Page 1 of 6 ADDENDUM #4 DATE: 04.24.2017 TO CONTRACT DOCUMENTS ENTITLED: PROJECT MANUAL FOR: CP150492 University of Missouri Teaching Hospital – West Wing – Expansion/Renovation CP161981 MUHC Emergency Power System Modifications – Phase 2 CP161741 General Site – Steam Utility Manhole 343 Repairs at Hospital Ambulance Bay CP170371 Missouri Psychiatric Center – Refurbish Steam Line ADVERTISEMENT DATE: 03.23.2017 PREPARED FOR: The Curators of the University of Missouri CONSULTANTS: CP150492 bcDESIGNGROUP 200 NE Missouri Rd, Suite 200 Lee’s Summit, MO 64086 913.232.2123 x802 CP161981 Burns & McDonnell 9400 Ward Parkway Kansas City, MO 64114 816.349.6701 CP151741 Crockett Engineering 1000 W. Nifong Blvd, Bldg #1 Columbia, MO 65203 573.447.0292 CP170371 Bric Partnership, LLC 343 Kirkwood Road, Suite 204 Kirkwood, MO 63122 314.725.5889 Drawings and Specifications for the above noted project and the work covered thereby are herein modified as follows, and except as set forth herein, otherwise remain unchanged and in full force and effect:
Page 1 of 6
ADDENDUM #4 DATE: 04.24.2017 TO CONTRACT DOCUMENTS ENTITLED:
PROJECT MANUAL FOR: CP150492 University of Missouri Teaching
Hospital – West Wing –
Expansion/Renovation
CP161981 MUHC Emergency Power System Modifications – Phase 2
CP161741 General Site – Steam Utility Manhole 343 Repairs at
Hospital Ambulance Bay CP170371 Missouri Psychiatric Center –
Refurbish Steam Line
ADVERTISEMENT DATE: 03.23.2017 PREPARED FOR: The Curators of the
University of Missouri CONSULTANTS: CP150492
bcDESIGNGROUP 200 NE Missouri Rd, Suite 200 Lee’s Summit, MO 64086
913.232.2123 x802 CP161981 Burns & McDonnell 9400 Ward Parkway
Kansas City, MO 64114 816.349.6701 CP151741 Crockett Engineering
1000 W. Nifong Blvd, Bldg #1 Columbia, MO 65203 573.447.0292
CP170371 Bric Partnership, LLC 343 Kirkwood Road, Suite 204
Kirkwood, MO 63122 314.725.5889
Drawings and Specifications for the above noted project and the
work covered thereby are herein modified as follows, and except as
set forth herein, otherwise remain unchanged and in full force and
effect:
Page 3 of 6
SPECIFICATION CHANGES | CP150492| Volume 3:
1. Specification Section 23 0700 Mechanical Insulation: a. ADDED
Heating Hot Water and Steam Vents to the Pipe Insulation Schedule
in
Section 4.1 of this specification section. b. REVISED Chilled Water
Pipe Insulation Schedule in Section 4.1 of this specification
section. DRAWING CHANGES | CP150492| Volume 2:
1. MD101: a. REVISED existing outside air ductwork demolition near
column lines “9” and “B”. b. Refer to reissued sheet dated
04/24/2017 for revisions.
2. MD102:
a. REVISED existing air handling unit AHU S2-13 outside air
ductwork demolition near column lines “X0” and “X”.
b. REVISED keyed note 9. c. Refer to reissued sheet dated
04/24/2017 for revisions.
3. M101:
a. ADDED rated dampers to duct systems. b. REVISED keyed notes 1
and 16. c. ADDED keyed note 30. d. Refer to reissued sheet dated
04/24/2017 for revisions.
4. M101A:
a. ADDED room pressure monitor model number to keyed note 4. b.
ADDED keyed note 19. c. ADDED notes at new pipe riser location. d.
Refer to reissued sheet dated 04/24/2017 for revisions.
5. M103:
a. ADDED rated dampers to duct systems. b. ADDED keyed note 20. c.
Refer to reissued sheet dated 04/24/2017 for revisions.
6. M103A:
a. REVISED location of air terminal unit VAV 23-319. b. ADDED room
pressure monitor model number to keyed note 6. c. ADDED keyed note
13. d. Refer to reissued sheet dated 04/24/2017 for
revisions.
7. M300:
a. DELETED chilled water pump isolation valves on Chilled Water
Flow Diagram. b. ADDED building chilled water isolation valve to
Chilled Water Flow Diagram. c. Refer to reissued sheet dated
04/24/2017 for revisions.
8. M400:
a. REVISED keyed note 2, 7, and 14. b. ADDED keyed notes 22 and 23.
c. ADDED AHU-23 and FCU-3 condensate drain piping.
Page 4 of 6
d. ADDED rated dampers to duct systems. e. REVISED return duct size
on return fan inlet. f. Refer to reissued sheet dated 04/24/2017
for revisions.
9. M401:
a. REVISED keyed note 3. b. ADDED keyed notes 10 and 11. c. REVISED
existing piping demolition. d. REVISED new piping riser
arrangement. e. Refer to reissued sheet dated 04/24/2017 for
revisions.
10. M600:
a. REVISED Control Valve Schedule. b. Refer to reissued sheet dated
04/24/2017 for revisions.
11. M601:
a. REVISED Air Flow Measuring Station Schedule. b. REVISED
Combination Fire/Smoke Damper & Smoke Damper Schedule. c. Refer
to reissued sheet dated 04/24/2017 for revisions.
12. M700:
a. REVISED text in the Combination Fire/Smoke and Smoke Damper
Sequence. b. Refer to reissued sheet dated 04/24/2017 for
revisions.
13. EP101:
a. ADD electrical connections for activation of fire/smoke dampers.
b. Refer to reissued sheet dated 04/24/2017 for revisions.
14. EP102:
a. ADD electrical connection for activation of smoke dampers. b.
Refer to reissued sheet dated 04/24/2017 for revisions.
15. EP103:
a. ADD electrical connection for activation of fire/smoke dampers.
b. Refer to reissued sheet dated 04/24/2017 for revisions.
16. ES101:
a. ADD duct detectors and addressable relay for fire/smoke dampers.
b. Refer to reissued sheet dated 04/24/2017 for revisions.
17. ES102:
a. ADD duct detectors and addressable relay for fire/smoke dampers.
b. Refer to reissued sheet dated 04/24/2017 for revisions.
18. ES103:
a. ADD duct detectors and addressable relay for fire/smoke dampers.
b. Refer to reissued sheet dated 04/24/2017 for revisions.
Page 5 of 6
GENERAL CLARIFICATIONS:
1. Bidders Questions & Answers: a. Q for project CP150492:
Control isolation valves for chilled water pumps CHWP-10
& 11 are shown on the control valve schedule on M600 and
chilled water piping flow diagram on M300 but are not shown on the
controls flow diagram or DDC points list on M703. Please clarify if
these valves are to be included as individual control points
controlled via the BAS or are to be hardwire interlocked with their
respective pump. A: Chilled water pump isolation valves are not
required. Refer to reissued drawings in Addendum #4.
b. Q for project CP150492: Room pressure monitors shown on piping
plans M101A & M103A via keyed notes do not have a product
specification. They also do not have an installation detail in the
M500 series plans, a schedule in the M600 plans, or a control
detail or reference in the M700 plans. Please provide a desired
model number for the room pressure monitor to be used. Also, please
clarify if these monitors are to be interfaced with the BAS via
BACnet MSTP network wiring or via hardwire control points to
nearest DDC controller. A: A room pressure monitor manufacturer and
model number will be added to the drawings, refer to reissued
drawings in Addendum #4 and will be noted to be provided with a
MS/TP card. Interface of the room pressure monitors (RPM) to the
EMCS is shown on the FC Bus Schematic Diagram on Sheet M702. Room
pressure monitors are to be installed per manufacturers
installation instructions per keyed note 4 on Sheet M101A and keyed
note 6 on Sheet M103A.
a. Q for project CP150492: Sequence for Combination Fire/Smoke
Dampers on M700 indicates “Fire/smoke dampers shall not be
controlled by the EMCS but shall be connected to EMCS. All
fire/smoke dampers shall only controlled by the building fire alarm
system. Dampers shall also close via their controlled closure
device at temperatures above 165 deg F. The EMCS shall monitor
damper position, via damper end switch. When a damper is closed an
alarm signal shall be sent to EMCS.” Fire/smoke damper positions
have not been monitored by the BAS on previous projects at this
facility nor are they called out on the owner provided control
diagrams and points list on the M700 plans. Please clarify the
fire/smoke dampers are NOT to be monitored via end switches
monitored by the BAS.
Page 6 of 6
A: Per University HVAC Supervisor, the new combination fire/smoke
and smoke dampers added in this project are to be monitored by the
EMCS.
ATTACHMENTS:
1. CP150492 Specification Section 23 0700 Mechanical Insulation 2.
CP150492 Mechanical Drawing Sheets: MD101, MD102, M101, M101A,
M103, M103A,
M300, M400, M401, M600, M601, and M700 3. CP150492 Electrical
Drawing Sheets: EP101, EP102, EP103, ES101, ES102, and ES103
ISSUED BY: Kurt M. Broeckelmann bcDESIGNGROUP
END OF ADDENDUM 4
23 0700 - 1 Mechanical Insulation
SECTION 23 0700 - MECHANICAL INSULATION
PART 1 - GENERAL
1.1 RELATED DOCUMENTS
A. Drawings and general provisions of the Contract, including
General and Supplementary
Conditions and Division 01 Specification Sections, apply to this
Section.
B. Section 20 0800 “Seismic Protection,” Section 23 0100 “Basic
Mechanical Requirements,”
and Section 23 0500 “Basic Mechanical Materials and Methods” all
apply to the work of
this Section as if fully repeated herein.
1.2 SUMMARY
A. This Section includes mechanical insulation for ductwork,
equipment, piping, appliance
breechings and other installations, including the following:
1. Insulation Materials: Flexible elastomeric, mineral fiber.
2. Insulating cements, adhesives, mastics, and sealants.
3. Factory-applied jackets.
C. SSL: Self-sealing lap.
D. Thermal Resistivity: “R-values” represent the reciprocal of
thermal conductivity (k-value).
Thermal conductivity is the rate of heat flow through a homogenous
material exactly 1-
inch thick. Thermal resistivities are expressed by the temperature
difference in degrees F
between two exposed faces required to cause one BTU to flow through
one square foot
of material, in one hour, at a given mean temperature.
E. VOC: Volatile Organic Compound as defined by LEED v3 Credit EQ
4.1.
F. Finished Spaces: Spaces other than mechanical and electrical
equipment rooms, furred
spaces, pipe and duct shafts, unheated spaces immediately below
roof, spaces above
ceilings, unexcavated spaces, crawl spaces, and tunnels.
G. Exposed Installations: Exposed to view. Examples include
finished occupied spaces
without ceilings, mechanical equipment rooms, courtyards and
rooftop locations.
H. Concealed Installations: Concealed from view and protected from
physical contact by
building occupants. Examples include above ceilings or within duct
shafts.
I. Conditioned Space: Spaces that are served by both a mechanical
heating and
mechanical cooling system are conditioned spaces. Heating-only
spaces are not
CP150492 University of Missouri Teaching Hospital – West Wing –
Expansion/Renovation
23 0700 - 2 Mechanical Insulation
conditioned spaces. The space above a ceiling is considered
conditioned space if the
space directly below that ceiling is conditioned space. A vertical
shaft is considered
conditioned space if the spaces on all sides surrounding the shaft
are conditioned
spaces.
1.4 SUBMITTALS
A. Product Data: For each type of product indicated, identify
thermal conductivity,
thickness, and jackets (both factory and field applied, if
any).
B. MSDS (Material Safety Data Sheet) for each adhesive, mastic,
sealant, and cement
furnished.
apprenticeship program or another craft training program certified
by the Department
of Labor, Bureau of Apprenticeship and Training.
B. Fire-Test-Response Characteristics: Insulation and related
materials shall have flame-
spread index of 25 or less, and smoke-developed index of 50 or
less, as determined by
testing identical products per ASTM E84, by a testing and
inspecting agency acceptable
to authorities having jurisdiction. Factory label insulation and
jacket materials and
adhesive, mastic, and cement material containers, with appropriate
markings of
applicable testing and inspecting agency.
1. Exception: Flame-spread index of 25 or less, and smoke-developed
index of 150 or
less; is acceptable for insulation not installed in an air-handling
duct, plenum,
space above ceilings if used as a return air plenum, or
air-handling equipment
rooms if used as a return/exhaust/relief air plenum, or any other
air-handling
situation.
A. Packaging: Insulation material containers shall be marked by
manufacturer with
appropriate ASTM standard designation, type and grade, and maximum
use
temperature.
1.7 COORDINATION
A. Coordinate size and location of supports, hangers, and
insulation shields specified in
Division 23 Section “Hangers and Supports.”
B. Coordinate clearance requirements with piping Installer for
piping insulation application,
duct Installer for duct insulation application, and equipment
Installer for equipment
insulation application. Before preparing piping and ductwork Shop
Drawings, establish
and maintain clearance requirements for installation of insulation
and field-applied
jackets and finishes and for space required for maintenance.
1.8 SCHEDULING
A. Schedule insulation application after pressure testing systems
and, where required, after
installing and testing heat tracing. Insulation application may
begin on segments that
have satisfactory test results.
23 0700 - 3 Mechanical Insulation
B. Complete installation and concealment of plastic materials as
rapidly as possible in each
area of construction.
PART 2 - PRODUCTS
A. Manufacturers: Subject to compliance with requirements, provide
products by one of
the following manufacturers:
b. Armacell LLC; AP/Armaflex.
d. RBX Corporation; Insul-Sheet 1800 and Insul-Tube 180.
2. Mineral Fiber Insulation:
a. Insulco, Division of MFS, Inc.
b. P. K. Insulation Mfg. Co., Inc.
c. Rock Wool Manufacturing Company.
4. Sealants, Adhesives and Mastics: Same as insulation
manufacturer, or
a. H.B. Fuller Construction Products Inc. (Childers and/or Foster
brands)
b. ITW TACC, Division of Illinois Tool Works.
c. Marathon Industries, Inc.
d. Mon-Eco Industries, Inc.
a. P.I.C. Plastics, Inc.
b. PABCO Metals Corporation.
c. Pittsburgh Corning Corporation.
d. Polyguard Products, Inc.
e. Proto PVC Corporation.
f. RPR Products, Inc.
b. Compac Corp.
23 0700 - 4 Mechanical Insulation
d. Polyguard Products, Inc.
a. ACS Industries, Inc.
b. C & F Wire.
8. Insulation Pins and Hangers: Same as insulation manufacturer,
or
a. AGM Industries, Inc.
2.2 INSULATION MATERIALS
A. Refer to Schedule in Part 3 for requirements about where
insulating materials shall be
applied.
B. Products shall not contain asbestos, lead, mercury, or mercury
compounds.
C. Foam insulation materials shall not use CFC or HCFC blowing
agents in the manufacturing
process.
D. Adhesives shall be compatible with insulation materials,
jackets, and substrates and for
bonding insulation to itself and to surfaces to be insulated,
unless otherwise indicated.
E. Product manufacturers and/or their product numbers
notwithstanding, each adhesive,
mastic, sealant, and cement shall have a VOC content not greater
than the maximum
allowable under LEED v3 Credit EQ 4.1 regardless of whether or not
this project is seeking
LEED certification.
F. Flexible Elastomeric: Closed-cell, sponge- or expanded-rubber
materials. Comply with
ASTM C534, Type I for tubular materials and Type II for sheet
materials.
1. Thermal Conductivity: 0.28 average maximum at 75ºF mean
temperature using test
method ASTM C177 or C518.
2. Water Vapor Permeability: Maximum 0.1 perm-inch using test
method ASTM E96
Procedure A.
3. Water Absorption: Maximum 0.2% by volume using test method ASTM
C209.
4. Product shall pass mold growth, fungi resistance, and bacterial
resistance tests per
UL 181, ASTM G21, G22, and C1338.
5. Adhesive: Comply with MIL-A-24179A, Type II, Class I; VOC
content of 50 g/L or less
when calculated according to 40 CFR 59, Subpart D (EPA Method
24).
G. Mineral-Fiber Blanket Insulation: Mineral or glass fibers bonded
with a thermosetting resin.
Comply with ASTM C553, Type II and ASTM C1290, Type III with
factory-applied jacket.
1. Thermal Conductivity: 0.26 average maximum at 75F mean
temperature.
2. Density: 1.5 lb/cf (24-kg/cu. m) minimum.
CP150492 University of Missouri Teaching Hospital – West Wing –
Expansion/Renovation
23 0700 - 5 Mechanical Insulation
3. Jacket: Aluminum-foil, fiberglass-reinforced scrim with
kraft-paper backing;
complying with ASTM C1136, Type II.
H. Mineral-Fiber Board Insulation: Mineral or glass fibers bonded
with a thermosetting resin.
Comply with ASTM C612, Type IA or Type IB.
1. Thermal Conductivity: 0.26 average maximum at 75F mean
temperature.
2. Density: 2.0 lb/cf (32-kg/cu. m) minimum.
3. Jacket (Ducts): Aluminum-foil, fiberglass-reinforced scrim with
kraft-paper backing;
complying with ASTM C1136, Type II.
4. Jacket (Equipment): White, kraft-paper, fiberglass-reinforced
scrim with aluminum-
foil backing; complying with ASTM C1136, Type I.
I. Mineral-Fiber, Preformed Pipe Insulation: Type I, 850ºF (454ºC);
mineral or glass fibers
bonded with a thermosetting resin. Comply with ASTM C547, Type I,
Grade A, with
factory-applied jacket.
1. Thermal Conductivity: 0.26 average maximum at 75F mean
temperature.
2. Jacket: White, kraft-paper, fiberglass-reinforced scrim with
aluminum-foil backing;
complying with ASTM C1136, Type I; with self-sealing,
pressure-sensitive, acrylic-
based adhesive covered by a removable protective strip.
3. Adhesive: Water-based and complying with ASTM C916 Type II;
equal to Foster 85-
60 and/or Childers CP-127.
J. Mineral-Fiber, Pipe and Tank Insulation: Mineral or glass fibers
bonded with a
thermosetting resin. Semi-rigid board material complying with ASTM
C1393, Type II or
Type IIIA Category 2, or with properties similar to ASTM C612, Type
IB.
1. Thermal Conductivity: 0.29 average maximum at 100F mean
temperature.
2. Density: 2.5 lb/cf (40-kg/cu. m) minimum.
3. Jacket: White, kraft-paper, fiberglass-reinforced scrim with
aluminum-foil backing;
complying with ASTM C1136, Type I
4. Adhesive: Water-based and complying with ASTM C916 Type
II.
2.3 INSULATING CEMENTS
A. Mineral-Fiber Insulating Cement: Comply with ASTM C195.
B. Expanded or Exfoliated Vermiculite Insulating Cement: Comply
with ASTM C196.
C. Mineral-Fiber, Hydraulic-Setting Insulating and Finishing
Cement: Comply with ASTM
C449/C 449M.
2.4 MASTICS
A. Materials shall be compatible with insulation materials,
jackets, and substrates.
B. Vapor-Barrier Mastic: Water based; suitable for indoor and
outdoor use on below-
ambient services. Equal to Foster 30-33 or Childers CP-33 or
Vimasco 749.
1. Water-Vapor Permeance: ASTM E96, Procedure B, 0.07 perms or less
at 41 mil dry
film thickness.
2. Service Temperature Range: -20 to +180ºF (-29 to +82ºC).
3. Solids Content: ASTM D1644, 59 percent by volume and 71 percent
by weight.
CP150492 University of Missouri Teaching Hospital – West Wing –
Expansion/Renovation
23 0700 - 6 Mechanical Insulation
4. Color: White.
C. Breather Mastic: Water based; suitable for indoor and outdoor
use on above-ambient
services. Equal to Foster 46-50 or Childers CP-10/11 or Vimasco
WC-5.
1. Water-Vapor Permeance: ASTM F1249, 3 perms (2 metric perms) at
0.0625-inch (1.6-
mm) dry film thickness.
2. Service Temperature Range: -20 to +200ºF (-29 to +93ºC).
3. Solids Content: 63 percent by volume and 73 percent by
weight.
4. Color: White.
A. Joint Sealants: Permanently flexible, elastomeric sealant.
Materials shall be compatible
with insulation materials, jackets, and substrates.
1. Service Temperature Range: -100 to +200ºF (-73 to +94ºC).
2. Color: White, tan, or gray.
3. VOC content of 50 g/L or less when calculated according to 40
CFR 59, Subpart D
(EPA Method 24).
B. FSK and Metal Jacket Flashing Sealants: Fire- and
water-resistant, flexible, elastomeric
sealant. Materials shall be compatible with insulation materials,
jackets, and substrates.
1. Service Temperature Range: -40 to +250ºF (-40 to +121°C).
2. Color: Aluminum.
3. VOC content of 50 g/L or less when calculated according to 40
CFR 59, Subpart D
(EPA Method 24).
C. ASJ Flashing Sealants, and Vinyl and PVC Jacket Flashing
Sealants: Fire- and water-
resistant, flexible, elastomeric sealant. Materials shall be
compatible with insulation
materials, jackets, and substrates.
1. Service Temperature Range: -40 to +250ºF (-40 to +121°C).
2. Color: White.
3. VOC content of 50 g/L or less when calculated according to 40
CFR 59, Subpart D
(EPA Method 24).
2.6 FIELD-APPLIED JACKETS
A. Field-applied jackets shall comply with ASTM C921, Type I,
unless otherwise indicated.
B. PVC Jacket: High-impact-resistant, UV-resistant PVC complying
with ASTM D1784,
Class 16354-C; thickness 30 mils (0.8 mm); roll stock ready for
shop or field cutting and
forming.
1. Adhesive: Compatible with PVC, as recommended by jacket
material
manufacturer.
3. Factory-fabricated fitting covers to match jacket if available;
otherwise, field
fabricate.
4. Shapes: 45- and 90-degree, short- and long-radius elbows, tees,
valves, flanges,
unions, reducers, end caps, soil-pipe hubs, traps, mechanical
joints, and P-trap and
supply covers for lavatories.
CP150492 University of Missouri Teaching Hospital – West Wing –
Expansion/Renovation
23 0700 - 7 Mechanical Insulation
C. Metal Jackets: Sheet and roll stock ready for shop or field
sizing. Factory pre-cut and
rolled to size is also acceptable.
1. Aluminum Jacket: Comply with ASTM B209, Alloy 3003, 3005, 3105
or 5005,
Temper H-14. Finishes and thickness as follows:
a. Indoor Ducts and Plenums: Smooth, 0.016-inch (0.41 mm)
thick.
b. Indoor Equipment: Stucco Embossed, 0.016-inch (0.41 mm)
thick.
c. Outdoor Ducts, Equipment, and Piping: Stucco embossed, with
Z-shaped
locking seam, 0.024-inch (0.61 mm) thick.
2. Moisture Barrier for Indoor Applications: 1-mil- (0.025-mm-)
thick, heat-bonded
polyethylene and kraft paper.
polyethylene and kraft paper.
4. Factory-Fabricated Fitting Covers: Same material, finish, and
thickness as jacket;
provide as required for preformed 2-piece or gore, 45- and
90-degree, short- and
long-radius elbows, tee covers, flange and union covers, end caps,
beveled
collars, and valve covers.
5. Field-fabricate fitting covers only if factory-fabricated
fitting covers are not
available.
A. ASJ Tape: White vapor-retarder tape matching factory-applied
jacket with acrylic
adhesive, complying with ASTM C1136 and UL listed.
1. Width: 3-inches (75 mm).
2. Thickness: 11.5 mils (0.29 mm).
3. Adhesion: 90 ounces force/inch (1.0 N/mm) in width.
4. Elongation: 2 percent.
5. Tensile Strength: 40 lbf/inch (7.2 N/mm) in width.
6. ASJ Tape Disks and Squares: Precut disks or squares of ASJ
tape.
B. FSK Tape: Foil-face, vapor-retarder tape matching
factory-applied jacket with acrylic
adhesive; complying with ASTM C1136 and UL listed.
1. Width: 3-inches (75 mm).
2. Thickness: 6.5 mils (0.16 mm).
3. Adhesion: 90 ounces force/inch (1.0 N/mm) in width.
4. Elongation: 2 percent.
5. Tensile Strength: 40 lbf/inch (7.2 N/mm) in width.
6. FSK Tape Disks and Squares: Precut disks or squares of FSK
tape.
C. PVC Tape: White vapor-retarder tape matching field-applied PVC
jacket with acrylic
adhesive. Suitable for indoor and outdoor applications.
1. Width: 2-inches (50 mm).
2. Thickness: 6 mils (0.15 mm).
3. Adhesion: 64 ounces force/inch (0.7 N/mm) in width.
4. Elongation: 500 percent.
5. Tensile Strength: 18 lbf/inch (3.3 N/mm) in width.
D. Aluminum-Foil Tape: Vapor-retarder tape with acrylic adhesive
and UL listed.
CP150492 University of Missouri Teaching Hospital – West Wing –
Expansion/Renovation
23 0700 - 8 Mechanical Insulation
1. Width: 2-inches (50 mm).
2. Thickness: 3.7 mils (0.093 mm).
3. Adhesion: 100 ounces force/inch (1.1 N/mm) in width.
4. Elongation: 5 percent.
2.8 SECUREMENTS
A. Bands:
1. Stainless Steel: ASTM A167 or ASTM A240, Type 304; 0.015-inch
(0.38 mm) thick, ½-
inch (13 mm) wide with wing or closed seal.
2. Aluminum: ASTM B209, Alloy 3003, 3005, 3105, or 5005; Temper
H-14, 0.020-inch (0.51
mm) thick, ½-inch (13 mm) wide with wing or closed seal.
3. Springs: Twin spring set constructed of stainless steel with
ends flat and slotted to
accept metal bands. Spring size determined by manufacturer for
application.
B. Insulation Pins and Hangers:
1. Capacitor-Discharge-Weld Pins: Copper- or zinc-coated steel pin,
fully annealed
for capacitor-discharge welding, 0.106-inch- (2.6-mm-) diameter
shank, length to
suit depth of insulation indicated.
2. Cupped-Head, Capacitor-Discharge-Weld Pins: Copper- or
zinc-coated steel pin,
fully annealed for capacitor-discharge welding, 0.106-inch-
(2.6-mm-) diameter
shank, length to suit depth of insulation indicated with integral
1½-inch (38-mm)
galvanized carbon-steel washer.
3. Metal, Adhesively Attached, Perforated-Base Insulation Hangers:
Baseplate
welded to projecting spindle that is capable of holding insulation,
of thickness
indicated, securely in position indicated when self-locking washer
is in place.
Baseplate shall be perforated, galvanized carbon-steel sheet,
0.030-inch (0.76 mm)
thick by 2-inches (50 mm) square. Spindle shall be copper,
aluminum, or stainless
steel, fully annealed, 0.106-inch (2.6-mm) diameter shank, length
to suit depth of
insulation indicated. Adhesive shall be as recommended by hanger
manufacturer;
with demonstrated capability to bond insulation hanger securely to
substrates
indicated without damaging insulation, hangers, and
substrates.
4. Self-Sticking-Base Insulation Hangers: Adhesive-backed base with
a peel-off
protective cover; and baseplate welded to projecting spindle that
is capable of
holding insulation, of thickness indicated, securely in position
indicated when self-
locking washer is in place. Baseplate shall be galvanized
carbon-steel sheet, 0.030-
inch (0.76 mm) thick by 2-inches (50 mm) square. Spindle shall be
copper,
aluminum, or stainless steel, fully annealed, 0.106-inch- (2.6-mm-)
diameter shank,
length to suit depth of insulation indicated.
5. Insulation-Retaining Washers: Self-locking washers formed from
0.016-inch (0.41-
mm) thick, aluminum or stainless-steel sheet, with beveled edge
sized as required
to hold insulation securely in place but not less than 1½-inches
(38 mm) in diameter.
Protect ends with capped self-locking washers incorporating a
spring steel insert to
ensure permanent retention of cap in exposed locations.
C. Staples: Outward-clinching insulation staples, nominal ¾-inch-
(19-mm-) wide, stainless
steel or Monel.
CP150492 University of Missouri Teaching Hospital – West Wing –
Expansion/Renovation
23 0700 - 9 Mechanical Insulation
2.9 CORNER ANGLES
A. PVC Corner Angles: 30 mils (0.8 mm) thick, minimum 1 by 1-inch
(25 by 25 mm), PVC
according to ASTM D1784, Class 16354-C. White or color-coded to
match adjacent
surface.
B. Aluminum Corner Angles: 0.040-inch (1.0 mm) thick, minimum 1 by
1-inch (25 by 25 mm),
aluminum according to ASTM B209, Alloy 3003, 3005, 3105 or 5005;
Temper H-14.
PART 3 - EXECUTION
A. Examine substrates and conditions for compliance with
requirements for installation and
other conditions affecting performance of insulation application.
Verify that systems and
equipment to be insulated have been tested and are free of defects.
Verify that surfaces
to be insulated are clean and dry. Proceed with installation only
after unsatisfactory
conditions have been corrected.
3.2 PREPARATION
A. Surface Preparation: Clean and dry surfaces to receive
insulation. Remove materials that
will adversely affect insulation application.
B. Mix insulating cements with clean potable water; if insulating
cements are to be in
contact with stainless-steel surfaces, use demineralized
water.
3.3 COMMON INSTALLATION REQUIREMENTS
A. Install insulation materials, accessories, and finishes with
smooth, straight, and even
surfaces; free of voids throughout the length of equipment, ducts
and fittings, and piping
including fittings, valves, and specialties.
B. Install insulation materials, forms, vapor barriers or
retarders, jackets, and thicknesses
required for each item of equipment, duct system, and pipe system
as specified in
insulation system schedules.
C. Install accessories compatible with insulation materials and
suitable for the service. Install
accessories that do not corrode, soften, or otherwise attack
insulation or jacket in either
wet or dry state.
D. Install insulation with longitudinal seams at top and bottom of
horizontal runs. Install
multiple layers of insulation with longitudinal and end seams
staggered.
E. Do not weld brackets, clips, or other attachment devices to
piping, fittings, and
specialties.
F. Keep insulation materials dry during application and
finishing.
G. Install insulation with tight longitudinal seams and end joints.
Bond seams and joints with
adhesive recommended by insulation material manufacturer. Install
insulation with least
number of joints practical.
23 0700 - 10 Mechanical Insulation
H. Where vapor barrier is indicated, seal joints, seams, and
penetrations in insulation at
hangers, supports, anchors, and other projections with
vapor-barrier mastic.
1. Install insulation continuously through hangers and around
anchor attachments.
2. For insulation application where vapor barriers are indicated,
extend insulation on
anchor legs from point of attachment to supported item to point of
attachment to
structure. Taper and seal ends at attachment to structure with
vapor-barrier mastic.
3. Install insert materials and install insulation to tightly join
the insert. Seal insulation to
insulation inserts with adhesive or sealing compound recommended by
insulation
material manufacturer.
4. Cover inserts with jacket material matching adjacent pipe
insulation. Install shields
over jacket, arranged to protect jacket from tear or puncture by
hanger, support,
and shield.
I. Apply adhesives, mastics, and sealants at manufacturer's
recommended coverage rate
and wet and dry film thicknesses.
J. Install insulation with factory-applied jackets as
follows:
1. Draw jacket tight and smooth.
2. Cover circumferential joints with 3-inch- (75-mm-) wide strips,
of same material as
insulation jacket. Secure strips with adhesive and outward
clinching staples along
both edges of strip, spaced 4-inches (100 mm) o.c.
3. Overlap jacket longitudinal seams at least 1½-inches (38 mm).
Install insulation with
longitudinal seams at bottom of pipe. Clean and dry surface to
receive self-sealing
lap. Staple laps with outward clinching staples along edge at
2-inches (50 mm) o.c.
4. For below ambient services, apply vapor-barrier mastic over
staples.
5. Cover joints and seams with tape as recommended by insulation
material
manufacturer to maintain vapor seal.
6. Where vapor barriers are indicated, apply vapor-barrier mastic
on seams and joints
and at ends adjacent to duct and pipe flanges and fittings.
K. Cut insulation in a manner to avoid compressing insulation more
than 75 percent of its
nominal thickness.
L. Finish installation with systems at operating conditions. Repair
joint separations and
cracking due to thermal movement.
M. Repair damaged insulation facings by applying same facing
material over damaged
areas. Extend patches at least 4-inches (100 mm) beyond damaged
areas. Adhere,
staple, and seal patches similar to butt joints.
N. At the following locations, omit jacket and provide a separate
cutaway removable
segment of insulation clearly labeled “Access.” For below-ambient
services, provide a
design that allows access but maintains vapor barrier.
1. Vibration-control devices.
3. Nameplates and data plates.
4. Manholes.
5. Handholes.
6. Cleanouts.
3.4 PENETRATIONS
23 0700 - 11 Mechanical Insulation
A. Insulation Installation at Roof Penetrations: Install insulation
continuously through roof
penetrations.
2. For applications requiring only indoor insulation, terminate
insulation above roof
surface and seal with joint sealant. For applications requiring
indoor and outdoor
insulation, install insulation for outdoor applications tightly
joined to indoor insulation
ends. Seal joint with joint sealant.
3. Extend jacket of outdoor insulation outside roof flashing at
least 2-inches (50 mm)
below top of roof flashing.
4. Seal jacket to roof flashing with flashing sealant.
B. Insulation Installation at Interior Wall and Partition
Penetrations (That Are Not Fire Rated):
Install insulation continuously through walls and partitions.
C. Insulation Installation at Fire-Rated Wall and Partition
Penetrations:
1. Install pipe insulation continuously through pipe penetrations
of fire-rated walls and
partitions.
2. Install duct insulation continuously through duct penetrations
of fire-rated walls and
partitions, for cases where no fire or smoke damper is
required.
3. Terminate duct insulation at fire or smoke damper sleeves for
cases where fire or
smoke dampers are used, but overlap duct insulation at least
2-inches (50 mm)
onto sleeve.
4. Firestopping and fire-resistive joint sealers are specified in
Division 07 Section
“Penetration Firestopping.”
D. Insulation Installation at Floor Penetrations:
1. Duct: Install insulation continuously through floor penetrations
that are not fire
rated. For penetrations through fire-rated assemblies, terminate
insulation at fire
damper sleeves and externally insulate damper sleeve beyond floor
to match
adjacent duct insulation. Overlap damper sleeve and duct insulation
at least 2-
inches (50 mm).
2. Pipe: For below-ambient piping services, install insulation
continuously through floor
penetrations. For above-ambient piping services, either do the same
as for below-
ambient piping, or it is acceptable to install uninsulated piping
through the slab
and butt the pipe insulation tight to the slab on both the top side
and the
underneath side.
3. Seal penetrations through fire-rated assemblies according to
Division 07 Section
“Penetration Firestopping.”
A. See Part 4 Insulation Schedules for specific requirements.
B. The following ductwork items need not be insulated, unless noted
otherwise:
1. Factory-insulated flexible ducts.
2. Factory-insulated plenums, casings, fan housings, and air
terminal units.
3. Flexible connectors.
4. Vibration-control devices.
CP150492 University of Missouri Teaching Hospital – West Wing –
Expansion/Renovation
23 0700 - 12 Mechanical Insulation
C. Secure all insulation on ducts and plenums with insulation pins.
Install either capacitor-
discharge-weld pins and speed washers or cupped-head,
capacitor-discharge-weld
pins on sides and bottom of horizontal ducts and sides of vertical
ducts as follows:
1. On duct sides with dimensions 18-inches (450 mm) and smaller,
pins may be
omitted.
2. On duct sides with dimensions 18-inches (450 mm) and larger,
place pins along
longitudinal centerline of duct. Space 3-inches (75 mm) maximum
from insulation
end joints, and 16-inches (400 mm) o.c.
3. On duct sides with dimensions larger than 36-inches (900 mm),
place pins 16-inches
(400 mm) o.c. each way, and 3-inches (75 mm) maximum from
insulation joints.
Install additional pins to hold insulation tightly against surface
at cross bracing.
4. Pins may be omitted from top surface of horizontal, rectangular
ducts and
plenums.
5. Do not over-compress insulation during installation.
6. If using blanket insulation, impale insulation over pins and
attach speed washers.
7. Cut excess portion of pins extending beyond speed washers or
bend parallel with
insulation surface. Cover exposed pins and washers with tape
matching insulation
facing.
D. For ducts and plenums with surface temperatures below ambient,
install a continuous
unbroken vapor barrier. Create a facing lap for longitudinal seams
and end joints with
insulation by removing 2-inches (50 mm) from 1 edge and 1 end of
insulation segment.
Secure laps to adjacent insulation section with ½-inch (13-mm)
outward-clinching
staples, 1-inch (25 mm) o.c. Complete the vapor barrier by applying
FSK tape specified
in Part 2, or vapor-barrier mastic and sealant, at all joints,
seams, and protrusions.
1. Repair punctures, tears, and penetrations with tape or mastic to
maintain vapor-
barrier seal.
2. Install vapor stops for ductwork and plenums operating below
50ºF (10 C) at 18-
foot (5.5-m) intervals. Vapor stops shall consist of vapor-barrier
mastic applied in a
Z-shaped pattern over insulation face, along butt end of
insulation, and over the
surface. Cover insulation face and surface to be insulated a width
equal to 2 times
the insulation thickness but not less than 3-inches (75 mm).
E. If using blanket insulation, overlap unfaced blankets a minimum
of 2-inches (50 mm) on
longitudinal seams and end joints. At end joints, secure with steel
bands spaced a
maximum of 18-inches (450 mm) o.c.
F. Unless factory-insulated, install duct insulation continuously
and unbroken over duct-
mounted accessories such as fans, coils, terminal units, etc.
G. Install insulation on rectangular duct elbows and transitions
with a full insulation section
for each surface. If using board insulation, groove and score
insulation to fit as closely as
possible to outside and inside radius of elbows.
H. Install insulation on round and flat-oval duct elbows with
individually mitered gores cut to
fit the elbow.
I. Insulate duct stiffeners, hangers, and flanges that protrude
beyond insulation surface with
6-inch- (150-mm-) wide strips of same material used to insulate
duct. Secure on
alternating sides of stiffener, hanger, and flange with pins spaced
6-inches (150 mm) o.c.
3.6 EQUIPMENT, TANK, AND VESSEL INSULATION INSTALLATION
CP150492 University of Missouri Teaching Hospital – West Wing –
Expansion/Renovation
23 0700 - 13 Mechanical Insulation
A. See Part 4 Insulation Schedules for specific requirements.
B. Where required, secure blanket or board insulation to equipment,
tanks and vessels with
adhesive and anchor pins and speed washers.
1. Apply adhesives according to manufacturer's recommended coverage
rates per
unit area, for 50 percent coverage of tank and vessel
surfaces.
2. Groove and score insulation materials to fit as closely as
possible to equipment,
including contours. Bevel insulation edges for cylindrical surfaces
for tight joints.
Stagger end joints.
4. Install adhesively attached or self-sticking insulation hangers
and speed washers
on sides of tanks and vessels. Do not weld anchor pins to
ASME-labeled pressure
vessels. Select insulation hangers and adhesive that are compatible
with service
temperature and with substrate. On tanks and vessels, maximum
anchor-pin
spacing is 3-inches (75 mm) from insulation end joints, and
16-inches (400 mm) o.c.
in both directions. Do not over-compress insulation during
installation. Cut and miter
insulation segments to fit curved sides and domed heads of tanks
and vessels.
Impale insulation over anchor pins and attach speed washers. Cut
excess portion
of pins extending beyond speed washers or bend parallel with
insulation surface.
Cover exposed pins and washers with tape matching insulation
facing.
5. Secure each layer of insulation with stainless-steel or aluminum
bands. Select band
material compatible with insulation materials.
6. Where insulation hangers on equipment and vessels are not
permitted or practical
and where insulation support rings are not provided, install a
girdle network for
securing insulation. Stretch pre-stressed aircraft cable around the
diameter of
vessel and make taut with clamps, turnbuckles, or breather springs.
Place one
circumferential girdle around equipment approximately 6-inches (150
mm) from
each end. Install wire or cable between two circumferential girdles
12-inches (300
mm) o.c. Install a wire ring around each end and around outer
periphery of center
openings, and stretch pre-stressed aircraft cable radially from the
wire ring to
nearest circumferential girdle. Install additional circumferential
girdles along the
body of equipment or tank at a minimum spacing of 48-inches (1200
mm) o.c. Use
this network for securing insulation with tie wire or bands.
7. Stagger joints between insulation layers at least 3-inches (75
mm).
8. Install insulation in removable segments on equipment access
doors, manholes,
handholes, and other elements that require frequent removal for
service and
inspection.
9. Bevel and seal insulation ends around manholes, handholes, ASME
stamps, and
nameplates.
10. For equipment with surface temperatures below ambient, apply
mastic to open
ends, joints, seams, breaks, and punctures in insulation.
C. Flexible Elastomeric Thermal Insulation Installation for Tanks
and Vessels: Install insulation
over entire surface of tanks and vessels.
1. Apply 100 percent coverage of adhesive to surface with
manufacturer's
recommended adhesive.
D. Insulation Installation on Pumps:
1. Fabricate metal boxes lined with insulation. Fit boxes around
pumps and coincide
box joints with splits in pump casings. Fabricate joints with
outward bolted flanges.
CP150492 University of Missouri Teaching Hospital – West Wing –
Expansion/Renovation
23 0700 - 14 Mechanical Insulation
Bolt flanges on 6-inch (150-mm) centers, starting at corners.
Install 3/8-inch- (10-mm-
) diameter fasteners with wing nuts. Alternatively, secure the box
sections together
using a latching mechanism.
2. Fabricate boxes from aluminum or stainless steel, at least
0.040-inch (1.0 mm) thick.
3. For below ambient services, install a vapor barrier at seams,
joints, and
penetrations. Seal between flanges with replaceable gasket material
to form a
vapor barrier.
A. See Part 4 Insulation Schedules for specific requirements.
B. Requirements in this Article generally apply to all insulation
materials except where more
specific requirements are specified in various pipe insulation
material installation articles.
C. Insulation Installation on Straight Pipes and Tubes:
1. Secure each layer of insulation to pipe with tape or bands and
tighten without
deforming insulation materials. If furnished in half sections,
orient longitudinal joints
at 3 and 9 o'clock positions on the pipe.
2. All insulation shall be tightly butted and free of voids and
gaps at all joints.
3. Where vapor barriers are indicated, seal longitudinal seams, end
joints, and
protrusions with vapor-barrier mastic and joint sealant.
4. For insulation with factory-applied jackets on above ambient
services, secure laps
with outward clinched staples at 6-inches (150 mm) o.c.
5. For insulation with factory-applied jackets on below ambient
services, do not staple
longitudinal tabs but secure tabs with additional adhesive as
recommended by
insulation material manufacturer and seal with vapor-barrier mastic
and flashing
sealant. Vapor barrier must be continuous.
D. Insulation Installation on Pipe Flanges or Mechanical
Couplings:
1. Install preformed pipe insulation to outer diameter of pipe
flange or mechanical
coupling (such as grooved pipe couplings, if applicable).
2. Make width of insulation section same as overall width of
flange/coupling and
bolts, plus twice the thickness of pipe insulation, not to exceed
1½-inch (38-mm)
thickness.
3. Fill voids between inner circumference of flange/coupling
insulation and outer
circumference of adjacent straight pipe segments with cut sections
of block
insulation of same thickness as pipe insulation.
4. Install jacket material with manufacturer's recommended
adhesive, overlap seams
at least 1-inch (25 mm), and seal joints with flashing
sealant.
E. Insulation Installation on Pipe Fittings and Elbows:
1. Install preformed sections of same material as straight segments
of pipe insulation
when available. Secure according to manufacturer's written
instructions.
2. When preformed insulation elbows and fittings are not available,
install mitered
sections of pipe insulation, to a thickness equal to adjoining pipe
insulation. Secure
insulation materials with wire or bands.
3. Cut sectional pipe insulation to fit. Each piece shall be butted
tightly against
adjoining piece and bonded with adhesive. Fill joints, seams,
voids, and irregular
surfaces with insulating cement finished to a smooth, hard, and
uniform contour
that is uniform with adjoining pipe insulation.
CP150492 University of Missouri Teaching Hospital – West Wing –
Expansion/Renovation
23 0700 - 15 Mechanical Insulation
F. Insulation Installation on Valves, Strainers, Unions, and
Specials:
1. Insulate valves using preformed fitting insulation or sectional
pipe insulation of same
material, density, and thickness as used for adjacent pipe. Overlap
adjoining pipe
insulation by not less than two times the thickness of pipe
insulation, or one pipe
diameter, whichever is thicker. For valves, insulate up to and
including the bonnets,
valve stuffing-box studs, bolts, and nuts. Fill joints, seams, and
irregular surfaces with
insulating cement.
2. Arrange insulation to permit access to packing and to allow
valve operation
without disturbing insulation.
otherwise indicated.
4. Insulate strainers using preformed fitting insulation or
sectional pipe insulation of
same material, density, and thickness as used for adjacent pipe.
Overlap adjoining
pipe insulation by not less than two times the thickness of pipe
insulation, or one
pipe diameter, whichever is thicker. Fill joints, seams, and
irregular surfaces with
insulating cement. Insulate strainers so strainer basket flange or
plug can be easily
removed and replaced without damaging the insulation and jacket.
Provide a
removable reusable insulation cover. For below-ambient services,
provide a design
that maintains vapor barrier.
5. Insulate unions using a section of oversized preformed pipe
insulation. Overlap
adjoining pipe insulation by not less than two times the thickness
of pipe insulation,
or one pipe diameter, whichever is thicker.
6. Cover segmented insulated surfaces with a layer of finishing
cement and coat with
a mastic. Install vapor-barrier mastic for below ambient services
and a breather
mastic for above ambient services. Reinforce the mastic with
fabric-reinforcing
mesh. Trowel the mastic to a smooth and well-shaped contour.
7. For services not specified to receive a field-applied jacket
except for flexible
elastomeric, install fitted PVC cover over elbows, tees, strainers,
valves, flanges,
and unions. Terminate ends with PVC end caps. Tape PVC covers to
adjoining
insulation facing using PVC tape.
8. Stencil or label the outside insulation jacket of each union
with the word “UNION.”
Match size and color of pipe labels.
G. Insulate instrument connections for thermometers, pressure
gages, pressure temperature
taps, test connections, flow meters, sensors, switches, and
transmitters on insulated pipes,
vessels, and equipment. Shape insulation at these connections by
tapering it to and
around the connection with insulating cement and finish with
finishing cement, mastic,
and flashing sealant.
following:
1. Make removable flange and union insulation from sectional pipe
insulation of same
thickness as that on adjoining pipe. Install same insulation jacket
as adjoining pipe
insulation.
2. When flange and union covers are made from sectional pipe
insulation, extend
insulation from flanges or union long at least two times the
insulation thickness over
adjacent pipe insulation on each side of flange or union. Secure
flange cover in
place with stainless-steel or aluminum bands. Select band material
compatible
with insulation and jacket.
3. Construct removable valve insulation covers in same manner as
for flanges except
divide the two-part section on the vertical center line of valve
body.
CP150492 University of Missouri Teaching Hospital – West Wing –
Expansion/Renovation
23 0700 - 16 Mechanical Insulation
4. When covers are made from block insulation, make two halves,
each consisting of
mitered blocks wired to stainless-steel fabric. Secure this wire
frame, with its
attached insulation, to flanges with tie wire. Extend insulation at
least 2-inches (50
mm) over adjacent pipe insulation on each side of valve. Fill space
between
flange or union cover and pipe insulation with insulating cement.
Finish cover
assembly with insulating cement applied in two coats. After first
coat is dry, apply
and trowel second coat to a smooth finish.
5. Unless a PVC jacket is indicated in field-applied jacket
schedules, finish exposed
surfaces with a metal jacket.
I. Special Requirements for Flexible Elastomeric Insulation
Installation: Seal all transverse
seams, longitudinal seams, end joints, and section joints with
manufacturer's
recommended adhesive to eliminate openings in insulation that allow
passage of air to
surface being insulated.
A. See Part 4 Insulation Schedules for specific requirements.
B. Where PVC jackets are indicated, install with 1-inch (25-mm)
overlap at longitudinal
seams and end joints; for horizontal applications, install with
longitudinal seams along top
and bottom of tanks and vessels. Seal with manufacturer's
recommended adhesive.
Apply two continuous beads of adhesive to seams and joints, one
bead under lap and
the finish bead along seam and joint edge.
C. Where metal jackets are indicated, install with 2-inch (50-mm)
overlap at longitudinal
seams and end joints. Overlap longitudinal seams arranged to shed
water. Seal end joints
with weatherproof sealant recommended by insulation manufacturer.
Secure jacket
with stainless-steel bands 12-inches (300 mm) o.c. and at end
joints.
3.9 FINISHES
A. Flexible Elastomeric Thermal Insulation: After adhesive has
fully cured, apply two coats of
insulation manufacturer's recommended protective coating.
PART 4 - SCHEDULES
4.1 INSULATION SCHEDULES
A. Furnish and install duct, equipment, and piping insulation as
specified above and in
accordance with the schedules below. All insulation thicknesses and
pipe sizes in the
following tables are given in nominal inches. Where more than one
type of allowable
material or more than one type of field jacket is listed, the
choice is contractor’s option.
CP150492 University of Missouri Teaching Hospital – West Wing –
Expansion/Renovation
23 0700 - 17 Mechanical Insulation
DUCT INSULATION Duct Duct Minimu
m
Allowabl
e
Insulatio
(including outdoor air Round,
that has been heated Outdoo
rs R-6 FGBK,FE 2.00 AL,SS
or cooled) ICC,ICN R-3.5 FGBK 1.50 ---
Rectangul
Outdoo
Outdoor Air Service ICC,ICN R-3.5 FGBK 1.50 ---
(prior to being heated Round,
Oval IEC,IEN R-3.5 FGBK 1.50 AL (3)
or cooled) Outdoo
Outdoo
rs --- --- --- ---
KEYED NOTES:
(1) Insulate only if the exhaust is routed to an energy-recovery
device.
(2) Insulate only between final isolation damper and penetration
of
building exterior.
(3) The specified field jacket is required only if less than
84-inches AFF.
LEGEND:
Silicate
space FRW
IEN Indoor, Exposed, in Non-conditioned
space SS Stainless Steel
FE Flexible Elastomeric
23 0700 - 18 Mechanical Insulation
EQUIPMENT INSULATION Allowabl
s
Thicknes
s
Jacke
Heat Exchangers Outdoors Any FE 2.00 AL,SS
Heating Indoors Any MF 2.00 ---
Outdoors Any MF 2.00 AL,SS
Expansion Tanks Heating Indoors Any MF 1.00 ---
Water Outdoors Any MF 1.00 AL,SS
Other
Services
HVAC Pumps, Chilled Indoors Any FE 1.00 ---
Air/Dirt Separators, Water Outdoors Any FE 2.00 AL,SS
Other
Services
Steam System Equipment
Condensa
KEYED NOTES:
(1) Insulate only if used as part of a water-side economizer.
(2) Includes heat recovery, dual-service, and closed-loop
condenser
water.
feedwater.
(4) Includes deaerators, CRT/P, flash tanks, flash separators,
blow-off tanks.
LEGEND:
MF Mineral Fiber SS Stainless Steel
CRT/P Condensate Receiver Tank & Pump
Package
23 0700 - 19 Mechanical Insulation
PIPE INSULATION Temperature Size Allowabl
e Thick- Field Keyed
Service drains,
blowdowns, steam
vents, coil
condensate, all 8 & up Indoors MFW 0.50 PVC (3)
equipment drains above 105 All All MF 1.00 AL,SS (2)
¾ to
Chilled Water Piping 40 and up Outdoors FE 2.00 AL,SS
(supply and return) 1½ to
6 Indoors FE 1.50 ---
Outdoors FE 2.00 AL,SS
Steam Condensate
1½ &
201-250 HW, ¾ to
≤15#Steam, 4 & up All MF 3.00 AL,SS (2)
& all SCR
15.1#Steam
120#Steam 1½ &
KEYED NOTES:
(1) Insulate condenser water piping only if used as part of a
water-side
economizer, or if freeze-protected (e.g., heat-traced)
outdoors.
(2) The specified field jacket is required only if outdoors.
(3) The specified field jacket is required on fittings only.
LEGEND:
FE Flexible Elastomeric PI Polyisocyanurat
e
SCR Steam Condensate Return HW Hot Water
MFW Mineral Fiber with Wicking Design SS Stainless Steel
PVC Polyvinyl Chloride # psig
STAIR
ELEVATOR
MECHMECH
EMERGENCY
ELEVATOR
ELEV.
ELEV.
ELEV.
ELEV.
ELEV.
ELEV.
LOBBY
CLOSET
OFFICE
ROOM
30"/16" SA
18"x10" RA
10"x8" RA
12"x10" SA(X)
8"ø SA(X)
7
9
1
1
1
7
72
72
1
(X )
24"x12" SA UP (AHU S2-3) WITH FIRE DAMPER AT 2ND FLOOR SLAB. REFER
TO SHEET MD102.
20"x12" SA DOWN (AHU S2-3). REFER TO SHEET MD100 FOR
CONTINUATION.
VVR-7
CVR-6
CVR-10
FSD
FSD
FSD
VVR-8
VVR-12
VVR-5 VVR-10
UP (VFE-2)
80"x36" EA UP & DOWN (VFE-1)
48"x18" OA DOWN (VFS-1)
1
7
71
1
8"Ø
REFER TO SHEET M000 FOR GENERAL NOTES.
CAP ALL EXISTING TEMPERATURE CONTROL PNEUMATIC TUBING AT MAINS WITH
BRASS COMPRESSION FITTING WHERE EXISTING PNEUMATIC CONTROLS HAVE
BEEN REMOVED.
REFER TO ARCHITECTURAL PHASING PLANS PRIOR TO THE START OF ANY
DEMOLITION WORK TO VERIFY WHAT SYSTEMS ARE AFFECTED IN EACH PHASE.
COORDINATE ALL REQUIRED SHUT DOWNS WITH OWNER'S
REPRESENTATIVE.
GENERAL NOTES:
Pr o
je c
t Ti
Lee's Summit, MO 64086
bcdg Project #: MU Project #:
- DEMOLITION
BOB D. CAMPBELL & COMPANY
CROCKETT ENGINEERING
Missouri Certificate of Authority #000148
Missouri Certificate of Authority #000442
Missouri Certificate of Authority ####
KEYED NOTES
9 REMOVE EXISTING RECESSED CABINET UNIT HEATER AND PORTION OF
EXISTING BRANCH PIPING FROM CONNECTION POINT OF UNIT TO ABOVE
CEILING AS SHOWN AND PROVIDE TEMPORARY CAPS. REFER TO SHEET M101A
FOR NEW WORK.
10 REMOVE EXISTING ISOLATION ROOM LOW WALL EXHAUST GRILLE, EXHAUST
DUCT, AND ASSOCIATED VENTURI VALVE TO POINT SHOWN.
11 REMOVE EXISTING RATED DAMPER IN EXISTING DUCT. REFER TO SHEET
M101 FOR NEW WORK.
12 REMOVE PORTION OF EXISTING DUCTWORK FOR INSTALLATION OF NEW
RATED DAMPER. REFER TO SHEET M101 FOR NEW WORK.
13 PRIOR TO THE START OF ANY DEMOLITION WORK, PROVIDE DUCT TRAVERSE
AT POINT INDICATED. RECORD AIRFLOW AND COMPILE IN A WRITTEN REPORT.
SUBMIT REPORT TO OWNER, ARCHITECT, AND ENGINEER FOR THEIR RECORDS.
DATA SHALL BE USED TO REBALANCE EXISTING EXHAUST SYSTEM DURING
REMODEL PORTION OF PROJECT. REFER TO SHEET M102 FOR NEW WORK.
14 REMOVE EXISTING PNEUMATIC CONTROLLER ON EXISTING AIR TERMINAL
UNIT AND REPLACE WITH NEW DDC CONTROLLER. REFER TO SHEET M101 FOR
NEW WORK.
15 THIS PORTION OF EXISTING DUCTWORK THAT IS SHADED FALLS IN PHASE
3 BUT IS REQUIRED TO BE REMOVED IN PHASE 1C. REFER TO SHEET M101
FOR NEW WORK.
KEYED NOTES
4 REMOVE EXISTING SUSPENDED FAN COIL UNIT ABOVE CEILING AND ALL
ASSOCIATED DUCTWORK AND AIR DEVICES. REFER TO SHEET MD101A FOR
DEMOLITION WORK ASSOCIATED WITH EXISTING PIPING AND CONTROLS.
5 REMOVE EXISTING FLOOR MOUNTED CABINET UNIT HEATER. PATCH AND
FINISH PER ARCHITECT. REFER TO SHEET MD101A FOR DEMOLITION WORK
ASSOCIATED WITH EXISTING PIPING AND CONTROLS.
6 REMOVE EXISTING 36"x15" OUTSIDE AIR DUCT LOCATED IN AREAWAY.
REFER TO SHEET MD100 FOR CONTINUATION OF DUCT DEMOLITION.
7 CAP EXISTING DUCT AIRTIGHT WITH SHEETMETAL. INSULATE CAP IN
SUPPLY DUCTS WITH 1 1/2" THICK FOIL FACED DUCT WRAP.
8 REMOVE AIR DEVICE AND PORTION OF BRANCH DUCT AS SHOWN. REFER TO
SHEET M101 FOR NEW WORK.
KEYED NOTES
1 REMOVE EXISTING DUCTWORK AND AIR DEVICES TO POINT SHOWN.
2 REMOVE EXISTING PNEUMATIC AIR TERMINAL UNIT. REFER TO SHEET
MD101A FOR DEMOLITION WORK ASSOCIATED WITH EXISTING PIPING AND
CONTROLS.
#
OFFICE OFFICE
EXISTING 6" CWS AND CWR RISERS
EXISTING 18"x14" EXHAUST DUCT DOWN TO FIRST FLOOR (EF-18)
2
E18-1
2
E24-1
2
E24-2
2
E18-2
3
8.1 XD
E.1
EXISTING 2" OIL TANK VENT EXPOSED ON WALL, TERMINATE APPROXIMATELY
8'-0" ABOVE SECOND FLOOR.
6
7
FC
8 "
REFER TO SHEET M000 FOR GENERAL NOTES.
PROVIDE SOLDERED CAP ON ALL EXISTING TEMPERATURE CONTROL PNEUMATIC
TUBING AT MAINS WHERE EXISTING PNEUMATIC CONTROLS HAVE BEEN
REMOVED.
REFER TO ARCHITECTURAL PHASING PLANS PRIOR TO THE START OF ANY
DEMOLITION WORK TO VERIFY WHAT SYSTEMS ARE AFFECTED IN EACH PHASE.
COORDINATE ALL REQUIRED SHUT DOWNS WITH OWNER'S
REPRESENTATIVE.
GENERAL NOTES:
Pr o
je c
t Ti
Lee's Summit, MO 64086
bcdg Project #: MU Project #:
BOB D. CAMPBELL & COMPANY
CROCKETT ENGINEERING
Missouri Certificate of Authority #000148
Missouri Certificate of Authority #000442
Missouri Certificate of Authority ####
# KEYED NOTES
1 REMOVE EXISTING 34" x 14" EXHAUST RISER (EF-24) AND ASSOCIATED
EXHAUST DUCT TO POINT SHOWN. REFER TO SHEET M102 FOR NEW WORK.
PATCH FLOOR PER ARCHITECT.
2 PRIOR TO THE START OF ANY DEMOLITION WORK, PROVIDE DUCT TRAVERSE
AND STATIC PRESSURE READING AT POINT INDICATED. RECORD AIRFLOW AND
STATIC PRESSURE DATA AND COMPILE IN A WRITTEN REPORT WITH NUMBER
INDICATED ON THE PLANS. SUBMIT REPORT TO OWNER, ARCHITECT, AND
ENGINEER FOR THEIR RECORDS. DATA SHALL BE USED TO REBALANCE
EXISTING SYSTEM DURING REMODEL PORTION OF PROJECT. REFER TO SHEET
M102 FOR NEW WORK.
3 REMOVE EXISTING 6" CWS AND CWR AND 1" PNEUMATIC CONTROL RISERS
FROM APPROXIMATELY 8'-6" A.F.F. THRU THIRD FLOOR PENETRATION.
REMOVE EXISTING FIBERGLASS INSULATION ON CHILLED WATER PIPING TO
REMAIN AND RE-INSULATE WITH ELASTOMERIC. PATCH FLOOR PER ARCHITECT.
RISERS TO BE RELOCATED FOR NEW STAIR ACCESS ON THIRD FLOOR. REFER
TO SHEET M102 FOR NEW WORK.
4 REMOVE EXISTING EXHAUST LOUVER AND PLENUM ABOVE WINDOW. REFER TO
SHEET M102 FOR NEW WORK.
5 REMOVE EXISTING 48" W x 12" H OUTSIDE AIR LOUVER. PATCH WALL PER
ARCHITECT.
6 REMOVE EXISTING EXPOSED FUEL OIL TANK VENT PIPING AND VENT
TERMINATION CAP. REFER TO SHEET M400 FOR NEW WORK.
7 EXISTING OUTSIDE AIR INTAKE LOUVER TO REMAIN.
8 PRIOR TO THE START OF ANY DEMOLITION WORK, PROVIDE DUCT TRAVERSE
AT POINT INDICATED. RECORD AIRFLOW AND COMPILE IN A WRITTEN REPORT.
SUBMIT REPORT TO OWNER, ARCHITECT, AND ENGINEER FOR THEIR RECORDS.
DATA SHALL BE USED TO REBALANCE EXISTING EXHAUST SYSTEM DURING
REMODEL PORTION OF PROJECT. REFER TO SHEET M102 FOR NEW WORK.
9 REMOVE EXISTING OUTSIDE AIR LOUVERS. PATCH WALL PER ARCHITECT.
REMOVE PORTION OF EXISTING AHU S2-13 OUTSIDE AIR DUCT AS SHOWN.
REFER TO SHEET M400 FOR NEW WORK ASSOCIATED WITH EXISTING AHU S2-13
OUTSIDE AIR DUCT.
10 REMOVE PORTION OF EXISTING DUCTWORK FOR INSTALLATION OF NEW
RATED DAMPER. REFER TO SHEET M102 FOR NEW WORK.
11 REMOVE EXISTING DUCT TO POINT SHOWN AND CAP TO FACILITATE
INSTALLATION OF NEW CHILLED WATER PIPING. REFER TO SHEET M102 FOR
NEW WORK.
12 REMOVE EXISTING EXHAUST FAN ABOVE CEILING. REFER TO SHEET M102
FOR NEW WORK.
3
3
36"x32" RA 36"x18" RA
36"x16" RA 20"x12" RA
12"x10" RA
(X )
5
11
12
EXISTING 24"x12" SA DUCT UP (AHU S2-3). REFER TO SHEET M102 FOR
CONT.
EXISTING 20"x12" SA DUCT DOWN (AHU S2-3). REFER TO SHEET M100 FOR
CONT.
VAV
23-102
EAB
23-109
S-2
100
R-1
100
E-1
50
E-2
80
11
11
11
12"x10" RA
REFER TO SHEET M000 FOR GENERAL NOTES.
REFER TO AIR TERMINAL UNIT SCHEDULE ON SHEET M600 FOR AIR INLET
SIZES TO AIR TERMINAL UNITS.
GENERAL NOTES:
NEW AIR HANDLING UNIT SYSTEM (AHU-23/RF-23) SHALL NOT BE USED TO
CONDITION FIRST FLOOR DURING ANY PHASE. UNIT SHALL BE ACTIVATED
ONLY AFTER PHASE 1 IS COMPLETED AND SHALL ONLY CIRCULATE AIR IN
SPACES AS SPACES ARE COMPLETED.
Pr o
je c
t Ti
Lee's Summit, MO 64086
bcdg Project #: MU Project #:
- NEW WORK
U n
iv e
rs ity
BOB D. CAMPBELL & COMPANY
CROCKETT ENGINEERING
Missouri Certificate of Authority #000148
Missouri Certificate of Authority #000442
Missouri Certificate of Authority ####
KEYED NOTES
19 INSTALL NEW DDC CONTROLLER ON EXISTING AIR TERMINAL UNIT.
BALANCE TO MAXIMUM AND MINIMUM CFM NOTED ON PLAN.
20 EXISTING 18"x18" EXHAUST DUCT (EF-1) UP TO SECOND FLOOR. SEE
SHEET M102 FOR CONTINUATION.
21 EXISTING 18"Ø SA DUCT (AHU-2) UP TO SECOND FLOOR. SEE M102 FOR
CONTINUATION.
22 EXISTING 16"x10" OA DUCT UP TO SECOND FLOOR. SEE M102 FOR
CONTINUATION.
23 LOCATION OF DUCT STATIC PRESSURE SENSOR FOR CONTROL OF AHU-23
SUPPLY FANS VARIABLE FREQUENCY DRIVES. REFER TO SEQUENCE OF
OPERATION ON SHEET M700. ADDITIONAL DUCT STATIC PRESSURE SENSOR
LOCATED ON THIRD FLOOR. REFER TO SHEET M103 FOR LOCATION.
24 INSTALL NEW MANUAL BALANCING DAMPER IN EXISTING DUCT. VERIFY
EXISTING DUCT SIZE IN FIELD PRIOR TO ORDERING.
25 INSTALL MANUAL BALANCING DAMPER IN PHASE 1B AND INSTALL
TEMPORARY CAP. REMAINING BRANCH DUCTWORK AND AIR DEVICES TO BE
INSTALLED IN PHSE 1C
26 EXHAUST AIR TERMINAL UNIT TO BE INSTALLED IN PHASE 1C.
TEMPORARILY CONNECT NEW 10"Ø EXHAUST DUCT TO EXISTING EXHAUST MAIN
IN PHASE 1A. FINAL BALANCE OF AIR DEVICES ASSOCIATED WITH EXHAUST
AIR TERMINAL SHALL BE DONE IN PHASE 1C.
27 THIS SHADED PORTION OF NEW DUCTWORK FALLS IN AREA DESIGNATED FOR
PHASE 3 BUT NEEDS TO BE INSTALLED IN PHASE 1C. PROVIDE 8" TAP AND
RECONNECT EXISTING VAV THAT WILL REMAIN UNTIL PHASE 3. REFER TO
SHEET MD101.
28 12"Ø EXHAUST DUCT (EF-51) UP TO SECOND FLOOR WITH COMBINATION
FIRE/ SMOKE DAMPER IN SECOND FLOOR SLAB. REFER TO SHEET M400 FOR
CONTINUATION.
29 COORDINATE LOCATION OF DUCTWORK AND AIR DEVICES INSIDE X-RAY
ROOM WITH X-RAY EQUIPMENT SUPPORTS.
30 SEAL ALL NEW AND EXISTING DUCT PENETRATIONS OF WALLS AND AROUND
AIR DEVICES INSTALLED IN CEILING AND SIDEWALL IN ISOLATION AND ANTE
ROOMS AIRTIGHT TO FACILITATE MAINTAINING PRESSURE RELATIONSHIP TO
ADJACENT SPACES.
KEYED NOTES
8 34"x20" RETURN DUCT (RF-23) UP TO SECOND FLOOR WITH COMBINATION
FIRE/SMOKE DAMPER IN SECOND FLOOR SLAB. REFER TO SHEET M400 FOR
CONTINUATION.
9 40"x24" SUPPLY DUCT (AHU-23) UP TO SECOND FLOOR WITH COMBINATION
FIRE/SMOKE DAMPER IN SECOND FLOOR SLAB. REFER TO SHEET M400 FOR
CONTINUATION. ROTATE IN VERTICAL BELOW SECOND FLOOR SLAB AS
SHOWN.
10 REBALANCE EXISTING AIR DEVICE TO CFM NOTED ON PLAN.
11 CONNECT NEW AIR DEVICE BRANCH DUCT TO EXISTING AND EXTEND TO NEW
AIR DEVICE. PROVIDE TRANSITION AS REQUIRED FOR NEW AIR DEVICE NECK
SIZE. PROVIDE NEW MANUAL BALANCING DAMPER IN BRANCH DUCT.
12 CONNECT NEW DDC AIR TERMINAL UNIT TO EXISTING SUPPLY DUCT.
PROVIDE TRANSITION AS REQUIRED.
13 EXISTING 43"x30" AND 24"x18" SUPPLY AIR DUCTS (AHU-1) UP TO
SECOND FLOOR. REFER TO SHEET M102 FOR CONTINUATION.
14 INSTALL NEW RATED DAMPER IN EXISTING DUCT. VERIFY EXISTING DUCT
SIZE IN FIELD PRIOR TO ORDERING.
15 REBALANCE EXISTING AIR TERMINAL UNIT TO MAXIMUM AND MINIMUM AIR
QUANTITIES NOTED ON PLAN.
16 20"x14" SUPPLY DUCT (AHU-23) UP TO SECOND FLOOR WITH COMBINATION
FIRE / SMOKE DAMPER IN SECOND FLOOR SLAB. REFER TO SHEET M400 FOR
CONTINUATION.
17 18"x16" SUPPLY DUCT (AHU-23) AND 16"x14" RETURN DUCT (RF-23)
DOWN THRU EXISTING FIRST FLOOR SLAB TO GROUND FLOOR. REFER TO SHEET
M100 FOR CONTINUATION. LOCATE NEW OPENINGS BETWEEN EXISTING
CONCRETE TEES. VERIFY LOCATION OF TEES IN FIELD.
18 DUCT CROSSING PERPENDICULARLY AT EXISTING COLUMN LINE "X", TO
ROUTE UNDER EXISTING CONCRETE BEAM. HOLD TOP OF DUCT TIGHT TO
BEAM.
KEYED NOTES
1 9" ISOLATION EXHAUST DUCT UP TO SECOND FLOOR (EF-53A &
EF-53B) WITH COMBINATION FIRE / SMOKE DAMPER IN SECOND FLOOR SLAB.
REFER TO SHEET M400 FOR CONTINUATION.
2 18"Ø EXHAUST DUCT UP THRU ROOF TO EXHAUST FANS EF-52A AND EF-52B.
REFER TO SHEET M120 FOR CONTINUATION.
3 CONNECT NEW 16"x10" EXHAUST DUCT TO EXISTING 16"x10" EXHAUST DUCT
AS SHOWN.
4 INSTALL NEW PORTION OF EXISTING DUCTWORK WHERE RATED DAMPER WAS
REMOVED. VERIFY EXISTING DUCT SIZE IN FIELD. INSULATE DUCT WITH
FOIL FACED INSULATION TO MATCH EXISTING. PROVIDE PROPER VAPOR
BARRIER WHERE NEW INSULATION BUTTS TO EXISTING INSULATION.
5 EXISTING 14" EXHAUST RISER UP TO EXISTING EXHAUST FANS EF-1 AND
EF-2 ON EXISTING FIRST FLOOR LOW ROOF. REFER TO SHEET M120 FOR
CONTINUATION.
6 CONNECT NEW 12" EXHAUST DUCT TO EXISTING EXHAUST MAIN.
#
# #
3/4"
VAV
23-109
VAV
23-101
VAV
23-116
VAV
1-111
VAV
1-100
VAV
23-113
7
CUH-1
VAV
W R EXISTING 2 1/2" LPR, 4" LPS,
2 1/2" HWR, 2 1/2" HWS, 5" CWS, 5" CWR UP TO SECOND FLOOR
VAV
1-101
VAV
23-105
19
19
19
19
19
STACK PIPING THRU EXISTING WALL ABOVE NEW DOOR OPENING. PROVIDE
LINTEL AS REQUIRED.
PIPING SHOWN SIDE BY SIDE FOR CLARITY. INSTALLATION WILL REQUIRE
PIPING TO BE STACKED IN TWO LAYERS.
AREA OF WORK | CP150492
REFER TO SHEET M000 FOR GENERAL NOTES.
HEATING HOT WATER RUN OUT SIZES TO AIR TERMINAL UNIT REHEAT COILS
SHALL BE 3/4" UNLESS NOTED OTHERWISE.
INSTALL NEW WALL MOUNTED TEMPERATURE, HUMIDITY, AND CO2 SENSORS 48"
A.F.F. TO TOP OF DEVICES .
GENERAL NOTES:
Pr o
je c
t Ti
Lee's Summit, MO 64086
bcdg Project #: MU Project #:
NEW WORK
U n
iv e
rs ity
BOB D. CAMPBELL & COMPANY
CROCKETT ENGINEERING
Missouri Certificate of Authority #000148
Missouri Certificate of Authority #000442
Missouri Certificate of Authority ####
1 FIRST FLOOR PLAN - PIPING - NEW WORK
KEYED NOTES
10 REBALANCE EXISTING UNIT TO GPM NOTED ON PLAN.
11 INSTALL NEW DDC 2-WAY CONTROL VALVE IN EXISTING BRANCH PIPING
SERVING EXISTING AIR TERMINAL UNIT. BALANCE FOR GPM NOTED ON
PLAN.
12 INSTALL NEW WALL MOUNTED DDC THERMOSTAT IN SAME LOCATION
EXISTING PNEUMATIC THERMOSTAT WAS REMOVED. PATCH WALL PER
ARCHITECT.
13 THE CONTRACTOR SHALL FABRICATE A STAINLESS STEEL DRIP PAN WITH
ROLLED EDGES (NO EXPOSED CUT EDGES) FOR INSTALLATION UNDER FAN COIL
UNIT. SUSPEND FROM STRUCTURE ABOVE. PAN SHALL BE 3" TALL AND EXTEND
A MINIMUM OF 4 INCHES BEYOND OUTLINE OF UNIT. INSTALL AN EARLY
WARNING WATER LEAK DETECTION SYSTEM IN DRIP PAN. PROVIDE SENSOR
CABLE IN PAN AND ROUTE CONTROL SIGNAL BACK TO NEAREST EMCS PANEL
AND ALARM AT EMCS. INSTALL CONDENSATE PUMP IN DRIP PAN. REFER TO
FAN COIL UNIT SCHEDULE ON SHEET M600 FOR CONDENSATE PUMP
SPEC.
14 CALIBRATED BALANCING VALVE. BALANCE FOR 1 GPM.
15 LOCATION OF HEATING HOT WATER SYSTEM DIFFERENTIAL PRESSURE
SENSOR FOR CONTROL OF HEATING HOT WATER PUMPS HWP-10 AND HWP-11
VARIABLE FREQUENCY DRIVE. REFER TO DETAIL 4 ON SHEET M500 AND 4 ON
SHEET M703.
16 3/4" HWS AND HWR DOWN IN WALL TO GROUND FLOOR. REFER TO SHEET
M100 FOR CONTINUATION.
17 INSTALL CEILING MOUNTED SPACE PRESSURE SENSOR. REFER TO DETAIL 3
ON SHEET M703.
18 6" STEAM VENT UP THRU ROOF. REFER TO SHEET M120 FOR
CONTINUATION.
19 SEAL ALL NEW AND EXISTING PIPE PENETRATIONS OF WALLS IN
ISOLATION AND ANTE ROOMS AIRTIGHT TO FACILITATE MAINTAINING
PRESSURE RELATIONSHIP TO ADJACENT SPACES.
KEYED NOTES
1 6" STEAM VENT, 4" HWS, 4" HWR, LPS, 1" LPR, 4" CWS, AND 4" CWR
PIPING DOWN TO GROUND FLOOR. REFER TO SHEET M100 FOR CONTINUATION.
VERIFY LOCATIONS THRU EXISTING FLOOR SLAB WITH EXISTING
STRUCTURE.
2 4" HWS, 4" HWR, LPS, 4" CWS, AND 4" CWR PIPING UP TO SECOND
FLOOR. REFER TO SHEET M400 FOR CONTINUATION.
3 PROTECT EXISTING BRANCH PIPING AND PIPE ACCESSORIES SERVING
EXISTING CABINET UNIT HEATER DURING INSTALLATION OF NEW WALL.
4 INSTALL WALL MOUNTED NEGATIVE PRESSURE MONITOR DIGITAL INTERFACE
MODULE ON CORRIDOR WALL PER MANUFACTURERS INSTALLATION
INSTRUCTIONS. PROVIDE LABEL FOR ROOM SERVED. COORDINATE LETTERING
STYLE WITH OWNERS REPRESENTATIVE. ROOM PRESSURE CONTROLLER SHALL BE
TRIA-TEK MODEL FMS-1655 OR APPROVED EQUAL. PRESSURE MONITOR SHALL
BE BACNET MS / TP COMPATIBLE WITH ACCURACY ± 0.5% FULL SCALE.
5 INSTALL ROOM PRESSURE SENSOR FLOW TUBE AND COVER PLATES ABOVE
DOOR PER MANUFACTURERS INSTALLATION INSTRUCTIONS. SEAL AROUND ALL
WALL PENETRATIONS WITH GASKET AND CAULK.
6 CONNECT TO EXISTING 2" FUEL OIL TANK VENT PIPE BELOW GRADE AND
ROUTE UP IN WALL AS SHOWN. OFFSET ABOVE CEILING AND ROUTE UP TO
SECOND FLOOR. VERIFY EXISTING PIPE SIZE IN FIELD. REFER TO SHEET
M400 FOR CONTINUATION.
7 1" LPR UP TO SECOND FLOOR. REFER TO SHEET M400 FOR
CONTINUATION.
8 REMOVE TEMPORARY CAPS AND EXTEND EXISTING HEATING HOT WATER
PIPING AS SHOWN.
#
12"x4" EA(X)
8"x6" EA
8 "x
8 "x
10
SD
11
SD
12
SD
13
20
20
NOTE: CEILINGS IN PATIENT AREAS CONSIST OF A SECURED METAL CEILING
TILE AND GRID SYSTEM. THE GRID SYSTEM IS SUPPORTED FROM STRUTS
PLACED AT EACH TEE-INTERSECTION. SYSTEMS ROUTING ABOVE-CEILINGS
MUST BE COORDINATED TO AVOID INTERSECTING WITH METAL CEILING GRID
SUPPORTS. COMPONENTS REQUIRED TO MOUNT WITHIN THE SECURED CEILING
GRID (E.G. LUMINAIRES, DIFFUSERS, ETC.) MUST BE SECURED TO PROVIDE
A TAMPER-PROOF AND ANTI-LIGATURE INSTALLATION, ENSURING
DISPLACEMENT OF DEVICES CANNOT BE ACHIEVED FROM BELOW CEILING.
COMPONENTS REQUIRING PENETRATION OF METAL CEILING TILES FOR
FUNCTIONALITY (E.G. SPRINKLER HEADS) OR MOUNTING WITHIN BACKBOXES
SUCH THAT THE DEVICE IS FLUSH WITH THE UNDERSIDE OF THE CEILING
TILE (E.G. FIRE ALARM DEVICES, TELECOMMUNICATION DEVICES, ETC.)
WILL REQUIRE FIELD-CUTTING OF METAL CEILING TILE. COORDINATE
FIELD-CUTTING REQUIREMENTS WITH GENERAL CONTRACTOR. REFER TO
ARCHITECTURAL REFLECTED CEILING PLAN FOR LOCATION OF NEW METAL
CEILING TILE AND GRID SYSTEM. VERIFY ALL REQUIREMENTS WITH
MANUFACTURER OF ACTUAL CEILING SYSTEM PROVIDED.
1
2
REFER TO SHEET M000 FOR GENERAL NOTES.
REFER TO AIR TERMINAL UNIT SCHEDULE ON SHEET M600 FOR AIR INLET
SIZE TO AIR TERMINAL UNITS.
GENERAL NOTES:
NOTE: ACCESS TO VAV BOXES AND VOLUME DAMPERS TO BE MADE AVAILABLE
THRU METAL CEILING BY METAL ACCESS PANELS PROVIDE BY THE ARCHITECT.
REFER TO SHEET A203 RCP FOR ACCESS PANEL LOCATION. COORDINATE
ACCESS PANELS WITH VAV BOXES AND VOLUME DAMPERS SO THAT MINIMAL
REACH IS REQUIRED FOR ACCESSIBILITY.
NEW AIR HANDLING UNIT SYSTEM (AHU-23/RF-23) SHALL NOT BE USED TO
CONDITION THE THIRD FLOOR DURING CONSTRUCTION.
Pr o
je c
t Ti
Lee's Summit, MO 64086
bcdg Project #: MU Project #:
BOB D. CAMPBELL & COMPANY
CROCKETT ENGINEERING
Missouri Certificate of Authority #000148
Missouri Certificate of Authority #000442
Missouri Certificate of Authority ####
KEYED NOTES
1 16"x16" EXHAUST DUCT UP THRU ROOF TO EXHAUST FANS EF-53A AND
EF-53B. REFER TO SHEET M120 FOR CONTINUATION.
2 9"Ø EXHAUST DUCT (EF-53A, EF-53B) DOWN TO SECOND FLOOR. REFER TO
SHEET M400 FOR CONTINUATION.
3 34"x14" EXHAUST DUCT (EF-24) DOWN TO SECOND FLOOR. REFER TO SHEET
M102 FOR CONTINUATION.
4 CONNECT NEW 34"x14 EXHAUST DUCT (EF-24) TO EXISTING EXHAUST RISER
BELOW FOURTH FLOOR SLAB.
5 34"x12" EXHAUST DUCT (EF-18) DOWN TO SECOND FLOOR. REFER TO SHEET
M102 FOR CONTINUATION.
6 CONNECT NEW 32"x12" EXHAUST DUCT (EF-18) TO EXISTING EXHAUST DUCT
BELOW FOURTH FLOOR SLAB.
7 20"x18" EXHAUST DUCT UP. TRANSITION FROM 20"x18" TO 18"x18" THRU
ROOF TO EF-51.
8 36"x36" RELIEF AIR DUCT UP THRU ROOF TO GRAVITY RELIEF HOOD AND
36"x36' DOWN TO SECOND FLOOR. REFER TO SHEET M120 AND M400 FOR
CONTINUATION.
9 12"x6" EXHAUST DUCT DOWN IN WALL TO LOW WALL EXHAUST GRILLE.
BOTTOM OF GRILLE 8" A.F.F.
10 INSTALL FAN COIL UNIT AS HIGH AS POSSIBLE WITH MASON TYPE PC30N
SPRING ISOLATORS WITH 1" DEFLECTION.
11 REBALANCE EXISTING AIR DEVICE TO CFM NOTED ON PLAN.
12 REBALANCE EXISTING DDC AIR TERMINAL UNIT FOR 955 CFM MINIMUM AND
MAXIMUM CFM.
13 40"x24" SUPPLY DUCT DOWN TO SECOND FLOOR. REFER TO SHEET M400
FOR CONTINUATION. ROTATE IN VERTICAL ABOVE THIRD FLOOR SLAB AS
SHOWN.
14 34"x24" RETURN DUCT DOWN TO SECOND FLOOR. REFER TO SHEET M400
FOR CONTINUATION.
15 SLOPE SUPPLY DUCT DOWN UNDER EXISTING BEAM AT EXTERIOR WALL.
HOLD TIGHT TO BEAM AND RISE UP ON OTHER SIDE.
16 EXISTING 30"x12" SA DUCT UP (AHU-S7-4).
17 16"x8" EXHAUST DUCT DOWN TO SECOND FLOOR . OFFSET ABOVE THIRD
FLOOR CEILING AS SHOWN AND EXTEND UP THRU ROOF TO EXHAUST FAN
EF-52. REFER TO SHEETS M102 AND M120 FOR CONTINUATION.
18 LOCATION OF DUCT STATIC PRESSURE SENSOR FOR CONTROL OF AHU-23
SUPPLY FAN VARIABLE FREQUENCY DRIVES. REFER TO SEQUENCE OF
OPERATION ON SHEET M700. ADDITIONAL DUCT PRESSURE SENSOR LOCATED ON
FIRST FLOOR. REFER TO SHEET M101 FOR LOCATION.
19 12"Ø EXHAUST DUCT (EF-51) DOWN TO SECOND FLOOR. REFER TO SHEET
M400 FOR CONTINUATION.
#
5
EXISTING 1 1/2" HWS AND HWR RISERS UP TO FOURTH FLOOR (14.0
GPM)
1 1/2"
REFER TO SHEET M000 FOR GENERAL NOTES.
HEATING HOT WATER RUN OUT SIZES TO AIR TERMINAL UNIT REHEAT COILS
SHALL BE 3/4" UNLESS NOTED OTHERWISE.
TOP OF ALL THERMOSTAT DEVICES & CARBON DIOXIDE SENSORS TO BE
48" A.F.F.
INSTALL NEW WALL MOUNTED TEMPERATURE AND HUMIDITY SENSORS 48"
A.F.F. TO TOP OF DEVICE.
GENERAL NOTES:
Pr o
je c
t Ti
Lee's Summit, MO 64086
bcdg Project #: MU Project #:
NEW WORK
U n
iv e
rs ity
BOB D. CAMPBELL & COMPANY
CROCKETT ENGINEERING
Missouri Certificate of Authority #000148
Missouri Certificate of Authority #000442
Missouri Certificate of Authority ####
KEYED NOTES
1 2" HWS AND 2" HWR DOWN TO SECOND FLOOR. REFER TO SHEET M102 FOR
CONTINUATION.
2 1" PNEUMATIC CONTROL LINE, 6" CWS, AND 6" CWR DOWN TO SECOND
FLOOR. REFER TO SHEET M102 FOR CONTINUATION.
3 CONNECT NEW 1" PNEUMATIC CONTROL LINE, 6" CWS, AND 6" CWR PIPING
TO EXISTING RISERS BELOW FOURTH FLOOR SLAB. PROVIDE PROPER VAPOR
BARRIER WHERE NEW INSULATION ABUTS EXISTING INSULATION ON CHILLED
WATER PIPING.
4 REBALANCE EXISTING VAV FOR 4 GPM.
5 INSTALL NEW VALVES AND AS MUCH PIPING AS POSSIBLE PRIOR TO
DISCONNECTING EXISTING FOURTH FLOOR RISERS FROM EXISTING HEATING
HOT WATER SYSTEM IN EXISTING NORTH MECHANICAL ROOM TO MINIMIZE
SHUT-DOWN TIME. REFER TO KEYED NOTE 4 ON SHEET MD103A. COORDINATE
FOURTH FLOOR SHUT-DOWN WITH OWNER'S REPRESENTATIVE.
6 INSTALL WALL MOUNTED NEGATIVE PRESSURE MONITOR DIGITAL INTERFACE
MODULE ON CORRIDOR WALL PER MANUFACTURERS INSTALLATION
INSTRUCTIONS. PROVIDE LABEL FOR ROOM SERVED. COORDINATE LETTERING
STYLE WTTH OWNERS REPRESENTATIVE. ROOM PRESSURE CONTROLLER SHALL BE
TRIA-TEK MODEL FMS-1655 OR APPROVED EQUAL. PRESSURE MONITOR SHALL
BE BACNET MS / TP COMPATIBLE WITH ACCURACY ± 0.5% FULL SCALE.
7 INSTALL ROOM PRESSURE SENSOR FLOW TUBE AND COVER PLATES ABOVE
DOOR PER MANUFACTURERS INSTALLATION INSTRUCTIONS. SEAL AROUND ALL
WALL PENETRATIONS WITH GASKET AND CAULK.
8 2" FUEL OIL TANK VENT DOWN TO SECOND FLOOR AND UP THRU ROOF.
REFER TO SHEET M400 AND M120 FOR CONTINUATION.
9 LOCATION OF HEATING HOT WATER SYSTEM DIFFERENTIAL PRESSURE SENSOR
FOR CONTROL OF HEATING HOT WATER PUMPS HWP-10 AND HWP-11 VARIABLE
FREQUENCY DRIVE. REFER TO DETAIL 4 ON SHEET M500 AND 4 ON SHEET
M703.
10 CONTRACTOR SHALL FABRICATE A STAINLESS STEEL DRIP PAN WITH
ROLLED EDGES ( NO EXPOSED CUT EDGES) FOR INSTALLATION UNDER FAN
COIL UNIT. SUSPEND FROM STRUCTURE ABOVE. PAN SHALL BE 3" TALL AND A
MINIMUM OF 4 INCHES BEYOND OUTLINE OF UNIT. INSTALL AN EARLY
WARNING WATER LEAK DETECTION SYSTEM IN DRIP PAN. PROVIDE SENSOR
CABLE IN PAN AND ROUTE CONTROL SIGNAL BACK TO NEAREST EMCS PANEL
AND ALARM AT EMCS. INSTALL CONDENSATE PUMP IN DRIP PAN. REFER TO
FAN COIL UNIT SCHEDULE ON SHEET M600 FOR CONDENSATE PUMP
SPEC.
11 CONNECT NEW CHILLED WATER BRANCH PIPING TO EXISTING BRANCH
PIPING AT CORRIDOR WALL. PROVIDE PROPER VAPOR BARRIER WHEN NEW PIPE
INSULATION BUTTS AGAINST EXISTING INSULATION.
12 CALIBRATED BALANCING VALVE. BALANCE FOR 1 GPM.
#
HEAT EXCHANGERHEAT EXCHANGER
AIR / DIRT SEPARATOR
1"
4"
4"
4"
1 1/4"
CONNECT TO EXISTING MAKE-UP WATER PIPING IN PSYCH BUILDING
MECHANICAL ROOM
HEATING HOT WATER PUMP ISOLATION VALVE HWP-10
HEATING HOT WATER PUMP ISOLATION VALVE HWP-11
REFER TO SHEET M101A
REFER TO SHEET M400
GENERAL NOTES:
CWR
CWS
M4"
CWR
CWS
B & G MODEL 1510, 6 G 1100 GPM @ 48' HD, 25 HP, 1200 RPM
CWS
EXISTING PLATE FRAME HEAT EXCHANGER
B & G MODEL VSX-VSH 10 6x8x10.5B, 1032 GPM @ 95' HD, 40 HP,
1800 RPM
BASEMENT PSYCH BUILDING
3"
4"
4"
6
M500
4"
5
M501
5
M501
Pr o
je c
t Ti
Lee's Summit, MO 64086
bcdg Project #: MU Project #:
BOB D. CAMPBELL & COMPANY
CROCKETT ENGINEERING
Missouri Certificate of Authority #000148
Missouri Certificate of Authority #000442
Missouri Certificate of Authority ####
NTS 2
KEYED NOTES
1 HEATING HOTWATER SYSTEM DIFFERENTIAL PRESSURE SENSOR FOR CONTROL
OF HEATING HOT WATER PUMPS HWP-10 AND HWP-11 VARIABLE FREQUENCY
DRIVES. REFER TO M101A AND M103A FOR LOCATIONS.
2 CHILLED WATER SYSTEM DIFFERENTIAL PRESSURE SENSOR FOR CONTROL OF
CHILLED WATER PUMPS CWP-10 AND CWP-11 VARIABLE FREQUENCY
DRIVES.
4 ADDENDUM 4 04-24-2017
19'-0"w. x 5'-0"h. x 24"d. OUTSIDE AIR PLENUM
MD
2
MD
3
16
15
FSD
2
2"2"
15
20"x14"
T
UH-2
21
SD
7
" C
D
CO
CO
COORDINATE FAN COIL UNIT PIPE ROUTING WITH ELECTRICAL PANELS. REFER
TO E-SERIES SHEETS.
C D
GENERAL NOTES:
Pr o
je c
t Ti
Lee's Summit, MO 64086
bcdg Project #: MU Project #:
BOB D. CAMPBELL & COMPANY
CROCKETT ENGINEERING
Missouri Certificate of Authority #000148
Missouri Certificate of Authority #000442
Missouri Certificate of Authority ####
KEYED NOTES
1 36"x36" RELIEF DUCT UP TO THIRD FLOOR. REFER TO SHEET M103 FOR
CONTINUATION.
2 9"Ø ISOLATION EXHAUST DUCT (EF-53A, EF-53B) UP TO THIRD FLOOR
WITH COMBINATION FIRE / SMOKE DAMPER IN THIRD FLOOR SLAB. REFER TO
SHEET M103 FOR CONTINUATION.
3 40"x24" SUPPLY AIR DUCT (AHU-23) UP TO THIRD FLOOR & 40"x24"
DOWN TO FIRST FLOOR. REFER TO SHEET M101 AND M103 FOR
CONTINUATION.
4 34"x24" RETURN AIR DUCT (RF-23) UP TO THIRD FLOOR & 34"x20"
DOWN TO FIRST FLOOR. REFER TO SHEET M101 AND M103 FOR CONTINUATION.
PROVIDE 45 DEGREE SHOE TAPS AT CONNECTION POINTS TO 40"x34" RETURN
MAIN.
5 16"x8" EXHAUST AIR DUCT UP TO THIRD FLOOR. REFER TO SHEET M103
FOR CONTINUATION.
6 CONNECT TO EXISTING 16"x8" EXHAUST AIR DUCT ABOVE EXISTING LAB
CEILING AND EXTEND AS SHOWN. VERIFY EXISTING DUCT SIZE IN FIELD.
PROVIDE DUCT TRANSITION AS REQUIRED.
7 9"Ø ISOLATION ROOM EXHAUST DUCT (EF-53A, EF-53B) DOWN TO FIRST
FLOOR. REFER TO SHEET M101 FOR CONTINUATION.
8 4" HWS, 4" HWR, 3" LPS, 4" CWS, 4" CWR DOWN TO FIRST FLOOR. REFER
TO SHEET M101A FOR CONTINUATION.
9 2" FUEL OIL TANK VENT PIPING DOWN TO FIRST FLOOR. REFER TO SHEET
M101A FOR CONTINUATION. OFFSET AS SHOWN AND EXTEND UP TO THIRD
FLOOR. REFER TO SHEET M103A FOR CONTINUATION. ROUTE AS HIGH AS
POSSIBLE.
10 2" HWS AND HWR UP TO THIRD FLOOR. REFER TO SHEET M103A FOR
CONTINUATION.
11 PROVIDE SHUT-OFF VALVE AND BLIND FLANGE FOR FUTURE
CONNECTION.
12 PROVIDE END OF MAIN DRIP TRAP AND EXTEND 1" LPR DOWN TO FIRST
FLOOR. REFER TO SHEET M101A FOR CONTINUATION.
13 DUCT SIZE NOTED IS BASED ON SCHEDULED AIR HANDLING UNIT. PROVIDE
DUCT SIZE BASED ON APPROVED AIR HANDLING UNIT SHOP DRAWING.
14 CONNECT NEW OUTSIDE AIR DUCT TO EXISTING INSIDE EXISTING
BUILDING AND EXTEND AS SHOWN. PROVIDE TRANSITION AS REQUIRED.
VERIFY EXISTING DUCT SIZE IN FIELD.
15 INSTALL AIRFLOW MEASURING STATION UTILIZING MANUFACTURERS
UPSTREAM AND DOWNSTREAM INSTALLATION CRITERIA.
16 20"x14" SUPPLY DUCT (AHU-23) DOWN TO FIRST FLOOR. REFER TO SHEET
M101 FOR CONTINUATION.
17 LOCATION OF CHILLED WATER SYSTEM DIFFERENTIAL PRESSURE SENSOR
FOR CONTROL OF CHILLED WATER PUMP CWP-10 AND CWP-11 VARIABLE
FREQUENCY DRIVES. REFER TO DETAIL 4 ON SHEET M500 AND 5 ON SHEET
M703.
18 PROVIDE 24"x24" ACCESS PANEL TO CLEAN AND MONITOR AFS. SEAL AIR
TIGHT.
19 PROVIDE 16"x24" ACCESS PANEL TO CLEAN AND MONITOR AFS. SEAL AIR
TIGHT.
20 CONTRACTOR SHALL FABRICATE A STAINLESS STEEL DRIP PAN WITH
ROLLED EDGES ( NO EXPOSED CUT EDGES) FOR INSTALLATION UNDER FAN
COIL UNIT. SUSPEND FROM STRUCTURE ABOVE. PAN SHALL BE 3" TALL AND A
MINIMUM OF 4 INCHES BEYOND OUTLINE OF UNIT. INSTALL AN EARLY
WARNING WATER LEAK DETECTION SYSTEM IN DRIP PAN. PROVIDE SENSOR
CABLE IN PAN AND ROUTE CONTROL SIGNAL BACK TO NEAREST EMCS PANEL
AND ALARM AT EMCS. INSTALL CONDENSATE PUMP IN DRIP PAN. REFER TO
FAN COIL UNIT SCHEDULE ON SHEET M600 FOR CONDENSATE PUMP
SPEC.
21 12"Ø EXHAUST DUCT (EF-51) UP TO THIRD FLOOR AND DOWN TO FIRST
FLOOR. REFER TO SHEET M103 AND M101 FOR CONTINUATION.
22 FLOOR DRAIN BY DIVISION 22. REFER TO P-SERIES DRAWINGS.
#
PIPING PROVIDED IN PROJECT
FUTURE CONNECTION.
GENERAL NOTES:
Lee's Summit, MO 64086
bcdg Project #: MU Project #:
BOB D. CAMPBELL & COMPANY
CROCKETT ENGINEERING
Missouri Certificate of Authority #000148
Missouri Certificate of Authority #000442
Missouri Certificate of Authority ####
FRAMING. BOTTOM OF HEAT EXHANGERS APPROXIMATELY 5'-0"
A.F.F.
2 INSTALL NEW PUMPS ON 4" HIGH HOUSEKEEPING PAD.
3 6" STEAM VENT, 4" CWR, 4" CWS, 1" LPR, 3" LPS, 4" HWR, 4"
HWS
UP TO FIRST FLOOR. REFER TO SHEET M101A FOR
CONTINUATION. COORDINATE RISER LOCATIONS WITH EXISTING
CONDUITS AND PIPING.
CAP ALL EXISTING ACTIVE PNEUMATIC TUBING AT MAINS WITH
BRASS COMPRESSION FITTINGS.
SHELVING TO BE REMOVED BY OWNER.
6 EXISTING CONDUIT TO REMAIN.
7 EXISTING ELECTRICAL PANELS, AUTOMATIC TRANSFER SWITCH,
ETC. TO REMAIN.
8 CONNECT NEW 1 1/2" PC TO EXISTING LPR MAIN AT EXISTING
CONDENSATE PUMP.
EXISTING BACKFLOW PREVENTOR AND EXTEND TO NEW
HEATING HOT WATER SYSTEM. REFER TO DETAIL 3 ON SHEET
M501.
POINT SHOWN AND CAP.
11 REMOVE PORTION OF EXISTING 3" HPR AS SHOWN. REFER TO
PLAN 1 ON THIS SHEET FOR NEW WORK.
#
2 ENLARGED MECHANICAL ROOM PC0016 - DEMOLITION
3
3
3
3
3
3
Lee's Summit, MO 64086
bcdg Project #: MU Project #:
BOB D. CAMPBELL & COMPANY
CROCKETT ENGINEERING
Missouri Certificate of Authority #000148
Missouri Certificate of Authority #000442
Missouri Certificate of Authority ####
MARK NUMBER MANUFACTURER MODEL TYPE
INLET DUCT
CFM PRIMARY MIN
(NOTE 1)
OUTLET DUCT SIZE WxH (IN) AUXILIARY HOT WATER HEATNG COIL MAX NC
LEVEL @ MAX CFM
NOTESWIDTH HEIGHT HEATING MAXIMUM
AIRFLOW (CFM) CAPACITY
(MBH) EAT (°F) LAT (°F) EWT (°F) FLOW (GPM) MAX WPD
(FT HD) MAX APD (IN WC) DISCHARGE RADIATED
EAB 1-104 TITUS DESV SINGLE DUCT PRESSURE INDEPENDENT 6" 1ST FLOOR
320 CFM 320 CFM 1.0 0.30 12" 8" 0 0 - - - 0.00 GPM - - 30 30
4
EAB 1-108 TITUS DESV SINGLE DUCT PRESSURE INDEPENDENT 5" 1ST FLOOR
220 CFM 220 CFM 1.0 0.30 12" 8" 0 0 - - - 0.00 GPM - - 30 30
4
EAB 1-118 TITUS DESV SINGLE DUCT PRESSURE INDEPENDENT 6" 1ST FLOOR
310 CFM 310 CFM 1.0 0.30 12" 8" 0 0 - - - 0.00 GPM - - 30 30
4
EAB 23-109 TITUS DESV SINGLE DUCT PRESSURE INDEPENDENT 6" 1ST FLOOR
350 CFM 350 CFM 1.0 0.30 12" 8" 0 0 - - - 0.00 GPM - - 30 30
4
EAB 23-338 TITUS DESV SINGLE DUCT PRESSURE INDEPENDENT 7" 3RD FLOOR
540 CFM 540 CFM 1.0 0.30 12" 10" 0 0 - - - 0.00 GPM - - 30 30
4
VAV 1-100 TITUS DESV SINGLE DUCT PRESSURE INDEPENDENT 7" 1ST FLOOR
390 CFM 390 CFM 1.0 0.75 12" 10" 390 13.5 55 87 180 0.70 GPM 2.0
0.25 30 30 2,3,5
VAV 1-101 TITUS DESV SINGLE DUCT PRESSURE INDEPENDENT 9" 1ST FLOOR
680 CFM 680 CFM 1.0 0.75 14" 12 1/2" 680 23.5 55 87 180 1.20 GPM
2.0 0.25 30 30 2,3
VAV 1-102 TITUS DESV SINGLE DUCT PRESSURE INDEPENDENT 7" 1ST FLOOR
445 CFM 445 CFM 1.0 0.75 12" 10" 445 15.4 55 87 180 0.80 GPM 2.0
0.25 30 30 2,3,5
VAV 1-103 TITUS DESV SINGLE DUCT PRESSURE INDEPENDENT 6" 1ST FLOOR
260 CFM 260 CFM 1.0 0.75 12" 8" 260 9 55 87 180 0.50 GPM 2.0 0.25
30 30 2,3,5
VAV 1-104 TITUS DESV SINGLE DUCT PRESSURE INDEPENDENT 7" 1ST FLOOR
380 CFM 380 CFM 1.0 0.75 12" 10" 380 13.1 55 87 180 0.70 GPM 2.0
0.25 30 30 2,3,5
VAV 1-105 TITUS DESV SINGLE DUCT PRESSURE INDEPENDENT 9" 1ST FLOOR
560 CFM 560 CFM 1.0 0.75 14" 12 1/2" 560 19.4 55 87 180 1.00 GPM
2.0 0.25 30 30 2,3
VAV 1-106 TITUS DESV SINGLE DUCT PRESSURE INDEPENDENT 4" 1ST FLOOR
150 CFM 150 CFM 1.0 0.75 12" 8" 150 5.2 55 87 180 0.50 GPM 2.0 0.25
30 30 2,3
VAV 1-107 TITUS DESV SINGLE DUCT PRESSURE INDEPENDENT 4" 1ST FLOOR
120 CFM 120 CFM 1.0 0.75 12" 8" 120 4.1 55 87 180 0.50 GPM 2.0 0.25
30 30 2,3