LG'S PRIME STEAKHOUSE 2/8/2002 SYSTEM NAMEHVAC FLOOR AREA 9 75 NOTE: Provide one copy of this form for each mechanical system when using the Prescriptive Approach. SIZING AND EQUIPMENT SELECTION 1. DESIGN CONDITIONS: - OUTDOOR DRY BULB TEMPERATURE - OUTDOOR WET BULB TEMPERATURE - INDOOR, DRY BULB TEMPERATURE 2. SIZING: - DESIGN OUTDOOR AIR - ROOM LOADS - RETURN VENTED LIGHTING - RETURN AIR DUCTS - RETURN FAN - SUPPLY FAN - SUPPLY DUCTS SAFETY / WARM-UP FACTOR (APPENDIX C) (APPENDIX C) SEE ASHRAE CHAPTER 8, 1993 OR APPENDIX B 524 CFM (MECH 3; COLUMN 1) i . TOTALS MAXIMUM ADJUSTED LOAD (TOTALS FROM ABOVE x SAFETY / WARM-UP FACTOR) 3. SELECTION: INSTALLED EQUIPMENT CAPACITY (ADJUSTED FOR DESIGN CONDITIONS) IF INSTALLED CAPACITY EXCEEDS MAXIMUM ADJUSTED LOAD, EXPLAIN FA] FAN DESCRIPTION Fan DESIGN BRAKE HP 0.200 EFFICIENCY MOTOR I DRIVE 77.0%1 100.0% NOTE: Include only fan systems exceeding 25 HP (see Section 144). Total Fan System Power Demand may not exceed 0.8 Watts/cfm for constant volume systems or 1.25 Watts/cfm for VAV systems. COOLING HEATING 112 OF 26 OF 78 OF 78 OF 72 OF 16,445 24,581 63,171 34,39 .0 n/ 3,159 1,720 0 0 0 [E 0 3,159 1,72 85,933 62,417 1.21 1.43 103, 979 89 257 0 93,7371 Btu / Hr Btu / Hr 0 NUMBER OF FANS 1 u PEAK WATTS BxEx748/(CXD 1 1941 CFM (Supply Fans) 855 TOTALS 1 19411 855 TOTAL FAN SYSTEM POWER DEMAND 0.227 WATTS I CFM Col. F / Col. G EnergyPro 3.1 By EnergySoR User Number 5289 Job Number. 01-2002 Page: of 80 1 MECHANICAL SIZING AND FAN POWER MECH-4 PROJECT NAME DATE LG'S PRIME STEAKHOUSE 2/8/2002 SYSTEM NAME FLOOR AREA HVAC 10 895 NOTE: Provide one copy of this form for each mechanical system when using the Prescriptive Approach. SIZING AND EQUIPMENT SELECTION 1. DESIGN CONDITIONS: - OUTDOOR DRY BULB TEMPERATURE - OUTDOOR WET BULB TEMPERATURE - INDOOR, DRY BULB TEMPERATURE 2. SIZING: - DESIGN OUTDOOR AIR - ROOM LOADS - RETURN VENTED LIGHTING - RETURN AIR DUCTS - RETURN FAN - SUPPLY FAN - SUPPLY DUCTS SAFETY / WARM-UP FACTOR (APPENDIX C) (APPENDIX C) SEE ASHRAE CHAPTER 8,1993 OR APPENDIX B 604 CFM (MECH 3; COLUMN 1) TOTALS MAXIMUM ADJUSTED LOAD (TOTALS FROM ABOVE x SAFETY / WARM-UP FACTOR) 3. SELECTION: INSTALLED EQUIPMENT CAPACITY (ADJUSTED FOR DESIGN CONDITIONS) IF INSTALLED CAPACITY EXCEEDS MAXIMUM ADJUSTED LOAD, EXPLAIN v❑ FAN DESCRIPTION Supply Fan DESIGN BRAKE HP 0.750 F_61 o EFFICIENCY MOTOR I DRIVE 77.0%1 100.0% NOTE: Include only fan systems exceeding 25 HP (see Section 144). Total Fan System Power Demand may not exceed 0.8 Watts/cfm for constant volume systems or 1.25 Watts/cfm for VAV systems. RE] NUMBER OF FANS 1 COOLING HEATING 112 OF 26 OF 78 OF 78 OF 72 OF 21,646 28,691 15,534 64,60 0 n/ 777 3,230 0 0 0 0 77 3,23 38,743 9953 1.21 1.43 46 879 142,646 42,877 89,000 Btu / Hr Btu I Hr 0 PEAK WATTS 8x Ex7461(CXD 727 CFM (Supply Fans) 2,210 TOTALS 1 727 2 210 TOTAL FAN SYSTEM POWER DEMAND 0.329 WATTS / CFM Col. F / Col. G EnergyPro 3.1 By EnergySoft User Number 5289 Job Number. 01-2002 Page: 28 of 80 MECHANICAL MANDATORY MEASURES Part 1 of 2 MECH-MM NAME PRIME STEAKHOUSE DATE 2/8/2002- DESCRIPTION /8/2002. DESCRIPTION Designer Enforcement Equipment and Systems Efficiencies ❑ §1i1 Any appliance for which there is a California standard established in the Appliance Efficiency Regulations will comply with the applicable standard. ❑ § 115(a) Fan type central furnaces shall not have a pilot light. E§ 123 Piping, except that conveying fluids at temperatures between 60 and 105 degrees Fahrenheit, or within HVAC equipment, shall be insulated in accordance with Standards Section 123. ❑ § 124 Air handling duct systems shall be installed and Insulated in compliance with Sections 601, 603 and 604 of the Uniform Mechanical Code. Controls § 122(e) Each space conditioning system shall be installed with one of the following: ❑ § 122(e)1A Each space conditioning system serving building types such as offices and manufacturing facilities (and all others not explicitly exempt from the requirements of Section 112 (d)) shall be installed with an automatic time switch with an accessible manual override that allows operation of the system during off -hours for up to 4 hours. The time switch shall be capable of programming different schedules for weekdays and weekends; incorporate an automatic holiday "shut- off" feature that turns off all loads for at least 24 hours, then resumes the normally scheduled operation; and has program backup capabilities that prevent the loss of the device's program and time setting for at least 10 hours It power is Interrupted; or § 122(e)1 B An occupancy sensor to control the operating period of the system; or § 122(e)1C A 4 -hour timer that can be manually operated to control the operating period of the system. ❑ 4122(e)2 Each space conditioning system shall be installed with controls that temporarily restart and temporarily operate the system as required to maintain a setback heating and/or a setup cooling thermostat setpoint. § 122(8) Each space conditioning system serving multiple zones with a combined conditioned floor area more than 25,000 square feet shall be provided with isolation zones. Each zone: shall not exceed 25,000 square feet; shall be provided with isolation devices, such as valves or dampens, that allow the supply of heating or cooling to be setback or shut off independently of other isolation areas; and shall be controlled by a time control device as described above. § 122(a&b) Each space conditioning system shall be controlled by an individual thermostat that responds to temperature within the zone. Where used to control heating, the control shall be adjustable down to 55 degrees F or lower. For cooling, the control shall be adjustable up to 85 degrees F or higher. Where used for both heating and cooling, the control shall be capable of providing a deadband of at least 5 degrees F within which the supply of heating and cooling is shut off or reduced to a minimum. § 122(c) Thermostats shall have numeric setpoints in degrees Fahrenheit (F) and adjustable setpoint stops accessible only to authorized personnel. § 112(b) Heat pumps shall be installed with controls to prevent electric resistance supplementary heater operation when the heating load can be met by the heat pump alone. EnergyPro 3.1 By EnergySoft User Number. 5289 Job Number: 01-20022 Page: 29 of 80 MECHANICAL MANDATORY MEASURES Part 2 of 2 MECH-MM NAME LG'S PRIME STEAKHOU DATE 2/8/2002 Description Designer Enforcement Ventilation F] § 121(e) Controls shall be provided to allow outside air dampers or devices to be operated at the ventilation rates as specified on these plans. § 122(f) Gravity or automatic dampers interlocked and closed on fan shutdown shall be provided on the outside air Intakes and discharges of all space conditioning and exhaust systems. § 122(f) All gravity ventilating systems shall be provided with automatic or readily accessible manually operated dampers In all openings to the outside, except for combustion air openings. § 121(f)i Air Balancing: The system shall be balanced in accordance with the National Environmental Balancing Bureau (NEBB) Procedural Standards (1983), or Associated Air Balance Council (AABC) National Standards (1989); or ❑ § 121(f)2 Outside Air Certification: The system shall provide the minimum outside air as shown on the mechanical drawings, and shall be measured and certified by the , installing licensed C-20 mechanical contractor and certified by (1) the design mechanical engineer, (2) the installing licenced C-20 mechanical contractor, or (3) the person with overall responsibility for the design of the ventilation system; or ❑ § 121(f)3 Outside Air Measurement: The system shall be equipped with a calibrated local or remote device capable of measuring the quantity of outside air on a continuous basis and displaying that quantity on a readily accessible display divice; or § 121(f)4 Another method approved by the Commission. Service Water Heating Systems § 113(b)2 If a circulating hot water system is Installed, it shall have a control capable of automatically turning off the circulating pump(s) when hot water is not required. § 113(b)3B Lavatories in restrooms of public facilities shall be equipped with controls to limit the outlet temperature to 110 degrees F. § 113(b)3C Lavatories In restrooms of public facilities shall be equipped with one of the following: Outlet devices that limit the flow of hot water to a maximum of 0.5 gallons per minute. Foot actuated control valves, and outlet devices that limit the flow of hot water to a maximum of 0.75 gallons per minute. Proximity sensor actuated control valves, and outlet devices that limit the flow of hot water to a maximum of 0.75 gallons per minute. Self-closing valves, and outlet devices that limit the flow of hot water to a maximum of 2.5 gallons per minute, and 0.25 gallons/cycle (circulating system). Self-closing valves, and outlet devices that limit the flow of hot water to a maximum of 2.5 gallons per minute, and 0.50 gallons/cycle (non -circulating system). Self-closing valves, and•outlet devices that limit the flow of hot water to a maximum of 2.5 gallons per minute, and 0.75 gallons/cycle (foot switches and proximity sensor controls). EnergyP. 3.1 By EnergySoft User Number: 5289 Job Number: 01-2002 'Page: 30 of 80 HVAC SYSTEM HEATING AND COOLING LOADS SUMMARY PROJECT NAME DATE LG'S PRIME STEAKHOUSE 2/8/2002 SYSTEM NAME FLOOR AREA HVAC 1 658 26.0 of Outside Air 444 cfm 71.2 of 11.0 / 77.6 of Outside Air 444 cfm 80.2/66.2 of 47.7 of Total Room Loads Return Vented Lighting Return Air Ducts Return Fan Ventilation Supply Fan Supply Air Ducts I TOTAL SYSTEM LOAD COIL COOLING PEAK COIL HTG. PEAK CFM I Sensiblel Latent CFM I Sensible 1,779 39,390 9,888 259 15,115 0 1,969 756 0 0 444 14,551 4,795 444 21,347 0 0 1,969 756 57,9261 14,6831 37 973 BRYANT 548D072 0 87,410 72,738 Total Adjusted System Output0 87,410 72,738 (Adjusted for Peak Design Conditions) TIME OF SYSTEM PEAK I Jul 4 pmt I Jan 12 am 127.6 of Heating Coil -Q-9f Supply Fan 855 cfm 127.6 of —i Supply Air Ducts 126.8 of ROOMS 72.0 of >% Retum Air Ducts `S 96.2 / 72.4 of 55.0 / 53.3 of Cooling Coil -�y Supply Fa 855 cfm 55.0 / 53.3 of Supply Air Ducts Fan 57.2 / 54.2 of 51.7% R.H. ROOMS 78.0 / 65.5 of h Retum Air Ducts `S Energ Pro 3.1 By EnergySoft User Number: 5289 Job Number: 01-2002 Page: 31 of 80 WAC SYSTEM HEATING AND COOLING LOADS SUMMARY PROJECT NAME DATE LG'S PRIME STEAKHOUSE 2/8/2002 SYSTEM NAME FLOOR AREA HVAC 2 1,056 Number of Systems 1 Heating System Output per System 90,000 Total Output (Btuh) 90,000 Output (Btuh/sgft) 852 Cooling System Output per System 72,000 Total Output (Stuh) 72,000 Total Output (Tons) 6.0 Total Output (Btuh/sqft) 682 Total Output (sgft/Ton) 176.0 Air System CFM per System 855 Airflow (cfm) 855 Airflow (cfm/sgft) 0.81 Airflow (cfm/Ton) 142.5 Outside Air (%) 83.4 Outside Air (cfrn/sgft) 0.68 Note: values above given at ARI conditions Total Room Loads Return Vented Lighting Return Air Ducts Return Fan Ventilation Supply Fan Supply Air Ducts TOTAL SYSTEM LOAD COIL COOLING PEAK ' COIL HTG. PEAK CFM Sensible Latent CFM I Sensible 1,55 34,836 15,870 409 16,144 110.OoF 0 Sup ly Air Ducts 1,742 807 0 0 713 24,305 3,364 713 34,218 0 1,742 Heating Coil 0 807 62,7d 19.2341 F-----51,9761 BRYANT 548DO90 0 93,780 99,585 Total Adjusted System Outputo 93,780 99,585 (Adjusted for Peak Design Conditions) TIME OF SYSTEM PEAK I Aug 3 pml I Jan 12 am EATING SYSTEM PSYCHROMETRICS Airstream Temperatures at Time of Heating Peak 26.0 OF 33.5 OF 110.OoF 110.0 OF Sup ly Air Ducts ® Outside Air 713 cfm 109.1 °F Heating Coil Supply Fan 855 cfm ROOMS 72.0 of 71.1 °F I Return Air Ducts COOLING SYSTEM PSYCHROMETRICS Airstream Temperatures at Time of Coolin Peak 112.0 / 77.9 of 106.7 / 76.2 of 55.0 / 52.9 of 55.0 / 52.9 of 311 ® Supply Air Ducts Outside Air 713 cfm Cooling Coil Supply Fan 57.0 / 53.7 of 855 cfm ROOMS 57.7% R.H. of 78.0 167.2 of 80.0/67.8 T, Retum Air Ducts -1< EnergyPro 3.1 By EnergySoft User Number. 5289 Job Number. 01-2002 Page: 32 of 80 1HVAC SYSTEM HEATING AND COOLING LOADS SUMMARY PROJECT NAME DATE LG'S PRIME STEAKHOUSE 2/8/2002 SYSTEM NAME FLOOR AREA HVAC 3 741 Total Room Loads Return Vented Lighting Return Air Ducts Return Fan Ventilation I Supply Fan 1 Supply Air Ducts TOTAL SYSTEM LOAD COIL COOLING PEAK COIL HTG. PEAK CFM ISensiblel Latent I CFM Fensible 1,340 30,388 19,136 342 13,548 0 1,519 677 01 0 500 17,200 4,756 500 24,086 0 0 1,519 677 50 65 15.8921 F7738 989 BRYANT 548D090 0 89,006 92,706 Total Adjusted System Output- �— 89 006 92 706 (Adjusted for Peak Design conditions) TIME OF SYSTEM PEAK Aug 3m Jan 12 am . EATING SYSTEM PSYCHROMETRICS Airstream Temperatures at Time of Heating Peak 26.0 OF 44.8 OF 110.0 °F 110.0 OF .01 ® Sup ly Air Ducts Outside Air 500 cfm 109.3 OF Heating Coil Supply Fan 855 cfm ROOMS 72.0 OF 71.3 OF 12.0 / 77.9 OF Outside1� 500 cfm 79.7/66.4 °F 3.1 h Retum Air Ducts i m Temperatures at 98.6 / 73.3 OF 55.0 / 53.2 OF 0 Supply Fan 855 cfm Cooling Coil User Number. 5289 55.0 / 53.2 of Supply Air Ducts 56.7 / 53.9 of 53.0% R.H. ROOMS 78.0 / 65.8 OF h Retum Air Ducts `S Job Number. 01-2002 of 80 HVAC SYSTEM HEATING AND COOLING LOADS SUMMARY PROJECT NAME DATE LG'S PRIME STEAKHOUSE 2/8/2002 SYSTEM NAME FLOOR AREA . HVAC 4 920 [ENGINEERING CHECKS SYSTEM LOAD Number of Systems 1 Heating System Output per System 120,000 Total Output (Btuh) 120,000 Output (Btuh/sgft) 130.4 Cooling System Output per System 120,000 Total Output (Btuh) 120,000 Total Output (Tons) 10.0 FTotal Output (Btuh/sqft) 130.4 Total Output (sgftrron) 92.0 Air System CFM per System 855 Airflow (cfm) 855 Airflow (cfm/sgft) 0.93 Airflow (cfm/Ton) 85.5 Outside Air (%) 72.6 Outside Air (cfm/sgft) 0.68 Note: values above given at ARI conditions 26.0 of Outside Air 621 cfm 71.9 of COIL COOLING PEAK COIL HTG. PEAK CFM I Sensible Latent CFM I Sensible Total Room Loads 1 726 Return Vented Lighting Return Air Ducts Return Fan Ventilation s2 Supply Fan Supply Air Ducts TOTAL SYSTEM LOAD 17,046 13,826 0 852 0 21,842 a,17s 0 852 1 40,60131 18 005 BRYANT 54813120 0 152,973 128,670 Total Adjusted System Output 0 152,973 1 128,670 (Adjusted for Peak Design Conditions) TIME OF SYSTEM PEAK Jul 3 pm Jan 12 am 38.6 of 110.0 of Heating Coil �J Supply Fan 855 cfm 110.0 of Supply Air Ducts 109.9 of ROOMS 72.0 of h Retum Air Ducts "i COOLING SYSTEM PSYCHROMETRICS (Airstream Temperatures at Time of Cooling Peak) 112.0 177.9 of 103.0 / 75.0 of 55.0 / 53.1 of 55.0 / 53.1 of ® Supply Air Ducts Outside Air 621 cfm Cooling Coil Supply Fan 55.9 / 53.5 of 855 cfm 55.7% R.H. ROOMS 78.9/66.9 of 78.0 / 66.6 of Retum Air Ducts Q' ' I EnemvPro 3.1 By EnemySoft User Number: 5289 Job Number. 01-2002 Paae:34 of 80 1 HVAC SYSTEM HEATING AND COOLING LOADS SUMMARY PROJECT NAME DATE LG'S PRIME STEAKHOUSE 2/8/2002 :SYSTEM NAME FLOOR AREA HVAC 5 1 499 [ENGINEERING CHECKS ISYSTEM LOAD Number of Systems 1 Heating System Output per System 102,000 Total Output (Btuh) 102,000 Output (Btuh/sgft) 68.0 Cooling System Output per System 102,000 Total Output (Btuh) 102,000 Total Output (Tons) 8.5 Total Output (Btuh/sgft) 68.0 Total Output (sgftrron) 176.3 Air System CFM per System 855 Airflow (cfm) 855 Airflow (cfm/sgft) 0.57 Airflow (cfm/Ton) 100.6 Outside Air (%) 118.3 Outside Air (cfm/sgft) 0.68 Note: values above given at ARI conditions 26.0 OF outsouts-310 1012 cfm 71.1 OF Total Room Loads Return Vented Lighting Return Air Ducts Return Fan Ventilation Supply Fan r Supply Air Ducts TOTAL SYSTEM LOAD COIL COOLING PEAK COIL HTG. PEAK CFM I Sensible Latent CFM I Sensible 3,038 63,135 22,528 427 16,859 0 3,157 843 0 0 1,01 32,873 -2,546 1,012 48,532 0 0 3,157 843 102,3221 19 983 1 67 077 BRYANT 5481)102 0 136,390 118,053 Total Adjusted System Output 0 136,390 118,053 (Adjusted for Peak Design Conditions) TIME OF SYSTEM PFOK 1 .10 3 nml I .Ian 19 am 26.0 OF 110.0 °F Heating Coil r 110.0°F ® Supply Air Ducts Supply Fan 109.10F 855 cfm ROOMS 72.0 OF Retum Air Ducts I POOLING SYSTEM PSYCHROMETRICS Airstream Temperatures at Time of Cooling Peak 112.0 / 77.9 OF 112.0 / 77.7 OF 55.0 / 52.7 OF 55.0 152.7 OF 310 :4 Outside Air Q Supply Air Ducts 1012 cfm Cooling Coil Supply Fan 58.5 / 54.1 OF 655 cim 64.9% R.H. ROOMS 81.5/70.2 °F 78.0 / 69.2 OF . s I Retum Air Ducts EnergyPro 3.1 By EnergySoft . User Number: 5289 Job Number. 01-2002 Page: 35 of 80 V, ; 1HVAC SYSTEM HEATING AND COOLING LOADS SUMMARY PROJECT NAME DATE LG'S PRIME STEAKHOUSE 2/8/2002 SYSTEM NAME FLOOR AREA HVAC 6 2,411 EATING SYSTEM 26.0 of Outside Air 916 cfm 71.1 of 12.0 177.9 of Outside Air 916 cfm 81.2/74.3 of JL Total Room Loads Return Vented Lighting Return Air Ducts Return Fan Ventilation Supply Fan Supply Air Ducts TOTAL SYSTEM LOAD COIL COOLING PEAK COIL HTG. PEAK CFM I Sensible Latent CFM I Sensible 2,79 58,750 36,237 409 16,147 0 2,937 807 0 0 916 30,001 -17,204 916 43,986 0 0 2,937 807 94,629F 19 034 61 747 BRYANT 548DO90 0 96,275 104,164 Total Adjusted System Output o 96,275 104,164 (Adjusted for Peak Design Conditions) TIME OF SYSTEM PEAK Jul 3 pm I Jan 12 am 'RICS (Airstream Temperatures at Time of Heating Peak) 26.0 of 110.0 of 110.0 of I �v Supply Air Ducts Heating Coil Supply Fan 109.1 of 855 cfm ROOMS 72.0 of 112.0 / 77.7 OF h Return Air Ducts `i 55.0 / 52.7 of 7---& Cooling Coit Supply Fan 855 cfm 55.0 / 52.7 of Supply Air Ducts 58.2 / 54.0 of 80.8% R.H. ROOMS 78.0 / 73.4 of Retum Air Ducts EnergyPro 3.1 By EnergySoft User Number: 5289 Job Number: 01-2002 Page:36 of 80 1HVAC SYSTEM HEATING AND COOLING LOADS SUMMARY PROJECT NAME DATE LG'S PRIME STEAKHOUSE 2/8/2002 SYSTEM NAME FLOOR AREA HVAC 7 1,413 Number of Systems 1 Heating System Output per System 120,000 Total Output (Btuh) 120,000 Output (Stuh/sgft) 84.9 Cooling System Output per System 120,000 Total Output (Btuh) 120,000 Total Output (Tons) 10.0 Total Output (Btuh/sqft) 84.9 Total Output (sgft/Ton) 141.3 Air System CFM per System 855 Airflow (cf n) 855 Airflow (cfm/sgft) 0.61 Airflow (cfm/Ton) 85.5 Outside Air (%) 111.5 Outside Air (cfm/sgft) 0.68 Note: values above given at ARI conditions iEATING SYSTEM PSYCH 26.0 OF ,outside Air 954 cfm 71.5 of TOOLING SYSTEM PSYCH 12.0 / 77.9 of Outside Air 954 cfm 80.0 / 69.4 of Total Room Loads Return Vented Lighting Return Air Ducts Return Fan Ventilation Supply Fan Supply Air Ducts i TOTAL SYSTEM LOAD COIL COOLING PEAK COIL HTG. PEAK CFMJSensIbIe1 239 Latent CFM Sensible 1,61 36,049 29,236 239 9,536 0 1,802 477 0 0 954 32,497 -940 954 46,156 0 0 1,802 477 72152 20,2951 BRYANT 548D120 0 160,458 Total Adjusted System Output o 160,458 (Adjusted for Peak Design Conditions) TIME OF SYSTEM PEAK Aug 3 m 26.0 of ■ 110.0 of Heating Coil Els') Supply Fan 855 cfm 138,886 138,886 Jan 12 am 110.0 OF -�! Supply Air Ducts 109.5 of ROOMS 72.0 of h Retum Air Ducts'4 112.0 / 77.7 of . 55.0 / 52.7 OF, Cooling Coil Supply Fan 855 cfm 55.0 / 52.7 of Supply Air Ducts 57.0 / 53.5 of 63.4% R.H. ROOMS 78.0 / 68.8 of h Retum Air Ducts "i EnergyPro 3.1 By EnergySoft User Number: 5289 Job Number: 01-2002 Page: 37 of 80 a= 1HVAC SYSTEM HEATING AND COOLING LOADS SUMMARY PROJECT NAME DATE LG'S PRIME STEAKHOUSE 2/8/2002 SYSTEM NAME FLOOR AREA HVAC 8 775 Number of Systems 1 Heating System Output per System 90,000 Total Output (Btuh) 90,000 Output (Btuh/sgft) 116.1 Cooling System Output per System 72,000 Total Output (Btuh) 72,000 Total Output (Tons) 6.0 Total Output (Btuh/sgft) 92.9 Total Output (sgftrron) 1292 Air System CFM per System 855 Airflow (cfm) 855 Airflow (cfm/sgft) 1.10 Airflow (cfmfron) 142.5 Outside Air (%) 272 Outside Air (cfm/sgft) 0.30 Note: values above given at ARI conditions Total Room Loads Return Vented Lighting Return Air Ducts Return Fan Ventilation Supply Fan Supply Air Ducts TOTAL SYSTEM LOAD COIL COOLING PEAK COIL HTG. PEAK CFM Sensible Latent CFM I Sensible 615 14,520 5,180 77 6,48 0 726 324 0 0 233 8,219 3,663 233 11,300 0 0 726 324 24,19F 8,8431 18 428 BRYANT 548DO90 0 80,598 83,898 Total Adjusted System Output 0 80,598 83,898 (Adjusted for Peak Design Conditions) TIME OF SYSTEM PEAK I Aug 3 pmt 1 Jan 12 am iEATING SYSTEM PSYCHROMETRICS (Airstream Temperatures at Time of Heating Peak) 26.0 of 59.2 of 151.4 of 151.4 of Sup ly Air Ducts Outside Air 233 cfm Heating Coil Supply Fan 151.1 °F 855 cfm ROOMS 71.6 of 72.0 of Retum Air Ducts 12.0 / 77.9 of Outside Air 233 cfm 78.8/64.2 of 87.8 / 68.3 F 55.0 / 53.5 of Cooling Coil � 'ID) Supply Fan 855 cfm 55.0 / 53.5 of Supply Air Ducts 55.8 / 53.9 of 46.8% R.H. ROOMS 78.0 / 64.0 of h Retum Air Ducts `S EnergyPro 3.1 By EnergySoft User Number: 5289 Job Number: 01-2002 Page: 38 of 80 HVAC SYSTEM HEATING AND COOLING LOADS SUMMARY PROJECT NAME DATE LG'S PRIME STEAKHOUSE 2/8/2002 SYSTEM NAME FLOOR AREA HVAC 9 775 EATING SYSTEM PSYCHROMETRICS Aird 26.0 of 43.1 of Outside Air 524 cfm 70.1 of Total Room Loads Return Vented Lighting Return Air Ducts Return Fan Ventilation Supply Fan Supply Air Ducts i TOTAL SYSTEM LOAD COIL COOLING PEAK COIL HTG. PEAK CFM I Sensiblel Latent CFM I Sensible 3,040 63,171 19,660 895 34,396 0 3,159 1,720 0 0 524 16,445 4,718 524 24,58 0 0 3,159 1,720 85,9331 16,3781 62 417 BRYANT 548DO90 0 89,636 93,737 Total Adjusted System Output o 89,636 93,737 (Adjusted for Peak Design Conditions) TIME OF SYSTEM PEAK Jul 4 pm Jan 12 am Heating Coil �J Supply Fan 855 cfm 110.00F -�OSu ply Air Ducts 108.1 of ROOMS 72.0 of Retum Air Ducts `S :DOLING SYSTEM PSYCHROMETRICS (Airstream Temperatures at Time of Cooling Peak) 11.0 / 77.6 of 99.5 / 73.7 of 55.0153.2 of 55.0 / 53.2 of 30 Supply Air Ducts Outside Air 524 cfm Cooling Coil Supply Fan 58.5 ! 54.6 of 855 cfm 53.5% R.H. ROOMS - 81.5/67.1 of 78.0 66.0 o F h Retum Air Ducts EnergyPro 3.1 By EnergySoft User Number: 5289 Job Number: 01-2002 Page: 39 of 80 1HVAC SYSTEM HEATING AND COOLING LOADS SUMMARY PROJECT NAME DATE LG'S PRIME STEAKHOUSE 2/8/2002 SYSTEM NAME FLOOR AREA HVAC 10 895 NGINEERING CHECKS SYSTEM LOAD Number of Systems 1 Heating System Output per System 89,000 Total Output (Btuh) 89,000 Output (Btuhlsgft) 99.4 Cooling System Output per System 57,000 Total Output (Btuh) 57,000 Total Output (Tons) 4.8 Total Output (Btuh/sgft) 63.7 Total Output (sgft/ron) 188.4 Air System CFM per System 2,210 Airflow (cfm) 2,210 Airflow (cfm/sgft) 2.47 Airflow (cfm/Ton) 465.3 Outside Air (%) 27.3 Outside Air (cfm/sgft) 0.68 Note: values above given at ARI conditions 26.0 OF 3} Outside Air 604 cfm 70.6 OF 12.0 / 77.9 OF )� Outside Air 604 cfm 78.3/71.5 0 F 3.1 Total Room Loads Return Vented Lighting Return Air Ducts Return Fan Ventilation Supply Fan Supply Air Ducts TOTAL SYSTEM LOAD COIL COOLING -PEAK COIL HTG. PEAK CFM I Sensiblel Latent CFM I Sensible 1,74 15,534 13,452 2,651 64,60 0 777 3,230 0 0 604 21,646 -6,632 604 28,69 0 777 0 3,230 38,7431 6,8201 99 753 BDP CO.561AJ06V 42,877 15,307 89,000 Total Adjusted System Output 42,877 15,307 89,000 (Adjusted for Peak Design Conditions) 58.4 of 58.4 of Supply Fan Heating Coil 2210 cfm TIME OF SYSTEM PEAK I Jul 3 pml I Jan 12 am 96.3 of - K Retum Air Ducts 4 87.5 / 73.3 of 87.5 / 73.3 of 69.3 / 67.2 of Supply Fan Cooling Coil 2210 cfm User Number: 5289 Retum Air Ducts Job Numtber. 01-2002 Supply Air Ducts 94.9 of ROOMS 72.0 of Supply Air Ducts 69.6 / 67.3 of 73.2% R.H. ROOMS 78.0 / 71.4 of 40 of 80 ROOM LOAD SUMMARY PROJECT NAME LG'S PRIME STEAKHOUSE DATE 2/8/2002 SYSTEM NAME HVAC 1 FLOOR AREA 658 ROOM LOAD SUMMARY ROOM COOLING PEAK COIL COOLING PEAK COIL HTG. PEAK ZONE NAME ROOM NAME Mutt. CFM SENSIBLE LATENTCFM SENSIBLE LATENT CFM SENSIBLE ZONE 1 DINING 1 1 1,799 39,849 9,888 1 779 39,390 9,888 259 15,115 I PAGE TOTAL 1 1,779 39,390 9,888 259 15,115 TOTAL 1 1,779 39,390 9,888 259 15,115 EnergyPro 3.1 By EnergySoft User Number: 5289 Job Number. 01-2002 Page: 41 of 80 ROOM LOAD SUMMARY PROJECT NAME LG'S PRIME STEAKHOUSE DATE 2/8/2002 SYSTEM NAME HVAC 2 FLOOR AREA 1,056 ROOM LOAD SUMMARY ROOM COOLING PEAK COIL COOLING PEAK COIL HTG. PEAK ZONE NAME ROOM NAME Mult. CFM SENSIBLE LATENT CFM SENSIBLE LATENT CFM SENSIBLE ZONE 2 BAR AREA 1 1,590 35,601 15 870 1 556 34,836 15,870 409 16,144 PAGE TOTAL 1 1,556 34,836 15,670 409 16,144 TOTAL 1 1,556 34,836 15,870 409 16,144 EmwgyPro 3.1 5y Ene19y5oft User Number. 5289 Job Number. 01-2002 Page: 42 of 80 ROOM LOAD SUMMARY PROJECT NAMEDATE LG'S PRIME STEAKHOUSE 2/8/2002 SYSTEM NAME HVAC 3 FLOOR AREA 741 ROOM LOAD SUMMARY ROOM COOLING PEAK COIL COOLING PEAK COIL HTG. PEAK ZONE NAME ROOM NAME Mult. CFM SENSIBLE LATENT CFM SENSIBLE LATENT CFM SENSIBLE ZONE 3 RECEPTION & BAR 1 1,350 30,630 11,136 1,340 30,388 11,136 342 13,548 F • ' I PAGE TOTAL 1 1,340 30,388 11,136 342 13,548 TOTAL 1 1,340 30,386 11136 342 13,548 EneMyPro 3.1 By EneWSoft User Number. 5289 Job Number: 01-2002 Page: 43 of 80 ROOM LOAD SUMMARY PROJECT NAME DATE LG'S PRIME STEAKHOUSE 2/8/2002 SYSTEM NAME FLOOR AREA HVAC 4 920 LOAD SUMMARY PAGE TOTAL TOTAL ROOM COOLING PEAK COIL COOLING PEAK COIL HTG. PEAK ZONE NAME ROOM NAME MuR. CFM I SENSIBLE LATENT CFM SENSIBLE LATENT CFM SENSIBLE ZONE 4 SKYLIGHT DINING 1 733 17 12 13,826 726 17,046 13,826 53 2135 PAGE TOTAL TOTAL 1 7261 17,046 13,826 53 2,135 1 726 17,046 13,826 53 2,135 EnergyPro 3.1 By EnergySoft User Number. 5289 Job Number: 01-2002 P2ge:44 of 80 ROOM LOAD SUMMARY PROJECT NAME DATE LG'S PRIME STEAKHOUSE 2/8/2002 SYSTEM NAME FLOOR AREA HVAC 5 1,4 9-7 ROOM LOAD SUMMARY ROOM COOLING PEAK COIL COOLING PEAK COIL HTG. PEAK ZONE NAME ROOM NAME Mult. CFM SENSIBLE LATENT CFM SENSIBLE LATENT CFM SENSIBLE ZONE 5 DINING ROOM 1 3,038 63,135 22,528 3,038 63,135 22,528 427 16,859 I F . PAGE TOTAL 1 3,038 63,135 22,528 427 16,859 TOTAL 1 3,038 63,135 22,528 427 16,859 EnergyPro 3.1 By EnergySoft User Number. 5289 Job Number: 01-2002 Page:45 --f8-07 ROOM LOAD SUMMARY PROJECT NAME DATE LG'S PRIME STEAKHOUSE 2/8/2002 SYSTEM NAME FLOOR AREA HVAC 6 2,411 ROOM LOAD SUMMARY ROOM COOLING PEAK COIL COOLING PEAK COIL HTG. PEAK ZONE NAME ROOM NAME Mutt. CFM SENSIBLE LATENT CFM SENSIBLE LATENT CFM SENSIBLE ZONE 6 KITCHEN A BATH 1 2,794 58,784 36,237 2,792 58,750 36,237 409 16,147 PAGE TOTAL 1 2,792 58,750 36,237 409 15,147 TOTAL 1 2,792 58,7501 36,237 409 16,147 EnergyPro 3.1 By EnergySott User Number. 5289 Job Number. 01-2002 Page: 46 of 80 ROOM LOAD SUMMARY PROJECT NAME LG'S PRIME STEAKHOUSE DATE 2/8/2002 SYSTEM NAME HVAC 7 FLOOR AREA 1,413 ROOM LOAD SUMMARY ROOM COOLING PEAK COIL COOLING PEAK COIL HTG. PEAK ZONE NAME ROOM NAME Muft. CFM SENSIBLE LATENT CFM SENSIBLE LATENT CFM SENSIBLE ZONE 7 DINING & SERVICE 1 1,612 36,063 21,236 1,612 36,049 21,236 239 9,536 i PAGE TOTAL 1 1,612 36,049 21,236 239 9,536 TOTAL 1 1,612 36,049 21,236 239 9,536 EnergyPro 3.1 By EnergySoft User Number. 5289 Job Number. 01-2002 Page: 47 of 80 ROOM LOAD SUMMARY PROJECT NAME DATE LG'S PRIME STEAKHOUSE 2/8/2002 SYSTEM NAME FLOOR AREA HVAC 8 775 ROOM LOAD SUMMARY ROOM COOLING PEAK COIL COOLING PEAK COIL HTG. PEAK ZONE NAME ROOM NAME MuB. CFM SENSIBLE LATENT CFM SENSIBLE LATENT CFM SENSIBLE ZONE 8 ROTUNDA DINING 1 615 14,520 5,180 615 14,520 5,180 77 6,481 PAGE TOTAL 1 615 14,520 5,180 77 6,481 TOTAL 1 615 14,520 5,180 77 6,481 EneWPro 3.1 By ErwWSoft User Number. 5289 Job Number: 01-2002 Page: 48 o180 ROOM LOAD SUMMARY PROJECT NAME LG'S PRIME STEAKHOUSE DATE 2/8/2002 SYSTEM NAME HVAC 9 FLOOR AREA 775 ROOM LOAD SUMMARY ROOM COOLING PEAK COIL COOLING PEAK COIL HTG. PEAK ZONE NAME ROOM NAME Mutt. CFM SENSIBLE LATENT CFM SENSIBLE LATENT CFM SENSIBLE ZONE 9 ROTUNDA DINING 1 3,040 63,171 11 660 3,040 63,171 11,660 895 34,396 i i • PAGE TOTAL 1 3,040 63,171 11,660 895 34,396 TOTAL 1 3,040 63,171 11,660 895 34,396 EnergyPro 3.1 By EnergySoft • User Number. 5299 Job Number: 01-2002 Page: 49 of 80 ROOM LOAD SUMMARY PROJECT NAMEDATE LG'S PRIME STEAKHOUSE 2/8/2002 SYSTEM NAME FLOOR AREA HVAC 10 895 ROOM LOAD SUMMARY ROOM COOLING PEAK COIL COOLING PEAK COIL HTG. PEAK ZONE NAME ROOM NAME Muft. CFM SENSIBLE LATENT CFM SENSIBLE LATENT CFM SENSIBLE ZONE 10 WINE CELLAR 1 1,756 15,630 13 452 1 745 •15 534 13,452 2,651 64,601 PAGE TOTAL 1 1,745 15,534 13,452 2,651 64,601 TOTAL 1,745 15,534 13,452 2,651 64,601 EnergyPro 3.1 By EnergySoft User Number: 52N Job Number. 01-2002 Page: 50 of 80 ROOM HEATING PEAK LOADS Project Title ILG'S PRIME STEAKHOUSE Date 12/8/2002 Room Information Desicin Conditions Room Name DINING 1 Time of Peak Jan 12 am Floor Area 658 Outdoor Dry Bulb Temperature 26 of Indoor Dry Bulb Temperature 72°F 0.6897 Conduction Area x X X X X x X X x X x X X X X X x X X X x X x x X X x X X x X X X X X X X X X U -Value X X X X x X x x X X X X X X X X x X X X X X x X X X X x X X X X X X X x X X X AT of = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = Btumr 256.8 0.6897 46.0 8,147 134.4 0.9900 46.0 6,121 657.9 0.0280 46.0 847 I Items shown with an asterisk (') denote conduction through an interior surface to another room. Page Total: 15,115 Infiltration: r 1.0o Lisa s5s 12.00 x o.00 ! 6� x AT = Q '- Schedulex Air Sensible x x Area Ceiling Heigh ACH AT Fraction TOTAL HOURLY HEAT LOSS FOR ROOM 15,115 EnergyPro 3.1. By EnergySoft • User Number. 5289 Job Number. 01-2002 Page: 51 of 80 ROOM HEATING PEAK LOADS Project Title Date LG'S PRIME STEAKHOUSE 12-/8/2002 Room Information Design Conditions Room Name BAR AREA Time of Peak Jan 12 am Floor Area 1,056 Outdoor Dry Bulb Temperature 26 OF Indoor Dry Bulb Temperature 72 OF Conduction Area U -Value AT of Btu/hr 1055.9 X X X X X X X X X X x X .X X X X X X X X X X X X X X X X X X X X X X X X X X X 0.0280 X X X X X X X X X X X X X X X X x X X X X X X X X X X X X X X X X X X X X X X 46.0 = = = = = = = = = = = = = = = 1,360 466.0 0.6897 46.0 14,783 Items shown with an asterisk r) denote conduction through an interior surface to another room. Page Total: 1s 144 Infiltration: r 1.00 I x Lisa x 1 oss x 12.0o x o.00 160]x ® _ �-schedule Air Sensible Area Ceiling Height ACH AT Fraction TOTAL HOURLY HEAT LOSS FOR ROOM 16,144 EnergyPro 3.1 By EnergySoft . User Number: 5289 Job Number. 01-2002 Pege:52 of 80 ROOM HEATING PEAK LOADS Project Title LG'S PRIME STEAKHOUSE Date 12/8/2002 Room Information Design Conditions Room Name RECEPTION & BAR Time of Peak Jan 12 am Floor Area 741 Outdoor Dry Bulb Temperature 26 OF Indoor Dry Bulb Temperature 72OF 0.0280 Conduction Area X X X X X X X x X X x X X X X X X X X X X X x x X X X X X X X X X X X X X X X U -Value X X X X X X X X X X X X X X X X x X X X X X x X X X X X X X X X X X X X X X X AT of = = = = = = = = = = = = = = = = = = = = Btu/hr 740.9 0.0280 46.0 954 305.0 0.6897 46.0 9,676 60.0 0.3872 46.0 1,069 67.0 0.6000 46.0 1,849 } items shown wM an asterisk (-)) denote conduction tnrougn an interior surtace to ammner room. Page Total: I 13,548 Infiltration: I 1.00 I x 1.064 x 741 x 812.00 x 6 ] x AT _ �0 chedule Air Sensible Area Ceiling Height ACH AT Fraction TOTAL HOURLY HEAT LOSS FOR ROOM 13,548 EnergyPro 3.1 By EnergySoft User Number: 5289 Job Number: 01-2002 Page: 53 of 80 ROOM HEATING PEAK LOADS Project Title Date LG'S PRIME STEAKHOUSE 2/8/2002 Room Information Desion Conditions Room Name SKYLIGHT DINING Time of Peak Jan 12 am Floor Area 920 Outdoor Dry Bulb Temperature 26 OF Indoor Dry Bulb Temperature 72°F Conduction Area U -Value AT OF Btu/hr 919.9 X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X 0.0505 X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X 46.0 = = = _ = = = = = = = = = = = = = = = = = = = = 2,135 Items shown with an asterisk ('))denote conduction through an interior surface to another room. Page Total: 2 135 Infiltration: I 1.0o X 1.osa X s2o X 1s.00 X o.00 /60 X ® Qo Schedule Air Senslble Area Ceiling Height ACH AT Fraction TOTAL HOURLY HEAT LOSS FOR ROOM 2,135 Energyft 3.1 By EnergyW User Number: 5289 Job Number: 01-2002 Pap: 54 of 80 ROOM HEATING PEAK LOADS Project Title Date ILG'S PRIME STEAKHOUSE 2/8/2002 Room Information Desicin Conditions Room Name DINING ROOM Time of Peak. Jan 12 am Floor Area 1,499 Outdoor Dry Bulb Temperature 26 OF Indoor Dry Bulb Temperature 72OF Conduction Area U -Value AT of Btu/hr 1498.9 X X X X X X X X X X X X X X X X x X X x x x x x x x x x x x x x x x x x x x x 0.0280 X X X X X X X X X X X X X X X X x X X x x x x x x x x x x x x x x x x x x x x 46.0 = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = 1931 311.8 0.6897 46.0 9,892 24.0 0.3872' 46.0 427 167.0 0.6000 46.0 4,609 r Items shown with an asterisk (') denote conduction through an interior surface to another room. Page Total: 16 859 Infiltration: r 1.00 1 x Sensible x 1 ass x 12.00 x o.00 / 6� x AT = Qo `-schedule Air Sensible Area Gelling Height ACH AT Fraction TOTAL HOURLY HEAT LOSS FOR ROOM 16,859 EnergyPro 3.1 By Energy3oft User Number: 5289 Job Number. 0t-2002 Page: 55 of 80 ROOM HEATING PEAK LOADS Project Title Date iLG'S PRIME STEAKHOUSE 2/8/2002 Room Information Desi n Conditions Room Name KITCHEN & BATH Time of Peak Jan 12 am Floor Area 2,411 Outdoor Dry Bulb Temperature 26°F Indoor Dry Bulb Temperature 72°F Conduction I Area U -Value AT o f Btuthr items shown with an asterisk (-) denote conduction through an interior surface to another room. Page Total: 16,147 Infiltration:1 1.00 1 X 1.064 X 2411 X Height X 0.00 / 6] X &T = 0 chedule Air Sensible Area Ceiling Height ACH DT Fraction TOTAL HOURLY HEAT LOSS FOR ROOM 16,147 EnergyPro 3.1 By EnergySoR User Number. 5289 Job Number: 01-2002 Page: 56 of 80 2,411.0 X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X 0.0280 X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X 46.0 = = = = = = = = = = = = = = = = = = = 3,106 397.6 0.6897 46.0 12,614 24.0 0.3872 46.0 427 items shown with an asterisk (-) denote conduction through an interior surface to another room. Page Total: 16,147 Infiltration:1 1.00 1 X 1.064 X 2411 X Height X 0.00 / 6] X &T = 0 chedule Air Sensible Area Ceiling Height ACH DT Fraction TOTAL HOURLY HEAT LOSS FOR ROOM 16,147 EnergyPro 3.1 By EnergySoR User Number. 5289 Job Number: 01-2002 Page: 56 of 80 ROOM HEATING PEAK LOADS Project Title Date LG'S PRIME STEAKHOUSE 12/8/2002 Room Information Desian Conditions Room Name DINING & SERVICE Time of Peak Jan 12 am Floor Area 1,413 Outdoor Dry Bulb Temperature 26 OF Indoor Dry Bulb Temperature 72°F Conduction Area U -Value AT OF Btuthr El 1412.9 X X X X X X X X X X x X X X X X X X X X X X X x X X X X X X X X X X X X X X X 0.0280 X X X X X X X X X X X X X X X X x X X X X X X X X X X X X X X X X X X X X X X 46.0 = = =.1,417 = = = = = = = = = = = = = = = = = = = = = = = = 1,820 189.0 0.6897 46.0 5,996 56.0 0.5500 46.0 17.0 0.3872 46.0 303 Items shown with an asterisk (') denote conduction through an interior surface to another room. r Page Total: 9,5361 Infiltration: II 1.001x 1.064 x 1 a13 x Height x o.00 !6] x AT - �0 chedule Air Sensible Area Ceiling HeigM ACH AT Fraction TOTAL HOURLY HEAT LOSS FOR ROOM 9,536 EnergyPro 3.1 By EnergySoft User Number. 5289 Job Number. 01-2002 Pap: 57 of 80 ROOM HEATING PEAK LOADS Project Title LG'S PRIME STEAKHOUSE Date 2/8/2002 Room Information Design Conditions Room Name ROTUNDA DINING Time of Peak Jan 12 am Floor Area 775 Outdoor Dry Bulb Temperature 26°F Indoor Dry Bulb Temperature 72OF 0.6897 Conduction Area U -Value AT OF BtuR1r I 775.4 X X X X X X X x X X x X X X X X X X X X X X X x X X X X X X X X X X X X X X X 0.0280 X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X 46.0 = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = 999 172.8 0.6897 46.0 5,482 items shown with an asterisk (') denote conduction through an interior surface to another room. Page Total: 6.4 ill Infiltration: Schedule Air x Air Sensible x X775 x ceiling Height ACH / 6 � x 0 AT Fraction TOTAL HOURLY HEAT LOSS FOR ROOM 6,481 EnergyPro 3.1 By En mSoft ' User Number. 5289 Job Number. 01-2002 Page: 58 of 80 ROOM HEATING PEAK LOADS Project Title LG'S PRIME STEAKHOUSE Date 12/8/2002 Room Information Desicin Conditions Room Name ROTUNDA DINING Time of Peak Jan 12 am Floor Area 775 Outdoor Dry Bulb Temperature 26 OF Indoor Dry Bulb Temperature 72°F 0.0280 Conduction Area X X X X X X X X X X x X X X X X X X X X X X X x X X X X x x x x x x x x x x x U -Value X X X X X X X X X X X X X X X X x X X X X X X X X X X X x x x x x x x x x x x AT OF = = = = = = = = = = = = = = = = = = = = = = = = = = = Btu/hr 775.4 0.0280 46.0 999 751.6 0.6897 46.0 23,844 24.0 0.3872 46.0 427 200.4 0.9900 46.0 9,126 Items shown with an asterisk (-) denote conducticn through an intenor surface to another room. Page Total: 34,396 Infiltration: I i.00lxL 1.o64 x 775 x 1s.00 x o.00 ! 60] x ® = Qo ule Air Sensible Area Ceiling Height ACH AT Fraction TOTAL HOURLY HEAT LOSS FOR ROOM 34,396 EnergyPro 3.1 By EnergySoft User Number. 5289 Job Number. 01-2002 Page: 59 of 80 ROOM HEATING PEAK LOADS Project Title Date LG'S PRIME STEAKHOUSE 2/8/2002 Room Information Design Conditions Room Name WINE CEUAR Time of Peak Jan 12 am Floor Area 895 Outdoor Dry Bulb Temperature 26OF Indoor Dry Bulb Temperature 720E Conduction Area U -Value AT of Btulhr 2,000.0 X X X X X X X X X X x X X X X X x X X X X X x x X X X X X X X X X X X X X X X 0.6897 X X X X X X X X X X X X X X X X x X X X X X x X X X X X X X X X X X X X X X X 46.0 = = = = = = = = = = = = = = - = = = = = = 63,448 895.0 0.0280 46.0 1,153 Items shown with an asterisk (') denote conduction through an interior surface to another room. Page Total: 64 601 Infiltration: I .001X Lisle x $s5 x 1 s Height x o.00 l 6� x AT Qo schedule Air Sensible Area Ceiling Height ACH AT Fraction TOTAL HOURLY HEAT LOSS FOR ROOM 64,601 En Pro 3.1 By EnergySoft User Number. 5289 Job Number. 01-2002 Page: 60 of 80 ROOM COOLING PEAK LOADS Hie LG'S PRIME STEAKHOUSE Datert� 2/8/2002 ROOM INFORMATION DESIGN CONDITIONS Room Name DINING 1 Time of Peak Jul 5 prn Floor Area 658 Outdoor Dry Bulb Temperature 109 9F Indoor Dry Bulb Temperature, 78`F . Outdoor Wet Bulb Temperature 77 `F Conduction Solid CMU Sinale WWII Clear Default II Area 1. Design Equivalent Temperature Difference (DETD) Items shown with an asterisk (•) denote conduction through an interior surface to another room. Solar Gain U -Value 1 0.68971 DETD 1 X 52.2 = X 20.9 = X 45.8 = X = X = X = X = X = X = Page Total Weighting Orientation Area SGF Sc Factor (West) 134.4 X 248 X 0.824 X 0.464 = X X X X X X = X X X X X X = X X X X X X X X X X X X = X X X Page Total Btu/hr 9,238 2,781 843 12862 Btu/hr 12.73 12,731 Sched. Weighting BtWhr Internal Gain Frac. Area Heat Gain Factor i hts 1. X 658 X 1.947 Watts/SqR ..X 3.41 Btuh/Watt X 1.000 = 4,370 ccu ants 1. X 658 X 274 Btuh/OCc. / Sgft/OCC. X 1.00 = 8,112 e eptacle 1. X 658 X 0.790 Watts/Sgft xE3.10 Btuh/Watt X 1.00 = 1,774 rocess 1. x 658 x 0.000 Watts/sqft xBtuh/Watt x too = 0 Infiltration: 1.00 x 1.osa x s58 x 12.00 x o.00 /601 x = 0 —Schedule Alr Senslble Area Ceiling Height ACH T Fraction TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 39,849 Sched. Btu/hr Latent Gain Frac. Area Heat Gain ccu ants 1.00 X 658 X 3341 Btuh/occ. / 22 Sc)R/OCc. = 9 888 Receptacle 1.0o x x Watts/sgfi x Btuh/Watt = rocess 1.00 x 658 X 0.000 Watts/sgft x 3.413 Btuh/Watt = 0 Infiltration: x 4 77 x x x / 6] x ®_ chedule Alr Latent Area Gelling Height ACH pyy ITOTAL HOURLY LATENT HEAT GAIN FOR ROOM EnergyPro 3.1 By En Soft User Number: 5289 01-2002 Page: 61 of 80 ROOM COOLING PEAK LOADS Project Tkte LG'S PRIME STEAKHOUSE date I 2/8/2002 ROOM INFORMATION DESIGN CONDITIONS Room Name BARAREA Time of Peak Jul 4 p Floor Area 1,056 Outdoor Dry Bulb Temperature 111 `k Indoor Dry Bulb Temperature 78`F Outdoor Wet Bulb Temperature 78 `k Conduction k-38 Roof (R.38.2x14.16) 6"Solid CMU Wall Area 1. Design Equivalent Temperature Difference (DEM) , Items shown with an asterisk (') denote conduction through an interior surface to another room. Solar Gain U -Value 0.0280 0.6897 Page Total Weighting Orientation Area SGF SC Factor x x x = x x x = x x x = x x x = x x x = x x x = X x x = X x x = x x x = x x x = Page Total Btu/hr 1,616 17,478 19 094 Sched. Weighting BtWhr Internal Gain . Frac. Area Heat Gain Factor ights 1. X 1,056 X 0.178 Watts/sgft x 3.41 Btuh/Watt x 0.999 = 641 ccu ants 1. X 1,056 X 274 Btuh/occ. 1sgftlocc. X 1.00 = 13,019 Receptacle 1. x 1,056 x 0.790 Watts/sqR x 3.41 BtuhlWatt x 1.00 = 2,847 Process 1.0 x 1,056 X o.000 Watts/sgft X 3.41 Btuh/Watt x 1.00 = 0 Infiltration: 1.00 x 1.os4 x 1 oss x 12.00 x o.00 /601 x 3a = 0 -Schedule Atr Sensible Area Ceiling Height ACH T Fraction TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 35,601 Sched. Btu/hr Latent Gain Frac. Area Heat Gain ccu ants 1.00 X 1 056 x 334 Btuh/occ. I 22 sgft/occ. = 15 870 Receptacle 1.0o x x uao Wattslsgft x Btuh/Watt - rocess 1.00 x 1,056 X 0,000 Watts/sgft X 3.413 Btuh/Watt = 0 Infiltration: x xE� x x / 6] x _ chedule Air Latent Area Ceiling Height ACH pyy ROOM COOLING PEAK LOADS Project Title LG'S PRIME STEAKHOUSE DETD ' Date 2/8/2002 ROOM INFORMATION DESIGN CONDITIONS Room Name RECEPTION & BAR Time of Peak Sep 3 pin Floor Area 741 Outdoor Dry Bulb Temperature 107 `k Indoor Dry Bulb Temperature 78OFOutdoor Wet Bulb Temperature 74 `l� Conduction 08 Roof (R.38.204.16) " Solid CMU Wall Area 1. Design Equivalent Temperature Difference (DETD) Items shown with an asterisk (') denote conduction through an interior surface to another roan. Solar Gain U -Value 1 0.02801 X X X X X X X X X DETD ' = = = = = = = = = 45.5 50.3 61.9 19.8 Factor = = = = = (Southwest) 67.0 260 Page Total Orientation Area X X x X X X X X x X SGF X X x X X x x X X x SC Weighting X X X X X X x X X X Factor = = = = = (Southwest) 67.0 260 0.724 0.423 Page Total Btu/hr 944 10,574 1,439 797 13 754 Btu/hr 5,333 5 333 Sched. Weighting Btu/t1r Internal Gain Frac. Area Heat Gain Factor fights 1. x 741 X 0.162 Watts/sgfi; x 3.41 BtuhlWatt X 0.999 = 409 Occupants • 1. X 741 X . 274 Btuh/occ. /A3.41 sgft/occ. X 1.00 = 9,135 Receptacle 1. X 741 X 0.790 Watts/sgft xBtuh/Watt X 1.00 = 1,998 rocess 1. x 741 x o.000 Watts/sgft xBtuh/Watt x 1.00 = 0 Infiltration: 1.00 x 1.os4 x 741 x s12.00 x o.00 / 60] x 0 =0 ule Air Sensible Area Gelling Height ACH &T Fraction ' TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 30,630 Sched. Btu/hr Latent Gain Frac. Area Heat Gain ccu ants 1.00 X 741 X 334 Btuh/OCC. / 22 SOjft/OCC. = 11 136 Receptacle 1.00 x x 0.0 Watts/sgft x 1 3,413 Btuh/Watt rocess 1.00 x 741 x o.o00 Watts/sgft x 3.413 Btuh/Watt = o Infiltration: x x x x /6] x ®_ ule Air l.aterrt Area Ceiling Height ACH pyd I EneravPro 3.1 By EnerovSoft User Number. 5289 01-2002 Paae:63 of 80 I ROOM COOLING PEAK LOADS Project Title LG'S PRIME STEAKHOUSE Date 1 2/8/2002 ROOM INFORMATION DESIGN CONDITIONS Room Name SKYLIGHT DINING Time of Peak Jul 2 pm Floor Area 920 Outdoor Dry Bulb Temperature 111 `F Indoor Dry Bulb Temperature 78OFOutdoor Wet Bulb Temperature 78 9F Conduction Built UD Roof Area 91 1. Design Equivalent Temperature Difference (DETD) Items shown with an asterisk V) denote conduction through an interior surface to another room. Solar Gain U -Value 1 0.05051 Page Total Weighting Orientation Area SGF Sc Factor x x x = x x x = x x x x x x = x x x = x x x X x x = X x x = x x x = x x x = Page Total Btu/hr 2,980 2 sso Sched. Weighting Internal Gain Frac. Area Heat Gain Factor Btu/hr fights 1.0 x 920 x 0.130 Watts/sgft x 3.41 Btuh/Watt x 1.000 = 409 ccu ants 1. x 920 x 274 Btuhlocc. / sgftiocc. x 1.00 = 11,342 Receptacle 1. x 920 x 0.790 Watts/sgft x 3.41 Btuh/Watt x 1.00 = 2,480 rocess 1.0 x 920 x 0.000 Watts/Sgft x 3.41 Btuh/Watt x 1.00 = 0 Infiltration: 1.00 x 1A64 x s2o x Height x o.00 l6] x T = 0 chedule Air SensibleArea Ceiling HeIM ACH � T Fraction TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 17,212 Sched. Latent Gain Frac. Area Heat Gain Btu/hr ccu ants 1.00 x 920 x 334 Btuh/occ. / 22 sgft/occ. = 13 826 Receptacle 1.00 x x 0000 Watts/sgft x Btuh/Watt = rocess 1.00 x 920 x 0:000 Watts/sgft x 3.413 Btuh/Watt = 0 Infiltration: x x7 x x� /6] x ®_ ehedule Air Latent Area Celling Height ACH pyy I EnemvPro 3.1 . 8v EnemvSoft User Number. 5289 01-2002 P— AA of An I ROOM COOLING PEAK LOADS Project Title LG'S PRIME STEAKHOUSE 61.7 Date I 2/8/2002 ROOM INFORMATION DESIGN CONDITIONS Room Name DINING ROOM ' Time of Peak Jul 3 pm Floor Area 1,499 Outdoor Dry Bulb Temperature 112 '� Indoor Dry Bulb Temperature 78`k Outdoor Wet Bulb Temperature 78 9F Cdnduction .38 Roof R.38.2A 4.16 - Solid CMU Wail olid Wood Door ouble NonMd Clear Default Area 1,498.9 X 311.8 X 24.0 X 167.0 X X X i X X X 1. Design Equivalent Temperature Difference (DETD) Items shown with an asterisk (') denote conduction through an interior surface to another room. Solar Gain U -Value 1 0.02801 DETD 1 X X X X X X X X X 61.7 = = = = = = = = = 30.4 33.9 23.9 Page Total Weighting Orientation Area SGF Sc Factor (North) 167.0 X 42 X 0.724 X 0.787 X X X X X X X X X X X X X X X X X X X X X = X X X = X X X Page Total 2,588 6,546 315 2,397 11 847 Btu/hr 3,993 3,993 Sched. Weighting Btu/hr Internal Gain Frac. Area Heat Gain Factor i hts 11 x 1,499 X 4.844 Watts/sgft X 3.41 BtuhMatt x 1.000 = 24,772 ccu ants 1. X 1,499 X 274 Btuh/occ. / sgfklocc. X 1.00 = 18,481 Receptacle 1. X 1,499 X 0.790 WattS/Sgft X 3.41 Btuh/Watt X 1.00 = 4,041 rocess 1.0 x 1,499 X o.0oo Watts/sgft x 3.a1 Btuh/Watt x 1.00 = 0 Infiltration: i. e x Lobo X 1 499 x 12.00 x o.0o / 6] x 0 0 u1Air Sensible Area Ceiling Height ACH AT Fraction TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 63,135 Sched. Btu/hr Latent Gain Frac. Area Heat Gain ccu ants 1.00 X 1 499 X 334 Btuh/occ. / 22 sgft/oCc. = 22 528 Receptacle 1.00 x x 0.000 Watts/sgft xBtuh/Watt = rocess 1.00 x 1,499 x 0.000 Watts/sgft x 3.413 Btuhiwatt = 0 Infiltration: x a,ll XE=ass x x/ 60] x ®_ chedule Alr latent Area Ceiling Height ACH InN ItOTAL HOURLY LATENT HEAT GAIN FOR ROOM 22.5281 EnergyPro 3.1 By EnergySoft User Number. 5289 01-2002 Page: 65 of 80 ROOM COOLING PEAK LOADS Project Title LG'S PRIME STEAKHOUSE DETD t Date 2/8/2002 ROOM INFORMATION DESIGN CONDITIONS Room Name KITCHEN & BATH Time of Peak Jul 2 pm Floor Area 2,411 Outdoor Dry Bulb Temperature 11197 Indoor Dry Bulb Temperature 78`F Outdoor Wet Bulb Temperature 78 OF Conduction Roof Area 1 2.411.01 1. Design Equivalent Temperature Difference (DETD) Items shown with an asterisk (') denote conduction through an interior surface to another room. Solar Gain U -Value 1 0.02801 x x x x x x x x x DETD t = = = = = = = = = 64.6 29.9 33.3 Page Total Weighting Orientation Area SGF SC Factor x x x = x x x = x x x x x x = x x x = x x x = x X X X X X = X X X = X X X = Page Total Btu/hr 4,360 8,197 310 12 866 Btu/hr 0 Sched. Weighting Btu/hr Internal Gain Frac. Area Heat Gain Factor ights 1. X 2,411 X 1.180 Watts/sgft . x 3.41 Btuh/Watt X 0.997 = 9,689 ccu ants 1. X 2,411 X 274 Btuh/occ. /A3.41 sgft/occ. X 1.00 = 29,728 Receptacle 1. x 2,411 x 0.790 Watts/sgft x Btuh/Watt x 1.00 = 6,501 rocess , x 2,411 X 0.000 Watts/sgft X Btuh/Watt x X1.000 = 0 Infiltration: I 1.00 x 1.064 x 2 all x 8.00 x 0.00 /601 x "'---Schedule Air Sensible Area Ceiling Height ACH T Fmcdon TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 58,784 Sched. Latent Gain Frac. Area Heat Gain Btu/hr ecu ants 1.00 X 2,411 X 3341 Btuh/OCC. / F 22 sgft/occ. = 36 37 ece tacle 1.00 x x o.o Watts/sgft x 1 3.413 Btuh/Watt = rocess 1.00 x 2,411 X o.o00 Watts/sgft X 3.413 Btuh/Watt = 0 Infiltration: x XE----:? a+1 x x/ 60] x ®_ chedule Alr Latent Area Ceiling Height ACH &W ROOM COOLING PEAK LOADS Project Title LG'S PRIME STEAKHOUSE Date 2/8/2002 ROOM INFORMATION DESIGN CONDITIONS Room Name DINING & SERVICE Time of Peak Sep 3 prn Floor Area 1,413 Outdoor Dry Bulb Temperature 107 Indoor Dry Bulb Temperature 780F Outdoor Wet Bulb Temperature 74 `l Conduction Roof Wall Area 1,412.9 X 189.0 X 56.0 X 17.0 X X X X X X 1. Design Equivalent Temperature Difference (DETD) Items shown with an asterisk (') denote conduction through an interior surface to another room. Solar Gain Orientation Area (SoWbwesJt 56.0 U -Value 1 0.02801 SGF DETD 1 46.0 = 50.6 = 19.9 = 62.3 = Page Total Weighting Factor X 0.436 = X X X = X = X = X = X = X x Page Total Btu/hr 1,818 6,591 613 410 9 433 Btu/hr 4,593 4 593 Sched. Weighting gtu/hr Internal Gain Frac. Area Heat Gain Factor fights 1.0 x 1,413 X 0.168 Watts/sqft x 3.41 Btuh/Watt x 0.998 = 807 xu ants 1. X 1,413 X 274 Btuh/OCC. / SgfUoCC. X 1.00 = 17,42 Receptacle 1. X 1,413 X 0.790 Watts/sgft x 3.41 Btuh/Watt X 1.00 = 3,810 rocess 1.0 X 1,413 X 0.000 Watts/sqft X 3.41 Btuh/Watt x 1.00 = 00 Infiltration: 1.00 X 1.064 x 1 413 x 12.00 x 0.00 1601 x &T chedule Air Sensible Area Ceiling Height ACH DT Fraction TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM36,063 Sched. Btu/hr Latent Gain Frac. Area Heat Gain ccu ants 1.00 x 1,413 X 3341 Btuh/occ. / 22 sgft/OCc. = 21 36 Receptacle 1-0 x x 0.0oal Watts/sgft x Btuh/Watt = rocess 1.00 x 1,413 x 0.000 Watts/sgft x 3.413 Btuh/Watt = 001 Infiltration: x 4 77 x Area x u� x � 16] x ® _ Alr Latent Area Ceiling Height DW Ui F--EnerayPro 3.1 By EnemySaft User Number. 5289 01-2002 P :67 of 80 ROOM COOLING PEAK LOADS Project TitleDate LG'S PRIME STEAKHOUSE 2/8/2002 ROOM INFORMATION DESIGN CONDITIONS Room Name ROTUNDA DINING Time of Peak Aug 3 pm Floor Area 775 Outdoor Dry Bulb Temperature 112 `k Indoor Dry Bulb Temperature 78`F Outdoor Wet Bulb Temperature 78 `k Conduction Kt -38 Roof (R.38.204.16) 6"Solid CMU Wall Area 1 775.41 1. Design Equivalent Temperature Difference (DETD) Items shown with an asterisk V) denote conduction through an interior surface to another room. Solar Gain U -Value 1 0.02801 DETD 1 Page Total Weighting Orientation Area SGF Sc Factor x x x x x x = x x x = x x x = x x x = X x x = X x x = x x x = x x x = x x x = Page Total Btu/hr 1,248 6,113 7 361 Sched. Weighting Btumr Internal Gain Frac. Area -Heat Gain Factor i hts 1. X 775 X 0.310 Wattsisgft X 3.41 Btuhmatt x 1.000 = 819 xu ants ii X 775 X 274 Btuhlocc. / 5 Sgftiocc. X 1.00 = 4,249 Receptacle 7( 775 X 0.790 Watts/SqR x 3.41 Btuh/Watt X 1.00 = 2,091 rocess x 775 x 0.000 Watts/sqft X 3.41 Btuh/Watt x 1.00 = 0 Infiltration: 1.00 x 1.os4 x ns x 1s.00 x o.o0 /6] x 3a = 0 chedule Air Sensible Area Ceiling Height ACH T Fraction TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 14,520 Sched. Btu/hr Latent Gain Frac. Area Heat Gain ccu ants 1.00 X 775 x 3341 Btuh/occ. / 50 Sgft/occ. = 5180 ece tacle 1.00 x x am Watts/sgft x 1 3.4131 BtuhfWatt = rocess 1.00 x 775 x o.000 Wattslsgft x 3.x13 Btuh/Watt = o Infiltration: �c� X a� x Area X Ceiling � xACH / 6] x ®ZSW _ ITOTAL HOURLY LATENT HEAT GAIN FOR ROOM EnergyPr. 3.1 By En Soft User Number. 5289 01-2002 Page: 68 of 80 ROOM COOLING PEAK LOADS Project Title LG'S PRIME STEAKHOUSE DETD 1 Date 2/8/2002 ROOM INFORMATION DESIGN CONDITIONS Room Name ROTUNDA DINING Time of Peak Jul 4 pm Floor Area 775 Outdoor Dry Bulb Temperature 111 �- Indoor Dry Bulb Temperature 78OF Outdoor Wet Bulb Temperature 78 OF Conduction -38 Roof R.38.204.16 - Solid CMU Wall olid Wood Door in le NonM9 Clear Default Area 1. Design Equivalent Temperature Difference (DETD) Items shown with an asterisk (') denote conduction through an interior surface to another room. Solar Gain U -Value 1 0.02801 x x x x x x x x x DETD 1 = = = = = = = = = 53.9 54.0 65.5 21.7 Page Total Weighting Orientation Area SGF SC Factor (.West) 200.4 X 262 x 0.824 X 0.383 X X X = X x X X X X = X X x X X X = X X X X X X x X X = X X X = Page Total Btu/hr 1,170 27,971 609 4,310 34 059 Btu/hr 16,585 16 585 Sched. Weighting Btulhr Internal Gain Frac. Area Heat Gain Factor fights 1.0ii X 775 X 0.330 Watts/sgft x 3.41 Btuh/Watt X 0.998 = 872 ecu antsA,. x 775 x 274 Btuhlocc. / sgft/occ. x 1.00 = 9,565 Receptacle x 775 x 0.790 Watts/sgft x 3.41 Btuh/Watt x 1.00 ' = 2,090 rocess x 775 x o.000 Watts/sgft x 3.41 BtuhMatt x 1.00 = 0 Infiltration: I 1. e x Lisa x 775 x 16.00 x o.00 / 6] x AT _ �0 `- ulAir Sensible Area Ceiling Height ACH AT Fraction TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM63,171 Sched. • Btu/hr Latent Gain Frac. Area Heat Gain ccu ants 1.00 X 775 x 334 Btuh/occ. / 22 sgft/occ. = 11 660 Receptacle 1-0 x x Watts/sqft x Btuh/Watt rocess 1.00 x 775 x 0.000 Watts/sgft X 3.413 Btuh/Watt = 0 Infiltration: x a 7� x� x x / 6] x ®_ ule Air L.aterK Area Gelling Height ACH pyy ROOM COOLING PEAK LOADS Project Title LG'S PRIME STEAKHOUSE Date 2/8/2002 ROOM INFORMATION DESIGN CONDITIONS Room Name WINE CELLAR Time of Peak Jul 1 prn Floor Area 895 Outdoor Dry Bulb Temperature 108 `k Indoor Dry Bulb Temperature 78`F Outdoor Wet Bulb Temperature 77'V Conduction Roof Area 1 895.01 1. Design Equivalent Temperature Difference (DETD) items shown with an asterisk (') denote conduction through an interior surface to another room. Solar Gain U -Value 1 0.02801 Page Total Orientation Area SGF SC WeightingFactor x x x x x x x x x x x x = x x x x x x = x x x X x x x x x x x x = Page Total Btu/hr 1,590 1 590 Sched. Weighting Btu/hr Internal Gain Frac. Area Heat Gain . Factor i hts 1. X 895 X 0.194 Watts/sgft X 3.41 Btuh/Watt X 0.996 = 591 ccu ants 1. X 895 X 274 Btuh/OCc. /A3.411 sgft/OCc. X 1.00 = 11,035 Receptacle a x 895 X 0.790 Watts/sgfi X Btuh/Watt x 1.00 = 2,413. rocess 0 x 895 x 0.000 Watts/sgft xBtuh/Watt x 1.00 = o Infiltration: 1 1.00 X 1.064 x 895 x Height x 0.00 /601 x 34 ute Air Sensible Area Ceiling HeIM ACH T Fraction TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 1570 Sched. Btu/t�r Latent Gain Frac. Area Heat Gain ccu ants 1.00 X 895 X 3341 Btuh/occ. /22 sgft/occ. = 13 452 Receptacle 1.00 x x 0.000 Watts/sgft x Btuh/Watt rocess 1.00 X 895 X 0.000 Wattslsgft X 3.413 Btuh/Watt = 0 Infiltration: Uix� x x x �l6] x ® Alr Latern Area Ceiling Height ACH pyy ROOM COOLING COIL LOADS Project Title LG'S PRIME STEAKHOUSE Date 1 2/8/2002 ROOM INFORMATION DESIGN CONDITIONS Room Name DINING 1 Time of Peak Jul 4 pm Floor Area 658 Outdoor Dry Bulb Temperature 111 Indoor Dry Bulb Temperature 78OFOutdoor Wet Bulb Temperature 78 Conduction 'Solid CMU Wall in le NonMtl Clear Default -38 Roof (R.38.204.16) Area 256.8 134.4 1. Design Equivalent Temperature Difference (DETD) Items shown with an asterisk (') denote conduction through an interior surface to another morn. Solar Gain U -Value 1 0.68971 DETD 1 X 54.4 = X 21.9 = X 54.7 = X = X = X = X = X = X _ Page Total Weighting Orientation Area SGF SC Factor (West) 134.4 X 262 X 0.824 X 0.399 X X X = X X X = X X X X X X X X X = X X X X X X X X X = X X X = Page Total Btulhr 9,641 2,916 1,009 13566 Sched. Weighting Internal Gain Frac. Area Heat Gain Factor Btu/hr i hts ji x 658 x 1.947 Watts/sgft X 3.41 Btuh/watt x 1.000 = 4,370 ccu ants X 658 X 274 Btuh/OCc. / Sgft/OCc. X '1.00 = 8,112 Receptacle ' x 658 x 0.790 Watts/sgft x 3.41 Btuh/Watt x 1.00 = 1,774 rocess x 658 x 0.000 WatWsgft x 3.41 Btuh/Watt x 1.00 = o Infiltration: I 1.00 x 1.064 x s58 x 12.00 x o.00 / 6] X 34 -Schedule Air Sensible Area Ceiling Height ACH T Fraction TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 39,390 Sched.- Btu/hr Latent Gain Frac. Area Heat Gain ecu ants 1.00 X 658 X 3341 Btuh/occ. / 22 sgft/occ. = 9 888 Receptacle 1.00 x x Watts/sgft x Btuh/Watt = rocess 1.00 X 658 X 0.000 Watts/sqft X 3.413 Btuh/Watt = 0 Infiltration: Laix x• x x � 160] x ® _ Air Latent Area Ceiling Height ACH pyy ITOTAL HOURLY LATENT HEAT GAIN FOR ROOM 9.8881 En Pro 3.1 By EnergySoft User Number: 5289 01-2002 Page: 71 of 80 ROOM COOLING COIL LOADS - Project Title LG'S PRIME STEAKHOUSE Date 2/8/2002 ROOM INFORMATION DESIGN CONDITIONS Room Name BARAREA Time of Peak Aug 3 p Floor Area 1,056 Outdoor Dry Bulb Temperature 112 9� Indoor Dry Bulb Temperature 780F Outdoor Wet Bulb Temperature 78 OF Conduction Roof Area 1. Design Equivalent Temperature Difference (DETD) Items shown with an asterisk (') denote conduction through an interior surface to another room. Solar Gain U -Value 0.0280 0.6897 DETD t 57.1 = 51.8 = Page Total Weighting Orientation Area SGF Sc Factor x x x x x x = x x x = X X X = X X X = X X X = X X x = X X x = X x X = X X X = Page Total Btu/hr 1,688 16,641 18 329 Sched. Weighting Internal Gain Frac. Area Heat Gain Factor Btu/hr i hts 1.0 X 1,056 X 0.178 Watts/sqft X 3.41 BtuhfWatt X 0.999 = 641 ccu ants 1. X 1,056 X 274 Btuh/occ. / 4 sqf occ. X 1.00 = 13,019 Receptacle 1. x 1,056 X 0.790 Watts/sqR X3.41 BtuhfWatt x 1.00 = 2,847 rocess r1.0 x 1,056 x 0.000 Wattslsgft x 3.41 BtuhfWatt x 1:00 = o Infiltration: I 1.00 x t.osa x 1 o5s x 12.00 x o.00 / 60] x 341 = -Schedule Air Sensible Area Ceiling Height ACH AT Fraction TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 34,M Sched. Latent Gain Frac. Area Heat Gain Btu/hr ccu ants 1.00 x 1 056 x 334 Btuh/oCC. 17 22 sgfUOCc. = 15 870 ece tacle 1.00 x x Watts/sgft x Btuh/Watt = rocess 1.00 x 1,056 x 0.000 Watts/sgft x 3.413 Btuh/Watt = 0 Infiltration:�� x a,77 x F-1-05-61 x x/ 6] x ®_ '-schedule Air Laterrt Area Ceiling Height ACH pyy ITOTAL HOURLY LATENT HEAT GAIN FOR ROOM Ener Pro 3.1 By En Sot User Number: 5289 01-2002 Page: 72 of 80 ROOM COOLING COIL LOADS Project Title LG'S PRIME STEAKHOUSE Date 2/8/2002 ROOM INFORMATION DESIGN CONDITIONS Room Name RECEPTION & BAR Time of Peak Aug 3 prn Floor Area 741 Outdoor Dry Bulb Temperature 112 OF Indoor Dry Bulb Temperature 78`F Outdoor Wet Bulb Temperature 78 `F Conduction IB" Solid CMU Wall I Area 740.9 X 305.0 X 60.0 X 67.0 X X X X X X 1. Design Equivalent Temperature Diifference (DETD) @ems shown with an asterisk (7 denote conduction through an interior surface to another room. Solar Gain U -Value 0.0280 Orientation Area SGF SC (Sot9byest) 67.0 X 226 X 0.724 X X X X X X X X X X X X X X X X X X DETD 1 57.11 = 51.1 = 61.9 = 23.9 = Page Total Weighting Factor X 0.412 X = X X X = X = X = X X = X = Page Total Btu/hr 1,185 10,75-4 1,439 959 14 337 Btu/hr 4,509 4,509 Sched. Weighting Btu/hr Internal Gain Frac. Area Heat Gain fights 1.0 X 741 X 0.162 Watts/Sgft X 3.41 Btuh/Watt X 0.999 = 409 ccu ants 1. X 741 X 274 Btuh/OCc. / SCOJOCC. X 1.00 = 9,135 Receptacle 1. x 741 x 0.790 Watts/sgft X 3.41 Btuh/Watt x 1.00 = 1,998 rocess 1. x 741 x 0.000 Watts/sgft x 3.41 Btuh/Watt x 1.00 = 0 Infiltration: 11.00 x 1.0641 x 7a1 x 812.00 x o.00 l60] x = 0 ule Air Sensible Area Ceiling Height ACH T Fraction TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 30,388 Sched. Btu/hr Latent Gain Frac. Area Heat Gain ccu ants 1.00X 741 X 3341 Btuh/occ. / 22 sgft/occ. = 11 136 Receptacle 1.00 x x Watts/sgft x Btuh/Watt rocess 1.00 x 741 x 0.000 Watts/sqft X 3.413 Btuh/Watt = 0 Infiltration: x 4 j7 x x ® x/ 60] x ®_ Ui Air Latent Area Ceiling Height ACH pyy ITOTAL HOURLY LATENT HEAT GAIN FOR ROOM 11-1361 Ener Pro 3.1 By ErgySft User Number. 5289 01-2002 Page: 73 of 80 ROOM COOLING COIL LOADS Project Title LG'S PRIME STEAKHOUSE Date 2/8/2002 ROOM INFORMATION DESIGN CONDITIONS Room Name SKYLIGHT DINING Time of Peak Jul 3 pm Floor Area 920 Outdoor Dry Bulb Temperature 112 9F Indoor Dry Bulb Temperature 78OFOutdoor Wet Bulb Temperature 78 `k Conduction k-19 Built LID Roof 1 Area 1 919.91 1. Design Equivalent Temperature Difference (DETD) Items shown with an asterisk (') denote conduction through an interior surface to another room. Solar Gain U -Value 1 0.05051 Page Total Weighting Orientation Area SGF SC Factor x x x x x x x x x x x x = x x x x x x X x x = X x x = x x x = x x x Page Total Btu/hr 2,814 2 814 Sched. Weighting Btu/hr Internal Gain Frac. Area Heat Gain Factor ights AIX X 920 X 0.130 Watts/sgft X 3.41 Btuh/Watt X 1.000 = . 409 ccu ants X 920 X 274 Btuhlocc. / sgff/occ. - X 1.00 = 11,342 Receptacle x 920 X 0.790 Watts/sgft x 3.41 Btuh/Watt X 1.00 = 2,480 rocess. 920 x o.000 Watts/sgft x 3.41 Btuh/Watt x 1.00 = o Infiltration: 1.00 x Lisa x s2o� x 1sght x o.00 / 6] x = 0 chedule Air Sensible Area _ Ceiling HelM ACH T Fraction TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 17,046 Sched. Btu/hr Latent Gain Frac. Area Heat Gain Occupants 1.00 X 920 X 334 Btuh/occ. / 22 sgft/occ. = 13 826 Receptacle 1.00 x x amo Watts/sqft x Btuh/Watt = rocess 1.00 x s2o x o.000 Watts/sqft x 3.413 Btuh/Watt = o Infiltration: x a.�7� x E x x � / 6] x ®_ chedule Alr latent Area Ceiling Heigh ACH pyy ROOM COOLING COIL LOADS Project Title LG'S PRIME STEAKHOUSE DETD 1 Date 7 1 2/8/2002 ROOM INFORMATION DESIGN CONDITIONS Room Name DINING ROOM Time of Peak Jul 3 pm Floor Area 1,499 Outdoor Dry Bulb Temperature 112 '� Indoor Dry Bulb Temperature 78`F Outdoor Wet Bulb Temperature 78 OF Conduction -38 Roof R.38204.16 " Solid CMU Wall olid Wood Door ouble NonMV Clear Default Area 1 1. Design Equivalent Temperature Difference (DETD) Items shown with an asterisk (•) denote conduction through an interior surface to aroodw room. Solar Gain U -Value 1 0.02801 x x x x x x x x x DETD 1 = = = = = = = = = 61.7 30.4 33.9 23.9 Page Total Weighting Orientation Area SGF SC Factor (North) 167.0 X 42 X 0.724 X 0.787 = X X X = x X X = X X X = X X X = X X X = X X X = X X X = X X x = x X x = Page Total Btu/hr 2,588 6,546 315 2,397 11 847 Btu/hr 3,993 3 993 Sched.' Weighting gtu/hr Internal Gain Frac. Area Heat Gain Factor hts 1. x 1,499 X 4.844 Watts/sgft x 3.41 Btuh/Watt x 1.000 = 24,772 ecu ants 1. �, X 1,499 X 274 Btuh/occ. / sgftlocc. X . 1.00 = 18,48 ecetate1. X 1,499 X 0.790 Watts/sgft x 3.41 BtuhlWatt x 1.00 = 4,041 rocess j1. X 1,499 X 0.000 Watts/sgft x 3.41 Btuh/Watt X 1.00 = 0 Infiltration: I 1.00 X 1.064 X 1499 X 12.00 X 0.00 1601 x _ �0 `Schedule Air Sensible Area Ceiling Height ACH T Fraction TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 63,135 Sched. Btu/hr Latent Gain Frac. Area Heat Gain ccu ants 1.00 x 1.499 1 X 334 Btuh/occ. / F7777i2l sgft/occ. = 22 528 Receptacle 1.00 . x x Watts/sgft x 1 34131 Btuh/Watt = rocess 1.00 x 1,499 x 0.000 Watts/sgft X. 3.413 Btuh/watt = 0 Infiltration: � x x x x /6] x ®_ chedule Alr l.aterd Area Ceiling Heigh ACH pyy ROOM COOLING COIL LOADS Project Title LG'S PRIME STEAKHOUSE Date 2/8/2002 ROOM INFORMATION DESIGN CONDITIONS Room Name KITCHEN & BATH Time of Peak Jul 3 pm Floor Area 2,411 Outdoor Dry Bulb Temperature 112 9F Indoor Dry Bulb Temperature 780F • Outdoor Wet Bulb Temperature • 78 9` Conduction 6" Solid CMU Wall I Area 411 397 1. Design Equivalent Temperature Difference (DETD) Items sham with an asterisk (') denote conduction through an interior surface to another room. Solar Gain U -Value 0.0280 0.6897 DETD 1 61.7 = 30.4 = 33.9 = Page Total Weighting Orientation Area SGF SC Factor x x x = x x x x x x = x x x = x x x = x x x = x x x = x x x x x x = x x x = Page Total Btu/hr 4,167 8,348 315 12 830 Sched. Weighting BtWhr Internal Gain Frac. Area Heat Gain Factor i hts 10 x 2,411 X 1.180 Watts/sgft X 3.41 Btuh/Watt X 0.998 = 9,691 ccu ants 1. X 2,411 X 274 Btuh/OCc. / sgft/OCc. X 1.00 = 29,728 Receptacle 1. x 2,411 X 0.790 Watts/sgft X 3.41 Btuh/Watt x 1.00 = 6,501 rocess 1.0 X 2,411 X 0.000 Watts/sqft X 3.41 Btuh/Watt X 1.00 = 0 Infiltration: i.00 x 1.osa x 2 411 x 8.0o x o.00 1601 x = 0 "Schedule,Air Sensible Area Ceiling Height ACH T Fraction TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM58,750 Sched. Btu/hr Latent Gain Frac. Area Heat Gain ccu ants 1.00 x 2 411 x 3341 Btuh/occ. / 22 Sgft/OCC. = 36 37 Receptacle 1.00 x xWatts/sqft x Btuh/Watt rocess 1.00 X 2,411 x 0.000 Watts/sgft x 3.413 Btuh/Watt = o Infiltration: x x Am x x � / 6] x ® _ chedule Air Latent Area Ceiling Height ACH pyy ITOTAL HOURLY LATENT HEAT GAIN FOR ROOM 362371 En Pro 3.1 By EnergySofl User Number. 5289 01-2002 Page: 76 of 80 ROOM COOLING COIL LOADS Project Title LG'S PRIME STEAKHOUSE 57.6 Date 2/8/2002 ROOM INFORMATION DESIGN CONDITIONS Room Name DINING & SERVICE Time of Peak Aug 3 pm Floor Area 1,413 Outdoor Dry Bulb Temperature 112 `k Indoor Dry Bulb Temperature 78`F Outdoor Wet Bulb Temperature 78 `17 Conduction 8" Solid CMU Wall I Area 17.0 1. Design Equivalent Temperature Difference (DETD) Reins shown with an asterisk (') denote conduction through an interior surface to another room. Solar Gain U -Value 1 0.02801 DETD 1 X X X X x X X X X 57.6 = = = = = = = 51.4 24.7 62.2 Weighting X X X x x X X X x X Factor 0.422 = = = = = = (Southwest) 56.0 226 Page Total Orientation Area X x X X x X X X X X SGF X X X X x X X X x X SC Weighting X X X x x X X X x X Factor 0.422 = = = = = = (Southwest) 56.0 226 0.724 Page Total -iM1 171 2,279 6,695 761 410 10145 Btu/hr 3 866 3866 Sched. Weighting Btu/hr Internal Gain Frac. Area Heat Gain Factor fights 1A X 1,413 X 0.168 Watts/sgft X 3.41J Btuh/Watt X 0.998 = 807 ccu ants 1. X 1,413 X 274 Btuh/occ. /A34 sgft/occ. X 1.00 = 17,421 Receptacle 1. x 1,413 X 0.790 Watts/sgft X Btuh/Watt x 1.00 = 3,810 rocess 1.0 x 1,413 X 0.000 Watts/sgft x BtuhMatt x 1.00 = 0 Infiltration: 1.00 x 1.064 x 1 a13 x 12.00 x o.00 1601 x 0= 0 —Schedule Air Sensible Area Ceiling Height ACH OT Fractlon TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 36,049 Sched. Btu/hr Latent Gain Frac. Area Heat Gain ccu ants 1.00 X 1 413 X 334 Btuh/OCC. if 22 Sgft/OCC. = 21 36 Receptacle 1.00 x x o.000 Watts/sgft x 1 3,413 Btuh/Watt = rocess 1.00 .x 1,413 x uoo Watts/sgft x 3.413 Btuh/Watt = o infiltration: x 4 77 x x x /60] x ®_ chedule Alr Latent Area Ceiling Height ACH pW ITOTAL HOURLY LATENT HEAT GAIN FOR ROOM EnergyPo 3.1 By Ener Soft User Number: 5289 01-2002 Page: 77 of 80 ROOM COOLING COIL LOADS Project Title LG'S PRIME STEAKHOUSE DETD 1 , Date 2/8/2002 ROOM INFORMATION DESIGN CONDITIONS Room Name ROTUNDA DINING Time of Peak Aug 3 pm Floor Area 775 Outdoor Dry Bulb Temperature 112 OF Indoor Dry Bulb Temperature 78OFOutdoor Wet Bulb Temperature 78 Conduction -38 Roof R.38.2x14.16 3"Solid CMU Wall Area 1. Design Equivalent Temperature Difference (DETD) items shown with an asterisk (') denote conduction through an interior surface to another room. Solar Gain U -Value 1 0.68971 X X x X x X x x x DETD 1 , = = = = = = = = = 57.5 51.3 Page Total Weighting Orientation Area SGF SC Factor x x x = x x x = x x x = x x x x x x x x x = X x x X x x = x x x = X x x Page Total Btulhr 1,248 6,113 7 361 Sched. Weighting Btu<hr Internal Gain Frac. Area Heat Gain Factor fights 1. x 775 x 0.310 Watts/soft x 3.41 Btuh/Watt x 1.000 = 819 ccu ants 1. X 775 X 274 Btuhlocc. / sglVocc. X 1.00 = 4,249 ece tacle 1. x 775 x 0.790 Watts/Sgft x��13.41Btuh/Watt x 1.00 = 2,091 rocess 1.0 X 775 x 0.000 Watts/Sgft xBtuh/Watt x 1.00 = 0 Infiltration: 1.00 x 1.os4 x 77s x 1s.00 x o.o0 /601 x —Schedule Air Sensible Area Ceiling Height ACH T Fraction TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 14,520 Sched. Btu/hr Latent Gain Frac. Area Heat Gain ccu ants 1.00 x 775 x 3341 Btuh/occ. / 50 sgft/oCc. = 5180 Receptacle 1-00 x x o.o Watts/sgft x Btuh/Watt = rocess 1.00 X 775 X 0.000 Watts/sgft x 3.413 Btuh/Watt = 0 Infiltration: x x x x /6] x ®_ L�eduile Air Latent Area Ceiling Heigh ACH DW ROOM COOLING COIL LOADS Project Title I • LG'S PRIME STEAKHOUSE 1 Date 1 2/8/2002 ROOM INFORMATION DESIGN CONDITIONS Room Name ROTUNDA DINING' Time of Peak Jul 4 prn Floor Area 775 Outdoor Dry Bulb Temperature 111 �: Indoor Dry Bulb Temperature 78OF Outdoor Wet Bulb Temperature 78 'IF Conduction -38 Roof R.38.2x14.16 " Solid CMU Wall olid Wood Door in le NonMO Clear Default Area 1 775.41 24.0 1. Design Equivalent Temperature Difference (DETD) Items shown with an asterisk (') denote conduction through an interior surface to another room. Solar Gain U -Value X X 0.0280 X X 0.6897 X 0.3872 X X 0.9900 X X X X X X X X X X X DETD 1 53.91 = 54.0 = 65.5 = 21.7 = Page Total . Weighting Orientation Area SGF SC Factor est 200.4 X 262 X 0.824 X 0.383 x x X = X X X = X X X = X x x X X X X X X = X X X = X X X = X x X Page Total 1,170 27,971 609 4,310 34 059 Btu/hr 16,585 16 585 Sched. Weighting g Btulhr Internal Gain Frac. Area Heat Gain i hts 1. X 775 X 0.330 Watts/sgft X 3.41 Btuh/Watt X 0.998 = 872 ecu ants ix X 775 X 274 Btuh/occ. 1 sgft/occ. x 1.00 9,565 Receptacle X 775 X 0.790 WattS/Sgft X 3.41 BtuhMatt X 1.00 = 2,090 rocess 775 x o.000 Watts/sqft x 3.41 Btuh/Watt x 1.00 = 0 Infiltration: 1.0o x 1.os4 x 77s x 1s.00 x o.00 / 6] x = 0 'Schedule Air Sensible Area Ceiling Height ACH T Fraction TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 63,171 Sched. Btulttr Latent Gain Frac. • Area Heat Gain ccu ants 1.00 X 775 X 3341 Btuh/occ. / 22 sgft/occ. = 11 660 Receptacle 1.00 x x 0.00ol Watts/sgft x Btuh/Watt rocess 1.00 x 775 X 0.000 Wattslsgft X 3.413 Btuh/Watt = 0 Infiltration:x 477 x � x x � / 6] x ®_ chedule Air Latent Area Ceiling Heigh ACH pyy ITOTAL HOURUY LATENT HEAT GAIN FOR ROOM 11,660 EnergyPro 3.1 By En Soft User Number: 5289 01-2002 Page: 79 of 80 ROOM COOLING COIL LOADS Project Title LG'S PRIME STEAKHOUSE Date 2/8/2002 ROOM INFORMATION DESIGN CONDITIONS Room Name WINE CELLAR Time of Peak Jul 3 pm Floor Area 895 Outdoor Dry Bulb Temperature 112 `k Indoor Dry Bulb Temperature 78`F Outdoor Wet Bulb Temperature 78 `F Conduction -38 Roof R.38.2x14.16 Area 1 895.01 1. Design Equivalent Temperature Difference (DETD) items shown with an asterisk (') deme conduction through an interior surface to another room. Solar Gain U -Value DETD t 59.6 Page Total Weighting Orientation Area SGF SC Factor x x x x x x = x x x = x x x x x x = x x x x x x = X x x X x x = x x x = Page Total Btu/hr 1,494 1 494 Sched. Weighting Internal Gain Frac. Area ' Heat Gain Factor Btu/hr i hts 1. x 895 x 0.194 Watts/Sgft x 3.41 Btuh/Watt x 0.996 = 592 ccu ants 1. X 895 x 274 Btuh/occ. IA3141 Scift/OCc. x 1.00 = 11,035 Receptacle 1. x 895 x 0.790 Watts/sgft xBtuh)Watt x 1.00 = 2,413 rocess 1.0 x 895 x 0.000 Watts/sgft xBtuh/Watt x 1.00 = 0 Infiltration: x 1.06a x 895 x 1sAo x o.o0 16] x = 0 —Schedule Air Sensible Area Ceiling Height ACH T Fraction TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 15,534 Sched. Btu/hr Latent Gain Frac. Area Heat Gain ccu ants 1.00 x 895 X 3341 Btuh/occ. / 22 sgft/occ. = 13 452 ece tacle 1.00 x x o.o0o Watts/sgft x Btuh/Watt rocess 1.00 x 895 x 0:000 Watts/sgft x 3.413 BtuhMatt = 0 Infiltration: x a z7 x x x/ 60] x ®_ hedule Air Latent Area Ceiling Height ACH &W ITOTAL HOUBLY LATENT HEAT GAIN FOR ROOM 13 452 En Pro 3.1 By EnergySoft User Number. 5289 01-2002 Page: 80 of 80