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0107-076 (RC)
LICENSED CONTRACTOR DECLARATION I hereby affirm under penalty of perjury that I am licensed under provisions of Chapter 9 (commencing with Section 7000) of Division 3 of the Business and Professionals Code, and my License is in full force and effect. License # Lic. Class Exp. Date p, �it" IX/p Date ` "�"� Signature of contractor.''¢ { OWNER -BUILDER DECLARATION I hereby affirm under penalty of perjury that I am exempt from the Contractor's License Law for the following reason: ( ) I, as owner of the property, or my employees with wages as their sole compensation, will do the work, and the structure is not intended or offered for sale (Sec. 7044, Business & Professionals Code). ( ) I, as owner of the property, am exclusively contracting with licensed contractors to construct the project (Sec. 7044, Business & Professionals Code). ( ); I am exempt under Section B&P.C. for this reason Date Signature of Owner WORKER'S COMPENSATION DECLARATION I hereby affirm under penalty of perjury one of the following declarations: ( ) I have and will maintain a certificate of consent to self -insure for workers' compensation, as provided for by Section 3700 of the Labor Code, for the performance of the work for which this permit is issued. ( ) I have and will maintain workers' compensation insurance, as required by Section 3700 of the Labor Code, for the performance of the work for which this permit is issued. My workers' compensation insurance carrier & policy no. are: Carrier Policy No. (This section need not be completed if the permit valuation is for $100.00 or less). (. ') I certify that in the performance of the work for which this permit is issued, I shall not employ any person in any manner so as to become subject to the workers' compensation laws of California, and agree 'thatif I should become subject to,the workers' compensation provisions of Section 3700 of the Labor Code I shall forthwith comply with -those provisions. f A Date '% f�'r Applicant ? . -* Warning: Failure to secure Workers' Compensation coverage is unlawful and shall subject an employer to criminal penalties and civil fines up to $100,000, in addition to the cost of compensation, damages as provided for in Section 3706 of the Labor Code, interest and attorney's fees. IMPORTANT Application is hereby made to the Director of Building and Safety for a permit subject to the conditions and restrictions set forth on his application. 1. Each person upon whose behalf this application is made & each person at Whose request and for whose benefit work is performed under or pursuant to any permit issued as a result of this applicaton agrees to, & shall, indemnify & hold harmless the City of La Quinta, its officers„agents and employees. 2. Any permit issued as a result of this application 51comes null and void if work is not commenced within 180 days from date of issuance of such permit, or cessation of work for 180 days will subject permit to cancellation. I certify that I have read this application and state that the above information is correct. I agree to comply with all City, and State laws relating to the building construction, and hereby authorize representatives�AVdf this City to enter upon the above-mentioned property for ins pectio n purposes. Signature (Owner/Agent) Date/ BUILDING PERMIT PERMIT # DATE f VALUATION LOT TRACT JOB SITE APN ADDRESS 78_-157:3 .11MY 11,A.i<."OLD :.4 OB - OWNER CONTRACTOR / DESIGNER / EN (NEER P11.11M DRalKe'r CA M6.0 PALM DFMT CA P2260 060)779-M90 CDTA 6448 USE OF PERMIT S 014MM(=,R EM01 YE, `iTt;,tMN.T IikiPY3.rv'tt,',ZNIF.2dr, kif,`L-OCATIGN OF PIW,.AM.ME.i:1.RIANS i - VAUf/t TION 00. 110.5 0014 "RUCTION FTIE 101-000-418-0010 $i"l.ffLs PIrllit+dBl'33iv# FEZ I U3 �OtbOwe3 x 9�Ui1(3 $t�.GO Ub �7 AUG - 2 2001 CiTy OF LA GONTA FINANCE DEPT StMWCOfAt. COMM RUCTION A1,31) 14 -AN �';RWR $5toil 05 141M M -PAW IM MOO rVSiY1l .WSN6«K�L �Ac RECEIPT DATE, BY DATE FINALED INSPECTOR t lid � Oti�� INSPECTION RECORD OPERATION DATE INSPECTOR OPERATION DATE INSPECTOR BUILDING APPROVALS MECHANICAL APPROVALS Set Backs Underground Ducts Forms & Footings Ducts Slab Grade Return Air Steel Combustion Air Roof Deck Exhaust Fans O.K. to Wrap F.A.U. Framing Compressor I Insulation Vents ' Fireplace P.L. Grills Fireplace T.O. Fans &.Controls Party Wall Insulation Condensate Lines Party Wall Firewall Exterior Lath Drywall - Int. Lath Final Final BLOCKWALL APPROVALS POOLS - SPAS steel Set Backs Electric Bond Footings Main Drain Bond Beam, Approval to Cover Equipment Location Underground Electric Underground Pibg. Test Final Gas Piping PLUMBING APPROVALS Gas Test Electric Final Waste Lines Heater Final Water Piping Plumbing Final Plumbing Top Out Equipment Enclosure Shower Pans O.K. for Finish Plaster Sewer Lateral Pool Cover Sewer Connection Encapsulation Gas Piping Gas Test Appliances Final Final Utility Notice (Gas) ELECTRICAL APPROVALS Temp. Power Pole Underground Conduit Rough Wiring Low Voltage Wiring Fixtures .Main Service Sub Panels Exterior Receptacles G.F.I. Smoke Detectors Temp. Use of Power Final Utility Notice (Perm) COMMENTS: µ decker 5ecker Tenent improvement �85�5 �+w� 111 � I dg #� • Lo Quinto Ga. Q2255 Fm 2'— 6'' Clear ADA SINK TOE GLEAF WALL J d locaton of Sink ._CITY. OF LA. QIJiNTA BUILDING-& SAFETY DEPT APPROVED FOR CONSTRUCTION DATE -_ '�BY Sca l,e 1/2" = 1' .............. ............................. ...................... ..................... ...... - ............ mg sink � I Ila A/C CONDENSER "*'ANI;) HEAT EXCHANGER m TITLE 24 REPORT Title 24 Report for: Becker & Becker Realty La Quinta Court # 3 La Quinta, Ca 92253 Project Designer: Bob Sipovac Jr 72651 Theodora Ln Palm Desert, Ca 92260 760-779-0790 Report Prepared By: " Bob Sipovac Jr Sipovac Construction 72651 Theodora Lane Palm Desert, CA 92260 (760) 779-0790 Job Number: 2001-02 Date: 8/17/2001 off/6-4e CITY OF LA QUINTA BUILDING & SAFETY DEPT. APPROVED FOR CONSTRUCTION DABY - j!2 (- 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. 2001-02 User Number. 5289 TABLE OF CONTENTS 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 6 7 8 10 12 13 15 17 19 21 29 37 EnergyPro 3.1 By EnergySoft Job Number. 2001-02 User Number. 5289 CERTIFICATE OF COMPLIANCE Part 1 of 3 LTG -1 PROJECT NAME DATE Becker & Becker Real 8/17/2001 PROJECT ADDRESS La Quintal Court # 3 La Quinta Buitding.Permit# PRINCIPAL DESIGNER - LIGHTING TELEPHONE DOCUMENTATION AUTHOR TELEPHONE Checked by/Date SI ovac Construction 760 779-0790 1 Enforcement Agency Use GENERAL INFORMATION DATE OF PLANS BUILDING CONDITIONED FLOOR AREA CLIMATE ZONE 3/12/2001 1,990 Sq.Ft. 15 BUILDING TYPE [X] NONRESIDENTIAL HIGH RISE RESIDENTIAL E] HOTEL/MOTEL GUEST ROOM PHASE OF CONSTRUCTION NEW CONSTRUCTION 0 ADDITION E] ALTERATION EXISTING + ADDITION METHOD OF LIGHTING COMPLETE BUILDING �( AREA CATEGORY F-]TAILOREDPERFORMANCE COMPLIANCE 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 lighting requirements. The documentation preparer hereby certifies that the documentation is accurate and complete. DOCUMENTATION AUTHOR SIG U DATE Bob Si ovac Jr 1 The Principal Lighting Designer hereby certifies that the proposed building design repres ted 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: ❑ 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. 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. # 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. LTG -4: Optional. Use only if Tailored method is used. LTG -5: Optional. Use only if Tailored method is used. EnergyPro 3.1 By EnergySoft User Number 5289 Job Number. 2001-02 Page:3 of 44 LIGHTING COMPLIANCE SUMMARY Part 2 of 3 LTG -1 PROJECT NAME DATE Becker & Becker Realty 8/17/2001 __] INSTALLED LIGHTING SCHEDULE LAMPS BALLASTS Luminaire Code LUMINAIRE DESCRIPTION TYPE DESCRIPTION# Watts er Lamp DESCRIPTION # (Lamp + # Ballast) watts. Total Waw 2 18w Fluorescent Twin Elec FT18W/2G11 2 18 Electronic 1.Q 34 35.0 1,190 (3) 18w Fluorescent Twin (Tandem) Elec FT18W/2G11 1 18 Electronic 1 • 22 52.0 1,144 Lighting Schedule on Plans Subtotal from this Page SHow Exterior Lighting Meets Total 2,334 2,33a Portable Lighting (From LTG -1) I sats ❑ Efficacy and Control Requirement of 180(c) Less Control Credit Watts (From LTG -3) F-1 Control Requirements of 031 (1) Adjusted Actual Watts 2,732 MANDATORY AUTOMATIC CONTROLS CONTROL LOCATION (Room #) CONTROL IDENTIFICATION CONTROL TYPE (Auto Time Switch, Exterior, etc.) SPACE CONTROLLED NOTETO FIELD LIGHTING COMPLIANCE SUMMARY Part 3 of 3 LTG -1 PROJECT NAME DATE Becker & Becker Realty I 8/17/2001 A ROOM # DEFAULT OR ZONE ID Wls ft AREA SF TOTAL WATTS B X C Office Suites 0.2 859 172 Main Office 0.2 1,131 226 TOTAL 1,990 398 TABLE 1 B - PORTABLE LIGHTING SHOWN ON PLANS FOR OFFICE AREAS >250 SQUARE FEET a o o a o 0 0 LUMIN. TASK # OF TOTAL TOTAL TABLE 1C - PLANS SHOW PORTABLE LIGHTING IS NOT REQUIRED FOR OFFICE AREAS > 250 SQUARE FEET 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 (SF) TOTAL WATTS BUILDING SUMMARY (FROM TABLES 1A+1B+1C) (FROM TABLES 1A+1B) BUILDING TOTAL 1,990 398 EnergvPro 3.1 By EnergvSoft User Number: 5289 Job Number: 2001-02 Page:5 of 44 LIGHTING COMPLIANCE SUMMARY LTG -21 PROJECT NAME Becker & Becker Rea DATE 8/17/2001 ACTUAL LIGHTING POWER LUMINAIRE NAME DESCRIPTION NUMBER OF WATTS PER LUMINAIRE CEC DEFAULT Total Watts LUMINAIRES Including Ballast Y I N' 2) 18w Fluorescent Twin Elec 34 35.0 0 ❑ 1,190 3) 18w Fluorescent Twin (Tandem) Elec 22 52.0 ®❑ 1,144 ❑❑ ❑❑ ❑❑ ❑❑ ❑❑ ❑❑ El E:1 ❑❑ Subtotal from this Page 2,334 Building Total 2,334 Portable Lighting (From LTG -1) 398 Less Control Credit Watts (From LTG -3) Adjusted Actual Watts 2 732 [ALLOWED LIGHTING(Choose One COMPLETE BUILDING METHOD . BUILDING CATEGORY (From Table 1-M) WATTS PER SF COMPLETE BLDG. AREA ALLOWED WATTS AREA CATEGORY METHOD AREA (SF) ALLOWED WATTS AREA CATEGORY (From Table 1-N) WATTS PER SF Comp Bldg Office 1.20 1,990 2,388 PAGE TOTAL 1 990 2 388 BUILDING TOTAL 1 990 2 388 AREA WATTS TAILORED METHOD . TOTAL ALLOWED WATTS D (From LTG -4 or from computer run.) EnergyPro 3.1 By EnergySofl User Number 5289 Job Number. 2001-02 Page:6 of 44 LIGHTING MANDATORY MEASURES LTG -MM NAME Becker & Becker Rea DATE 8/17/2001 DESCRIPTION Designer Enforcement r§ 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)20verride for Building Lighting Shut-off: The automatic building shut-off 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. § 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. X Fluorescent Ballast and Luminaires Certified: All fluorescent fixtures specified for the project are certified and listed in the Directory. All installed fixtures shall be certified. X1 § 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. X] § 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. X❑ § 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 bi-level switching for uniform reduction of lighting within the room. F § 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 daylit 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. § 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 EnergySoft User Number. 5289 Job Number: 2001-02 Page:7 of 44 CERTIFICATE OF COMPLIANCE Part 1 of 2 MECH-1 PROJECT NAME Becker & Becker Real DATE 8/17/2001 PROJECT ADDRESS La Quinta Court # 3 La Quinta CLIMATE ZONE Building Permit # PRINCIPAL DESIGNER - MECHANICAL TELEPHONE BUILDING TYPE NONRESIDENTIAL HIGH RISE RESIDENTIAL HOTEUMOTEL GUEST ROOM DOCUMENTATION AUTHOR Sipovac Construction TELEPHONE (760) 779-0790 Checked by/Date Enforcement Agency Use GENERAL INFORMATION DATE OF PLANS BUILDING CONDITIONED FLOOR AREA CLIMATE ZONE 3/12/2001 1,990Sq.Ft. 15 BUILDING TYPE NONRESIDENTIAL HIGH RISE RESIDENTIAL HOTEUMOTEL GUEST ROOM PHASE OF CONSTRUCTION NEW CONSTRUCTION Ej 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 91nplete. DOCUMENTATION AUTHOR SI NATUR DATE & Bob Si ovac Jr �' The Principal Mechanical Designer hereby certifies that the proposed building design r resented 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 through115, 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 SIGNATURE DATE LIC. # 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 form does not have to be completed if location of mechanical equipment schedule is indicated on the form per Section 4.3.3. 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 Ener ysoft User Number: 5289 Job Number: 2001-02 Page:8 of 44 CERTIFICATE OF COMPLIANCE Part 2 of 2 MECH-1 PROJECT NAME DATE Becker & Becker Realty 8/17/2001 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 (MECH-3, 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 IR -VALUE PIPEIDUCT INSULATION PROTECTED? PIPE TYPE (SUPPLY, RETURN, ETC.) PIPE INSULATION REQUIRED? VERIFIED SEALED DUCTS IN CEILING/ROOF SPACE MECHANICAL SYSTEMS HVAC 1 HVAC 2 Programmable Switch Heating 8 Cooling Required n/a Yes 16.8 kW Constant Volume No No Constant Tem Constant Tem n/a Air Balance Auto No Economizer 129 cfm Heat Pum 6.80 HSPF Packaged DX 10.0 SEER / 9.5 EER RUUD UJKAA060 Ducts in Attic4.2 Ducts in Attic 4.2 Yes HEAT AND COOL SUPPLY RESET? Yes No NOTE TO FIELD CODE TABLES: Enter code from table below into columns above. HEAT PUMP THERMOSTAT? TIME CONTROL SETBACK CTRL. ISOLATION ZONES FAN CONTROL ELECTRIC HEAT? S: Prog. Switch O: Occupancy H: Heating C: Cooling Enter Number of Isolation Zones. I: Inlet Vanes P: Variable Pitch VAV MINIMUM POSITION CONTROL? Y: Yes N: No Sensor M: Manual Timer B: Both V: VFD O: Other C: Curve SIMULTANEOUS HEAT I COOL? HEAT AND COOL SUPPLY RESET? VENTILATION OUTDOOR DAMPER ECONOMIZER O.A. CFM HIGH EFFICIENCY? B: Air Balance C: Outside Air Cert. A: Auto G: Gravity : Air : Water Enter Outdoor Air CFM. PIPE INSULATION REQUIRED? M: Out. Air Measure D: Demand Control N: Natural N: Not Required EC: Economizer Control See Section Note: This shall be no less than Col. H on MECH-3. PIPE/DUCT INSULATION PROTECTED? SEALED DUCTS IN CEILING/ROOF SPACE? 1 144(e)3 1w 1 c.7 I v v-v%jo &J"fluillu v c wimlw rigs— I Ener9vPro 3.1 By EnergySoR User Number. 5289 Job Number: 2001-02 Page:9 of 44 MECHANICAL EQUIPMENT SUMMARY Part 1 of 2 MECH-2 PROJECT NAME DATE Becker & Becker Real 8/17/2001 CHILLER AND TOWER SUMMARY CFM Efficiency Tons PUMPS CFM BHP Equipment Name Equipment Type Qty. Tot. Qty GPM I BHP Motor Eff. Drive Eff. Pump Control none DHW / BOILER SUMMARY Energy Factor or Recovery Efficiency Standby Loss or Pilot TANK INSUL. System Name System Type Distribution Type Qty Rated Input (Gals.) Vol. Ext. R-Val. CENTRAL SYSTEM RATINGS HEATING COOLING System Name System Type Oty. Output Aux. kW I Eff. Output Sensible Efficiency Economizer Type RUUD UJKA A060 Packaged DX 2 57,500 16.86.80HSPF 57,500 43,1 10.0 SEER/ 9.5 EER No Economizer MMARY Q"PPI v FAN I I RFTl1RN FON System Name Fan Type Motor Location CFM BHP Motor Eff. Drive Eff. CFM BHP Motor Eff. Drive Eff. RUUD UJKAA060 Constant Volume Blow -Through 2,000 1.00 82.5% 100.0% none EnergyPro 3.1 By EnergySoft User Number: 5289 Job Number: 2001-02 Page:1Q of 44 MECHANICAL EQUIPMENT SUMMARY Part 2 of 2 MECH-21 MECHANICAL VENTILATION MECH-3 PROJECT NAME DATE Becker & Becker Realty I 8/17/2001 MECHANICAL VENTILATION A ©© a a a© a a a o ZONEISYSTEM Office Suites HVAC 1 - Main Office HVAC 2 AREA BASIS COND. AREA (SF) CFM PER SF MIN. CFM (B x C) 859 0.15 129 1,131 0.15 170 OCCUPANCY BASIS NO. CFM MIN. OF PER CFM PEOPLE PERSON (ExF) Total Total J VAV MIN. RATH 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 Exhaustfans. K Must be greater than or equal to (H minus 1), and, for VAV, greater than or equal to (H -J). EnergvPro 3.1 By Energysoft User Number. 5289 Job Number: 2001-02 Page: 12'bf 44 MECHANICAL SIZING AND FAN POWER MECH-4 PROJECT NAME DATE Becker & Becker Real 8/17/2001 SYSTEM NAME FLOOR AREA 59 HVAC 1 622 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 129 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 _ 0 FAN DESCRIPTION Supply Fan IC DESIGN BRAKE HP 1.000 © a EFFICIENCY MOTOR I DRIVE 82.5%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 24 OF 79 of 78 OF 74 OF 4,648 6,915 24,965 12,433 0 n/a 1,248 622 0 0 0 0 1,248 622 32,139 20,591 1.21 1.43 38,889 29,446 44,2291 1 36,2451. Btu / Hr Btu / Hr a NUMBER OF FANS 1 If] PEAK WATTS B x E x 746 / (C X D)i a CFM (Supply Fans) 2,000 TOTALS 904 2 000 TOTAL FAN SYSTEM POWER DEMAND 0.452 WATTS /'CFM Col. F / Col. G EnergyPro 3.1 By EnergySoft User Number 5289 Job Number: 2001-02 PaW:13 of 44 MECHANICAL SIZING AND FAN POWER MECH-4 PROJECT NAME DATE Becker & Becker Real 8/17/2001 SYSTEM NAME HVAC 2 FLOOR AREA 1,131 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 170 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 FAN DESCRIPTION Supply Fan DESIGN BRAKE HP 1.000 EFFICIENCY MOTOR DRIVE 82.5%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 24 OF 79 OF 781 OF 74 OF 6,167 9,151 13,981 1,584 0 n/a 6991 79 0 0 0 0 699 79 21,560 10,893 1.21 1.43 26 087 15,577 43,9331 1 36,245 Btu I Hr Btu / Hr El NUMBER PEAK WATTS CFM OF FANS B x E x 746 / (C X D) (Supply Fans) 1 904 2,000 TOTALS 904 2,0001 TOTAL FAN SYSTEM POWER DEMAND 0.452 WATTS / CFM Col. F / Col. G EnergyPro 3.1 By Energysoft User Number 5289 Job Number. 2001-02 Page: 14 of 44 MECHANICAL MANDATORY MEASURES Part 1 of 2 MECH-MM NAME Becker & Becker Rea DATE 8/17/2001 DESCRIPTION Designer Enforcement Equipment and Systems Efficiencies §111 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. § 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 If 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. a § 122(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 dampers, 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 cawbmn etbjp�tfie beat pump alone. EnergyPro 3.1 By EnergySoft User Number. 5289 Job Number. 2001-02 Page: 15 of 4# MECHANICAL MANDATORY MEASURES Part 2 of 2 MECH-MM PROJECT NAME DATE Becker & Becker Realty 8/17/2001 Description Designer Enforcement Ventilation ❑ § 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)l 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). EnergyPro 3.1 By EnergySoft User Number. 5289 Job Number: 2001-02 Page:l8 of 44 [HVAC SYSTEM HEATING AND COOLING LOADS SUMMARY PROJECT NAME DATE Becker & Becker Realty 8/17/2001 SYSTEM NAME FLOOR AREA HVAC 1 859 ENGINEERING CHECKS 11SYSTEM LOAD Number of Systems 1 Heating System Output per System 57,500 Total Output (Btuh) 57,500 Output (Btuh/sgft) 66.9 Cooling System Output per System 57,500 Total Output (Btuh) 57,500 Total Output (Tons) 4.8 Total Output (Btuh/sgft) 66.9 Total Output (sgft/Ton) 179.3 Air System CFM per System 2,000 Airflow (cfm) 2,000 Airflow (cfm/sqft) 2.33 Airflow (cfmrron) 417.4 Outside Air (%) 6.4 Outside Air (cfm/sgft) 0.15 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 II Sensible 1,347 24,965 1,770 291 12,433 0 1,248 622 0 0 129 4,648 1,865 129 6,915 0 0 1,248 622 32139 3 634 20 591 RUUD UJKAA060 44,229 7,954 36,245 16.8 kW Supplemental Electric 57,338 Total Adjusted System Output 229 7 954 93,583 (Adjusted for Peak Design Conditions) TIME OF SYSTEM PEAK Jul 3 pm Jan 12 am EATING SYSTEM PSYCHROMETRICS Airstream Temperatures at Time of Heating Peak 24.0°F 70.5°F 70.5°F 87.30F 113.90F O Supply Air Ducts Outside Air 129 cfm 113.6 °F Supply Fan Heating Coil Aux Heat Coil 2000 cfm ROOMS 74.0 OF 73.7 °F SYSTEM PSYCHROMETRICS 12.0/78.5°F 80.7/66.3°F Outside Air O 129 cfm Supply Far 2000 cfm 78.6/65.4°F 80.7/66.30F k Return Air Ducts y .ratures at Time of 60.3/58.8°F Cooling Coil h Retum Air Ducts 11 Supply Air Ducts 60.8/59.1°F 50.5% R.H. ROOMS 78.0/65.2°F EnergyPro 3.1 By EnergySott User Number. 5289 Job Number. 2001-02 Page: 17 of 44 HVAC SYSTEM HEATING AND COOLING LOADS SUMMARY PROJECT NAME Becker & Becker Realty DATE 8/17/2001 SYSTEM NAMEFLOOR AREA 1,131 HVAC 2 Output (Btuh/sgft) Number of Systems 1 Heating System Output per System 57,500 Total Output (Btuh) 57,500 Output (Btuh/sgft) 50.8 Cooling System Output per System 57,500 Total Output (Btuh) 57,500 Total Output (Tons) 4.8 Total Output (Btuh/sgft) 50.8 Total Output (sgftrron) 236.0 Air System CFM per System 2,000 Airflow (cfm) 2,000 Airflow (cfm/sgft) 1.77 Airflow (cfm/Ton) 417.4 Outside Air (%) 8.5 Outside Air (cfm/sgft) 0.15 Note: values above given at ARI conditions :ATING SYSTEM PSYCHROME 24.0 OF 69.7 OF Outside Air. 170 cfm • Supply Fan 2000 cfm 74.0 OF LING 12.0 / 78.5 OF Outside Air 170 cfm 78.3/65.70F 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 769 13,981 2,330 38 1,584 0 699 79 0 0 170 6,167 2,214 170 9,151 0 0 699 79 21 560 4544 10 893 RUUD UJKAA060 43,933 8,760 36,245 16.8 kW Supplemental Electric 57,338 Total Adjusted System Output 43,933 8,760 93,583 (Adjusted for Peak Design Conditions) TIME OF SYSTEM PEAK Jul 3 pm Jan 12 am RICS (Airstream Temperatures at Time of He; 69.7 OF 86.50F 113.10F Heating Coil Aux. Heat Coil Return Air Ducts 'RICS (Airstream Temneratures at Time of Cc 81.2/66.9 OF 81.2/66.90F IM 60.8/59.40F --(F Supply Fan 2000 cfm Cooling Coil K Return Air Ducts `i Supply Air Ducts 113.00F ROOMS 74.0 0 F Supply Air Ducts 61.2 / 59.6 OF 51.9% R.H. ROOMS 78.0/65.6 OF EnergyPro 3.1 By EnergySoft User Number. 5289 Job Number. 2001-02 Page:18 of 44 ROOM LOAD SUMMARY PROJECT NAME .Becker & Becker Real DATE 8/17/2001 SYSTEM NAME HVAC 1 FLOOR AREA 859 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 Office Suites Office # 1 1 54 995 148 53 986 148 2 101 Office # 2 1 58 1,075 167 57 1,065 167 3 113 Office # 3 1 58 1,075. 167 57 1,065 167 31 113 Conferance Room 1 388 7,194 420 381 7,061 420 92 3,931 Main Entry 1 467 8,6M 424 456 8,445 424 117 4,991 Office # 4 1 264 4,888 235 257 4,767 235 66 2,805 ice 1 85 1,584 208 85 1,576 208 91 378 PAGE TOTAL 1 1,347 24,965 1,770 291F 12,433 TOTAL 1 1,347 24,965 1,770 291 12,433 EnergyPro 3.1 By EnergySoft User Number: 5289 Job Number: 2001-02 Page: 19 of 44 ROOM LOAD SUMMARY PROJECT NAME Becker & Becker Real DATE 8/17/2001 SYSTEM NAME HVAC 2 FLOOR AREA 1,131 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 Main Office Partition Area 1 777 14,117 2,330 769 13,981 2,330 38 1,584 PAGETE�TAL 769 13,981 2,330 38 1,584 TOTAL 1 769 1 13,981 2,330 38 1,584 EnergyPro 3.1 By EnergySoft User Number: 5289 Job Number: 2001-02 Page:20 of44 ROOM HEATING PEAK LOADS Project Title Date Becker & Becker Real 18/17/2001 Room Information Desi n Conditions Room Name Office # 1 Time of Peak Jan 12 am Floor Area 72 Outdoor Dry Bulb Temperature 24OF Indoor Dry Bulb Temperature 74 OF Conduction Area U -Value AT of Btu/hr 72.0 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 3( 50.0 = = = = 101 Items shown with an asterisk(*)) denote conduction through an Interior surface to another room. Page Total: I 101 Infiltration: 1 1.001 x 1.080 x 72 x 10.00 x 6] x ® = 0 cheQate Air Sensible Area Ceiling Heigh ACH AT Fraction TOTAL HOURLY HEAT LOSS FOR ROOM :`' 101 EnergyPro 3.1 By EnergySoft User Number. 5289, Jgb.KWvber. 2001-Q2 Page:21 of 44 ROOM HEATING PEAK LOADS Project Title Date Becker & Becker Real 8/17/2001 Room Information Desian Conditions Room Name Office # 2 Time of Peak Jan 12 am Floor Area 81 Outdoor Dry Bulb Temperature 24 OF Indoor Dry Bulb Temperature 74 OF Conduction Area U -Value AT of Btu/hr 81.0 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 50.0 = = = = = = 113 Items shown with an asterisk (-)) denote conduction through an interior surface to another room. Page Total: I 1131 Infiltration: 1 1.001 x 1.080 x 81 x 10.00 x 0.00 / 60] x ® _ chedule Air Sensible Area Ceiling Height ACH OT Fraction TOTAL HOURLY HEAT LOSS FOR ROOM 113 EnergyPro 3.1 By EnergySoft User Number. 5289 Job Number. 2001-02 Page: 22 of 44 ROOM HEATING PEAK LOADS Project Title Date Becker & Becker Real 8/17/2001 Room Information Desi n Conditions Room Name Office# 3 Time of Peak Jan 12 am Floor Area 81 Outdoor Dry Bulb Temperature 24OF Indoor Dry Bulb Temperature 74 OF 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 81.0 0.0280 AT of Btu/hr 113 Mems snow n warn an astensK t-rI oenore conaucuon inrougn an imenor sunace to anoiner room. Page Total: 1 113 Infiltration: I 1.00x 1.080 x 81 x 10.00 x 60] x AT = QO Schedule Air Sensible Area Ceiling Height ACH AT Fraction TOTAL HOURLY HEAT LOSS FOR ROOM 113 EnergyPro 3.1 By EnergySoft User Number. 5289 Job Number. 2001-02 Page: 23 of 44 ROOM HEATING PEAK LOADS Project Title Date Becker & Becker Real 18/17/2001 Room Information Desicin Conditions Room Name Conferance Room Time of Peak Jan 12 am Floor Area 204 Outdoor Dry Bulb Temperature 24 OF Indoor Dry Bulb Temperature 74°F Conduction Area U -Value AT of Btu/hr 204.0 64.0 96.0 x 50.0 = 286 x 50.0 = 189 x 50.0 = 3,456 x = x _ x = x = x = x = x = X = x = x = x = x = x = x = x = x = x = x = x = x = x = x = x = x = x = x = x = x = x = x = x = x = x = x = x = X = items snown witn an astensK t -f aenote conauawn tnrougn an mtenor sunace to anomer room. Page Total: 3 931 Infiltration: r 1.00 x 1.oso x 2oa x 10.00 x o.00 / 60] x- ® = Do chedUle Air Sensible Area Ceiling Height ACH AT Fraction TOTAL HOURLY HEAT LOSS FOR ROOM 3,931 EnergyPro 3.1 By EnergySoR User Number. 5289 Job Number: '2001-02 Page: 24 of 44 ROOM HEATING PEAK LOADS Project Title Date Becker & Becker Really8/17/2001 Room Information Design Conditions Room Name Main Entry Time of Peak Jan 12 am Floor Area 206 Outdoor Dry Bulb Temperature 24 OF Indoor Dry Bulb Temperature 74 OF Conduction Area U -Value AT of Btu/hr 206.0 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 50.0 = = = = = = = = = 288 32.0 0.0592 50.0 95 128.0 0.7200 50.0 4,608 Items shown With an asterisk (-)) denote conduction through an intenor surface to another room. Page Total: I 4,9911 Infiltration: II 1.001X 1.080 x 206 x 10.00 x 0.00 /60] x so Q schedule Jr Sensible Area Ceiling Height ACH AT Fraction TOTAL HOURLY HEAT LOSS FOR ROOM 4,991 EnergyPro 3.1 By EnergySoft User Number. 5289 Job Number. 2001-02 Page: 25 of 44 ROOM HEATING PEAK LOADS Project Title Date —7�� Becker & Becker Real 18/17/200:17 Room Information Desi - n Conditions Room Name Office#4 Time of Peak Jan 12 am Floor Area 114 Outdoor Dry Bulb Temperature 24 of Indoor Dry Bulb Temperature 74 OF Conduction Area U -Value AT of Btu/hr 18.0 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 0.0592 x x X x x X x x X X x x X X X x X x X X X X X x X x X x x X X X x X X X X X X - 50.0 = = = = = = = = = = = = = 53 72.0 0.7200 50.0 2,592 114.0 0.0280 50.0 160 Items shown with an asterisk (*)) denote conduction through an interior surface to another room. Page Total: 2 805 Infiltration: I1 1.001 x 1.080 x 114 x 10.00 x 6] x W. = 0 chedule Air Sensible Area Ceiling Height ACH DT . Fraction TOTAL HOURLY HEAT LOSS FOR ROOM 2,805 EnergyPro 3.1 By Energysoft User Number. 5289 Job Number` 2001-02 Page: 26 of 44 L Cl) Cl) O M ` ` N 7 m II II II II II II II 11 II II II II 11 II II 11 11 II 11 II II II II 11 11 II II 11 II II II II 11 II II 11 II 11 II II Al x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x g g, o d O OOD c Z s � C x 0 0 N Q , C 0 0 N 4) m E Z 0 N N 07 E z 8 D LL 0 N � N c m O O N ti 000 v a� CL E ~ rn C = LU Y O U d w Q c O O y E QHO Ln O C) LL O c� n � N CL U O � m m oa :• E is Z. c Z Q Q H �Y EE ` o W N C C O c CL m m _ L Cl) Cl) O M ` ` N 7 m II II II II II II II 11 II II II II 11 II II 11 11 II 11 II II II II 11 11 II II 11 II II II II 11 II II 11 II 11 II II Al x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x g g, o d O OOD c Z s � C x 0 0 N Q , C 0 0 N 4) m E Z 0 N N 07 E z 8 D ROOM HEATING PEAK LOADS Conduction Area U -Value 1131.0 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 7( , 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 items shown win an astensK () genote conauawn tnrougn an mtenor sunam to anomer room. Infiltration: 1.00 x 1.0801 x 1 131 x 10.00 x' 0.00 / 6 ] x chedule Air Sensible Area Ceiling Height Fraction OT o F Page Total 50 AT Btu/hr 1,584 1 584 0 TOTAL HO()RLY HEk'f E -M FOR ROOM _ 1,584 EnergyPro 3.1 By En ergySoft User Nurffber. 5289 Job NA&r: 7001-02 Page: 28 of 44 ROOM COOLING. PEAK LOADS (Project Title Date Becker & Becker Realty 8/17/2001 ROOM INFORMATION DESIGN CONDITIONS Room Name Office# 1 Time of Peak Jul 1 pin Floor Area 72 Outdoor Dry Bulb Temperature 109 OF Indoor Dry Bulb Temperature 789: Outdoor Wet Bulb Temperature 78 OF Conduction 4.1 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 DETD 1 65.1 = 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 131 131 Btu/hr 0 Sched. Weighting Btu/hr Internal Gain Frac. Area Heat Gain Factor fights 1. X 72 x 1.444 Watts/sgft x 3.41 Btuh/Watt x 0.998 = 354 ccu ants 1A x 72 x 250 Btuh/occ. / 10 sgftiocc. x 1.00 = 180 Receptacle 1. x 72 x 1.340 Watts/sqft x 3.41 Btuh/Watt x 1.00 = 329 rocess 1. x 72 x 0.000 Watts/sgft x 3.41 Btuh/Watt x 1.00 = 0 Infiltration: 1.00 x 1.080 x 72 x 10.00 x 0.00 /601 x 34 = 0 chedule Air Sensible Area Ceiling Height ACH AT Fraction TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 995 Sched. Btu/hr Latent Gain Frac. Area Heat Gain ccu ants 1.00 x 72 x 206 Btuh/occ: / 100 sgft/occ. = 148 Receptacle in x 72 x o.000 Watts/sgft x 1 3 4131 Btuh/Watt = Process - 1.00 x 72 X 0.000 Watts/sgft x 1 3.4131 Btuh/Watt = o Infiltration: t p FAW x 72 x 4Ht x/ 64 x_ chedide; nt Area CeilinACH &W I EnergvPro 3.1 By EnemySoft User Number. 5289- 2001-02 Page: 29 oW I ROOM COOLING PEAK LOADS (Project Title Date Becker & Becker Realty 8/17/2001 ROOM INFORMATION DESIGN CONDITIONS Room Name Office#2 Time of Peak Jul 1 pm Floor Area 81 Outdoor Dry Bulb Temperature log � Indoor Dry Bulb Temperature 78OFOutdoor Wet Bulb Temperature 78 OF Conduction -38 Roof R.38.2x14.16 Area 81 1. Design Equivalent Temperature Difference (DETD) Items shown with an asterisk (') denote conduction through an interior surface to another room. Solar Gain Orientation Area U -Value 1 0.02801 SGF SC DETD 1 65.1 = Page Total Weighting Factor x = x = x = x = x = x = X = x = x = x = Page Total Btu/hr 148 148 Btu/hr 0 Sched. Weighting BtWhr Internal Gain Frac. Area Heat Gain Factor fights 1.0c x 81 x 1.284 Watts/sgft x 3.41 Btuh/Watt x 0.998 = 354 ccu ants 1. x 81 x 250 Btuh/occ. / 1 sgftlocc. x 1.00 = 202 Receptacle 1. x 81 x 1.340 Watts/sgft x 3.41 Btuh/Watt x 1.00 = 370 rocess r1.0c x 81 x 0.000 Watts/sgft x 3.41 Btuh/Watt x 1.00 = 0 Infiltration: I 1.00 x 1.080 x 81 x 10.00 x 0.00 /601 x AT _ �0 chedule Air Sensible Area Ceiling Height ACH AT Fraction TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 1,075 Sched. Btu/hr Latent Gain Frac. Area Heat Gain ocu ants 1.00 x 81 x 2061 Btuh/occ. / 100 sgft/occ. = 167 Receptacle 1.00 x x Watts/sgft x Btuh/Watt = rocess 1.00 x s1 x 0.000 Watts/sgft x 3.413 Btuh/Watt = o Infiltration: x x x x � / 6] x ®_ chedule Air La nt Area Ceiling Height ACH pyy TOTAL HOURLY LATENT HEAT GAIN FOR ROOM 167 EnergyPro 3.1 By EnergySoft User Number. 5289 2001-02 Page: 30 of 44 71 ROOM COOLING PEAK LOADS Project Title ROOM INFOI Room Name Floor Area Becker & Becker Dry Bulb Temperature Conduction Roof Office # 3 1 Time of Peak 81 I Outdoor Dry Bulb Temperature 780F Outdoor Wet Bulb Temperature Area 81.01 1. Design Equivalent Temperature Difference (DETD) Items shown with an asterisk (') denote conduction through an interior surface to another room. Solar Gain U -Value Date 8/17/2001 DETD 1 65.1 = 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 Jul 1 pm log C� 78 9F Btu/hr 148 148 Btu/hr Sched. Weighting Btu/hr Internal Gain Frac. Area Heat Gain Factor fights 1.01C x 81 x 1.284 Watts/sgft x 3.41 Btuh/Watt x 0.998 = 354 acu ants 1. x 81 x 250 Btuh/occ. / 1 sgft/occ. x 1.00 = 202 Receptacle 1. x 81 x 1.340 Watts/sgft x 3.41 Btuh/Watt x 1.00 = 370 rocess 1. x 81 x 0.000 Watts/sgft x 3.41 Btuh/Watt x 1.00 = o Infiltration: 1.00 x 1.080 x 81 x 10.00 x 0.00 / 60] x 34 = 0 �chedule Air Sensible Area Ceiling Height ACH DT Fraction TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 1,075 Sched. Btu/hr Latent Gain Frac. Area Heat Gain ccu ants 1.00 x 81 x 2061 Btuh/occ./ 100 sgft/occ. = 167 Receptacle 1M x x Watts/sgft x Btuh/Watt = rocess 1.00 x s1 x 0.000 Wattslsgft x 3.4131 Btuh/Watt = o Infiltration: x x x 10.00 x / 6] x ®_ chedule Air La nt a DD Area Ceiling Height ACH AW TOTAL HOURLY LATENT HEAT GAIN FOR ROOM 167 EnergyPro 3.1 By EnergySoft User Number: 5289 2001-02 Page: 31 of 44 ROOM COOLING PEAK LOADS Project Title Date Becker & Becker Realty 8/17/2001 Room Name Conferance Room Time of Peak Jun 5 pm Floor Area 204 Outdoor Dry Bulb Temperature 106 OF Indoor Dry Bulb Temperature 78OF Outdoor Wet Bulb Temperature 75 9F Conduction k-38 Roof (R.38.2x14.16) 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 DETD 1 42.8 = 33.2 = 20.3 = Page Total Weighting Orientation Area SGF SC Factor (North) 96.0 X 57 X 0.813 x 0.695 = X X X 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 245 126 1,406 1 ns Btu/hr 3,089 3089 Sched. Weighting Btu/hr Internal Gain Frac. Area Heat Gain Factor fights 1.0c x 204 X 1.275 Watts/sgft X 3.41 BtuhlWatt X 0.999 = 886 ccu ants 1.0c x 204 X 250 Btuh/OCc. / 1 sgft/occ. x 1.00 = 510 Receptacle 1. X 204 X 1.340 Watts/sgft x 3.41 BtuhlWatt X 1.00 = 933 rocess rUx x 204 x 0.000 Watts/sgft x 3.41 Btuh/Watt x 1.00 = 0 Infiltration: I 1.00 x 1.oso x 2oa x 10.00 x o.00 /601 x 34 _ "'--- chedule Air Sensible Area Ceiling Height ACH &T Fraction TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 7,194 Sched. Btu/hr Latent Gain Frac. Area Heat Gain ccu ants 1.00X 204 X 206 Btuh/occ. / 100 sgft/occ. = 420 Receptacle 1.00 x x Watts/sgft x Btuh/Watt = rocess 1.00 X 204 X 0.000 Watts/sgft X 3.413 BtuhlWatt = 0 Infiltration: x x x 10.00 x 16 ] x ®_ chedule Air La nt Area Ceiling Height ACH AW TOTAL HOURLY LATENT -HEAT GAIN FOR ROOM 420 EnergyPro 3.1 By EnergySoft User Number. 5289 2001-02 Page:32 of 44 771 ROOM COOLING PEAK LOADS Title Becker & Becker Rea Date 8/17/2001 Room Name Main Entry Time of Peak Jun 5 pm Floor Area 206 Outdoor Dry Bulb Temperature 106 OF Indoor Dry Bulb Temperature 78OF Outdoor Wet Bulb Temperature 75 `k Conduction 4. 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 0.02801 X X X X X X X X X DETD 1 = = = = = = = = = 42.9 33.2 20.4 Weighting x X X X X X X X X X Factor = = = Worth) 128.0 57 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 = = = Worth) 128.0 57 0.813 0.696 Page Total Btu/hr 247 63 1,876 2186 Btu/hr 4,128 4128 Sched. Weighting Btu/hr Internal Gain Frac. Area Heat Gain Factor fights 1.0c X 206 X 1.262 Watts/sqft X 3.41 Btuh/Watt X 0.999 = 886 ocu ants 1.0c x 206 X 250 Btuh/occ. / 1 sgft/OCc. X 1.00 = 515 Receptacle 1.0 X 206 X 1.340 Watts/sqft x 3.41 Btuh/Watt X 1.00 = 942 rocess 1. X 206 X 0.000 Watts/sgft X 3.41 Btuh/Watt X 1.00 = 00 Infiltration:1.00 X 1.080 X 206 X 10.00 X 0.00 /601 X Ledule Air Sensible Area Ceiling Height ACH AT Fraction TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 8,658 Sched. Btu/hr Latent Gain Frac. Area Heat Gain ocu ants 1.00 x 206 X 2061 Btuh/OCc.I 100 sgft/OCc. = 424 Receptacle _1.00 x x Watts/sgft x Btuh/Watt = rocess 1.00 x los x o.o0o Watts/sgft x 1 3.413 Btuh/Watt = 0 Infiltration: x x �� x x / 6 ] x o_00000 = chedule Air La nt Area Ceiling Height ACH pW TOTAL HOURLY LATENT HEAT GAIN FOR ROOM 424 EnergyPro 3.1 By EnergySoft User Number. 5289 2001-02 Page: 33 of 44 ROOM COOLING PEAK LOADS Project Title I Date Becker & Becker Realty 8/17/2001 Room Name Office#4 Time of Peak Jun Spm Floor Area 114 Outdoor Dry Bulb Temperature 106 9F Indoor Dry Bulb Temperature 780F Outdoor Wet Bulb Temperature 75 OF Conduction .21.2x6. Area 11 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 0.05921 X X X X X X X X X DETD 1 = = = = = = = = = 33.2 20.4 42.9 Page Total Weighting Orientation Area SGF SC Factor (North) 72.0 X 57 x 0.813 X 0.696 = x x x = 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 35 1,055 137 1 227 Btu/hr 2,322 2 322 Sched. Weighting Btu/hr Internal Gain Frac. Area Heat Gain Factor fights 1.0 x 114 x 1.368 Watts/sgft x 3.41 Btuh/Watt x 0.999 = 532 ccu ants 1.0c x 114 x 250 Btuh/occ. / 1 sqft/occ. x 1.00 = 285 Receptacle 1. x 114 x 1.340 Watts/sgft x 3.41 Btuh/Watt X 1.00 = 521 rocess 1. x 114 x 0.000 Watts/sqft X 3.41 Btuh/Watt x 1.00 = 00 Infiltration: 1.00 x 1.080 x 1141 x 10.00 x 0.00 /601 x _ Lhedule Air Sensible Area Ceiling Height ACH AT Fraction TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 4.888 Sched. Latent Gain Frac. Area Heat Gain Btu/hr Occupants 1.00 X 114 x 2061 Btuh/occ. / 100 sqft/occ. = 235 Receptacle 1.0o x x _nnn Watts/sgft x Btuh/Watt = Process 1.00 x 114 x 0.000 Watts/sgft x 1 3.4131 Btuh/Watt = 0 Infiltration: 1 _DO x x x � x/ 60] x ®_ chedule Air La nt Area Ceiling Height ACH AW ROOM COOLING PEAK LOADS Title Becker & Becker Date 8/17/2001 Room Name Office# 5 Time of Peak Jul 2 pm Floor Area 101 Outdoor Dry Bulb Temperature 111 `k Indoor Dry Bulb Temperature 78c� Outdoor Wet Bulb Temperature 78 '� Conduction -38 Roof R.38.2x14.16 -21 Wall W.21.24.16 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 0.05921 X X X X X X X X X DETD 1 = = = = = = = = 64.2 33.0 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 182 156 338 Btu/hr Sched. Weighting Btu/hr Internal Gain Frac. Area Heat Gain Factor fights 1.0c x 101 X 1.545 Watts/sgft x 3.41 Btuh/Watt x 0.998 = 531 ccu ants 1.0c x 101 x 250 Btuh/occ. / 10 sgft/occ. x 1.00 = 252 Receptacle 1. X 101 x 1.340 Watts/sgft x 3.41 Btuh/Watt x 1.00 = 462 rocess 1.0c x 101 x 0.000 Watts/sgft X 3.41 BtuhlWatt X 1.00 = 0 Infiltration: 1.00 x 1 A80 x 101 x 10.00 x 0.00 /601 x &T = 0 chedule Air Sensible Area Ceiling Height ACH DT Fraction TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 1.584 Sched. Btu/hr Latent Gain Frac. Area Heat Gain Occupants 1.00 x 101 x 2061 Btuh/occ./ 100 sgft/occ. = 208 Receptacle 1.00 x x Watts/sgft x Btuh/Watt = Process 1.00 x 101 X 0.000 Watts/sgft X 1 3.4131 BtuhlWatt = 0 Infiltration: 1 DO x;L._a aao x 101 x E�QO x / 6 ] x ®_ chedule tent Area Ceiling Height ACH AW TOTAL HOURLY LATENT HEAT GAIN FOR ROOM 208 EnergyPro 3.1 By EnergySoff User Number: 5289 2001-02 Page: 35 of 44 ROOM COOLING PEAK LOADS Project Title Becker & Becker Real Date 8/17/2001 ROOM INFORMATION DESIGN CONDITIONS Room Name Partition Area Time of Peak Jul 1 pm Floor Area 1,131 Outdoor Dry Bulb Temperature 109 9F Indoor Dry Bulb Temperature McI` Outdoor Wet Bulb Temperature 78 `k Conduction -38 Roof R.38.2x14.16 Area 1 1,131.01 1. Design Equivalent Temperature Difference (DETD) Items shown with an asterisk (') denote conduction through an interior surface to another room. Solar Gain U -Value DETD 1 65.1 = 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 2,063 2 063 Btu/hr 0 Sched. Weighting Btu/hr Internal Gain Frac. Area Heat Gain Factor fights 1.0c x 1,131 x 1.052 Watts/sgft x 3.41 Btuh/Watt x 0.998 = 4,054 ccu ants 1.0 x 1,131 x 250 Btuh/OCC. / 10 sgft/occ. x 1.00 = 2,828 Receptacle 1.0 x 1,131 x 1.340 Watts/sqft x 3.41 Btuh/Watt x 1.00 = 5,173 rocess 1. x 1,131 x 0.000 Watts/sgft x 3.41 Btuh/Watt x 1.00 = 0 Infiltration:1.00 x 1.080 x 1 131 x 10.00 x 0.00 /601 x 0= 0 L=eule Air Sensible Area Ceiling Height ACH AT Fron TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 14,117 Sched. Btu/hr Latent Gain Frac. Area Heat Gain Occupants 1.00 X 1.131 X 2061 Btuh/OCc. / 100 sgft/occ. = 2 330 Receptacle 1.00 x 1131 x 0,00ol Watts/sgft x Btuh/Watt = Process 1.00 X 1,131 . x 0.000 Watts/sgft x 3.413 Btuh/Watt = D Infiltration: r �.no xx ,ate xD� x o_oo / 60] x _ �—schedule Air La nt Area Ceiling Height ACH pyy TOTAL HOURLY LATENT HEAT, GAIN FOR ROOM 2330 EnergyPro 3.1 By EnergySoft User Number. 5289 2001-02 Page: 36 of 44 ROOM COOLING COIL LOADS Project Title Becker & Becker Realty Date 8/17/2001 ROOM INFORMATION DESIGN CONDITIONS Room Name Office# 1 Time of Peak Jul 3 pm Floor Area 72 Outdoor Dry Bulb Temperature 112 �: Indoor Dry Bulb Temperature 78OFOutdoor Wet Bulb Temperature 79 `k 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 Orientation Area U -Value 1 0.02801 SGF DETD 1 60.8 = Page Total Weighting Factor x = X = x = x = X = x = x = x = X = x = Page Total Btu/hr 123 123 Btu/hr 0 Sched. Weighting Btu/hr Internal Gain Frac. Area Heat Gain Factor fights 1.0c x 72 x 1.444 Watts/sgft x 3.41 Btuh/Watt x 0.999 = 354 ocu ants 1.0c x 72 X 250 Btuh/occ. / 10 sgft/OCc. x 1.00 = 180 eceptade 1.0c X 72 x 1.340 Watts/sqft x 3.41 Btuh/Waft x 1.00 = 329 rocess 1�1. x 72 x 0.000 Watts/sgft x 3.41 Btuh/Waft x 1.00 = 0 Infiltration: I 1.00 x 1.080 x 72 x 1oA0 x 0.00 /601 x � = �0 chedule Air Sensible Area Ceiling Height ACH AT Fraction TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 986 Sched. Btu/hr Latent Gain Frac. Area Heat Gain Occupants 1.00 x 72 x 2o6 Btuh/occ./ 100 sgftlocc. = 148 Receptacle 1.00 x x _ Watts/sgft x Btuh/Watt = Process 1.00 x 72 x o.000 Watts/sgft x 1 3.413 Btuh/Watt = o Infiltration: x a tlao x 72 x10 oD xo DD / 6] x 0.00000 = chedule Air Latent Area Ceiling Height ACH pyy TOTAL HOURLY LATENT HEAT GAIN FOR ROOM 148 EnergyPro 3.1 By EnergySoft User Number: 5289 2001-02 Page:37 of 44 ROOM COOLING COIL LOADS (Project Title Date Becker & Becker Realty 8/17/2001 ROOM INFORMATION DESIGN CONDITIONS Room Name Office # 2 Time of Peak Jul 3 pm Floor Area 81 Outdoor Dry Bulb Temperature 112 OF Indoor Dry Bulb Temperature 78OFOutdoor Wet Bulb Temperature 79 OF Conduction Roof Area 81 1. Design Equivalent Temperature Difference (DETD) Items shown with an asterisk (') denote conduction through an interior surface to another room. Solar Gain Orientation Area U -Value SGF SC DETD t 60.8 = Page Total Weighting Factor x = x = x = x = x = x = x = x = x = x = Page Total Btu/hr 138 138 Btu/hr 0 Sched. Weighting Btu/hr Internal Gain Frac. Area Heat Gain Factor i hts 1.0c X 81 X 1.284 Watts/sgft x 3.41 BtuhfWatt x 0.999 = 354 ccu ants 1.0c x 81 X 250 Btuh/OCC. / 10 sgft/occ. x 1.00 = 202 Receptacle 1. X 81 x 1.340 Watts/sgft x 3.41 Btuh/Watt x 1.00 = 370 rocess (�1. x 81 X 0.000 Watts/sgft x 3.41 BtuhfWatt X 1.00 = 0 Infiltration: I 1.00 x 1.080 x 81 x 10.00 x o.00 /601 x _ chedule Air Sensible Area Ceiling Height ACH AT Fraction TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 1,065 Sched. Btu/hr Gain Frac. Area Heat Gain ccu ants 1.00 x 81 x 206 Btuh/occ. /100 sgft/occ. = 167 Receptacle 1.00 x 8 x Watts/sgft x Btuh/Watt rocess 1.00 X 81 X 0.000 Watts/sgft X 1 3.413 Btuh/watt = 0 Infiltration: 1 00 xx E 8� x 10.00 x H / 60] x ® _ chedule Air La nt Area Ceiling Height ACpyy TOTAL HOURLY LATENT HEAT GAIN FOR ROOM 1671 EnergyPro 3.1 By EnergySoft User Number. 5289 2001-02 Page:38 of 44 —71 ROOM COOLING COIL LOADS Project Title Becker & Becker Real Date 8/17/2001 ROOM INFORMATION DESIGN CONDITIONS Room Name Office # 3 Time of Peak Jul 3 pm Floor Area 81 Outdoor Dry Bulb Temperature 112 91F Indoor Dry Bulb Temperature 78`F Outdoor Wet Bulb Temperature 79 OF Conduction Roof Area 81.01 1. Design Equivalent Temperature Difference (DETD) Items shown with an asterisk (') denote conduction through an interior surface to another room. Solar Gain Orientation Area U -Value 1 0.02801 SGF SC Page Total Weighting Factor x = x = x = x = x = x = x = x = x = X = Page Total Btu/hr 138 138 Btu/hr 0 Sched. Weighting gtu/hr Internal Gain Frac. Area Heat Gain Factor fights 1.0c x 81 x 1.284 Watts/sgft x 3.41 Btuh/Watt x 0.999 = 354 ocu ants 1.0 x 81 x 250 Btuh/OCC. / 100 sgft/occ. x 1.00 = 202 Receptacle 1. x 81 x 1.340 Watts/sqft x 3.411 Btuh/Watt x 1.00 = 370 rocess r1.0x 81 x o.000 Watts/sqft x 3.a1 Btuh/Watt x 1.00 = 0 Infiltration: I 1.00 x L 1.080 x 81 x 10.00 x 0.00 1601 x _ �0 chedule Air Sensible Area Ceiling Height ACH AT Fraction TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 1,065 Sched. Btu/hr Latent Gain Frac. Area Heat Gain ccu ants 1.00 x 81 x 206 Btuh/OCC. / 100 sqft/occ. = 167 Receptacle 1.0o x x Watts/ sgft x Btuh/Watt = rocess 1.00 x 81 x o.000 Watts/sgft x 3.413 Btuh/Watt = 0 Infiltration: 1 0o xx x x � / 60] x _ chedule Air La nt Area Ceiling Height ACH pyy ROOM COOLING COIL LOADS Title Becker & Becker Rea Date 8/17/2001 Room Name Conferance Room Time of Peak Jul 3 pm Floor Area 204 Outdoor Dry Bulb Temperature 112 `k Indoor Dry Bulb Temperature 780F Outdoor Wet Bulb Temperature 79 OF Conduction 4.1 Wall Area 64.01 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 0.02601 x X x x x x x x x DETD ' = = = = = = = = = 60.7 33.6 23.8 Page Total Weighting Orientation Area SGF SC Factor (North) 96.0 X 41 x 0.813 X 0.816 = x X x 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 347 127 1,646 2120 Btu/hr 2,611 2 611 Sched. Weighting Btu/hr Internal Gain Frac. Area Heat Gain Factor fights 1.0c x 204 X 1.275 Watts/sqft X 3.41 Btuh/Watt x 0.998 = 886 ccu ants 1.0c x 204 X 25o Btuh/occ. / 10 sgftlocc. x 1.00 = 510 eceptacle 1.0 x 204 X 1.340 Watts/sqft x 3.41 Btuh/Watt X 1.00 = 933 rocess 1.0c x 204 x 0.000 Watts/sgft x 3.41 Btuh/Watt x 1.00 = 0 Infiltration:Ledule 1.00 x 1.080 x 2oa x 10.00 x O.00 16] x 0 = Do Air Sensible Area Ceiling Height ACH Z�,T Fraction TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 7,061 Sched. Btu/hr Latent Gain Frac. Area Heat Gain ccu ants 1.00 x 204 x 2061 Btuh/occ. / 100 sgftlocc. = 420 Receptacle 1.00 x x mo Watts/sqft x Btuh/Watt = Process 1.00 x 204 x 0.000 Watts/sqft x 3.413 Btuh/Watt = 00I Infiltration: 1.00 x x x1o_DD x 00 / 60] x ®_ 'BOJ chedule Air La rtt Area Ceiling Height ACH _ zW -ROOM COOLING COIL LOADS Project Title Date Becker & Becker Realty 8/17/2001 Room Name Main Entry Time of Peak Jul 3 pm Floor Area 206 Outdoor Dry Bulb Temperature 112 9F Indoor Dry Bulb Temperature 78`F Outdoor Wet Bulb Temperature 79 `k Conduction Roof .21.2x6.1 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 = = = = = = = = = 60.7 33.7 23.8 Page Total Weighting Orientation Area SGF SC Factor (North) 128.0 x 41 x 0.813 x 0.819 = x x x = 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 350 64 2,196 2 610 Btu/hr 3,491 3 491 Sched. Weighting Btu/hr Internal Gain Frac. Area Heat Gain Factor fights 1.0c X 206 X 1.262 Watts/sgft x 3.41 Btuh/Watt X 0.998 = 886 r:cu ants 1.0c X 206 x 250 Btuh/occ. / 10 sgft/occ. x 1.00 = 515 eceptacle 1.0 x 206 x 1.340 Watts/sgft x 3.41 Btuh/Watt x 1.00 = 942 rocess 1.0 x 206 x o.000 Watts/sgft x 3.41 BtuhfWatt x 1.00 = 0 Infiltration: 1.00 x 1.080 x 206 x 10.00 x 0.00 /601 x AT = 0 "`- chedule Air Sensible Area Ceiling Height ACH AT Fraction TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 8,445 Sched. Btu/hr Latent Gain Frac. Area Heat Gain ocu ants 1.00 x 206 x 2061 Btuh/OCC. / 100 sgftlocc. = 424 Receptacle 1.00 x x Watts/sgft x Btuh/Watt = rocess 1.00 x los x o.000 Watts/sgft x 3.413 Btuh/Watt = o Infiltration: 1 _oo x x x 10.00 x o Oo 16 ] x o 00000 = chedule Air Latent Area Ceiling Height ACH AW TOTAL HOURLY LATENT HEAT GAIN FOR ROOM 424 EnergyPro 3.1 By EnergySoft User Number. 5289 2001-02 Page: 41 of 44 ROOM COOLING COIL LOADS Project Title Becker & Becker Realty Date 8/17/2001 Room Name Floor Area Indoor Dry Bulb Temperature Conduction -21 Wall W.21.2x6.16 Double Wl Uncoated Default -38 Roof R.38.2x14.16 Office#4 (Time of Peak 114 I Outdoor Dry Bulb Temperature 78OF Outdoor Wet Bulb Temperature 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 0.0592 0.7200 DETD ' 33.71 = 23.8 = 60.7 = Page Total Weighting Orientation Area SGF SC Factor (North) 72.0 X 41 x 0.813 x 0.819 = X X X 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 Jul 3 pm 112 '� 79 OF Btu/hr 36 1,235 194 1 465 Btu/hr 1,964 1 964 Sched. Weighting Btu/hr Internal Gain Frac. Area Heat Gain Factor fights 1.0c x 114 X 1.368 Watts/sgft x 3.41 Btuh/Watt x 0.998 = 532 ccu ants 1.0c x 114 x 250 Btuh/occ. / 10 sgft/OCc. X 1.00 = 285 Receptacle 1. x 114 x 1.340 Watts/sgft x 3.41 Btuh/Watt X 1.00 = 521 rocess r1.0c x 114 X 0.000 Watts/sgft X 3.41 Btuh/Watt X 1.00 = 0 Infiltration: I 1.00 x 1.080 x 114 x 10.00 x 0.00 /601 x AT _ chedule Air Sensible Area Ceiling Height ACH AT Fraction TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 4,767 Sched. Btu/hr Latent Gain Frac. Area Heat Gain Occupants 1.00 x 114 X 2061 Btuh/occ. / 100 sgft/occ. = 235 Receptacle _1.00 x x 0. Watts/sgft x q 4131 Btuh/Watt = Process 1.00 X 114 x 0.000 Watts/sgft X 3.4131 BtuhfWatt = 0 Infiltration: 10o x 4.840 x L4 x E:� x / 6] x _ chedule Air Latent Area Ceiling Height ACH &W ROOM COOLING COIL LOADS Title Becker & Becker Rea Room Name Floor Area Indoor Dry Bulb Temperature Conduction K2-38 Roof (R.38.2x14.16) -21 Wall (W21.2x6.16) Office# 5 1 Time of Peak 101 1 Outdoor Dry Bulb Temperature 78`F Outdoor Wet Bulb Temperature 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 Date 8/17/2001 X X X X X X X X X DETD 1 = = = = = = = = = 60.5 33.6 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 Jul 3 pm 112 9F 79 OF Btu/hr 171 159 330 Btu/hr Sched. Weighting Btu/hr Internal Gain Frac. Area Heat Gain Factor ights 1.0 x 101 x 1.545 Watts/sgft x 3.41 Btuh/Watt x 0.998 = 531 ccu ants 1.0 x 101 x 250 Btuh/occ. / 10 sgft/occ. x 1.00 = 252 Receptacle 1.0 x 101 x 1.340 Watts/sqft x 3.41 Btuh/Watt x 1.00 = 462 rocess 1.0 x 101 x 0.000 Watts/sgft X 3.41 Btuh/Watt X 1.00 = 00 Infiltration:1.00 x 1.080 x 101 x 10.00 x 0.00 /601 x = u Ledule Air Sensible Area Ceiling Height ACH AT Fraction TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 1,576 Sched. Btu/hr Latent Gain Frac. Area Heat Gain ecu ants 1.00 x 101 x 2061 Btuh/occ. / 100 sgftlocc. = io ecetate 1.00 x x OD Watts/sgft x Btuh/VHatt rocess 1.00 x 101 x 0.000 Watts/sgft x 3.413 Btuh/Watt Infiltration: x x x x 6 ] x Qpp = chedule Air La nt Area Ceiling Height ACH &W TOTAL HOURLY LATENT HEAT GAIN FOR ROOM 208 EnergyPro 3.1 By EnergySoft User Number. 5289 2001-02 Page:43 of 44 ROOM COOLING COIL LOADS Project Title Becker & Becker Real Date 8/17/2001 ROOM INFORMATION DESIGN CONDITIONS Room Name Partition Area Time of Peak Jul 3 pm Floor Area 1,131 Outdoor Dry Bulb Temperature 112 OF Indoor Dry Bulb Temperature 78OFOutdoor Wet Bulb Temperature 79 Conduction 4.1 Area 1.131 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 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 1,925 1 925 Btu/hr 0 Sched. Weighting Internal Gain Frac. Area Heat Gain Factor Btu/hr fights 1.0c X 1,131 X 1.052 Watts/sgft x 3.41 Btuh/Watt X 0.999 = 4,056 ccu ants 1.0c x 1,131 x 250 Btuh/OCc. / . 10 sgft/Occ. x 1.00 = 2,828 Receptacle 1.0 x 1,131 x 1.340 Watts/sqft x 3.41 Btuh/Waft x 1.00 = 5,173 rocess 1.0c x 1,131 X 0.000 Watts/sgft X 3.41 Btuh/Waft X 1.00 = 0 Infiltration. 1.00 x 1.080 x 1 131 x 10.00 x 0.00 /601 x chedule Air Sensible Area Ceiling Height ACH AT Fraction TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 13,981 Sched. Btu/hr Latent Gain Frac. Area Heat Gain ccu ants 1.00 x 1 131 x 2061 Btuh/OCc. 1 100 sqf locc. = 2 330 Receptacle 1.no x x0-00 Watts/sqft x 1 3 4131 Btuh/Watt = rocess 1.00 x 1,131 x 0.00C)l Watts/sgft x 1 3.413 Btuh/Watt = 0 Infiltration: 1 0o xx x1D_Do x o_no 16] x ®_ chedule Air La nt Area Ceiling Height ACH pyy TOTAL HOURLY LATENT HEAT GAIN FOR ROOM 2.3301 EnergyPro 3.1 By EnergySoft User Number. 5289 2001-02 Page:44 of 44