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Deferred Submittal 1911-0152
I Florida Building Code, Sixth Edition (2017) - Energy Conservation EnergyGauge Summit® Fla/Com-2017, Effective Date: Dec 31, 2017 ASHRAE 90.1-2013 - Energy Cost Budget Option Check List Applications for compliance with the Florida Building Code, Energy Conservation shall include: [!' This Checklist [� The full compliance report generated by the software that contains the project summary, compliance summary, certifications and detailed component compliance reports. The compliance report must include the full input report generated by the software as comigous part of the compliance report. V� Boxes appropriately checked in the Mandatory Section of the complaince report. WARNING: INPUT REPORT NOT GENERATED. To include input report in final submission, go to the Project Form, Settings Tab and check the box - "Append Input Report to Compliance Output Report" Then rerun your calculation EnergyGauge Summit® Fla/Com-2017. TAM 2017-1.0 Compliant Software. Effective Date: Dec 31, 2017 S / 2 Florida Building Code, Sixth Edition (2017) - Energy Conservation ASHRAE 90.1-2013 - Energy Cost Budget Option 3/4/2020 Page I of 16 PROJECT SUMMARY Short Desc: RESERVE R.O. Owner: - Addressl: 8401 COIv NMRCIAL CENTER DR. Address2: - Description: 2019-0183 City: State: Zip: Type: Office Class: Jurisdiction: PORT ST LUCIE, ST LUCIE COUNTY, FL (661200) Conditioned Area: 3076 SF Conditioned & UnConditioned Area: No of Stories: I Area entered from Plans Permit No: 0 Max Tonnage If different, write in: sztio -1i�1 Port St. Lucie Florida 34986 New Finished building 3076 SF 0 SF 3.4 2 EnengyGauge Summit® FlalCom-2017. TAM 2017.1.0 Compliant Software. Effective Date: Dec 31, 2017 -ri l S Florida Building Code, Sixth Edition (2017) - Energy Conservation ASHRAE 90.1-2013 - Energy Cost Budget Option 3/4/2020 Page 2 of 16 C Component Design Criteria Result Gross Energy Cost (in $) 1,623.0 1,925.0 PASSED LIGHTING CONTROLS EXTERNAL LIGHTING HVAC SYSTEM PLANT WATER HEATING SYSTEMS PIPING SYSTEMS Met all required compliance from Check List? PASSES No Entry PASSES No Entry PASSES No Entry Yes/No/NA IMPORTANT MESSAGE Info 5009 — — — An input report of this design building must be submitted along with this EnergyGauge Summit® FlalCoro-2017. TAM 2017.1.0 Compliant Software. Effective Date: Dec 31, 2017 Florida Building Code, Sixth Edition (2017) - Energy Conservation ASHRAE 90.1-2013 - Energy Cost Budget Option 3/4/2020 Page 3 of 16 CERTIFICATIONS LAteaNtZ I hereby certify that the ptaans ed swfoMs coyereq by this calculation are in compliance with the Florida Energy Code 1 PrepareTgm �.•__ ��; _ _ Building Official: certify that this building is in Owner Agent: i, Date: FLorida Energy Efficiency Code Date: If Required by Florida law, I hereby certify (') that the system design is in compliance with the Florida Energy Efficiency Code Architect: Electrical Designer: BRAD BROWN Lighting Designer: BRAD BROWN Mechanical Designer: BRAD BROWN Plumbing Designer: BRAD BROWN Reg No: _ Reg No: 58323 Reg No: 58323 Reg No: 58323 Reg No: 58323 (') Signature is required where Florida Law requires design to be performed by registered design professionals. Typed names and registration numbers may be used where all relevant information is contained on signed/sealed plans. EnergyCauge SummitiD FWCom-2017. TAM 2017-1.0 Compliant Software. Effective Date: Dec 31, 2017 Florida Building Code, Sixth Edition (2017) - Energy Conservation ASHRAE 90.1-2013 - Energy Cost Budget Option 3/4/2020 Page 4 of 16 Project: RESERVE R.O. Title: 2019-0183 Type: Office Total Building End Uses 1) Proposed 2) Baseline 104.30 123.50 $1,623 $1,925 ELECTRICITY(MBlu/kWhi$) 10430 12350 30559 36193 $1,623 $1,925 AREA LIGHTS 27.90 31.50 8186 9232 $435 $491 MISC EQUIPMT 3130 3130 9182 9182 $488 $488 PUMPS & MISC 0.30 030 77 74 $4 $4 SPACE COOL 22.50 27.10 6603 7953 $351 $423 SPACE HEAT 1.90 3.60 546 1063 $29 $57 VENT FANS 20.40 5965 $317 Applied: None Criteria =1925 (including any credits) =1623 requires Proposed Building cost to be at most 100% of e cost. This Proposed Building is at 84.3% 29.70 8689 S462 PASSES EnergyGauge Summit® Fla/Corn-2017. TAM 2017-1.0 Compliant Software. Effective Date: Dec 31, 2017 Florida Building Code, Sixth Edition (2017) - Energy Conservation ASHRAE 90.1-2013 - Energy Cost Budget Option 3/4/2020 Page 5 of 16 External Lighting Compliance Description Category Tradable? Allowance Area or Length ELPA CLP (W/Unit) or No. of Units (W) (!V) (Sgft or ft) None Project: RESERVE R.O. Title: 2019-0183 Type: Office (WEA File: FL_ST_LUC1E_CO_U4TL.tm3) Lighting Controls Compliance Acronym Ashrae Description Area Design Min Compli- iD (sq.ft) CP CP ante ZONE 1 16 Office - Open Plan 978 13 1 PASSES ZONE 2 16 Office - Open Plan 959 9 1 PASSES ZONE 3 6 Toilet and Washroom 1.139 8 1 PASSES PASSES EnergyGauge Summit® Fla/Corn-2017. TAM 2017-1.0 Compliant Software. Effective Date: Dec 31, 2017 Florida Building Code, Sixth Edition (2017) - Energy Conservation ASHRAE 90.1-2013 - Energy Cost Budget Option 3/4/2020 Page 6 of 16 Project: RESERVE R.O. Title: 2019-0193 Type: Office (WEA File: FL_ST_LUCIE_CO_INTL.tm3) System Report Compliance AHU 1 ZONE 1 Constant Volume Air Cooled No. of Units Split System < 65000 Btu/hr 1 Component Category Capacity Design Eft Design IPLV Comp- Eff Criteria IPLV Criteria Hance Cooling System Air Conditioners Air Cooled 34100 16.00 13.00 8.00 PASSES Split System <65000 Btu/h Cooling Capacity Heating System Electric Furnace 272% 1.00 1.00 PASSES Air Handling Air Handler (Supply) - 1200 0.80 0.82 PASSES System -Supply Constant Volume AHU 2 ZONE 2 Constant Volume Air Cooled No. of Units Split System <65000 Btu/hr 1 Component Category Capacity Design EfT Design IPLV Comp- Eff Criteria IPLV Criteria liance Cooling System Air Conditioners Air Cooled 41100 16.00 13.00 8.00 PASSES Split System <65000 Bluth Cooling Capacity Heating System Electric Furnace 27296 1.00 1.00 PASSES Air Handling Air Handler (Supply) - 1400 0.80 0.82 PASSES System -Supply Constant Volume AHU 3 ZONE 3 Constant Volume Air Cooled No. of Units Split System <65000 Btu/hr 1 Component Category Capacity Design Eff Design IPLV Comp- Eff Criteria IPLV Criteria liance Cooling System Air Conditioners Air Cooled 41100 16.00 13.00 8.00 PASSES Split System <65000 Btu/h Cooling Capacity Heating System Electric Furnace 27296 1.00 1.00 PASSES Air Handling Air Handler (Supply) - 1400 0.80 0.82 PASSES System -Supply Constant Volume PASSES EnergyGauge Summit® Fla/Com-2017. TAM 2017-1.0 Compliant Software. Effective Date: Dec 31, 2017 Florida Building Code, Sixth Edition (2017) - Energy Conservation ASHRAE 90.1-2013 - Energy Cost Budget Option 3/4/2020 Page 7 of 16 Plant Compliance Description Installed Size Design Min Design No Eff ER IPLV Min Category Comp IPLV Hance None Project: RESERVE R.O. Title: 2019-0193 Type: Office (WEAFfIe: FL_ST_LUCIE_CO_INTLtm3) Water Heater Compliance Description Type Category Design Min Design Max Comp c Eff Eff Loss Loss Hance E Water Heater 1 Electric water heater <= 12 [kWJ 0.97 0.96 PASSES t i 3 PASSES i j 1 Piping System Compliance Category Pipe Din Is Operating Ins Cond Ins Req Ins Compliance [inches] Runout? Temp [Btu4n/hr Thick [in] Thick [in) IF] SF.F] None —� EnergyGauge Summit® Fla/Com-2017. TAM 2017-1.0 Compliant Software. Effective Date: Dec 31, 2017 Florida Building Code, Sixth Edition (2017) - Energy Conservation ASHRAE 90.1-2013 - Energy Cost Budget Option 3/4/2020 Page 8 of 16 Mandatory Requirements (as applicable) Mandatory requirements compiled by US Department of Energy and Pacific Northwest National Laboratory. Adopted with permission Topic Section Component Description Yes N/A Exempt 7. To be checked by Dosigner o7 Engineer Insulation 6.8.1.2 Envelope Below -grade wall insulation installed per manufacturerfiEmcs instructions. Insulation 5.8.1.2 Envelope Slab edge insulation installed per manufacturers ® ❑ E-s instructions. Insulation 5.5.3.5 Envelope Slab edge insulation deptMength. 0 Insulation 6.4.4.1.5 Envelope Bottom surface of floor structures incorporating 0 cl radiant heating Insulated to >=R-3.5. Fenestration 5.5.3.6 Envelope 1-1-factor of opaque doors associated with the El building thermal envelope meets requirements. SYSTEM —SPECIFIC 6.5.1, 8.5.1.1, Mechanical Air economizers provided where required (and not exempted), meet the requirements for design capacity, control signal, ventilation controls, high -limit shut-off, integrated economizer control, and provide a means to relieve excess outside air during operation. SYSTEM_SPECIFIC 6.5.1, 6.5.1.2, Mechanical Water economizers provided where required, 6.5.1.3 meet the requirements for design capacity, maximum pressure drop and integrated economizer control. SYSTEM SPECIFIC 6.5.1.5 Mechanical Economizer operation will not inease heating increase �9 1 1 energy use during normal operation. SYSTEM_SPECIFIC 6.5.2.2.1 Mechanical Three -pipe hydronic systems using a common return for hot and chilled water are not used. SYSTEM —SPECIFIC 6.5.22.3 Mechanical Hydronic heat pump systems connected to a ® E' ❑ common water loop meet heat rejection and heal addition requirements. SYSTEM —SPECIFIC 6.5.1.6 Mechanical Water economizer specified on hydronic cooling and humidification systems designed to maintain Inside humidity at >35 A°F dewpoint 8 an economizer Is required. SYSTEM_SPECIFIC 6.5.3.1.1 Mechanical HVAC fan systems at design conditions do not exceed allowable fan system motor nameplate hp or fan system bhp. SYSTEM SPECIFIC 6.5.3.1.2 Mechanical HVAC fan motors not larger than the first available ❑ motor size greater than the bhp. HVAC 6.5.6.1 Mechanical Exhaust air energy recovery on systems meeting Tables 6.5.6.1-1. and 6.5.6.1-2. SYSTEM —SPECIFIC 7.4.2 Mechanical Service water heating equipment meets efficiency El requirements. SYSTEM SPECIFIC 7.5.2 Mechanical Service water hearing equipment used for space 1:1 13 heating complies with the service water heating equipment requirements. Insulation 5.8.12 Envelope Aboveyrede wall Insulation installed per manufacturer3ETMs instructions. Insulation 5.8.1.2 Envelope Floor insulation installed per manufacturerd4i 's ® (yi( El Instructions. Controls 10.4.3 Mechanical Elevators are designed with the proper lighting, 0 ventilation power, and standby mode. SYSTEM —SPECIFIC 6.4.1.1. 6.8.1-7a Mechanical Heat Rejection Equipment: Minimum Efficiency El 0 Requirement Table 6.8.1-7 SYSTEM —SPECIFIC 6.4.1.1. 6.8.1.7b Mechanical Heat Rejection Equipment: Minimum Efficiency Requirement Table 6.8.1-7 SYSTEM —SPECIFIC 6.4.1.1. 6.8.1-7c Mechanical Heat Rejection Equipment: Minimum Efficiency RequirementTable 6.8.1-7 SYSTEM —SPECIFIC 6.4.1.1. 6.8.1-7d Mechanical Heat Rejection Equipment: Minimum Efficiency ci Requirement Table 6.8.1-7 EnergyGauge Summit® Fla/Com-2017. TAM 2017-1.0 Compliant Software. Effective Date: Dec 31.2017 Florida Building Code, Sixth Edition (2017) - Energy Conservation ASHRAE 90.1-2013 - Energy Cost Budget Option 3/4/2020 Page 9 of 16 SYSTEM 6.5.5.3 Mechanical Centrifugal fan open -circuit cooling towers having © ®' 0 —SPECIFIC combined rated capacity >= 1100 gpm meets minimum efficiency requirement: Table 6.8.1-7 SYSTEM 6.4.1.1, 6.8.1-7e Mechanical Heat Rejection Equipment: Minimum Efficiency ❑ ly O —SPECIFIC Requirement Table 6.8.1-7 SYSTEM —SPECIFIC 6A.1.1, 6.8.1-7f Mechanical Heal Rejection Equipment: Minimum Efficiency Requirement Table 6.8.1-7 SYSTEM_SPECIFIC 6.4.1.1, 6.8.1.7g Mechanical Heat Rejection Equipment: Minimum Efficiency Requirement Table 6.8.1-7. SYSTEM SPECIFIC 6.4.1.1, 6.8.1-7h Mechanical Heat Rejection Equipment: Minimum Efficiency �-1 [ u Requirement Table 6.8.1.7 SYSTEM SPECIFIC 6.4.1.1, 6.8.1-7f Mechanical Heat Rejection Equipment: Minimum Efficiency r-^�E l El Requirement Table 6.8.1-7 SYSTEM SPECIFIC 7.5.3 Mechanical Gas -fired water -heating equipment installed in ❑ 13 new buildings: where a singular piece of water -heating equipment >= 1.000 kBtu/h serves the entire building, thermal efficiency must be >_ 90 EL Where multiple pieces of water -heating equipment serve the building with combined rating is >= 1,000 kBlulh, the combined input -capacity -weighted -average thermal efficiency, thermal efficiency must be >= 90 Et. Exclude input rating of equipment in individual dwelling units and equipment <= 100 kBtu/h. 2. To bo chcckc-d by Man Reviewer Plan Review 4.2.2. 4.3.1.1. 5.7 Envelope Plans and/or specifications provide all Information 13® 11 with which compliance can be determined for the building envelope and document where exceptions to the standard are claimed. Plan Review 42.2, 8.4.42.1, Mechanical Plans, specifications, and/or calculations provide ❑ 1:1 El 6.72 all information with which compliance can be determined for the mechanicaf systems and equipment and document where exceptions to the standard are claimed. Load calculations per acceptable engineering standards and handbooks. Plan Review 42.2, 7.7.1, 10.42 Mechanical Plans, specifications, and/or calculations provide ❑ all information with which compliance can be determined for the service water heating systems and equipment and document where exceptions to the standard are claimed. Hot water system sized per manufacturer's sizing guide. Plan Review 4.2.2. 8.4.1.1. Project Plans, specifications, and/or calculations provide 8.4.1.2.8.7 all Information with which compliance can be determined for the electrical systems and equipment and document where exceptions are claimed. Feeder connectors sized in accordance with approved plans and branch circuits sized for maximum drop of 3%. Plan Review 42.2, 9.4.3, 9.7 Interior Lighting Plans, specifications, and/or calculations provide ® jw all information with which compliance can be determined for the interior lighting and electrical systems and equipment and document where exceptions to the standard are claimed. Information provided should include interior lighting power calculations, wattage of bulbs and ballasts, transformers and control devices. Plan Review 9.7 Exterior Lighting Plans, specifications, and/or calculations provide all information with which compliance can be determined for the exterior lighting and electrical systems and equipment and document where exceptions to the standard are claimed. Information provided should include exterior lighting power calculations, wattage of bulbs and ballasts, transformers and control devices. Insulation 5.8.1.7.3 Envelope Insulation in contactwith the ground has 4=0.3% water absorption rate perASTM C272. EnergyGauge Summit® Fla/Com-2017. TAM 2017-1.0 Compliant Software. Effective Date: Dec 31, 2017 Florida Building Code, Sixth Edition (2017) - Energy Conservation ASHRAE 90.1-2013 - Energy Cost Budget Option 3/4/2020 Page 10 of 16 Air Leakage 5.4.3.4 Envelope Vestibules are installed where building entrances separate conditioned space from the exterior, and meet exterior envelope requirements. Doors have self -dosing devices, and are >=7 fit apart (>= 16 ft apart for adjoingirg floor area >= 40000 sq.ft.). Vestibule floor area <=7 50 sq.ft. or 2 percent of the adjoining conditioned floor area. HVAC 6.4.3.4.4 Mechanical Ventilation fans >0.75 hp have automatic controls ® ❑ ❑ to shut off fan when not required. HVAC 6.4.3.E Mechanical Demand control ventilation provided for spaces >500 ft2 and >25 people/1000 n2 occupant density and served by systems with air side economizer, auto modulating outside air damper comrol, or design airflow >3,000 c1m. HVAC 6.4.4.1.4 Mechanical Thermally ineffective panel surfaces of sensible r� ❑ El heating panels have insulation >= R-3.5. HVAC 6.5.2.3 Mechanical Dehumidification controls provided to prevent reheating, recooling, mixing of hot and cold airstreams or concurrent heating and cooling of the same airstream. SYSTEM 6.5.3A.3 Mechanical Fans have efficiency grade(FEG)>=67. The total ❑ ❑ —SPECIFIC efficiency of the fan at the design point of operation <=15% of maximum total efficiency of the fan. SYSTEM —SPECIFIC 6.5.3.5 Mechanical Motors for fans >= 1/12 hp and < 1 hp are electronically -commutated motors or have a minimum motor efficiency of 70%. These motors are also speed adjustable for either balancing or remote control - SYSTEM —SPECIFIC 6.4.3.10 Mechanical CDC system Installed and capable of providing control logic including monitoring zone and system demand for fan pressure, pump pressure, heating, and cooling; transferring zone and system demand information from zones to air distribution system controllers and from air distribution systems to heatng and cooling plant controllers; automatically detecting and alerting system operator when zones and systems excessively drive the reset logic; allow operator removal of zone(s) from the reset algorithm; AND capable of trending and graphically displaying input and output points. SYSTEM —SPECIFIC 6.5.3.2.3 Mechanical Reset static pressure setpoint for DDC controlled �f t iD Lt-_.J 0 VAV boxes reporting to central controller based on the zones requiring the most pressure. Controls provide: zone damper monitoring or indicator of static pressure need; autodetection, alarm, and operator override of zones excessively triggering reset logic. SYSTEM —SPECIFIC 6.5.3.3 Mechanical Multiple zone VAV systems with DDC of individual zone boxes have static pressure setpoint reset controls. SYSTEM —SPECIFIC 6.5.3A Mechanical Multiple zone HVAC systems have supply air 000 temperature reset controls. SYSTEM SPECIFIC 6.5.4.1 Mechanical System tumdown requirement met through multiple single -input boilers, one or more modulating boilers, or a combination of single -input and modulating boilers. Boller input between 1.0 MBturn and 5 MBtu/h has 3:1 tumdown ratio, boiler input between 5.0 MBtWh and 10 MBtut h has 4:1 turndown ratio, boiler Input > 10.0 MBtut h has 5:1 turndown ratio. HVAC 6.5.42 Mechanical HVAC pumping systems >10 hp designed for variable fluid flow. SYSTEM —SPECIFIC 6.5.4.3, 6.5A.3.1, Mechanical Fluid flow shutdown in pumping systems to rt�eft 0 0 El a_.-J I�..E 6.5.4.32 multiple chillers or boilers when systems are shut down. SYSTEM —SPECIFIC 6.5.4.4 Mechanical Temperature reset by representative building bads in pumping systems>10 hp for chiller and boiler systems>300.000 BtWh. EnergyGauge Summit® Fla/Com-2017. TAM 2017-1.0 Compliant Software. Effective Date: Dec 31, 2017 Florida Building Code, Sixth Edition (2017) - Energy Conservation ASHRAE 90.1-2013 - Energy Cost Budget Option 3/4/2020 page 11 of 16 SYSTEM SPECIFIC 6.5.4.6 SYSTEM -SPECIFIC 6.5.6.2.1 SYSTEM -SPECIFIC 6.5.5.2.2 SYSTEM -SPECIFIC 6.5.5.2.3 HVAC 6.6.7.1.1 HVAC 6.5.7-1.1 SYSTEM SPECIFIC 6.5.7.12 SYSTEM -SPECIFIC 6.6.7.1.3 SYSTEM SPECIFIC 6.5.7.1.4 HVAC 6.5.72 HVAC 6.5.8.1 SYSTEM SPECIFIC 7.6.1 Controls 8.4.2 Other Equipment 10.4.1 HVAC 6.4.3,32 SYSTEM -SPECIFIC 6.4.3.3.3 Mechanical Hydronic heat pumps and water-cooled unitary air conditioners with pump systems >5 hp have controls or devices to reduce pump motor demand. Mechanical Chilled -water and condenser water piping sized ® ® ❑ according to design flow rate and total annual hours of operation (Table 6.5.4.6). Mechanical Fan systems with motors >=7.5 hp associated with heat rejection equipment to have capability to operate at 273 of full -speed and auto speed controls to control the leaving fluid temperature or condensing lemplpressum of heat rejection device. Mechanical Multisell heat rejection equipment with ® ❑ variable -speed fan drives installed that operate the maximum number of fans allowed that comply with manufacturers specs and control all fans to the same fan speed required for the instantaneous Cooling duty. Mechanical NA Mechanical Kitchen hoods>5,000 arm have make up air 0❑ ❑ >=50% of exhaust air volume. Mechanical Kitchen hoods>5,000 clm have make up air ❑ ❑ ri >=50% of exhaust air volume. Mechanical Conditioned supply air to space with a kitchen ® ❑ hood shall not exceed the greater of a) supply flow required to meet space heating or cooling, or b) hood exhaust flow minus the available air transfer from available spaces. Mechanical Kitchen hoods with a total exhaust airflow rate T�1 0 u El >5000 rim meet replacement air, ventilation system, or energy recovery requirements shown in Table 6.5.7.1.3. Mechanical Kitchen hoods with a total exhaust airflow rate ❑ >5000 chn meet replacement air, ventilation system, or energy recovery requirements. Mechanical Fume hoods exhaust systems >=5,000 rim have VAV hood exhaust and supply systems, direct make-up air or heat recovery. Mechanical Unenclosed spaces that are heated use only 0 ❑ radiant heat. Mechanical Combined space and water heating system not allowed unless standby loss less than calculated maximum. AHJ has approved or combined connected load <150 kBtufn. Project At least 50% of all 125 volt 15- and 20-Amp ® ❑ receptacles are controlled by an automatic control device. Mechanical Electric motors meet requirements where O ❑ 13 applicable. Mechanical Setback controls allow automatic restart and temporary operation as required for maintenance. Mechanical Systems with setback controls and ODC include T�-t 0 El 0 optimum start controls. Optimum start algorithm considers mass radiant slab floor temperature. SYSTEM -SPECIFIC 8.4.3.3.4 Mechanical Zane isolation devices and controls. ❑ 0 ❑ Wattage 9.4.2 Exterior Lighting Exterior lighting power is consistent with what is shown on the approved lighting plans, demonstrating proposed watts are less than or equal to allowed watts. 17 3. To be Checked by Inspector Insulation 6.8.1.7 Envelope Extenor insulation protected against damage, © El sunlight, moisture, wind, landscaping and equipment maintenance activities. HVAC 6.4.3.7 Mechanical Freeze protection and snowfice melting system ❑ ❑ sensors for future connection to controls. EnergyGauge Summit® FlalCom-2017. TAM 2017-1.0 Compliant Software. Effective Date: Dec 31, 2017 Florida Building Code, Sixth Edition (2017) - Energy Conservation ASHRAE 90.1-2013 - Energy Cost Budget Option 3/4/2020 Page 12 of 16 Air Leakage 5.4.3.1 Envelope Continuous air barrier's wrapped, sealed, ❑ ❑ ❑ caulked, gasketed, and/or taped in an approved manner, except in semiheated spaces in climate zones 1-6. Air Leakage 5.4.3.2 Envelope Factory -built and site -assembled fenestration and ® 11 El doors are labeled or certified as meeting air leakage requirements. Fenestration 5.8.2.1, 5.82.3, Envelope Fenestration products rated (1.14actor, SHGC, and 5.8.2.4. 5.8.2.5 VT) in accordance with NFRC or energy code defaults are used. Fenestration 5.8.2.2 Envelope Fenestration and door products are labeled, or a ® ® Q signed and dated certificate listing the ll-factor, SHGC, VT, and air leakage rate has been provided by the manufacturer. SYSTEM 7.4.4.1 Mechanical Temperature controls installed on service water -SPECIFIC beating systems (<=120A°F to maximum temperature for intended use). SYSTEM -SPECIFIC 7.4.4.2 Mechanical Automatic time switches installed to automatically switch oft the recirculating hot-water system or heat trace. SYSTEM -SPECIFIC 7.4.6 Mechanical Heat traps installed on non -circulating storage 1:1 El water tanks. HVAC 6.4.1.4, 6.4.1.5 Mechanical HVAC equipment efficiency verified. Nan-NAECA HVAC equipment labeled as meeting 90.1. SYSTEM -SPECIFIC 6.4.1.5.2 Mechanical P'rAC and PTHP with sleeves 16 in. by 42 in. Labeled for replacement only. HVAC 6.4.3.4.1 Mechanical Stair and elevator shaft vents have motorized Q dampers that automatically dose. HVAC 6.4.3.4.2. 6.4.3.4.3 Mechanical Outdoor air and exhaust systems hake motorized ❑ E3 ❑ dampers that automatically shut when not in use and meet maximum leakage rates. Check gravity dampers where allowed. HVAC 6.4.3.4.5 Mechanical Enclosed parking garage ventilation has automatic ❑ El P�1 El contaminant detection and capacity to stage or modulate fans to 50% or less of design capacity. HVAC 6.5.32.1 Mechanical DX cooling system >= 75 kBtu/h (>= 65 kBtufh .� effective 12016) and chilled -water and evaporative cooling fan motor hp >= A%designed to vary indoor fan airflow as a function of load and comply with operational requirements. HVAC 6.4.4.1.1 Mechanical Insulation exposed to weather protected from damage. Insulation outside of the conditioned space and associated with cooling systems is vapor retardant. HVAC 6.4.4.1.2 Mechanical HVAC duds and plenums insulated. Where ducts or plenums are installed in or under a slab, verification may need to occur during Foundation Inspection. HVAC 6.4.4.1.3 Mechanical HVAC piping insulation thickness. Wnem piping is ❑ Installed in or under a slab, verification may need to occur during Foundation Inspection. HVAC 6.4.4.2.1 Mechanical Ducts and plenums sealed based on static ❑ 0 ❑ pressure and location. SYSTEM -SPECIFIC 6.4.4.2.2 Mechanical Ductwork operating >3 in. water column requires ❑ air leakage testing. SYSTEM -SPECIFIC 6.5.2.1 Mechanical Zone controls an limit simultaneous heating and ❑ cooling and sequence heating and cooling to each zone. SYSTEM -SPECIFIC 6.5.2.2.2 Mechanial Two -pipe hydronic systems using a common ❑ distribution system have controls to allow a deadband >=15 A^F, allow operation in one mode for at least 4 hrs before changeover, and have rest controls to limit heating and cooling supply temperature to <=30 A°F. HVAC 6.5.2.4.1 Mechanical Humidifiers with airstream mounted preheating jackets have preheat auto -shutoff value set to activate when humidification is not required. HVAC 6.5.2.4.2 Mechanial Humidification system dispersion tube hot surfaces in the airstreams of ducts or air -handling units insulated >- R-0.5. EnergyGauge Summil® FWom-2017. TAM 2017.1.0 Compliant Software. Effective Date: Dec 31, 2017 Florida Building Code, Sixth Edition (2017) - Energy Conservation ASHRAE 90.1-2013 - Energy Cost Budget Option 3/4/2020 Page 13 of 16 SYSTEM -SPECIFIC 6.5.322 Mechanical VAV fans have static pressure sensors positioned ❑ ❑ El so setpoint <-1.2 in. w.c. design pressure. SYSTEM_SPECIFIC 6.5.4.5.1 Mechanical Two -position automatic valve interlocked to shut off water flow when hydronic heat pump with pumping system >10 hp is o6. SYS7EM_SPECIFIC 6.5.6.2 Mechanical Condenser heat recovery system that can heat ❑ 0 El water to 85 A°F or provide 60% of peak heat rejection is Installed for preheating of service hot water. HVAC 6.5.7.1.5 Mechanical Approved field test used to evaluate design air flow rates and demonstrate proper capture and containment of kitchen exhaust systems. SYSTEM -SPECIFIC 8.5.9 Mechanical Hat gas bypass limited to: 0 1:1 El <=240 kBlurn W 15% >240 kStLdh W 10% HVAC 6.4.3.9 Mechanical Heating for vestibules and air curtains include automatic controls that shut o8 the heating system when outdoor air temperatures > 45F. Vestibule heating systems controlled by a thermostat in the vestibule with setpoint <= 60F. Controls 6.5.10 Mechanical Doors separating conditioned space from the El El9....E r-1 outdoors have controls that disable/reset heating and cooling system when open. Controls 9.4.1.1 Interior Lighting Automatic control requirements prescribed in El El r-t El Table 9.6.1, for the appropriate space type, are installed. Mandatory lighting controls (labeled as 'REQ) and optional choice controls (labeled as 'ADD1' and'ADD2) are implemented. Controls 9.4.1.1 Interior Lighting Independent lighting controls installed per approved lighting plans and all manual controls readily accessible and visible to occupants. Controls 9.4.1.2 Interior Lighting Parking garage lighting is equipped with required ® ❑ r--I l 7 lighting controls and daylight transition zone lighting. Controls 9.4.1.1f Interior Lighting Daylight areas under skylights and roof monitors El11 ^ El that have more than 150 W combined input power for general lighting are controlled by photocontrols. Controls 9.4.1.4 Exterior Lighting Automatic lighting controls for exterior lighting installed. Controls 9.4.1.3 Interior Lighting Separate lighting control devices for specific uses ❑ E3 El installed per approved lighting plans. Wattage 9.62 Interior Lighting Additional interior lighting power allowed for 0 ❑ ❑ special functions per the approved lighting plans and is automatically controlled and separated from general fighting. Wattage 9.6.4 Interior Lighting Where space LPD requirements are adjusted 13 ❑ 11 based on room cavity ratios, dimensions are consistent with approved plans. Insulation 5.5.3.1 Envelope Roof R-value. For some ceiling systems, 13 verification may need to occur during Framing Inspection. Insulation 5.8.12, 5.8.1.3 Envelope Roof insulation installed per manufacturer&ETMs El El El instructions. Blown or poured loose -fill insulation is installed only where the roof slope is <=3 in 12. Insulation 5.8.1.1 Envelope Building envelope Insulation is labeled with R-value or Insulation certificate has been provided listing R-value and other relevant data. Insulation 5.8.1.9 Envelope Building envelope Insulation extends over the full ❑ ❑ area of the component at the proposed rated R or U value. Insulation 5.8.1.4 Envelope Eaves are baled to deflect air to above the Insulation. Insulation 5.8.1.5 Envelope Insulation Is installed in substantial contact with El ❑ El the Inside surface separating conditioned space from unconditional space. Insulation 5.8.1.6 Envelope Recessed equipment installed in building ® ® 0 envelope assemblies does not compress the adjacent insulation. Insulation 5.8.1.7.1 Envelope Attica and mechanical rooms have insulation protected where adjacent to aloe or equipment access. EnergyGauge Summit® Fla/Com-2017. TAM 2017-1.0 Compliant Software. Effective Date: Dec 31, 2017 Florida Building Code, Sixth Edition (2017) - Energy Conservation ASHRAE 90.1-2013 - Energy Cost Budget Option 3/4/2020 Page 14 of 16 5.8.1.7.2 Envelope Foundation vents do not interfere Insulation 5.8.1.8 Envelope Insulation intended to meet the roof insulation ❑ ❑ requirements cannot be installed on top of a suspended ceiling. Mark this requirement compliant if insulation is installed accordingly, SYSTEM —SPECIFIC 6.4.3.1.1 Mechanical Heating and cooling to each zone is controlled by 11❑ 13 a thermostat control. HVAC 6.4.3.1.2 Mechanical Thermostatic controls have a 5 A°F deadband. ® 0 ❑ HVAC 6.4.3.2 Mechanical Temperature controls have setpoint overlap 11 El restrictions. HVAC 6 4.3.3.1 Mechanical HVAC systems equipped with at least one ® El automatic shutdown control. SYSTEM —SPECIFIC 6.4.3.5 Mechanical Heat pump controls prevent supplemental electric ❑ 11 El resistance heat from coming on when not needed. HVAC 6.4.3.6 Mechanical When humidification and dehumidification are ❑ provided to a zone, simultaneous operation is prohibited. Humidity control prohibits the use of fossil fuel or electricity to produce RH > 30% in the warmest zone humidified and RH < 60% in the coldest zone dehumidified. HVAC 6.4.3.6 Mechanical When humidification and dehumidification are ® ❑ provided to a zone, simultaneous operation is prohibited. Humidity control prohibits the use of fossil fuel or electricity to produce RH > 30% in the wannest zone humidified and RH < 60% in the widest zone dehumidified. SYSTEM_SPECIFIC 7.4.4.3 Mechanical Public lavatory faucet water temperature<=11 oA F. SYSTEM —SPECIFIC 7.4.4.4 Mechanical Controls are installed that limit the operation of a recirculation pump installed to maintain temperature of a storage tank. SYSTEM —SPECIFIC 7.4.5.1 Mechanical Pool heaters are equipped with on/off switch and PP'�99 no continuously burning pilot light. SYSTEM —SPECIFIC 7.4.5.2 Mechanical Pool covers are provided for heated pools and pools heated to >90A°F have a cover >-R-12. SYSTEM —SPECIFIC 7.4.5.3 Mechanical Time switches are installed on all pool heaters and pumps. Wattage 9.2.2.3 Interior Lighting Interior installed lamp and future lighting power is consistent with what is shown on the approved lighting plans, demonstrating proposed watts are less than or equal to allowed watts. SYSTEM_SPECIFIC 7.4.3 Mechanical All piping in circulating system insulated SYSTEM —SPECIFIC 7.4.3 Mechanical First 8 it of outlet piping is insulated SYSTEM —SPECIFIC 7.4.3 Mechanical All heat traced or externally heated piping insulated �' y inspector at Project Completion and Prior to @.pswnce of � � �, �„Cerfii�lcate®f;Occupam�y Plan Review 6.7.2.4 Mechanical Detailed instructions for El 0 El commissioning included on the plans or specifications for project >=50,000 f2. Plan Review 8.7.2.4 Mechanical Detailed instructions for HVAC systems commissioning included on the plans or specifications for projects >=50,000 U. Post Construction 6.7.2.1 Mechanical Furnished HVAC as -built drawings submitted ® ❑ 0 within 90 days of system acceptance. Post Construction 6.7.2.2 Mechanical Furnished O&M manuals for HVAC systems within ❑ 13 ❑ 90 days of system acceptance. Post Construction 6.7.2.3 Mechanical An air and/or hydronic system balancing report is provided for HVAC systems serving zones >5,000 V of conditioned area. EnergyGauge Summit® FlalCom-2017. TAM 2017.1.0 Compliant Software. Effective Date: Dec 31, 2017 Florida Building Code, Sixth Edition (2017) - Energy Conservation ASHRAE 90.1-2013 - Energy Cost Budget Option 3/4/2020 Page 15 of 16 HVAC 6.7.2.4 Mechanical HVAC control systems have been tested to ensure ❑ ® ❑ proper operation, calibration and adjustment of controls. Post Construction 8.7.1 Interior Lighting Furnished as -built drawings for electric power systems within 30 days of system acceptance. Post Construction 8.7.2 Interior Lighting Furnished O&M instructions for systems and 110 equipment to the building owner or designated representative. EnergyGauge Summit® Fla/Com-2017. TAM 2017-1.0 Compliant Software. Effective Date: Dec 31, 2017 Florida Building Code, Sixth Edition (2017) - Energy Conservation ASHRAE 90.1.2013 - Energy Cost Budget Option 3/4/2020 Page 16 of 16 EnergyGauge Summit® v6.00 INPUT DATA REPORT Proiect Information rroje Name: RESERVE RO. Project Title: 2019-0183 Address: 8401COM IERCIALCENTERDR. State: Florida Zip: 3e996 Owner: _ Orientation: 0 Deg CIncICWI¢. Walls & be rotated accordingly Building Type: Ot m Building Claasifeation: New Finished building No.of Storin: I Gro"res: 3076 SF Zones No Acronym Description Type Area Multiplier Total Am l811 nn 1 ZONE 1 Zone 1 CONDITIONED 978.0 1 978.0 ❑ 2 ZONE 2 Zone 2 CONDITIONED 959.0 1 959.0 ❑ 3 ZONE 3 Zone 3 CONDITIONED 1139.0 1 1139.0 ❑ 3/4aO20 EnergyGoage Summit® v6.00 I I Spaces No Acronym Description Type Depth Width Height Multi Total Area Total Volume Ttj IN fftj plier 1s11 fc(j In Zone: ZONE 1 1 ZONE I ZONE I Office - Open Plan 10.00 97.90 9.00 1 918.0 8802 0 C In Zone: ZONE 1 ZONE ZONE Office - Open Plan 10.00 95.90 9.00 1 959.0 8631.0 In Zorse: ZONE 3 1 ZONE3 ZONE 3 Toilet and Weshrewm 10.00 113.90 9.00 1 1139.0 10251.0 El Lighting No Type Category Nu. of Watts per Power Control Type No.of Luminaires Luminaire [W] Ctrl pis In Zone: ZONE I i In Spam: ZONE I 1 LED General Lighting 16 49 784 Occupancy sensor without 10 Daylighung 2 LED General Lighting 3 31 93 Occupancy sensor without 3 Daylighung In Zone: ZONE 2 In Spam: ZONE 2 I LED General Lighung 4 49 196 Occupancy sensor without 2 Daylighung 2 LED General Lighting 6 31 196 Occupancy sensor without 3 Daylighung 3 LED General Lighting 25 25 625 Occupancy senior without 4 0 Daylighung Ia Zone ZONE 3 In Spacc ZONE 3 1 LED General Lighting 3 49 147 Occupancy sennor without 1 ❑ Daylighung 2 LED General Lighting 12 31 372 Occupancy sensor without 4 Daylightng 3/412020 EoergyGauge Sum mieH r6.00 C� 3 LED General Lighting 8 25 200 Occupancy sensor without 2 ❑ i Daylighting t 4 LED General Lighting 1 70 70 Occupancy sensor without I r] i Daylighting Walls (Walls will be rotated clockwise by building rotation value) No Iltecription Type Width H(Effec)Multi Area Orientation Conductance 4iea4 Dees. R-Value I (it) Ift) plier )aQ [Bturnr. s[ F) Capacity )1b/efI IbsLFBtuj IBtuhLFl In Zone: ZONE 1 1 Zone 1 4" Brick f2x4@16" 65.00 10.00 1 650.0 North 0.1043 8.982 67.36 9.6 ❑ oc,R1 lBau/0.5" Gyp 2 Zone, 1 4" Brick 2x4®16" 25.30 10.00 1 253.0 North 0.1043 8.982 6736 9.6 ❑ o RllBatdo.5' Gyp 3 Zone 1 4" Brick r2x4@16' 37.70 10.00 1 377.0 North 0.1043 8.982 67.36 9.6 ❑ oceRI IBatt/0.5' Gyp In Zone: ZONE 2 1 Zone 4"Brick 2x4®16" 29.90 10.00 1 299.0 North 0.1043 8.982 67.36 9.6 ❑ o RIIB&M.5" Gyp 2 Zone 2 4" Brick 2x4®16- 65.00 10.00 1 650.0 North 0.1043 9.982 6736 9,6 ❑ Gyp 1 3 Zomi! 4- Stick 2x4@16' 16.60 10.00 1 166.0 North 0.1043 9.982 67.36 9.6 oc+RllBamt0.5" Gyp Windows (Windows will be rotated clockwise by building rotation value) No Description Orientation Shaded U SHGC Vis.Tra W H (Effect Multi Tote; nrce )Btu/6rsfFj Ift) Ift) plier Isfj 3/42020 EnergyGsuge Sum mit4s'v6.00 In Zone: ZONE 1 In Wall: East Wall I Zone IN orth No 0.1000 0.25 0.76 2.80 5.00 3 42.0 In Wall: North Wall I 1 Zone IN onh No 0.1000 0.25 0.76 2.80 5.00 1 14.0 In Wall: West wall I Zone IN orth No 0.1000 0.25 0.76 2.80 5.00 1 14.0 El In Zone. ZONE 2 In Wall: East Wall 1 Zone 2N orth No 0.1000 0.25 0.76_ 2.80 5.00 1 14.0 In Wall: South Wall 2 j 1 Zone 2N onh No 0A000 0.25 0.76 2.80 5.00 1 14.0 I In Wall: Wert Wall i 1 Zone2N orth No 0.1000 0.25 0.76 2.80 5.00 1 14.0 _ Doors No Description Type Shaded? Width H (EHec) Multi Area Cond. Dem. Heal Cap. R-Value (rtl lD) p5er Isfl (Btu/hr. sf. F) (Ib/cfl )Bta/sf. F] (hiffBtu) In Zone: ZONE 1 In Wall: North Wall l I Zone 1 Solid core flush No 3,00 720 1 21.6 0.3504 0.00 0,00 2.85 (2.25) Roofs _ No Description Type Width H(ERec) Multi Area Tilt Cond. Heat Cap Deas. R-Value IN (D) plier )sQ (deg) IBtu/hr. Sf.F) (Btu/ef. Fj Ilb/cfj (h.sUIRtu) In Zone: Skylights No Description Type U SHGC Vis.Trans W H (EBec) Multiplier Area Total Area lBln/hr of F1 ID) IRl (Sfl ISQ 3/42020 EnerUGauge Summit® v6.00 In Zone: In Roof: Floors No Description Type Width H(Effee) Mufti Area Cond. Heat Cap. Dens. B-Value ID) [it] plier (an IBtu/hr. sf. FI lBtuhf. Fl pb/cfI (bnLF/Etu] In Zone: ZONE 1 1 ZONE I I R soil, concrete 97.80 10.00 1 978.0 0.2681 3000 113.33 3.73 ❑ floor, carpet and rubber pad In Zone: ZONE 2 1 ZONE 2 1 ft. soil, concrete 95.90 10.00 1 959.0 0.2681 34.00 113.33 3.73 ❑ floor, carpet and robber pad In Zone: ZONE 3 1 ZONE 3 1 ft soil, concrete 95.90 10.00 1 959.0 0.2681 34.00 113.33 3.73 ❑ floor, carpet and rubber pad Systems AHU 1 ZONE 1 Constant Volume Air Cooled Split No. Of Units I System <65000 Btu/hr Component Category Capacity Efficiency IPLV I Cooling System 34100,00 16.00 8.00 ❑ 2 Heating System 27296.00 1.00 ❑ 3 AG Handling System -Supply 1200.00 0.80 ❑ 3/412020 EnergyGauge Summit® v6.00 AIILI2 ZONE2 Constant Volume Air Cooled Split System <65000 Btulhr No.Of Units I Component Category Capaeity Efficiency IPLY I Cooling System ..._..._......._.__...._.._. 2 Heating System 3 Air Handling System -Supply 41100.00 16.00 800 27296.00 1.00 140000 0.80 cl 0 ❑ AHU 3 ZONE 3 Constant Volume Air Cooled Split System <65000 Btu/hr No.Of Units I Component Category C.P.eity Ef("iency IPLY I Cooling System 2 Heating System 3 Air Handling System -Supply 41100.00 16.00 9.00 27296,00 100 1400.00 0.80 13 0 11 -- -- Equipmen: Category Plant Size tneLNo Eft IPLY — Water Heater:5 W-Heater Description Capaeit3Cap.Unit I/P Ft. Efficiency Lou I Elccnicwaterheater 30 [Gal] 5 [kwl 0.9700 [EQ [Btdh] (_f Ext-Lighting --- Descriptioo Category No. of Watts per AreaA.en/No. of units Control Type 1Vattage Luminaires Luminaire [sf/ftNol [W] L 3/42020 EnergyGauge Sum mit® v6.00 Piping No Type Opc'mmg Insulation Nommnal pipe Imolatlon Is Runou t? Ten:peeature Conductivity Diameter Thickness IF) I BtuAo/h.sf.FO [in! tin] f ❑ Fenestration Used Name Glass Type No. of Glass SHGC VLT Panes Conductance latu/h.aLFl Api.bWnd13 User Defined 1 0.1000 0.2500 0.7600 ❑ Materials Used Mat No Acronym Description Only R-Value RValue Thickness Conductivity Density SpecificHeat Used IhaLFBtul IN [Btu/h.ftF] (Ib/cQ (BtuAb.FI 0 BOARD,1/21N 179 Mat1178 CARPET WBUBBER PAD Yes 1,2300 ❑ 265 Mad265 Soil, 1 R No 2.0000 1.0000 0.5000 100.00 0.20W ❑ 48 Mad48 6 in. Havyweight consume, No 0.5000 0.50W 1.0000 140.00 0.2000 ❑ 266 Mat1266 2a4®16`on; +RlI Batt No 8.3343 0.2917 0.0350 9.70 0.20W ❑ Mat186 BRICK, COMMON, 4IN No 0.8012 0.3333 0.4160 120.00 0.2000 ❑ IL86 279 Ma1279 Solid core Bush (2.25') Yes 2.8537 ❑ Constructs Used No Name Simple Masal. Conductance Hat Capacity Density RValue Construct Construct (Btu/baf.Fl [BtNsf-F] lib/cQ jh.sf.FBt.I 3/4/2020 EnergyGauge Summit® v6.00 j 1012 i 4"Brick /2x4®16"o RI lBett/0.5"Gyp No No 0.10 8.98 67,36 9.6 ❑ E layer Materiel Material Thickness Fnming No. IftI Factor 1 86 BRICK, COMMON, 41N 0.3333 0.000 ❑ 2 266 2x4@16" oc + RI I Ban 0.2917 0,000 ❑ 3 187 GYPORPLASBOARD,1/2fN 0.0417 0.000 ❑ SimplNo Massless Conductance Beat Capacity Duairy RVa1ae Name Construct Cowtnct Construct [BtulhafFl jBtu/sLFl fib/eQ (heLFBtuI I 1057 1 R sail, concrete floor, carpet and tubber No No 0.27 34.00 113.33 3.7 ❑ pad i Layer Material Material 73icknm pressing No. Iftf Factor 1 265 Soil, I It 1.0000 0,000 ❑ 2 48 6 in. Hurysreight concrete 0.500D 0 000 ❑ 3 178 CARPET W/RUBBER PAD 0.000 ❑ No Name Simple Mmlm Conductance nest Capacity Density RVBIue Conswct Construct [Btu/h.sf.Ff IBtuisLFf pb/en 1hsLFBtal 1058 Solid care flush(2.25) No Yes 0.35 2.9 ❑ Layer Material Material Thiek.m Framing No. fill Factor 1 279 Solid core flush (2.25") 0 000 ❑ 3/42020 EnergyGouge Summit® v6.00 Air System Sizing Summary for AHU 9 Project Name: RESERVE REALTY OFFICE 0IM212020 Prepared by: Kamm Consulting 09:47AM Air System Information Air System Name __.. __._ AHU1 Number of zones. _.__._ ......................... ........... .... 1 Equipment Class _..._. _...__ __SPILT AHU Floor Area _.... _ ___. ..._ .....--- 978.0 ft. Air System Type... .. .. ____SZCAV Location _..__ _. _. PORT ST. LUCIE, Florida Sizing Calculation Information Calculation Months._..__...__._.._____.__.__.. Jan to Dac Zone CFM Sizing- ............ _..... Sum of space airflow rates Sizing Data .... .... .._... ._..._._......_...... Calculated Space CFM Sizing ..___.....Individual peak space loads Central Cooling Coil Sizing Data Total mil load ... _..__......... ..... ............................................... 3.0 Tons Load occurs at.............._......_........... ........ ....... ...__..... Jun 1500 Total mil load .__.__............... ... ...___.................. ............ . 35.6 MBH OA DB/WB............................ _........ .......... ....._._...._.. 90.0178.0 'F Sensible mil load ... ................... ................._..................... 28.9 MBH Entering DB / WB....._....... ................. _...................... 72.6162.2 OF Coll CFM at Jun 1500....... _._......................_...... .......... 1528 CFM Leaving DB 1 WB..__........... _................ _................ ... 65.0164.1 OF Max block CFM........... ........--- ................ _...... ........... ._. 1528 CFM Coil ADP _...___........................................ _............ _.._...___. 63.1 OF Sum of peak zone CFM .... .... _..............._..... ... 1528 CFM Bypass Factor ............ .................. _............. .................. _...... . 0.100 Sensible heat raft ..... _....................... _.... .................. .._ 0.812 Resulting RH_--- .............. _.... _.._..... ...._... _........... _.. 55 % ft'/ron.._...................... ............. .... ........... ........ ............... 329.4 Design supply temp..... .......... ...... ...... _............. ..................... 55.0 'F BTUI(hrft-............................... .__.................. ................... _ 36.4 Zone T-slat Check .................... ..._...._.._....... ..................... 1 of 1 OK Water flow @ 10.0'F rise .......... _..................._................ NIA Max zone temperature deviation ....... _........ ................. ..._... 0.0 OF Central Heating Coil Sizing Data Max mil load .____.__ ____ _.___.12.8 MBH Load occurs aL...... _..... ............ _..... _..... .. ._....Dec 0500 Coil CFM at Dec 0500 __ 1528 CFM BTU/(hrft-) ... _...--- ................ ........ ___._. 13.1 Max mil CFM... _._..._..__.........__.__. 1628 CFM EnL DBI Lvg DB._.... ............ ...... __....... ....... ........ 64.9162.7 OF Water fim@20.0'F drop ................... ......... ...... ....._.. NIA Supply Fan Sizing Data Actual Max CFM................. .... _............... :.... _.... _....... . 1528 CFM Standard CFM........._...................... _....................... ......... . 1527 CFM Actual max CFMflP.................. _.................._.................... 1.66 CFM/ft' Outdoor Ventilation Air Data Design airflow CFM.................... .................... ._...... _........ 109 CFM CFM1W............ ...... _....... ........... _....................... ................. 0.11 CFMIft' Fan motor BHP ........ ..._._....... ...... --- ........................... _.. 0.00 BHP Fan motor kW . ..................... .......... ....... _..... _........ ... _..____.. 0.00 kW Fanstatic ...... ...... ............... _.............._.._.......................____.. 0.00 in wg CFM/peraon 10.87 CFMlperson Hourly Analysis Program v5.01 Page 1 of 3 Air System Sizing Summary for AHU 2 Project Name: RESERVE REALTY OFFICE 01/02202C Prepared by: Kamm Consulting 0947AN Air System Information Air System Name .............. Equipment Class....- ....... Air System Type ............... Sizing Calculation Information Calculation Months __._....._--- .... Sizing Data ...._...___._...__ ...... .- .--- AHU 2 Numberofzones_...._.._...._.._ .................. i SPLT AHU Ftoor Area....._.....__.........__..._........._......... .959.0 it, ........ SZCAV Location..._ ..................._.........._._ PORT ST. LUCIE, Florida Jan to Dec Zane CFM Sizing . Sum of space airflow rates Calculated Space CFM Sizing ........ ...... ..Individual peak space loads Central Cooling Coil Sizing Data Total mil load ............_.............._.. 3.3 Tons Total mil load ................... _................................. .__._._.... . 39.0 MBH Sensible coil load ..... ..... _....... ...................... ........_...... .... 32.3 MBH Coil CFM at Jun 1500........ ........ ............................__.... 1734 CFM Max block CFM................................. .......................... _..... 1734 CFM Sum of peak zone CFM ....... .......... ._...................... -...1734 CFM Sensible heal ratio ................. _............................... ...._... 0.828 fl'/Ton............... ................... _....... ..._............................. _.... 294.8 BTIU(hr•ft) ............. ....... .... ................................................ ... 40.7 Water flow @ 10.0'F rise _....... ....... ......... ........ ............. .. WA Central Heating Coil Sizing Data Max mil load ............... _........... ................ Coil CFM at May 0 W .......................... Max mil CFM............. _............................. Water flow @ 20.0'F drop ................... Supply Fan Sizing Data Actual max CFM ....-. ............. Standard CFM. ........_..... ...................... . Actual max CFMV.... .._.._._..................... Load owes at ....... _..... ....... ......._....... _...... ............... .. Jun 1500 OA DBIWB........................... ._..._........... ................. ... 90.0178.0 °F Entering DB I WB................ _............... ........ .............. 72.0 f 61.7 °F Leaving DB / WB._....... _............................................. 64.7 / 63.8 °F Coil ADP___ ................._...._....._...._.._._..... 52.8 °F BypassFactor ....... .......... .......... --- ..... _...... ............ .....__. 0.100 Resulting RH.......... ....... ..........._.._____....._.___....___ _ _ _ 55 % Design supply temp .......... _........................... _..... _........ ___.. 55.0 -F Zone T-stat Check ........... ... ......_.._......_... ....... _..... ...._... 1 of 1 OK Max zone temperature deviation ......... _.................... 0.0 °F .13.5 MBH Load occurs 1734 CFM BTIU(hrft)... 1734 CFM Fitt DBILvg N/A .. 1734 CFM Fan motor BHP .. 1733 CFM Fan motor kW.. ....1.81 CFM1fV Fan static ____. May 0500 _ 14.1 64.8/82.0 `F 0.00 BHP ___..0.00 kW Outdoor Ventilation Air Data Design alrflow CFM.... _._... 108 CFM CFM/person .._............... .... _............ _ .................. 10.75 CFM/person CFMM'................... ____.._..... _. _ _.... _.. 0.11 CFMIW Air System Sizing Summary for AHU 3 Pmject Name: RESERVE REALTY OFFICE 0110212020 Prepared by: Kamm Consu0in0 09:47AM Air System Information Air System Name _...... ........_....._ ... _.. _...._. AHU 3 Equipment Class. ._ _...__............__ SPILT AHU Air System Type .... ... ... ........ -..... ....... ..... ._........... ....SZCAV Sizing Calculation Information Calculation Months ..........._....... .._... .... .._............ Jan to Dec Sizing Data ... _.._............. _...__......._............ Calculated Central Cooling Coil Sizing Data Total coil loatl............. ............................. Total coil load ....... _............ ...... _..._................ ............... 37.7 Sensible coil load ..... ... ... ._..._..... ....... ........ .. _.__...__.. 27.2 Coil CFM at Jun 1600_.... ................ ......... .- ............ .__. 1236 Max block CFM_.............. _............................. .... ............ ... 1236 Sum of peak zone CFM..__............................................. 1236 Sensible heal ratio ..................................................._._.. 0.721 ft'Ron.................. ...... _.... ........ ... _.............. _......... ...... _.... 362.7 BTU/(hrfl-)..................................... 33.1 Water flow @ 10.0'F rise .... ............ _.............. ..... ...--- ..... WA Number of zones-- .__. _ __..._. ......._....A FloorAma _....... _._ _._____1139.0 ft' Location..__......_.........__....... _...... PORT ST. LUCIE, Florida Zone CFM Sizing..... ......... Sum of space airflow rates Space CFM Sizing .._.......__..Individual peak space bads Tons Load occurs at -- .......... ..... _........ .............. .................. Jun 1600 MBH OADB/WB...--- ... ........ ................... __...._........... _. 89.6177.9 'F MBH Entering DB/WB..........--......... ......_........--- .... --- 72.5162.2 'F CFM Leaving DB / WB.........._......._.......__.___._............... 62.1161.3 'F CFM Coil ADP.._ ............... ....._...... ........... ....... ...... ......_........_._--- 49.9 'F CFM Bypass Factor.-... ............. .... . . ... ..... . ..... . .... . .... . ..... 0.100 ResulOngRH_....._............___...____._..............._.._............_... 65 % Design supply temp . ...... .................... . ......... _ ... ................ .... 55.0 'F Zone T-stal Check _._......_ ................. ..................... 1 of 1 OK Max zone temperature deviation..__ ................. ......... ... ....._ 0.0 'F Central Heating Coil Sizing Data Max coil load.._...- ........ .... ............. _ ............ _......... ___..... _ 7$ MBH Coil CFM at Dec 0900..........................._............_..._.._.. 1236 CFM MaxwiICFM_._..__...__............... ..._............. ._......... _. 1236 CFM Water flow Q 20.0'F drop ................................. _._._...... WA Supply Fan Sizing Data Actual max CFM..__..._...... .................. _........ _.......... 1236 CFM Standard CFM. ___.__._........... ................ ..__.._....__. 1226 CFM Actual max CFfNfl'_....._.._..... __..................... ............ ... 1.08 CFWft' Outdoor Ventilation Air Data Design airflow CFM.-.... . ..... .......... .. .............. . .... . ........... 93 CFM CFM/ft'._.___.............. _..... _......... _..................................... . 0.08 CFMIft' Load occurs at ....... _........ _.___.__......... ...... .............. _Dee 0900 BTU/(hrft-) .................... _............. _...... _......... _....- ......._.........6.7 Ent DS / Lvg DB...................... ........... __.... ._... ........ 62.6158.2 'F Fan motor BHP....... ........_ _c.............. -_........:. 0.00 BHP Fan motor kW ........................................... ...0.00 kW Fanstatic...... .... ......... ....... ____.... ...... _._............. _.......... _..... 0.00 inwg CFWperson............ --........ ...... .......... _.............................. 10.07 CFMMperson Houdy Analysis Program v5.01 Page 3 of 3