HomeMy WebLinkAboutPROJECT INFORMATION• _J4
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SALASO'BRIEN
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SCANNED
'BY
St, Lucie County
September 20, 2018
Page 1 of 2
PERMIT COMMENT RESPONSES
FL CERTIFICATE OF AUTHORIZATION: 6106
To: St. Lucie County Planning & Development Services��.Ey`l G E tv �T����%
Building & Code Regulation Division
From: Kyle J. Cartier P.E. 453269 Wi0t,
,TATE OF
Reference: Treasure Coast International Airport Forensic AnalYV-(,%,'', 4 O R I'J 4' •G�e�4/ -zz
SWC #15072 \
/////S/lllfi141,�\\\
Subject: Permit Comment Responses
Panel
MECHANICAL
Comment: SUBMIT TRIPLICATE COMMERCIAL ENERGY CALCS W/ MANUAL N'S.
Response: An EnergyGauge Summit F1aCom Calculation report has been generated for the
new HVAC system associated with the building. All other systems were not
modelled since they are unaffected by the HVAC equipment addition and
previous energy calculation approvals should still be in effect. It is noted that the
new equipment proposed for the design meets or exceeds current F1aCom energy
efficiency requirements.
Comment: WE ARE CURRENTLY ENFORCING THE 2017 FLA: ENERGY CODE NOT
2014*SEE M5.2 [2.12]"RESUBMIT IN TRIPLICATE**
Response: Reference to the 2014 Florida Building Code, Energy Conservation has been
changed to the 2017 Florida Building Code, Energy Conservation in two locations
on sheet M5.2, paragraph 2.12. In addition, reference to the 2014 Florida
Building Code on sheet M1.0, General Note 4 has also been updated to reflect the
2017 version of the Florida Building Code.
Comment: SUBMIT MANUFACTURERS DOCUMENTATION, MSDS DOCS OR AN
ORIGINAL S.S.D. REPORT FROM THE DESIGN PROFESSIONAL THAT
THE PROPOSED TERRAZZO IS COMPLIANT WITH FLA. ACCESSIBILITY
CODE 302.1 [SLIP RESISTANT]
3501 Quadrangle Blvd., Suite 100.Orlando, Florida 32817.407-380-0400 • www.SWCeng.com
Permit Comment Responses
Page 2 of 2
Response: Refer to attached architectural letter with comment response and cut sheets of
flooring with requested information included.
Comment: SWC TO LABEL ALL ROOMS ON PLANS AND SHOW ALL SWING
DOORS ON PLANS *SEVERAL ROOMS ARE CLOSED IN OR BLOCKED*
SHOW ALL REQUIRED MECHANICAL FOR MEC REVIEWER.
Response: Room names and any missing swing doors have been added to the architectural,
mechanical and electrical demolition and new work floor plans. Refer to revised
plans for changes. The mechanical demolition and new work plans represent all
existing HVAC equipment and ductwork layouts in the building. The scope of
work is limited to ductwork cleaning, exterior insulation replacement, closing and
sealing of outside air intakes on existing split system air handling units and
rooftop units and the addition of a new 100% dedicated outside air system for the
building.
Comment: ADDITION: DESIGN PROFESSIONAL TO SHOW A DETAIL ON PLANS W/
ATTACHMENTS FOR THE REPLACEMENT OF THE EXTERIOR
MATERIALS AT THE CLERESTORY
Response: Refer to attached architectural letter with comment response included.
END OF DOCUMENT
3501 Quadrangle Blvd., Suite 100 •Orlando, Florida 32817.407-380-0400 • www.SWCeng.com
RHBj Consulting, LLC
Forensic Architecture & Litigation Support
AA26002610
212 S. Crystal Drive
Sanford, FL 32773
407 376 2316
September 18, 2018
Permit Comment Responses
To: St. Lucie County Planning & Development Services
Building & Code Regulation Division
From: Robert H. Burke, Jr. AIA, NCARB
AR0006478
Re: Treasure Coast International Airport
Permit Comment Responses
Subject: Permit Comment Responses
Below are responses to two permit review comments:
Comment: Submit manufacturers documentation, MSDS Docs or an original
S.S.D. report from the design professional that the proposed terrazzo
is compliant with FLA. Accessibility Code 302.1 [Slip Resistant]
Response: The Florida Accessibility Code, 611 Edition, §302.1 states, "Floor and
ground surfaces shall be stable, firm, and slip resistant and shall
comply with 302." There is no reference to a standard by which one
would determine slip resistance. Attached is product literature for
the proposed Acrylic Sealer over the existing and new terrazzo along
with a test report per ANSI A137.1 Floor Slip Resistance Test Results.
This report indicates that the proposed acrylic sealer meets the ANSI
standard. See attached product information and test report.
Comment: Addition: Design Professional to show a detail on plans
w/attachments for the replacement of the exterior materials at the
clerestory.
Page 1 of 2
Response: The existing slatted aluminum soffit system was approved as part of
the original design and construction for this building. The slats can
be removed form the existing clips without adjustment to structural
connections. Once foam insulation is completed above the
clerestory, the soffit slats will snapped back into place on the existing
clips that remain in place. Submittal information for the existing
soffit system does not appear to be in the County's project files.
Respectfully submitted,
Robert H. Burke, Jr.
AIA, NCARB, FL AR 6478
bob@rhbiconsultine.com
www.rhbiconsulting.com
Page 2 of 2
KEY #804 ACRYLIC SEALER K� t:Es'"
conaPANY
Product Information Sheet
DESCRIPTION
KEY #804 is a water -based, clear acrylic emulsion formulated to create a clear, non -yellowing, protective coating. KEY
#804 provides a tough, UV and abrasion resistant film that protects surfaces from moisture penetration, staining, dirt,
dust, wear, and provides a surface that is easy to clean and maintain. KEY #804 is an excellent choice for interior or exte-
rior applications. KEY #804 is designed as an effective water -based terrazzo sealer thereby replacing solvent -based
acrylic sealers. KEY #804 can be used to seal concrete, decorative concrete toppings, masonry, brick, Saltillo tiles, or
any cementitious substrate. While it is a clear -drying formulation, it will tend to impart a rich darkening, or "wet look" quali-
ty to many substrates, especially those of a dark or tinted nature.
KEY ADVANTAGES
• UV resistant
• Waterborne, low odor suitable for use in occupied areas
• Meets USGBC LEED criteria for low VOC
• Excellent clarity
• Low maintenance finish
• Fast dry time
• Excellent abrasion and mar resistance
• Seals substrate from moisture penetration
KEY CONSIDERATIONS
• Substrate temperature must be a minimum of 50OF
• Substrate must be free of dirt, waxes, curing agents,
and other foreign materials
• Do not apply in exterior areas if exposed to dew or rain
within 24 hours of application
• Do not apply thicker than recommended or puddle to
avoid whitening, bubbling, or peeling of the sealer
COLOR SELECTION
Clear only.
COVERAGE
300-400 ft2 per gallon per coat depending on surface
porosity, application method, and desired sheen.
CURE/DRY TIME
Dry to Touch
Light Foot Traffic Service
<1 hour @75•F, 50% RH
4-6 his @ 75•F, 50% RH
'Good air movement and humidity control are
necessary for proper drying of waterbome coatings.
APPLICATION
SURFACE PREPARATION
For epoxy terrazzo and unsealed concrete, the surface
must be clean of contaminants and standing water. If
applying to previously sealed terrazzo or concrete and the
sealer type is unknown, test a small area to ensure com-
patibility with KEY #804. Work must be performed by
trained or experienced contractors or maintenance person-
nel. The Key Resin Technical Service Department is
available to answer any questions.
MIXING INSTRUCTIONS
APPLICATION
KEY #804 does not require pre -blending before use and is
easily applied with a low pressure pump sprayer at
300-400 ft2 per gallon followed with light back -rolling using
a 3/16°-3/8° low shed nap roller. Maintain a wet edge while
spraying, and back -roll over sprayer lap marks for best
appearance. Coverage will vary due to ambient tempera-
ture, surface temperature, surface porosity, and/or applica-
tion methods. Do not apply if surface temperature is below
50°F. Avoid pooling and application to exterior areas that
are subject to rain or dew within 24 hours of application. A
single coat will seal the substrate to minimize staining while
producing a medium gloss finish. Subsequent coats will
create a surface film with a higher gloss finish. Care should
be taken to minimize the entrapment of air caused by over -
rolling. Two or more coats are recommended for most
sealing applications.
CLEAN UP
Clean skin, tools and equipment with soap and warm water
immediately following use. If not cleaned immediately the
sealer may clog spray nozzle and leave a residue on paint-
ed surfaces, glass or wood. Hardened/dried KEY #804
may be removed with a strong solvent such as xylene/xylol
or MEK, or use mechanical method. Consult Safety Data
Sheet (SDS) for safety and health precautions.
KEY #804 ACRYLIC SEALER.
Product Information Sheet
TECHNICAL DATA
AVAILABILITY
Key Resin materials are available throughout the United
States and a number of other countries. Contact the Key
Resin Representative in your area for details.
WARRANTY
MAINTENANCE
After completing the application of KEY #804, the installer
should provide the owner with maintenance instructions.
KEY #804 is easily cleaned with neutral soaps or deter-
gents. Referto Key Resin Technical Bulletin #3 and #3A
for additional recommendations.
TECHNICAL SERVICE
Key Resin Company provides services and consultations
on material selection, specification, troubleshooting, and
other information on the proper repair and protection of
concrete surfaces. Key Resin Sales/Technical Repre-
sentatives are available to assist you. Telephone
888.943.4532 or visit www.keyresin.com.
Key Resin Company C'Keyj warrants for a period of one (1) year that its products will be free of manufacturing defects and will be in conformity with published specifcetlons when handled. stared, mixed, and
applied In accordance with recommendations of Key. If any product fails to meet this warranty, the liability of Key will be limited to replacement many nonconforming material if notice of such noncomonnity is given
to Key Within (1) one year of delivery of materials. Key may In Its discretion refund the price received by Kay In lieu of replacing the material. No customer, distributor, or representative of Key is authorized to change
or modify the published specifications of this warranty in any way. No one Is authorized to make oral warranties on behalf of Key. In order to obtain replacement or refund the customer must provide written notice
containing full details of the non-comorraiy. Key reserves the right to Inspect the nonconforming material prior to replacement EXCEPT FOR THE EXPRESSED WARRANTY STATED ABOVE, THERE ARE NO
OTHER WARRANTIES, EXPRESSED OR IMPLIED, INCLUDING WITHOUT LIMITATION, ANY IMPLIED WARRANTY OF MERCHANTABILITY OR FITNESS FOR PURPOSE KEYS OBLIGATION SHALL NOT
EXTEND BEYONDTHE OBLIGATIONS EXPRESSLY UNDERTAKENABOVEAND KEY SHALLHAVE NO LIABIUTY OR RESPONSIBILITYTOTHE PURCHASER ORANY THIRD PARTY FORANY LOSS, COST,
EXPENSE, DAMAGE OR LIABILITY WHETHER DIRECTOR INDIRECT, OR FOR INCIDENTAL OR CONSEQUENTIAL DAMAGES.
KEYRESW ft
C AAPANY If
CORPORATE OFFICE / EASTERN US / INTERNATIONALAIC WESTERN US
405Q Clough Woods Drive. Batavia, OH 45103 Rev 1/1/2018 1315 E. Gibson, Suite D . Phoenix, AZ 85034
513.943.4225 888.943.4532 www.keyresin.com 602.523.9353
TorTests'" Floor Friction Testing Service
SOTTER ENGINEERING CORPORATION
Consultants
26705 Loma Verde, Mission Viejo, CA 92691
Telephone:949-582-0889 FAX:949-916-2193
Licensed by the State of California
Board of Professional Engineers
And Land Surveyors
Approved by the City of Los Angeles
for testing slip resistance offlooring
ANSI A137.1 Flooring Slip Resistance Test Results
Client: Key Resin Co.
Flooring: Key #804
Page 1 of 2 Test no.: 1801-2326
Report date: 1/23/2018
Date tested: 1/23/18
ANSI A137.1 Dynamic Coefficient of Friction Test
The American National Standards Institute (ANSI) published the A137.1-2012 American National
Standard test for measuring dynamic coefficient of friction (DCOF) of common hard -surface
indoor level floor materials in 2012. This ANSI standard has been incorporated as a requirement in
"Section 2103.6 Ceramic Tile" of the 2012 International Building Code published by the
International Code Council. That section states that "Ceramic tile shall be defined in, and shall
conform to the requirements of, ANSI A137. U'
Average Dynamic Coefficient of Friction (DCOF), cleaned with Renovator, and tested with
BOT-3000E digital tribometer using SBR rubber slider and 0.05% SLS water solution:
Area #1 Dry: 0.99, 0.87, 0.72, 0.69; Avg. = 0.82; Wet: 0.45, 0.39, 0.37, 0.36; Avg. = 0.39
Area #2 Dry: 0.83, 0.69, 0.68, 0.67; Avg. = 0.72; Wet: 0.46, 0.45, 0.41, 0.42; Avg. = 0.44
Area #3 Dry: 0.88, 0.81, 0.71, 0.71; Avg. = 0.78; Wet: 0.51, 0.44, 0.39, 0.36; Avg. = 0.43
Overall average: Dry: 0.77; Wet: 0.42
T = 66 degrees F; Relative humidity=19%; BOT recalibration due July 19, 2018
BOT-3000E strain gauge verified on day of test.
ANSI A137.1 reference the from Tile Council of North America before/after results: passed/passed
High dynamic coefficient of friction values indicate potentially good traction. The ANSI A137.1
standard, Section 6.2.2.1.10, states that
This test report shall not be reproduced, except in full,
without the written approval ofSotter Engineering Corporation
"Unless otherwise specified, tiles suitable for level interior spaces expected to be walked upon
wet shall have a wet DCOF of 0.42 or greater when tested using SLS solution as per the
procedure in Section 9.6.1. However, tiles with a DCOF of 0.42 or greater are not necessarily
suitable for all projects. The specifier shall determine tiles appropriate for specific project
conditions, considering by way of example, but not in limitation,
"type of use,
traffic,
expected contaminants,
expected maintenance,
expected wear, and
manufacturers' guidelines and recommendations.
"... The presence on installed tiles of water, oil, grease, and/or any other elements which
reduce traction, creates slippery conditions ... Tile installations with exposure to such elements
require extra caution in product selection, use, and maintenance.... When tested using SLS
solution as per the procedure in Section 9.6.1, tiles with a wet DCOF of less than 0.42 shall only
be installed when the surface will be kept dry when walked upon and proper safety procedures will
be followed when cleaning the tiles."
This standard has no recommendations for outdoor floors or for ramps.
Respectfully submitted,
SOTTER ENGINEERING CORPORATION
J. George Sotter, P.E., Ph.D.
President
This test report shall not be reproduced, except in full,
without the written approval ofSotter Engineering Corporation
Florida Building Code„ Sixth Editiori �(2017) - Energy Conservation ,.
EnergyGaugeSummit(b Fla/Corn2011, Effective Date: Dec 31„2017
ASHRAE '9o.1 2013 - Energy Cost Budget Option
Check List
Applications for compliance with the Florida Building Code, Energy Conservation shall
include:
® This Checklist
0 The full compliance report generated by the software that contains the project
summary, compliance summary, certifications and detailed component compliance
reports.
0 The compliance report must include the full input report generated by the software as
comigous part of the compliance report.
® 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® 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
9/13/2018 Page 1 of 15
PROJECT SUMMARY
ShortDesc: SLCArport
Owner: SLC Board of County Commissioners
Addressl: 3000 Curtis King Blvd
Address2:
Description: SLC Airport Remediation
City: Ft. Pierce
State: Florida
Zip: 34946
Type: Transportation Class:
Jurisdiction: FORT PIERCE, ST LUCIE COUNTY, FL (661100)
Conditioned Area: 6956 SF Conditioned & UnConditioned Area:
No of Stories: 1 Area entered from Plans
Permit No: 0 Max Tonnage
If different, write in:
Renovation to existing building
6956 SF
6956 SF
9.6
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
9/13/2018 Page 2 of 15
9/13/2018
Component Design Criteria Result
Gross Energy Cost (in $) 4,022.0 4,432.0 PASSED
LIGHTING CONTROLS
EXTERNAL LIGHTING
HVAC SYSTEM
PLANT
WATER HEATING SYSTEMS
PIPING SYSTEMS
Met all required compliance from Check
PASSES
No Entry
PASSES
No Entry
No Entry
No Entry
Yes/No/NA
been entered in order to allow the
analysis to run. Since no changes
have been made to the lighting plans,
previous approval of the lighting
should remain in effect.
IMPORTANT MESSAGE
Info 5009 -- -- -- An input report of this design building must be submitted along with this
Compliance Report
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
Page 3 of 15
CERTIFICATIONS
I hereby certify that the plans and specifications covered by this calculation are in compliance with the
Florida Energy Code
Prepared By:
Kyle J. Cartier FG tf Building Official:
S3Z`I
Date:
Date:
I certify that this building is in compliance
with the Florida Energy Efficiency Code
Owner Agent:
St. Lucie Couny Board of County
Date:
If Required by Florida law, I hereby certify (') that the system design is in compliance with the Florida Energy
Efficiency Code
Architect:
Reg No:
Electrical Designer:
Reg No:
Lighting Designer:
Reg No:
Mechanical Designer:
Kyle J. Cartier
Reg No: 53269
Plumbing Designer:
Reg No:
(') 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.
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
9/13/2018 Page 4 of 15
Project: SLC Airport
Title: SLC Airport Remediation
Type: Transportation
(WEA File: FL ST LUCIE CO INTL.tm3)
Building End Uses
1) Proposed
2) Baseline
Total
256.60
280.70
$4,022
$4,432
ELECTRICITY(MBtulkWhl$)
256.60
280.70
75182
82231
$4,022
$4,432
AREA LIGHTS
90.30
58.20
26459
17041
$1,416
$919
MISC EQUIPMT
34.80
34.80
10190
10190
$545
$549
PUMPS & MISC
0.10
0.10
16
24
$1
$1
SPACE COOL
101.80
113.30
29837
33196
$1,596
$1,789
SPACE HEAT
0.70
4.30
202
1270
$11
$68
VENT FANS
28.90
70.00
8478
20510
$454
$1,105
Credits Applied: None
PASSES
Passing Criteria = 4432
Design (including any credits) = 4022
Passing requires Proposed Building cost to be at most 100% of
Baseline cost. This Proposed Building is at 90.7%
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
9/13/2018 Page 5 of 15
External Lighting Compliance
Description
Category Tradable? Allowance Area or Length ELPA CLP
(W/Unit) or No. of Units (W) (W)
(Sgft or ft)
Lighting and lighting controls have
been entered in order to allow the
analysis to run. Since no changes
have been made to the lighting plans,
Project: SLC Airport previous approval of the lighting
Title: SLC Airport Remediation should remain in effect.
Type: Transportation
(WEA File: FL ST LUCIE CO INTL.tm3)
None
Lighting Controls Compliance
Acronym
Ashrae Description Area Desig
ID (sq.ft) CP
Min Compli-
CP ance
Airport Terminal
29,003 Terminal -Ticket Counter 6,956 5
3 PASSES
PASSES
Project: SLC Airport
Title: SLC Airport Remediation
Type: Transportation
(WEA File: FL_ST_LUCIE_CO_INTL.tm3)
System Report Compliance
100% OA 100% CA System
Constant Volume Packaged
No. of Units
System
1
Component Category
Capacity
Design Eff Design
IPLV Comp-
Eff Criteria IPLV
Criteria liance
Cooling System Air Conditioners Air Cooled
115000
12.20 11.00 12.90
12.20 PASSES
65000 to 135000 Btu/h
Cooling Capacity
Heating System Heat Pumps Air Cooled
76100
4.30 3.30
PASSES
(Heating Mode) 65000 to
135000 Btu/b Clg Cap
Air Handling Air Handler (Supply) -
1400
0.53 0.82
PASSES
System -Supply Constant Volume
Air Distribution ADS System (Sup)
6.00 6.00
PASSES
System (Sup)
New HVAC System Compliance
PASSES
EnergyGauge Summit® Fla/Corn-2017. TAM 2017-1.0 Compliant Software. Effective Date: Dec 31, 2017
Florida Building Code, Sbdh Edition (2017) - Energy Conservation ASHRAE 90.1-2013 - Energy Cost Budget Option
9/13/2018 Page 6 of 15
Plant Compliance
Description Installed Size Design Min Design Min Category Comp
No Eff Eff IPLV IPLV Hance
None
Water Heater Compliance
DDesign Min
Description Type Category
Eff Eff
Design Max Comp
Loss Loss Hance
None
Piping System Compliance
Category Pipe Dia Is Operating Ins Cond
[inches] Runout? Temp [Btu-in/hr
[FJ SF.FJ
Ins Req Ins Compliance
Thick JinJ Thick Jin]
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
9/13/2018 Page 7 of 15
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 NIA Exempt
Insulation
5.8.1.2
Envelope
Below -grade wall insulation Installed per
manufacturere@m^s instructions.
Insulation
5.8.1.2
Envelope
Slab edge insulation installed per manufacturers
€-s instructions.
Insulation
5.5.3.5
Envelope
Slab edge Insulation depffinength.
Insulation
6.4.4.1.5
Envelope
Bottom surface of Floor structures incorporating
tut
radiant heating insulated to>=R-3.5.
Fenestration
5.5.3.6
Envelope
U-factor of opaque doors associated with the
building thermal envelope meets requirements.
SYSTEM —SPECIFIC
6.5.1. 6.5.1.1,
Mechanical
Air economizers provided where required (and not
6.5.1.3. 6.5.1.4
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 increase heating
ri
energy use during normal operation.
SYSTEM_SPECIFIC
6.5.2.2.1
Mechanical
Three -pipe hytlronic systems using a common
return for hot and chilled water are not used.
SYSTEM —SPECIFIC
6.5.2.2.3
Mechanical
Hydronic heat pump systems connected to a
common water loop meet heat rejection and heat
addition requirements.
SYSTEM —SPECIFIC
6.5.1.6
Mechanical
Water economizer specified on hytlronic cooling
and humidification systems designed to maintain
Inside humidity al>35 A^F dewpoint if 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
requirements.
SYSTEM —SPECIFIC
7.5.2
Mechanical
Service water heating equipment used for space
heating complies with the service water heating
equipment requirements.
Insulation
5.8.1.2
Envelope
Above -gentle wall insulation installed per
❑
manufacturerdE-s instructions.
Insulation
5.8.1.2
Envelope
Floor insulation installed per manufacturer&E" s
El
Instructions.
Controls
10.4.3
Mechanical
Elevators are designed with the proper lighting,
ventilation power, and standby mode.
SYSTEM —SPECIFIC
6.4.1.1. 6.6.1-7a
Mechanical
Heat Rejection Equipment Minimum Efficiency
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
El
ID
El
Requiremennable 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
9/13/2018 Page 8 of 15
SYSTEM —SPECIFIC 6.4.1.1, 6.8.1-7d
Mechanical Heat Rejection Equipment Minimum Efficiency
®
❑
Requirement Table 6.8.1-7
SYSTEM_SPECIFIC 6.5.5.3
Mechanical Centrifugal fan open -circuit cooling towers having
❑
combined rated capacity>= 1100 gpm meets
minimum efficiency requirement: Table 6.8.1-7
SYSTEM —SPECIFIC 6.4.1.1, 6.8.1-7e
Mechanical Heat Rejection Equipment Minimum Efficiency
Requirement Table 6.8.1-7
SYSTEM -SPECIFIC 6.4.1.1. 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
Requirement Table 6.8.1-7
SYSTEM —SPECIFIC 6.4.1.1, 6.8.1-7i
Mechanical Heat Rejection Equipment Minimum Efficiency
El
02ki
Requirement Table 6.8.1-7
SYSTEM_ SPECIFIC 7.5.3
Mechanical Gas -fired water -heating equipment installed in
new buildings: where a singular piece of
water -heating equipment >= 1,000 kBtu/h serves
the entire building, thermal efficiency must be >_
90 Et.
Where multiple pieces of water -heating
equipment serve the building with combined rating
is>= 1,000 kBtu/h, 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 be checked by Plan' Reviewer
Plan Review 4.2.2, 5.4.3.1.1, 5.7
Envelope Plans and/or specifications provide all information
with which compliance can be determined for the
building envelope and document where
exceptions to the standard are claimed.
Plan Review 4.2.2, 6.4.4.2.1,
Mechanical Plans, specifications, and/or calculations provide
1:1
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6.7.2
all information with which compliance can be
determined for the mechanical systems and
equipment and document where exceptions to the
standard are claimed. Load calculations per
acceptable engineering standards and
handbooks.
Plan Review 4.2.2. 7.7.1. 10.4.2
Mechanical Plans, specifications, and/or calculations provide
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all information with which compliance can be
determined for the service water heating systems
and equipment and documentwhere exceptions
to the standard are claimed. Hot water system
sized per manufacturer's sizing guide.
Plan Review 4.2.2, 8.4.1A.
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 4.2.2, 9.4.3, 9.7
Interior Lighting Plans, specifications, and/or calculations provide
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.
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Insulation 5.8.1.7.3 Envelope
Insulation in contact with the ground has <=0.3%
water absorption rate perASTM C272.
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 -closing devices, and are>=7 ft apart (>=16 f[
apart for adjoinging 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 6.4.3.8 Mechanical
Demand control ventilation provided for spaces
>500 ft2 and >25 people/1000 11:2 occupant
density and served by systems with air side
economizer, auto modulating outside air damper
control, or design airflow>3,000 cfin.
HVAC 6.4.4.1.4 Mechanical
Thermally ineffective panel surfaces of sensible
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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_SPECIFIC 6.5.3.1.3 Mechanical
Fans have efficiency made (FEG)>=67. The total
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 >=1112 hp and <l 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
DDC system installed and capable of providing
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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 heating 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
❑
❑
❑
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; alltDdetection, alann, and
operator override of zones excessively triggering
reset logic.
SYSTEM —SPECIFIC 6.5.3.3 Mechanical
Multiple zone VAV systems with DDC of individual
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zone boxes have static pressure setpoint reset
controls.
SYSTEM —SPECIFIC 6.5.3.4 Mechanical
Multiple zone HVAC systems have supply air
❑
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.
Boiler input between 1.0 MBtu/h and 5 MBtu/h
has 3:1 turndown ratio, boiler input between 5.0
MBtu/h and 10 MBtu/h has 4:1 tumdown ratio,
boiler input> 10.0 MBtu/h has 5:1 turndown mite.
HVAC 6.5.4.2 Mechanical
HVAC pumping systems >10 hp designed for
❑
❑
variable fluid flow.
SYSTEM_SPECIFIC 6.5.4.3, 6.5.4.3.1. Mechanical
Fluid flow shutdown in pumping systems to
❑
❑
❑
6.6.4.3.2
multiple chillers or boilers when systems are shut
down.
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SYSTEM —SPECIFIC 6.5.4.4
Mechanical
Temperature reset by representative building
❑
loads in pumping systems >10 hp for chiller and
boiler systems>300,0o0 Btu/h.
SYSTEM —SPECIFIC 6.5.4.5.2
Mechanical
Hydronic heat pumps and water-cooled unitary air
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❑
conditioners with pump systems>5 hp have
controls or devices to reduce pump motor
demand.
SYSTEM —SPECIFIC 6.5.4.6
Mechanical
Chilled -water and condenser water piping sized
according to design flow rate and total annual
hours of operation (Table 6.5.4.6).
SYSTEM —SPECIFIC 6.5.5.2.1
Mechanical
Fan systems with motors>=7.5 hp associated
❑
❑
with heal rejection equipment to have capability to
operate at 213 of full -speed and auto speed
controls to control the leaving fluid temperature or
condensing temp/pressure of heat rejection
device.
SYSTEM —SPECIFIC 6.5.5.2.2
Mechanical
Multicell 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.
SYSTEM —SPECIFIC 6.5.5.2.3
Mechanical
NA
HVAC 6.5.7.1.1
Mechanical
Kitchen hoods>5,000 rim have make up air
>=50 % of exhaust air volume.
HVAC 6.5.7.1.1
Mechanical
Kitchen hoods>5,000 cfm have make up air
>=50 % of exhaust air volume.
SYSTEM —SPECIFIC 6.5.7.1.2
Mechanical
Conditioned supply air to space with a kitchen
❑
hood shall not exceed the greater of a) supply
Jim required to meet space heating or cooling, or
b) hood exhaust flow minus the available air
transfer from available spaces.
SYSTEM —SPECIFIC 6.5.7.1.3
Mechanical
Kitchen hoods with a total exhaust airflow rate
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>5000 rim meet replacement air, ventilation
system, or energy recovery requirements shown
in Table 6.5.7.1.3.
SYSTEM —SPECIFIC 6.5.7.1.4
Mechanical
Kitchen hoods with a total exhaust airflow rate
❑
❑
>5000 cfm meet replacement air, ventilation
system, or energy recovery requirements.
HVAC 6.5.7.2
Mechanical
Fume hoods exhaust systems>=5,o00 cfm have
VAV hood exhaust and supply systems, direct
make-up air or heat recovery.
HVAC 6S.8.1
Mechanical
Unenclosed spaces that are heated use only
radiant heat.
SYSTEM —SPECIFIC 7.5.1
Mechanical
Combined space and water heating system not
allowed unless standby lass less than calculated
maximum. AHJ has approved or combined
connected load <150 ketum.
Controls 8A.2
Project
At least 50 % of all 125 volt 15- and 20-Amp
receptacles are controlled by an automatic control
device.
Other Equipment 10.4.1
Mechanical
Electric motors meet requirements where
applicable.
HVAC 6.4.3.3.2
Mechanical
Setback controls allow automatic restart and
temporary operation as required for maintenance.
SYSTEM —SPECIFIC 6.4.3.3.3
Mechanical
Systems with setback controls and DDC include
optimum start controls. Optimum start algorithm
considers mass radiant slab floor temperature.
SYSTEM —SPECIFIC 6.4.3.3.4
Mechanical
Zone isolation devices and controls.
Wattage 9.4.2
Exterior Lighting
Exterior lighting power is consistent with what is
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shown on the approved lighting plans,
demonstrating proposed watts are less than or
equal to allowed watts.
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Insulation 5.8.1.7 Envelope
Exterior insulation protected against damage,
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sunlight, moisture, wind, landscaping and
equipment maintenance activities.
HVAC 6.4.3.7 Mechanical
Freeze protection and snow/ice melting system
sensors for future connection to controls.
Air Leakage 5A.3.1 Envelope
Continuous air barrier is 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
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doors are labeled or certified as meeting air
leakage requirements.
Fenestration 5.8.2.1, 5.8.2.3. Envelope
Fenestration products rated (U-factor, 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
❑
❑
signed and dated certificate listing the U-factor,
SHGC, VT, and air leakage rate has been
provided by the manufacturer.
SYSTEM —SPECIFIC 7.4.4.1 Mechanical
Temperature controls installed on service water
heating systems (<=120A°F to maximum
temperature for intended use).
SYSTEM —SPECIFIC 7.4.4.2 Mechanical
Automatic time switches installed to automatically
switch off the recirculating hot-water system or
heat trace.
SYSTEM —SPECIFIC 7.4.6 Mechanical
Heal traps installed on non -circulating storage
water -tanks.
HVAC 6.4.1.4. 6.4.1.5 Mechanical
HVAC equipment efficiency verified.Non-NAECA
HVAC equipment labeled as meeting 90.1.
SYSTEM —SPECIFIC 6.4.1.5.2 Mechanical
PTAC 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
❑
❑
dampers that automatically close.
HVAC 6.4.3.4.2. 6.4.8.4.3 Mechanical
Outdoor air and exhaust systems have motorized
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
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automatic contaminant detection and capacity to
stage or modulate fans to 50 % or less of design
capacity.
HVAC 6.5.3.2.1 Mechanical
DX cooling systems>= 75 kBtu/h (>= 65 kEtu/h
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effective 112016) and chilled -water and
evaporative cooling fan motor hip >=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
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damage. Insulation outside of the conditioned
space and associated with cooling systems is
vapor retardant.
HVAC 6.4.4.1.2 Mechanical
HVAC ducts and plenums insulated. Where ducts
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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. Where 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
�.
pressure and location.
SYSTEM —SPECIFIC 6.4.4.2.2 Mechanical
Ductwork operating >3 in. water column requires
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air leakage testing.
SYSTEM —SPECIFIC 6.5.2.1 Mechanical
Zone controls canlimitsimultaneous heating and
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cooling and sequence heating and cooling to each
zone.
SYSTEM —SPECIFIC 6.5.2.2.2 Mechanical
Two -pipe hydronic systems using a common
distribution system have controls to allow a
deadbanC >=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 4=30 A°F.
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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
Mechanical
Humidification system dispersion tube hot
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surfaces in the airstreams of ducts or air -handling
units insulated >= R-0.5.
SYSTEM —SPECIFIC 6.5.3.2.2
Mechanical
VAV fans have static pressure sensors positioned
❑
so setpoint <=1.2 in. w.c. design pressure.
SYSTEM —SPECIFIC 6.5.4.5.1
Mechanical
Two -position automafic valve interlocked to shut
off water Flow when hydronic heat pump with
pumping system -10 hp is off.
SYSTEM —SPECIFIC 6.5.6.2
Mechanical
Condenser heat recovery system that can heat
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 6.5.9
Mechanical
Hot gas bypass limited to:
<=240 kBtu/h 6E' 15%
>240 kBtu/h a€ 10%
HVAC 6.4.3.9
Mechanical
Heating for vestibules and air curtains include
❑
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automatic controls that shut off 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
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outdoors have controls that disable/reset heating
and cooling system when open.
Controls 9.4.1.1
Interior Lighting
Automatic control requirements prescribed in
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Table 9.6.1, for the appropriate space type, are
installed. Mandatory lighting controls (labeled as
'REC) and optional choice controls (labeled as
'ADD7' and'ADD2') are implemented.
Controls 9.4.1.1
Interior Lighting
Independent lighting controls installed per
1:1
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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
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lighting controls and daylight transition zone
lighting.
Controls 9.4.1.1f
Interior Lighting
Daylight areas under skylights and roof monitors
❑
❑
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that have more than 150 W combined input power
for general lighting are controlled by
photace
8.4.1.4
Exterior Lighting
Automaticic ligh lighting controls for exterior lighting
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installed.
Controls 9.4A.3
Interior Lighting
Separate lighting control devices for specific uses
installed per approved lighfing plans.
Wattage 9.6.2
Interior Lighting
Additional interior lighting power allowedfor
special functions per the approved lighting plans
and is automatically controlled and separated
from general lighting.
Wattage 9.6A
Interior Lighting
Where space LPD requirements are adjusted
based on room cavity miles, dimensions are
consistent with approved plans.
Insulation 5.5.3.1
Envelope
Roof R-value. For some ceiling systems,
verification may need to occur during Framing
Inspection.
Insulation 5.8.1.2, 5.8.1.3
Envelope
Roof insulation installed per manufacturerAETMs
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
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1:1
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 baffled to deflect air to above the
insulation.
Insulation 5.8.1.5
Envelope
Insulation is installed in substantial contact with
the inside surface separating conditioned space
from unconditional space.
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Insulation 5.8.1.6
Envelope
Recessed equipment installed in building
envelope assemblies does not compress the
adjacent insulation.
Insulation 5.8.1.7.1
Envelope
Attics and mechanical rooms have insulation
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❑
protected where adjacent to attic or equipment
Insulation 5.8.1.7.2
Envelope
access.
Foundation vents do not interfere with insulation.
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❑
Insulation 5.8.1.8
Envelope
Insulation intended to meet the roof insulation
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❑
❑
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
a thermostat control.
HVAC 6.4.3.1.2
Mechanical
Thermostatic controls have a 5 A°F deadband.
HVAC 6.4.3.2
Mechanical
Temperature controls have setpoint overlap
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restrictions.
HVAC 6.4.3.3.1
Mechanical
HVAC systems equipped with at least one
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0
automatic shutdown control.
SYSTEM —SPECIFIC 6.4.3.5
Mechanical
Heat pump controls prevent supplemental electric
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 warmest zone humidified and RH < 60 % In
the coldest zone dehumidified.
SYSTEM —SPECIFIC 7.4.4.3
Mechanical
Public lavatory faucet water temperature <=110A
IF.
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
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 fixture 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 heal traced or externally heated piping
Insulated
4. To be checked by hisfiector At Project Completion and Prior to Issuance of
Certificate of:Occu a.. ncy .
Plan Review 6.7.2.4
Mechanical
Detailed Instructions for HVAC systems
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commissioning included on the plans or
specifications for projects>=50,000 11:2.
Plan Review 6.7.2.4
Mechanical
Detailed instructions for HVAC systems
commissioning included on the plans or
specifications for projects >=50,000112.
Post Construction 6.7.2.1
Mechanical
Furnished HVAC as -built drawings submitted
within 90 days of system acceptance.
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Post Construction
6.7.2.2
Mechanical
Furnished O&M manuals for HVAC systems
❑
❑
❑
within 90 days of system acceptance.
Post Construction
6.7.2.3
Mechanical
An air and/or hydronic system balancing report isEl
n
❑
provided for HVAC systems serving zones >5,000
ft2 of conditioned area.
HVAC
6.7.2.4
Mechanical
HVAC control systems have been tested to
❑
EJ
❑
ensure proper operation, calibration and
adjustment of controls.
Post Construction
8.7.1
Interior Lighting
Furnished as -built drawings for electric power1:1
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❑
systems within 30 days of system acceptance.
Post Construction
8.7.2
Interior Lighting
Furnished O&M instructions for systems and
❑
❑
❑
equipment to the building owner or designated
representative.
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EnergyGauge Summit® v6.00
INPUT DATA REPORT
Proiect Information
Project Name: SLCAirport Orientation:
Project Tine: $LC Airport Remediati0n Buildinglype:
Address: 3000 Curtis King Blvd Building Classification:
State: Florida No.of Stories:
Zip: 34946 GrossArem
owner: SLC Board of County Commissioners
0 Deg Clockwise. Walls & Windows will
be rotated accordingly
Transportation
Renovation to existing building
I
6956 SF
Zones
No Acronym Description Type
Area
ran
Multiplier Total Area
Isn
1 Airport 100%Outside Air Unit CONDITIONED
6955.6
1 6955.6
Spaces
No Acronym Description Type
Depth Width
Iftl Iftl
aright Multi Total Area Thtalvolume
Iftj prier Isfj Icfl
9/1320/8 EnergyGauge Summit@ v6.00
] his space was created in order to avow the analysis to calculate. ] ne iigming
and lighting controls are existing to remain, should not be affected by these
improvements, and should be already compliant under the initial permit.
to Zone: Airport
1 Airport TeminalAirport Terminal Termnal-Ticket Counter 83.40 83AO 15.00 1 6955.6 104333.4 ❑
Lighting
No Type
Category No. of Watts per Power Control Type No.of
Luminaires Luminaire INV] Ctrl pts
In Zone: Airport
In Space: Airport Terminal
I Recessed Fluorescent- General Lighting 90 96 8640 Occupancy sensor without 5
No vent
Daylighting
Walls (Walls will be rotated clockwise by building rotation value)
No Description
Type Width H(Effec) Multi Area Orientation Conductance Heat Dens. R-Value
[it] fit] plier ]sQ IBtulhr. sf. F] Capacity [Ib/cf] [h.sLFBW]
1Bt fsf.Fl
In Zane:
Windows (Windows will be rotated clockwise by building rotation value)
No Description
Orientation Shaded D SHGC Vis.Tm W 11(Effee) Multi Taml Area
[Btulhr sf Fl [ft] [ft] plier Ia9
In Zone:
In Wall:
Doors
No Description
Type Shaded? Width H(Effec) Multi Area Cond. Dens. Heat Cap. R-Value
1111 [it] plier lsfl [Bmfhr.sf Fl [IblcQ [➢tu/sf.FI ]hsf FBtu]
In Zone:
In Wall:
9/132018 EnergyGauge Summit® v6.00
Roofs
No Description Type
Width
[ft]
H(Effec) Multi
[ft] p0er
Area Tilt Cued. Rest Cap
[st] [deg] [Btu/hr.Sf.FI 111WAf.F]
Dens. R-Value
[]blcf] [h.sf.F/Btu]
In Zone:
Skylights
No Description Type
U SHGC Vis1}ans W H(Effec) Multiplier
[Btn/hr sf F] [ft] IN
Area Total Area
IS9 ISn
In Zone:
In Roof:
El
Floors
No Description Type
Width
[ft]
H(Effec) Multi
Ift] plier
Area Cond. Heat Cap. Dens.
[at] [Btu/hn at. Fl [Blu/sE Fl [Iblcf]
-R-Value
[hatF/Btu]
In Zone: Airport
1 Terminal Floor 1 ft. suit, concrete
Boor, carpet and
mbberpad
83.40
83.40 1
6955.6 01681 34.00 113.33
3.73
❑
Systems
100%OA 100% OA System
Constant Volume Packaged System
No.Of Units 1
Component Category
Capacity
Efficiency IPLV
9/132018 EnergyGauge Summit® v6.00
I Cooling System
2 Heating System
3 Air Handling System -Supply
4 Air Distribution System (Sup)
115000.00
76100.00
1400.00
12.20 12.90
4.30
0.53
6.00
❑
❑
❑
Plant
Equipment
Category Size
Ins1.No EH.
IPLV
Water Heaters
W-Heater Description
Capacity Cap.Unit I/P RL
Efficiency Lass
E3ct-Lighting
Description Category No. of Walls per
Area/Len/No. afunits
Control Type
Wattage
Luminaires Luminaire
[sf/ft/Nol
IW7
Piping
No Type Operating Insulation -
Nomonal pipe
Insulation
Is Runout?
Temperature Conductivity
Diameter
Thickness
[F] lBtu-in/hA l
[in]
(in]
9/132018 EnergyCauge Summit® v6.00
Fenestration Used
Name Glass Type No. of Glass SHGC VLT
Panes Conductance
[Btu/h.sf.F]
El
Materials Used
Duly R-Value RValue Thickness
Conductivity
Density
SpreifleHml
Mat No
Acronym
Description
Used [h.sEF/Btu] [ft]
]Btu/h.ft.F]
[lb/cf]
[Btu/Ib.F]
178
Ma078
CARPET W/R1IBBER PAD
Yes 1.2300
265
Matl265
Soil, I ft
No 2.0000 1.0000
0.5000
100.00
0.2000
❑
48
Matl48
6 in. Heavyweight concrete
No 0.5000 0.5000
1.0000
140.00
0.2000
❑
Constructs Used
Simple Massless Conductance
Heat Capacity
Density
RValue
No
Name
Construct Construct [Blulh.sEF]
]BtuAEF]
]Iblef]
[h.sEF/Btu]
1057
1 ft, soil, concrem floor, carpet and mbber pad
No No 027
34.00
113.33
3.7
❑
Layer
Material Material
Thickness
Framing
No.
[ft]
Factor
1
265 Soil, 1 a
1.0000
0.000
❑
2
48 6 in. Heavyweight
concrete 0.5000
0.000
❑
3
178 CARPET W/RUBBER PAD
0,000
❑
9/132018 EnergyGauge Summit® v6.00