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Section 3 – Tender Submission Package Schedule of Price Savings

Tender Call No. 86-2017 Contract No. 17ECS-MI-02WA

The Bidder should complete the following schedule below giving the names of any items of equipment or materials they submit as equivalent to that which is specified and for which he offers the stated Price saving to the Lump Sum Tender price if any of such items is accepted by the Executive Director. If applicable, detailed information on the proposed equivalent equipment or materials shall be submitted with the Tender.

SCHEDULE OF PRICE SAVINGS

EQUIPMENT SAVING

ITEM SPEC SECTION SUPPLIERS NAME

AND ADDRESS PRICE

Total Price Saving $______________________________________________________

Note: If additional space is required, list information on an added sheet

SECTION 15330 FIRE PROTECTION SYSTEM

i

PART 1 GENERAL...................................................................................................................1

1.1 SCOPE ............................................................................................................................................. 1 1.2 RELATED SECTIONS .................................................................................................................... 1 1.3 SHOP DRAWINGS ......................................................................................................................... 1 1.4 REFERENCES ................................................................................................................................. 2 1.5 DELIVERY, STORAGE AND HANDLING .................................................................................. 2

PART 2 PRODUCTS ................................................................................................................2

2.1 GENERAL ....................................................................................................................................... 2 2.2 PIPE, FITTINGS AND JOINTS ...................................................................................................... 3 2.3 SHUT-OFF VALVES ...................................................................................................................... 3 2.4 CHECK VALVES ............................................................................................................................ 3 2.5 BALL DRIP ..................................................................................................................................... 4 2.6 SHUT-OFF VALVE SUPERVISORY SWITCHES ....................................................................... 4 2.7 ALARM SENSOR ........................................................................................................................... 4 2.8 WATER FLOW INDICATOR......................................................................................................... 4 2.9 ALARM VALVE ............................................................................................................................. 5 2.10 MOTOR ALARM ............................................................................................................................ 5 2.11 INSPECTOR’S TEST VALVE ASSEMBLIES .............................................................................. 5 2.12 SPRINKLER HEADS ...................................................................................................................... 6 2.13 FIRE HOSE CABINETS ................................................................................................................. 7 2.14 FIRE EXTINGUISHERS ................................................................................................................. 7

PART 3 EXECUTION ..............................................................................................................8

3.1 PIPING INSTALLATION ............................................................................................................... 8 3.2 INSTALLATION OF CHECK VALVES AND SHUT OFF VALVES ......................................... 8 3.3 INSTALLATION OF INSPECTOR’S TEST CONNECTION ....................................................... 8 3.4 INSTALLATION OF WATER MOTOR ALARM ......................................................................... 9 3.5 INSTALLATION OF SPRINKLER HEADS .................................................................................. 9 3.6 INSTALLATION OF SPRINKLER HEAD CABINET .................................................................. 9 3.7 INSTALLATION OF FIRE EXTINGUISHERS ............................................................................. 9 3.8 TESTS .............................................................................................................................................. 9

ROSEHILL PUMPING STATION REHABILITATION

AND STANDBY POWER INSTALLATION

CONTRACT NO. 17ECS-MI-02WA

FEBRUARY 2017

15330–1

FIRE PROTECTION SYSTEM

SECTION 15330 FIRE PROTECTION SYSTEM

PART 1 GENERAL

1.1 SCOPE

.1 Supply and install all appurtenances, fittings, and accessories necessary for a

complete functional standpipe system. Standpipe system shall be a Class II system

and include all engineering, labour, materials, equipment and service necessary,

and required, to complete and test the system. The system shall be hydraulically

designed and installed in accordance with NFPA 14 and the OBC.


complete functional pre-action sprinkler system. Pre-action system shall be a

Class II system and include all engineering, labour, materials, equipment and

service necessary, and required, to complete and test the system. The system shall

be hydraulically designed and installed in accordance with NFPA 14 and the

OBC.


complete functional wet sprinkler system. Wet Sprinkler system shall include all

engineering, labour, materials, equipment and service necessary, and required, to

complete and test the system. The system shall be hydraulically designed and

installed in accordance with NFPA 13 and the OBC.

.4 Supply and install all fire extinguishers in a locations and a position to meet all

code requirements.

.5 Refer to Drawings M017 and M018 for full extent of work. If wording between

Specification Section 15330 and Drawing Specifications conflict, contractor will

take Drawing specification as the lead.

1.2 RELATED SECTIONS

.1 Section 01330 – Submittal Procedures.

1.3 SHOP DRAWINGS

.1 Submit shop drawings in accordance with Section 01330 - Submittal Procedures.

.2 Shop drawings shall include:

.1 All products specified in this section except piping and unions.

.2 Submit complete standpipe wet sprinkler system layout drawings

including source of water supply, equipment piping schematic, pipe




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routing and sizing, and pressure gauge, supervised valve and test

connection locations.

.3 Submit complete pre-action sprinkler system layout drawings including

source of water supply, equipment piping schematic, pipe routing and

sizing, and pressure gauge, supervised valve and test connection locations.

.4 Submit pipe leakage and flow test sheets.

.5 Submit copies of calculations.

.6 Provide details on operation, servicing and maintenance, and

recommended spare parts list.

1.4 REFERENCES

.1 The latest issue (at time of Tender) of the following Codes and Standards govern

the design and installation of the fire protection work:

.1 NFPA 10 – Standard for Portable Fire Extinguishers.

.2 NFPA 14 – Standard for the Installation of Standpipe and Hose Systems.

.3 NFPA 13 – Standard for the Installation of Sprinkler Systems

.4 NFPA 25 – Inspection, Testing, and Maintenance of Water Based Fire

Protection Systems.

.5 NFPA 72 – National Fire Alarm Code.

.6 NFPA 70 – National Electric Code.

.7 Ontario Building Code (latest issue).

.8 Ontario Fire Code (latest issue).

1.5 DELIVERY, STORAGE AND HANDLING

.1 Material shall be stored and handled in accordance with manufacturer’s

instruction.

PART 2 PRODUCTS

2.1 GENERAL

.1 Conform to the latest edition of referenced standards.




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2.2 PIPE, FITTINGS AND JOINTS

.1 Black steel – Grooved Joints

.1 Mild black carbon steel, grade B ASTM A53, factory or site roll grooved

complete with:

.1 Victaulic or Gruvlok cast iron grooved end fittings conforming to

ASTM A53.

.2 Victaulic Style 960 “FIT” or Gruvlok Fig. 7105 “Sock-It” Snap-

Let type or strap type fitting are not acceptable.

.2 Black Steel – Screwed Joint

.1 Mild black carbon steel, Grade B ASTM A53, complete with Class 125

cast iron threaded fittings to ANSI/ASME B16.4 and screwed joints.

.3 Black Steel – Welded Joints

.1 Mild black carbon steel, Grade B ASTM A53, mill or site bevelled

complete with factory made seamless carbon steel butt welding fittings to

ASTM A234, Grade WPB long sweep pattern wherever possible, and

welded joints.

2.3 SHUT-OFF VALVES

.1 Minimum 1205 kPa rated ULC listed and FM approved lug body or grooved end

type ball or butterfly valves.

.2 Acceptable Manufacturers include:

.1 National Fire Equipment, GEC Alsthom butterfly type.

.2 Victaulic Co of Canada Ltd Series 727.

.3 Tyco Series 7700FP, 8000FP or BB-SCS01.

.4 Gruvlok Fig AE7722-3A.

2.4 CHECK VALVES

.1 Minimum 1205 kPa rated resilient seat ULC listed and FM approved check

Valve.

.2 Acceptable Manufacturers:

.1 Victaulic Co. of Canada Ltd Series 710/714.




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.2 Tyco Series 590/590FR.

.3 Nibco F-908-W, G-917-W, KW-900-W.

2.5 BALL DRIP

.1 20mm diameter automatic ball drip valve.


.1 National Fire Equipment Model 58-2.

.2 Tyco Series F789.

.3 Nibco RG-22100.

2.6 SHUT-OFF VALVE SUPERVISORY SWITCHES

.1 ULC listed and FM approved, tamper-proof, 24 volt or 115 volt AC supervisory

switched, each arranged to activate a fire alarm trouble condition if the valve is

closed or tampered with, and with each complete with all required mounting and

connection hardware.

.2 Acceptable Manufacturers: Potter Electric Signal Model OSYSU, System sensor

P1BV2 or OSY2, Victaulic Style 737.

2.7 ALARM SENSOR

.1 ULC listed piping mounted adjustable pressure sensor designed to actuate an

alarm upon sensing a loss of pressure in the fire protection main, the switch is to

be low voltage or line voltage as required.


.1 Viking Corp 09470.

.2 Potter Electric Signal Model PS10-1A.

2.8 WATER FLOW INDICATOR

.1 Pipe mounted water flow alarm switch, minimum 1725 kPa rated, design to

actuate two 7 amp rated SPDT Snap action switched when water flow exceeds

0.785 L/s, complete with a tamper-proof cover with pneumatic retard device with

field adjustable switch actuation delay to reduce false alarms caused by a single or

series of transient water flow surges.

.2 Signal to be sent to SCADA.





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.1 Viking Corp Model VSR-F

.2 Potter Electric Signal Model VSR-F

2.9 ALARM VALVE

.1 Alarm valve shall be UL Listed and Factory Mutual Approved. Alarm valve shall

be equipped with a removable cover/clapper assembly. Alarm valve shall be listed

for installation in the vertical or horizontal position. Alarm valve shall be

equipped with gauge connections on the system side and supply side of the valve

clapper. Alarm valve to be equipped with an external bypass to eliminate false

water flow alarms. Alarm valve trim piping to be galvanized. Valve trim shall

include a connection for a non-interruptible pressure switch. Alarm valve body to

be ductile iron and available with grooved by grooved, flanged by grooved and

flanged by flanged supply and discharge outlets, respectively. Minimum water

working pressure to be 2005 kPa.

.2 Acceptable manufacturer

.1 The Viking Corporation. Alarm Valve Model J-1.

.2 Victaulic Series 751.

.3 Tyco Model F200.

2.10 MOTOR ALARM

.1 Surface wall mounted water motor driven alarm device consisting of a water

motor assembly with 20 mm diameter inlet and 25 mm diameter drain connection

inlet strainer and red enamelled steel exterior wall mounted strike and gong

assembly.


.1 Tyco Model WMA-1

.2 Viking Model F-2

.3 National Fire Equipment Model F-2.

2.11 INSPECTOR’S TEST VALVE ASSEMBLIES

.1 Factory assembled sprinkler zone flow alarm switch, test and drain valve, sight

glass, and pressure gauges.


.1 Tyco F350 Series.




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.2 Victaulic Style 718 and Style 736.

2.12 SPRINKLER HEADS

.1 Sprinkler heads in finished area are to be chrome plated unless otherwise

specified.

.2 Exposed pendent head occurs in areas subject to damage are to be complete with

wire guards, chrome plated wire guards in finished areas.

.3 Contractor shall provide a sprinkler head cabinet, red enamelled steel, identified

cabinet with hinged door, and shelves with holes for mounting spare sprinkler

heads. Cabinet shall be sized to hold four spare head for each type of head used

on the project.

.4 Fire sprinklers shall be of one manufacturer throughout the building. No mixing

of sprinkler brands shall be permitted. Sprinklers shall be of all brass frame

construction utilizing a metal Belleville spring seal, coated on both sides with

Teflon film. Sprinklers utilizing non-metal parts in the sealing portion of the

sprinkler are strictly prohibited.

.5 Wet sprinklers shall have a 0.5 inch NPT, a small orifice, and a nominal K Factor

of 2.8 or 4.2. Sprinklers shall have a frangible bulb type fusible element.

Sprinklers to be installed in areas with no ceilings shall be of a brass finish and

shall be of adequate temperature for the hazard. Exposed sprinklers subject to

corrosive atmospheres shall have a factory applied corrosion resistant coating.

Sprinklers to be installed through a ceiling shall be chrome finish pendent

sprinklers (or finish as specified elsewhere) with an adjustable semi-recessed

escutcheon of same specified finish. Sprinklers shall be cUL Listed or FM

Approved for use in Light Hazard occupancies.

.1 Acceptable manufacturer:

.1 Viking SIN VK001 (2.8K Upright), SIN VK002 (4.2K Upright),

SIN VK003 (2.8K Pendent), or SIN VK004 (4.2K Pendent)

Vertical sidewall sprinklers SIN VK106; Tyco, Reliable.

.6 Wet Sprinklers shall have a standard or large orifice, with a nominal K Factor of

5.6 or 8.0, respectively. Sprinklers shall have a frangible bulb type fusible

element. Sprinklers to be installed in areas with no ceilings shall be of a brass

finish and shall be of adequate temperature for the hazard. Exposed sprinklers

subject to corrosive atmospheres shall have a factory applied corrosion resistant

coating. Sprinklers to be installed through a ceiling shall be chrome finish

pendent sprinklers (or finish as specified elsewhere) with an adjustable semi-

recessed escutcheon of same specified finish. Sprinklers shall be cULus Listed

and/or FM Approved.




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.1 Acceptable Manufactures: (formerly Model M) shall be Viking SIN

VK100 (5.6K Upright), SIN VK102 (5.6K Pendent), SIN VK200 (8.0K

Upright), SIN VK202 (8.0K Pendent), SIN VK118 (5.6K Conventional),

or SIN VK120 (8.0K Conventional).

2.13 FIRE HOSE CABINETS

.1 Provide National Fire Equipment Ltd. or approved equal, U.L.C. listed and F.M.

approved fire hose cabinet assemblies, each complete with:

.1 Model A156 38 mm forged brass, adjustable, pressure restricting angle

hose valve.

.2 Model A7B 38 mm forged brass combination fog nozzle adjustable for

fog, straight stream and shut-off.

.3 30 m of 38 mm diameter “Poly-Flex” hose with Model A70B0 forged

brass couplings, a Model S-4 stationary hose rack with independent

swivelling pins, and a Model S-5 automatic water stop.

.2 Recessed cabinets (FHCR) shall be “KNIGHT” (or approved equal) Model 200-2,

750 mm x 750 mm x 203 mm deep cabinets with Number 18 gauge thick prime

coat painted corrosion protected steel tubs factory finished in white enamel,

Number 14 gauge (2 mm) thick prime coat painted corrosion protected steel doors

and adjustable frames with full length semi-concealed piano hinge, “Southco”

stainless steel flush door catch, and a full panel of 5mm thick “Duo-lite” safety

glass.

.3 Surface type cabinets (FHCS) shall be “Knight” (or approved equal)

Model CS-800, similar to recessed cabinets except that there is no trim or

adjustment to the cabinet.

.4 All brass items in recessed cabinets shall have a highly polished chrome plated

finish.

2.14 FIRE EXTINGUISHERS

.1 All fire extinguishers are to be pressurized rechargeable type, in accordance with

NFPA 10 and ULC listed and labelled for the class of fires for which they are

specified (ABC type preferred).

.2 Each fire extinguisher shall be complete with:

.1 Manufacturer’s identification label attached indicating that the

extinguisher model number, rating and operating instructions.

.2 Anodized aluminium or chrome plated forged brass valve with positive

squeeze grip on-off operation and a pull-pin safety lock.




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.3 Discharge hose with nozzle or horn and hose securing clip.

.4 For wall mounted extinguisher, a wall-mounting bracket.

.3 Dry Chemical Extinguisher

.1 Multi-purpose dry chemical (ammonium phosphate) power extinguishers

are to be 2.27kg, red baked enamel finish and waterproof stainless steel

gauge. Acceptable manufacturer: National Fire Equipment Model ABC-

050HW-SH; Wilson & Cousins; Pyrene Corp.

.2 Where possible install fire extinguisher inside fire hose cabinets.

PART 3 EXECUTION

3.1 PIPING INSTALLATION

.1 Provide all required wet sprinkler system piping, pipes are to be:

.1 Up to and including 50mm diameter, Schedule 40 black steel screwed or

Schedule 5 black steel with Victaulic “Pressfit” fittings and couplings.

.2 From 65mm diameter and larger, schedule 40 black steel with grooved

ends and Victaulic fittings and couplings.

.3 As an alternative for pipe 65mm diameter and larger, Schedule 40 black

steel with welded fittings and welded joints.

.2 Slope all horizontal piping so that it drains completely through risers, equipment,

or through valve drainage branches. Provide capped hose end drain valves at low

points.

.3 All piping shall be in accordance with NFPA 14 13, and approved shop drawings.

.4 When work is complete, test system components and the overall system and

submit completed test certificate and other documentation in accordance with

NFPA 14 13.

.5 Provide insulation on all piping where it passes through unheated areas.

3.2 INSTALLATION OF CHECK VALVES AND SHUT OFF VALVES

.1 Locate shut off valves in location for easy operation and maintenance.

3.3 INSTALLATION OF INSPECTOR’S TEST CONNECTION

.1 Provide inspectors test connections with drain piping where required according to

NFPA 13. Terminate drainage piping over a funnel floor drain unless otherwise

shown.




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.2 Where drainage pipe discharge cannot be seen from the test connection valve

assembly, provide a sight glass.

3.4 INSTALLATION OF WATER MOTOR ALARM

.1 Provide a water motor alarm at the exterior wall where shown. Secure the gong on

the exterior wall, the impeller and motor assembly with the manufacturer’s

instruction. Install the inlet strained supplied loose with the assembly.

.2 Provide a galvanized steel drain pipe from the impeller motor assembly down the

interior wall and terminate the piping back out through the wall with a 45-degree

piping elbow and wall plate located 600mm above finished grade.

.3 Confirm exact location of the alarm gong prior to rough in. When installation is

complete, check and test alarm operation and adjust as required.

3.5 INSTALLATION OF SPRINKLER HEADS

.1 Provide all required sprinkler heads. Maintain maximum headroom in area with

no ceilings.

.2 Provide high temperature heads in equipment rooms and similar areas over heat

producing or generating equipment.

.3 Coordinate sprinkler head location in area with ceiling with other trades. Centre

sprinkler heads in the middle of the lay-in tile wherever possible.

3.6 INSTALLATION OF SPRINKLER HEAD CABINET

.1 Supply a full complement of spare sprinkler heads, of all type used, to fill the

cabinet. Locate the cabinet in an approved location.

3.7 INSTALLATION OF FIRE EXTINGUISHERS

.1 Provide fire extinguisher indicated in the locations shown and where required by

code. Mounting height shall meet all code requirements.

.2 Wall mounted extinguisher shall come complete with mounting bracket. Do not

install the extinguisher until the wall is finished.

.3 Extinguishers located beside doors, mount extinguisher at the strike side of the

door.

3.8 TESTS

.1 General:

.1 In accordance with NFPA, supplemented as specified herein.




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.2 Pressure test system to 1379kPa for two hours. No leakage is allowed.

.2 Arrange testing to be witnessed by authority having jurisdiction.

.3 Disposal of water used in flushing and testing:

.1 Water containing cleaning chemicals that is not acceptable for direct

discharge to the environment shall be disposed of by a company

specialized in recovering and disposing such waste.

.4 Timing:

.1 Connect fire hoses when flushing out and pressure tests have been

completed.

.2 Charge system with water when there is no possibility of freeze-up.

.5 Procedures:

.1 Verify that system is complete prior to start-up and testing procedures.

.2 Verify that ULC labels are visible.

.3 Fill system with water for pressure. Record water supply pressure.

.4 Pressure test piping system as required by authority having jurisdiction.

.5 Verify flow switches are operational.

.6 Verify valves in system are visible and monitored.

.7 Flushing: Fill with water, let stand at operating pressure for one week.

Drain risers separately, then drain main.

.1 Perform flow tests.

.8 Applicable NFPA standards such as 13 14 and 20.

.9 Adjust pressure switches.

.6 Identification:

.1 Verify devices are properly labelled, identifying area served, etc.

.7 Report:

.1 In addition to reports required by NFPA, include the following:

.1 Copy of schematic and valve schedule.




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.8 Posted Instructions:

.1 Prepare schematic, mount behind glare-free glass and install where

directed.

.2 Prepare valve schedule, mount behind glare-free glass and install where

directed.

END OF SECTION

SECTION 15710 AIR HANDLING UNITS

i

PART 1 GENERAL...................................................................................................................1

1.1 SCOPE ............................................................................................................................................. 1 1.2 RELATED SECTIONS .................................................................................................................... 1 1.3 SHOP DRAWINGS ......................................................................................................................... 1 1.4 REGULATIONS .............................................................................................................................. 2 1.5 GENERAL ARRANGEMENT ........................................................................................................ 2 1.6 WORKING DRAWINGS AND EQUIPMENT MANUALS .......................................................... 2 1.7 APPURTENANCES, FITTINGS, CONNECTING PIPING AND DUCTING AND

ACCESSORIES ............................................................................................................................... 3

PART 2 PRODUCTS ................................................................................................................3

2.1 AIR HANDLING UNIT (WTR-PRH-AHU-0001) .......................................................................... 3 2.2 AIR CONDITIONING SPLIT SYSTEMS (WTR-PRH-AC-0001) .............................................. 17

PART 3 EXECUTION ............................................................................................................18

3.1 INSTALLATION ........................................................................................................................... 18 3.2 SPLIT AIR CONDITIONING SYSTEM ...................................................................................... 18 3.3 MANUFACTURER’S SERVICES................................................................................................ 18 3.4 EXTENDED WARRANTY ........................................................................................................... 19 3.5 SPARE PARTS .............................................................................................................................. 19




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AIR HANDLING UNITS

SECTION 15710 AIR HANDLING UNITS

PART 1 GENERAL

1.1 SCOPE

.1 Supply, install, and satisfactorily operate a complete ventilating system to the full

intent of the Drawings and Specification.

.1 Power wiring and connections will be provided under Division 16,

including power wiring to the unit controller, and the wiring from the

controller to motors, starters, motorized dampers, and other electrical

equipment described in this section and required for the complete system.

.2 Control wiring will be provided by Division 15, Section 15900, as per the

control sequence describe in this section.

.3 Refer to Division 16 – Electrical for all material specifications (i.e.

conduit, wiring, boxes, etc.) and for electrical installation/workmanship

requirements.

.4 All electrical equipment must be CSA approved.

1.2 RELATED SECTIONS

.1 Basic Materials and Methods– Section 15050.

.2 Testing and Balancing – Section 15990.

.3 Ductwork and Accessories – Section 15810.

.4 Automatic Controls – Section 15900.

.5 Electrical – Division 16.

1.3 SHOP DRAWINGS

.1 Submit unit performance data including: capacity, and power input at full load

during cooling mode and natural gas rate during heating mode.

.2 Submit Mechanical Specifications for unit and accessories describing

construction, components and options.

.3 Submit shop drawings indicating overall dimensions as well as installation,

operation and services clearances. Indicate lift points and recommendations and

centre of gravity. Indicate unit shipping, installation and operating weights

including dimensions.




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AIR HANDLING UNITS

.4 Submit data on electrical requirements and connection points. Include

recommended wire and fuse sizes or MCA, sequence of operation, safety and

start-up instructions.

.5 Submit diagrams showing requirements for field assembly with air flows,

connection pipe sizes and rated air flow,

.6 Submit diagrams showing unit external electrical power and control wiring to the

control panel, and from the control panel to motors, starters, relays and interlocks

identified, and with terminal and wire numbers marked.

.7 Shop drawings submitted for approval shall be accompanied by a copy of the

purchase agreement between the Contractor and an authorized service

representative of the manufacturer for check, test and start up and first year

service.

1.4 REGULATIONS

.1 Conform to all codes, by-laws, etc. of Provincial and Municipal authorities having

jurisdiction.

.2 No additional compensation will be awarded for carrying out any conditions

embodied in such regulations.

.3 When the work as shown and as specified exceeds the minimum requirements of

such regulations, the Drawings and/or Specifications shall govern.

.4 Provide all permits, inspections, and certificates required for this Section.

1.5 GENERAL ARRANGEMENT

.1 Ductwork, position of equipment, etc., specified herein and shown on the

Drawings indicate the general arrangement.

.2 Co-ordinate the work under this Section with all other trades, in particular the

structural work and make all necessary changes or additions to the runs to

accommodate structural conditions, piping, ductwork, mechanical equipment, etc.

.3 Install the systems and apparatus in a practical and first-class manner and

guarantee all work and apparatus against defects of workmanship and material

and make good any and all defects which may develop.

1.6 WORKING DRAWINGS AND EQUIPMENT MANUALS

.1 Submit working Drawings for review for all items included in this Section.

.2 Submit all manuals required under this section.




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AIR HANDLING UNITS

1.7 APPURTENANCES, FITTINGS, CONNECTING PIPING AND DUCTING AND

ACCESSORIES

.1 Supply and install all appurtenances, fittings, ductwork and accessories necessary

for the proper functioning of the system or reasonably inferable from the

Drawings with the equipment, whether indicated on the Drawings or specified

herein, or not.

PART 2 PRODUCTS

2.1 AIR HANDLING UNIT (WTR-PRH-AHU-0001)

.1 General:

.1 Provide self-contained indoor unit, factory assembled, wired and tested,

supplying air at designed conditions, as indicated in mechanical schedule

and Contract Drawings. Horizontal outdoor type, as shown in mechanical

drawing consisting cabinet, fan, motor, filters, hot water heating coil,

control valves and piping specialties, piping vestibule, inlet dampers, inlet

hood and controls.

.2 Unit fans shall be direct drive, complete with factory mounted VFD for

capacity control.

.3 Unit shall be 100% factory run tested and fully charged with refrigerant

and oil.

.4 Unit shall have labels, decals, and/or tags to aid in the service of the unit

and indicate caution areas.

.5 Wiring internal to the unit shall be coloured and numbered for

identification.

.6 Substitution of any product other than that specified, must assure no

deviation below the stated capacities, air flow rate, heat transfer rate,

filtration efficiency and air mixing quality. Power requirements must not

be exceeded, and where specifically defined, sound power levels must not

be exceeded.

.7 Unless stated otherwise, air handling units are to be shipped to the job in

one piece, factory assembled. All equipment shall where specified and

applicable, be pre-wired, and factory certified by an approved testing

agency such as CETL, CSA prior to shipment.

.8 Pre-wired air handling unit shall bear an approved label with all the

necessary identification marks, electrical data, and any necessary cautions

as required by the National Electric Code, Part 2 (Canada), and the

Ontario Electric Code.




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AIR HANDLING UNITS

.9 Manufacturer shall have a fully implemented and auditable quality

assurance program, equal to the ISO-9002 Quality Standard.

.10 Acceptable Manufacturer: Venmar CES (Basis of Design), Engineered

Air, Temprite, McQuay.

.2 Unit Construction

.1 Unit Base and Floor

.1 Unit perimeter base shall be completely welded and constructed

from 152 mm (6 ft) structural tubing, and shall accommodate curb

or concrete pad installation as shown on drawings.

.2 Floor panels shall be 14 gauge welded steel.

.3 Unit base under liners shall be made of 24 gauge galvanized steel.

Base frame construction shall include 2-stage thermal break, using

gasket between base floor framing and under liners underneath,

and floor membrane on top.

.4 Entire base frame is to be painted with a phenolic coating for long

term corrosion resistance. Base frame shall be attached to the unit

at the factory. When rigging, base frame deflection shall be less

than 1/360 of the unit length. All major components shall be

supported by the base without sagging or pulsating.

.2 Unit Casing

.1 Unit base under liners shall be made of 24 gauge galvanized steel.

Base frame construction shall include 2-stage thermal break, using

gasket between base floor framing and under liners underneath,

and floor membrane on top.

.2 Exterior casing panels shall be attached to the gasketed 25 mm x

51 mm (1 inch x 2 inch) steel frame with corrosion resistant

fasteners.

.3 Unit panels shall be made of 16 ga. galvanized steel outer liners

and 22 ga. galvanized inner liners. Surfaces shall be epoxy or

heresite coated. Air leakage shall be determined at 1.00 times

maximum casing static pressure up to 8 inches w.g. Specified air

leakage shall be accomplished. Total estimated air leakage shall

be reported for each unit in CFM, as a percentage of supply air,

and as an ASHRAE 111 Leakage Class.




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AIR HANDLING UNITS

.4 All panel seams shall be caulked and sealed for an airtight unit.

Leakage rates shall be less than 1% at design static pressure or

8 inch W.C. whichever is greater.

.3 Double Wall Construction

.1 Units shall entirely be made of double wall construction. Single

wall construction with coated insulation is not acceptable. Exposed

insulation edges in the air stream are not acceptable.

.2 Unit panels shall be made of 16 ga. galvanized steel outer liners

and 24 ga. galvanized inner liners. Outer casing shall be epoxy or

heresite coated.

.4 Insulation

.1 Unit wall and roof panels shall be insulated with 76 mm (3 inch)

thick, R12.9, 2.5 lb/cu. ft. non-compressed mineral wool

insulation.

.2 Insulation shall meet the erosion requirements of UL 181 facing

the air stream and fire hazard classification of 25/50 (per ASTM-

84 and UL 723 and CAN/ULC S102-M88). All insulation edges

shall be encapsulated within the panels. All perforated sections

shall have insulation with black acrylic coating.

.3 Unit base shall be internally insulated with 102 mm (4 inch), R13.3

fiberglass.

.5 Access Doors

.1 Full size access door(s) allowing for periodic maintenance and

inspections shall be provided for all serviceable components as

shown on the plans. Removable panels are not acceptable.

.2 Doors shall be solid double wall insulated construction. Insulation

shall be the same as unit panels. Both the inner and outer liners

shall be made of the same material as unit cabinet outer liner

construction. The door hinge assembly shall be die cast zinc with

stainless steel pivot mechanism, completely adjustable.

.3 The door gasketting shall employ a double seal comprising of an

adhesive neoprene compressible foam gasket on the outer door

panel and an “automotive style” neoprene bulb gasket fixed onto

the inner door frame for out-swing doors, “rippled” foam for in-

swing doors.




FEBRUARY 2017

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AIR HANDLING UNITS

.4 Provide a minimum of two heavy duty cast; UV rated; nylon

handles per door. Door handles shall be operable from both inside

and outside of the unit. On all access doors where moving parts

could cause injury, an ETL, UL 1995, and OSHA approved tool

operated safety latch shall be provided.

.3 Fans:

.1 Fans shall be multiple direct driven, arrangement 4 direct drive plenum

fans.

.2 Fans shall be constructed per AMCA requirements for Class III duty.

.3 Each fan/motor assembly shall be removable through a 30 inch (762 mm)

wide open area. Access door located on the discharge side of the Fan.

.4 All motors shall be IEEE inverter duty, premium efficiency TEFC or

TEAO T-frame motors.

.5 All motors shall include isolated bearings or shaft grounding. All motors

shall be provided with an AEGIS bearing protection ring to prevent

Electrical Discharge Machining (EDM) damage to the motor bearings.

.6 Each fan/motor assembly shall be dynamically balanced to meet AMCA

standard 204-96, category BV-2.5, Grade 1.0 with peak to peak deflection

equal to or less than 0.8 mil at the design operating speed for the

fan/motor cartridge.

.7 Provide a complete electrical system required to run the fan including all

equipment, material, electrical enclosure and electrical components.

.8 All motors shall be provided with individual Motor Protection for thermal

overload protection. All motor circuit protectors shall be located in main

enclosure.

.9 Means for monitoring and controlling individual fan and motor status shall

be provided.

.4 Motors:

.1 Motors shall meet or exceed all NEMA Standards Publication MG1-2006

requirements and comply with NEMA Premium efficiency levels when

applicable. Motors shall comply with applicable requirements of NEC and

shall be UL Listed.

.2 Motors shall have a ±10 percent voltage utilization range to protect against

voltage variation.




FEBRUARY 2017

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AIR HANDLING UNITS

.5 Filters:

.1 2-inch pleated media filters made with 100% synthetic fibers that are

continuously laminated to a supported steel-wire grid with water repellent

adhesive shall be provided. Filters shall be capable of operating up to 625

fpm face velocity without loss of filter efficiency and holding capacity.

The filters shall have a MERV 8 rating when tested in accordance with the

ANSI/ASHRAE Standard 52.2.

.2 A factory-installed dial type differential pressure gage shall be piped to

both sides of the filter to indicate status. Gage shall maintain a +/- 5%

accuracy within operating temperature limits of -20°F to 120°F. Gage

shall be flush mounted with casing outer wall. Filter sections consisting of

pre- and post- filters shall have a gage for each.

.3 Filter racks shall be completely factory assembled and designed for

industrial applications. Filter racks shall be fabricated from no less than 16

gauge stainless steel.

.6 Dampers:

.1 All dampers, shall be internally mounted. Dampers shall be premium

ultra-low leak and located as indicated on the schedule and plans. Blade

arrangement (parallel or opposed) shall be provided as indicated on the

schedule and Contract Drawings. Dampers shall be Ruskin CD60 double-

skin airfoil design or equivalent for minimal air leakage and pressure drop.

Tamco dampers are approved equal.

.2 Leakage rate shall not exceed 4 CFM/square foot at one inch water gauge

complying with ASHRAE 90.1 maximum damper leakage and shall be

AMCA licensed for Class 1A.

.3 All leakage testing and pressure ratings shall be based on AMCA Standard

500-D.

.4 All dampers shall come complete with NEMA 4 actuators.

.7 Electric Heating

.1 Electric heating coils shall meet or exceed the size, wattage and number of

steps, and match the input and control voltages as specified in the

equipment schedule.

.2 Heater frames shall be constructed from heavy gauge 316 stainless steel to

assure structural rigidity and have vertical 316 stainless steel supports.




FEBRUARY 2017

15710–8

AIR HANDLING UNITS

.3 Heater coil elements shall be of a a high grade open wire nickel-chrome

alloy complete with a stainless steel sheath and shall be insulated by

floating ceramic bushings from the stainless steel frame.

.4 Coil terminal pins shall be stainless steel insulated by means of non-

rotating ceramic bushings.

.5 Heaters shall be equipped with protective screens on both sides of the coils

for maintenance and safety purposes.

.6 Heaters shall be equipped with the following controls and components:

automatic and supplementary manual reset thermal cut-out switches; air

proving switch; electrical fan interlock; load fuses; control transformers

and magnetic contactors (as required). All safety devices shall be

serviceable through the terminal box without removing the heating coil

from the air handler.

.7 Heaters shall be UL/CSA approved.

.8 Heater shall have SCR controller staging (100% proportional or with

sequential stages) with a 4-20 mA reset from the unit mounted DDC

controller.

.8 DX Cooling Section (WTR-PRH-CU-0001):

.1 Coils shall be tested to be leak-free with nitrogen or dry (at least 300 psig)

air underwater. Standard construction connections shall be sweat-soldered

and constructed of copper. Distributor shall be designed to have a

removable nozzle to allow for installing an auxiliary side connection for

hot gas bypass.

.2 Coil Tube Size shall be 13mm, coil wall thickness shall be 0.035 inch

(0.9 mm) and Fins shall be made of 0.0075 inch (0.2 mm) thick aluminum

and mechanically bonded to copper tubes.

.3 Coils shall be coated with heresite corrosion resistant coating.

.4 Heat Transfer Module (Pump Skid):

.1 Transfer Module has been sized with higher then anticipated

incoming water temperature of 10C. Heater Exchanger

Performance:

Design Basis

Model DBL95-60

Load Source

Flow: 4.4 L/s Flow: 5.0 L/s




FEBRUARY 2017

15710–9

AIR HANDLING UNITS

EWT/LWT:

30/23.8

EWT/LWT:

18.3/23.8

.1 Module will be composed of a single pump, one heat

exchange, balancing valves, isolation valves, air vents and

drain connections, multifunction valves, suction diffusers

or Y strainers, interconnecting black steel schedule 40

piping. All package components are mounted on a

structural steel base with lifting lugs.

.2 Pre-assembling, testing and final adjusting at the factory,

allows the module will be on-site ready for mechanical and

electrical system connections.

.1 Components included:

.2 Vertical-in-Line Pump

.1 Volute: Cast Iron Class 30 (ASTM No. A 159), suction and

discharge side flanged connections. Threaded connections

for pressure gauges at the inlet and discharge flanges, for

venting and draining, and for optional thermometer. A pitot

tube type flow meter, Flo Fab series FMI, can be supplied

and installed on the discharge of the volute, taking

differential pressure readings and confirming pump

capacity. Incorporated in the volute casting is a solid base

with four anchor holes and a connection to drain that can

accommodate a valve with bronze cap, model HN0050.

The volute includes a wear ring that is replaceable.

Maximum operating pressure is 1200 kPa (175 psi).

.2 Impeller: Cast Bronze (ASTM No. B 584), closed type,

dynamically balanced, keyed to the stainless steel shaft and

secured by a stainless steel bolt and washer.

.3 Shaft: stainless steel, fitted with bronze sleeve and butane

O-ring.

.4 Sealing: The wet-end components are sealed with a self-

lubricating mechanical seal. The seal is composed of a

ceramic seat, a rotating carbon ring, a viton bellow and all

other materials in stainless steel. It is designed for

continuous operation at maximum working temperature of

400°F (205°C) corresponding to a maximum working

pressure of 1724 kPa (250 psi).




FEBRUARY 2017

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AIR HANDLING UNITS

.5 Coupling: No coupling design, impeller is directly coupled

to the motor shaft.

.6 Motor: respecting the requirements of Section 15010.

Motor and pump are designed for vertical mounting.

Motors equipped with grease lubricated heavy duty ball

bearings, suitable for maximum loads created by the pump.

Motor type JM, high performance class B with a safety

factor of 1.15.

.7 Selection of motor will allow the pump to operate at

maximum capacity without surpassing the maximum

amperage draw on the motor.

.8 Each pump is hydrostatically tested.

.9 Acceptable component: Flo Fab Series 880.

.3 Plate and Frame Heat Exchanger:

.1 General:

.2 Furnish as shown on the plans, a Plate and Frame heat

exchanger as manufactured by Flo Fab Inc. Exchanger shall

be counter flow arrangement with capacities as noted on

the drawings and meeting the following construction

requirements.

.3 Manufacturing Standards:

.4 The heat exchanger shall be built in accordance with

manufacturer’s standard construction. When so required,

the plate heat exchanger shall be manufactured in

accordance with the applicable sections of the ASME code

of Unfired Pressure Vessels, Section VIII, Div 1, and latest

edition. Whether the unit is stamped or unstamped, the

factory must hold a valid “U”- stamp certification and QC

manual for ASME plate heat exchangers

.5 Service Conditions:

.6 The working pressure and temperature of the unit shall be

as shown in the drawing. Test pressure shall be 1.3 times

the design pressure.

.7 Frame:




FEBRUARY 2017

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AIR HANDLING UNITS

.8 Frame shall be carbon steel of at least grade SA 516/70 or

60. Frame shall be sandblasted, coated with a zinc-rich

primer, and finished with two coats of epoxy enamel. The

moveable cover shall be supported from the upper carry bar

by means of a roller for unit’s 6” port and larger. Frame

covers shall be of sufficient thickness so as not to require

the use of horizontal reinforcing bars. Welded

reinforcements or stiffeners are not permitted. Connections

equal to or less than 2” shall be stainless steel 316 L male

NPT. Connections equal or larger than 2.5” shall be 150

psig ANSI flange design. Carrying and guiding bars design

shall permit the removal or access to any plate in the plate

pack without the need to remove any other plates.

Compression bolts shall be provided in material SA 193 B7

and coated with zinc plating. The open bolt ends shall be

covered with a plastic mesh.

.9 Plates:

.10 Plates shall be embossed with a horizontal herringbone

pattern in high or low thermal length design as required.

Plate material shall be AISI 316 stainless steel or Titanium.

The inlet port area shall be designed with sloping lead-in

grooves so as to minimize pressure drop in that area. The

plate shall be designed with an integral plate locking

system. The hanger area shall feature a locking lip, which

engages the adjacent plate in order to ensure proper

alignment. Absolutely no reinforcement shall be welded to

the plates. All plates shall be pressed in a single-stage

operation. Plate thickness shall be determined by the

pressure rating and shall be indicated by the manufacturer

on the submittals.

.11 Gaskets:

.12 Gaskets shall be a molded one-piece design. Gaskets shall

be of a molded one-piece design with venting holes in the

port areas to avoid cross-contamination. The gasket

material shall be NBR, EPDM, or Viton elastomer. The

gasketing system shall be glue less, with gaskets attached to

the plates by means of integral clips or tabs.

.13 Shroud:

.14 Unit shall be supplied with standard OSHA-Compliant

safety shroud in galvanized steel or stainless steel.




FEBRUARY 2017

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AIR HANDLING UNITS

.15 Acceptable Components: Flo Fab Series FFS.

.4 Water Make-up Line

.1 ¾” makeup water system shall be provided. This system

shall include a pressure reducing valve set at specific

pressure. The valve includes a shut-off valve, y strainer,

pressure gauge and manual by-pass.

.9 DX Cooling Section:

.1 Condensing unit, shall be manufactured as a remote system, by the unit

Manufacturer. Systems where the unit Manufacturer is purchasing a

condensing unit from another Manufacturer are not acceptable.

.2 Refrigeration section shall be designed for full and easy access for

maintenance. Entire refrigerant piping circuit shall be leak tested at

150 psig air pressure.

.3 Capacity modulation shall be provided by modulation capacity compressor

and/or by hot gas bypass on lead compressor(s).

.4 Refrigerant circuit components shall include: thermal expansion valve;

distributor; liquid line filter drier; charging valve and high and low

pressure side gauge ports.

.5 All refrigerant piping shall be of K, L or ACR copper type. The complete

system shall be factory dehydrated and pressure tested at 300 psi; the

system shall then be factory charged with refrigerant.

.6 Suction and hot gas bypass lines shall be insulated with 3/8 inch (10 mm)

thick elastomeric pipe insulation. Field installation and piping shall be the

responsibility of the installing contractor.

.7 Safety controls shall include a high and low refrigerant pressure switch on

each circuit for protection against loss of charge.

.8 Each refrigerant circuit shall include DDC controlled compressor anti-

cycling.

.9 Unit water inlet and water outlet lines shall be clearly identified with the

use of labels showing “water inlet” and “water outlet” near the point of

connection to the building’s water network.

.10 Each refrigerant circuit shall include externally equalized thermostatic

expansion valve and reversing valve. Safety controls shall be manual reset

on both low and high pressure sides.




FEBRUARY 2017

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AIR HANDLING UNITS

.11 Condenser shall be of double wall coaxial tube-in-tube type, provided with

copper inner tubes and steel outer tubes (shells), selected with 15°F

(−9°C) sub-cooling, and have maximum working pressures of 400 psig on

the waterside and 620 psig on the refrigerant side. Condensers shall be UL

and CSA approved.

.12 Head pressure control valves, actuator modulated, controlled by DDC via

pressure reading (mechanical valves not controlled via DDC are not

acceptable).

.13 Water-to-refrigerant coaxial coil tubes shall be made from cupronickel for

corrosion resistance.

.14 Provide water shut-off valves, actuator modulated, controlled by DDC.

.10 Controls:

.1 All wiring and electrical connections shall be of copper wires, copper bus

bars, and copper fittings throughout, except internal wire of the control

transformer may be aluminum, if copper termination is provided. Power

supply terminals shall be identified with permanent markers. The

maximum temperature of terminals shall not exceed 167°F (75°C) when

the equipment is tested in accordance with its rating.

.2 All high voltage wiring conduit shall consist of Liquidtite flexible metal

conduit. All low voltage and signal wiring shall consist of Belden cable.

.3 The unit shall feature a mounted permanent nameplate displaying at a

minimum the manufacturer, serial number, model number, date of

manufacture, and current and voltage readings. The unit must have an

ETL or UL Listing and bear the appropriate mark.

.4 An integral electrical control compartment shall be furnished on the unit.

The compartment shall be constructed to NEMA 4 requirements, provided

with a hinged access door and a locking device. All components, except

those not mounted directly in the unit, shall be factory-mounted and wired

to a labelled terminal strip.

.5 All components and wiring shall be identified using printed self-adhesive

labels, consistent with the numbering used in the wiring diagrams. Control

components shall include, but not limited to, single point connection

power distribution block, sub and control circuit fuses or circuit breakers,

control transformers, motor starters and overloads for single speed

operation. All low voltage internal wiring shall also be numbered and

labeled.




FEBRUARY 2017

15710–14

AIR HANDLING UNITS

.6 The control system shall be factory mounted in the control compartment

and shall be a stand-alone microprocessor-based DDC controller with

necessary sensors and interfaces to monitor and operate all functions as

outlined in the equipment/control schedule, flow schematic, sequence or

required for complete unit operation. A unit-mounted intelligent

programmable interface device shall be included for communication,

display and set-point control and a Hand/Off/Auto switch to allow for

servicing.

.7 Manufacturer to provide a VFD for supply fan operation and control. The

VFD is to be unit mounted and wired at the factory.

.8 All sensors for unit control to be factory wired and installed. These

sensors shall include: Outside air, supply air, entering water temperature,

leaving water temperature, low limit, high limit, and unit airflow.

.9 Heating control valves to be factory installed, piped and wired. Piping

system shall include 3-way control valve, circuit balancing valve with

flow ports at inlet and bypass lines, drain down valve, and isolation valves

at inlet and outlet.

.10 Control panel compartment heaters and thermostats or cooling fans with

grills or registers shall be provided if control panels components cannot be

protected from their minimum or maximum ambient temperature ratings.

.11 Electric/Electronic Actuators: The actuators for the outside air and return

air are spring return type. Actuators shall be NEMA 4 rated.

.12 Disconnects shall be NEMA 4 rated and factory mounted.

.13 Provide on the unit control panel the following:

.1 Auto/Hi/OFF Switch.

.2 Clogged filter indication.

.3 Loss of air flow indication light.

.4 “ON” indication light.

.5 Remote “Unit ON” status (dry contact for PLC, Unit mounted,

120V).

.6 Remote “Clogged filter” status (dry contact for PLC, Unit

mounted, 120V).




FEBRUARY 2017

15710–15

AIR HANDLING UNITS

.7 Unit General Fault Alarm - panel mounted and provide dry contact

for PLC (Unit fault alarm shall include failure to go to higher

speed, 120V).

.8 Note: Acceptable pilot light designation is RED = OFF and

GREEN = ON.

.11 Humidistat

.1 Wall-mounted humidistat to control the mechanical cooling of Air

Handling Units ON/OFF.

.2 The setpoint can be set at between 10 and 100% RH.

.12 Room Temperature Sensor

.1 General Requirements:

.1 The temperature sensor shall be of the resistance type, and shall be

either two-wire 10k ohm thermistor, or two-wire 1000 ohm

platinum RTD.

.2 Room sensors shall be constructed for either surface or wallbox

mounting.

.2 Approved manufacturer: Honeywell, Rosemount, Ashcroft.

.13 Control sequences:

.1 Refer to Section 15900 – Automatic Controls.

.14 Controls:

.1 Controller shall be a microprocessor based, multi-asking, real time digital

control processor, and shall have sufficient memory to support its own

operating system and databases, including control processes, energy

management applications, operator I/O and local alarm management.

Controller set points, proportional bands, control algorithms, and any other

programmable parameters shall be stored such that a power failure of any

duration does not necessitate reprogramming the controller.

.2 Provide a system of motor control, including all necessary terminal blocks,

motor contactors, motor overload protection, grounding lugs, control

transformers, 600V/120V transformer, auxiliary contactors and terminals

for the connection of external control devices, relays, and output alarms.

.3 A unit-mounted intelligent programmable interface device shall be

included for communication, display and set-point control. The feature of




FEBRUARY 2017

15710–16

AIR HANDLING UNITS

room temperature display and supply air temperature shall be incorporated

in the panel.

.4 Hinged door housing for control panel, with

.1 Indication lights for Power, Supply fan high speed, Supply fan low

speed, Heating ON, Compressor ON, Dirty Filter, AHU General

Fault.

.2 LCD Screen shows supply air temperature, room temperature and

air flow detected from air flow measurement station.

.3 HOA switch.

.5 In AUTO mode, the AHU shall be energized and operate based on the

sequence described above. Circuit wired to allow shutdown of system

when a fire alarm dry contact, by others, opens.

.6 In HAND modes, the AHU and exhaust fan runs continuously at full

speed, with no temperature/humidity set point control in the duration timer

set greater than 0 hour on the panel. Circuit wired to allow shutdown of

system when a fire alarm dry contact, by others, opens.

.7 Auto bypass low limit will stop unit operation if the supply air temperature

falls below 4.4°C (adjustable) for longer than the time set-point (240

seconds, adjustable) . The fresh air damper will be closed. The unit shall

remain shutdown until manually reset or until temperature rises above

12°C (adjustable).

.8 A high supply air temperature function, internal to the controller will be

provided to send a fault and stop unit operation; if the supply air

temperature is above set-point 52°C (adjustable) for longer than the time

set-point (240 seconds, adjustable).

.9 Dry contacts for Occupied Mode and Unoccupied Mode signals from

CP-1.

.10 Relay to stop the unit at gas alarm signal from gas detection controller

CP-5.

.11 4-20 mA signals to CP-1 to indicate room temperature and supply air

temperature.

.12 Dry contacts for remote indication to CP-1 for supply fan high speed and

low speed status, running, HAND, OFF, unit filter dirty, unit general fault

alarm which includes:

.1 High temperature shutdown.




FEBRUARY 2017

15710–17

AIR HANDLING UNITS

.2 Low temperature shutdown.

.3 No flow is detected for supply air fan by pressure differential

switch while commanded ON, or fails to change from low speed to

high speed, or from high speed to low speed.

.4 Unit does not allow the switch from low flow rate to high flow

rate, or back to low flow rate.

.5 No air flow is detected by air proving switch.

.13 Indicating air flow rate at 4-20 mA signal from flow measurement station.

.15 Electrical

.1 Electrical characteristics of unit shall be as shown in the schedule on the

contract drawings.

.2 575V/3Ph/60Hz combination breaker power disconnect switch with

handle on the controller door interlocked with the door.

.3 Provide full voltage magnetic starters for all motors.

.4 The unit shall be equipped with circuit breakers for circuit protection. All

electrical circuits shall undergo a dielectric strength test, and shall be

factory tested and checked as to proper function.

.5 Fire alarm circuits (where required) shall be powered from a relay in unit

circuitry.

.6 Only one power source is required to power the unit.

2.2 AIR CONDITIONING SPLIT SYSTEMS (WTR-PRH-AC-0001, WTR-PRH-CU-0002)

.1 General

.1 Package system, factory assembled and tested with pre-charged

refrigeration piping, refrigerant and oil charge.

.2 Ready for connection of electric power at evaporator unit and condensing

unit and control wiring between units.

.3 Provide non-fused power disconnect switch for each of evaporator and

condensing unit.

.4 Provide full voltage magnetic starters for all motors.

.5 Approved manufacturers: Mitsubishi Electric, Johnson Controls, Carrier,

McQuay.




FEBRUARY 2017

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AIR HANDLING UNITS

PART 3 EXECUTION

3.1 INSTALLATION

.1 Secure the units in place, level and plumb. Coordinate installation with other

trades. Coordinate location of control panel before installing.

.2 Complete the power from electrical main panel to the unit control panel, and the

power and control wiring from the control panel to the each electrical elements in

the unit, and the auxiliary electrical equipment in the ventilation system.

.3 Install the unit as per manufacturer’s instruction. Complete drain connection with

proper P trap.

.4 Do not use units during construction unless approval has been giving by the

owner. If units were used during construction, units must be thoroughly clean

before finial testing.

3.2 SPLIT AIR CONDITIONING SYSTEM

.1 Install evaporator unit in space, route drain piping as shown.

.2 Install condensing unit with adequate clearance for service and maintenance.

.3 Run refrigeration suction and liquid piping as shown in accordance with

manufacturer’s instructions with respect to horizontal and vertical length

limitations.

.4 Charge systems and leak test in accordance with manufacturer’s instructions.

.5 Provide un-fused weatherproof disconnect on or adjacent condenser and

evaporator units and run electric power and control wiring.

.6 As required, depending on manufacturer, sub-feed electrical power for evaporator

unit from condenser unit.

.7 Provide sheet-metal wind-baffle shield on condenser as required by

manufacturer's instructions for low ambient operation.

.8 Arrange for manufacturers’ field representative to supervise installation, start-up

system and instruct Owners operations and maintenance personnel.

3.3 MANUFACTURER’S SERVICES

.1 Manufacturers Services and Certificate of Proper Installation: Provide

manufacturers services in accordance with Section 01640 and Manufacturers

Certificate of Proper Installation. Manufacturer’s representation shall provide

supervision of equipment installations, field inspection of equipment before




FEBRUARY 2017

15710–19

AIR HANDLING UNITS

startup, and the executed copies manufacturers services and Certificate of Proper

Installation.

.2 Duration of Training: The training of Owner's personnel shall include, but not

limited to, one hour for each air-handling unit.

3.4 EXTENDED WARRANTY

.1 General contractor to carry an extended warranty for equipment maintenance for

1 year after the completion of the contract.

3.5 SPARE PARTS

.1 Provide one set of spare filters and a complete set of fans belts.

END OF SECTION

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mb

erP

aren

t S

ite

Nam

eO

rig

inal

Eq

uip

men

t N

um

ber

En

tity

Typ

eE

nti

ty

Cla

ssif

icat

ion

En

tity

Cat

ego

ryC

riti

calit

yS

ervi

ce

dat

eE

nti

ty L

oca

tio

n D

escr

ipti

on

Pri

ori

tyP

lan

ner

Su

per

viso

rA

llow

ch

arg

es

(Yes

/No

)S

eria

l n

um

ber

WT

R-P

RH

-LB

-010

3

Gen

erat

or B

reak

er L

B-0

103,

Loa

d B

reak

er S

witc

h,S

witc

hgea

r E

lect

rical

R

oom

WT

RW

TR

-PR

H-L

B-0

103

WT

RN

o E

xist

Ele

ctric

al E

quip

men

tLo

ad B

reak

Sw

itch

Load

Bre

ak S

witc

hS

witc

hgea

r-E

lect

rical

Roo

m

WT

R-P

RH

-LB

-020

3

Gen

erat

or B

reak

er L

B-0

203,

Loa

d B

reak

er S

witc

h,S

witc

hgea

r E

lect

rical

R

oom

WT

RW

TR

-PR

H-L

B-0

203

WT

RN

o E

xist

Ele

ctric

al E

quip

men

tLo

ad B

reak

Sw

itch

Load

Bre

ak S

witc

hS

witc

hgea

r-E

lect

rical

Roo

m

WT

R-P

RH

-JIT

-000

1T

ie B

reak

er M

anag

emen

t Rel

ay, S

R-

735,

Sw

itchg

ear

Ele

ctric

al R

oom

WT

RW

TR

-PR

H-L

B-0

001

WT

RN

o E

xist

Ele

ctric

al E

quip

men

tP

rote

ctiv

e R

elay

Rel

ay,P

rote

ctiv

eS

witc

hgea

r-E

lect

rical

Roo

m

WT

R-P

RH

-JIT

-000

1AS

yncr

oniz

e C

ontr

ol R

elay

, SC

R-

,Sw

itchg

ear

Ele

ctric

al R

oom

WT

RW

TR

-PR

H-J

IT-0

001A

WT

RN

o E

xist

Ele

ctric

al E

quip

men

tP

rote

ctiv

e R

elay

Rel

ay,P

rote

ctiv

eS

witc

hgea

r-E

lect

rical

Roo

m

WT

R-P

RH

-JIT

-000

1BS

yncr

oniz

e C

ontr

ol R

elay

, SC

R-

,Sw

itchg

ear

Ele

ctric

al R

oom

WT

RW

TR

-PR

H-J

IT-0

001B

WT

RN

o E

xist

Ele

ctric

al E

quip

men

tP

rote

ctiv

e R

elay

Rel

ay,P

rote

ctiv

eS

witc

hgea

r-E

lect

rical

Roo

m

WT

R-P

RH

-LP

-000

2Li

ghtin

g P

an L

P-0

002,

Gen

erat

or

Roo

m

WT

RW

TR

-PR

H-L

P-0

002

WT

RN

o E

xist

Ele

ctric

al E

quip

men

tLi

ghtin

gC

ontr

ol P

anel

,Lig

htin

gG

ener

ator

Roo

m

WT

R-P

RH

-DP

-000

1P

ower

Dis

trib

utio

n P

anel

DP

-000

1 G

ener

ator

Roo

mW

TR

WT

R-P

RH

-DP

-000

1W

TR

No

Exi

stE

lect

rical

Equ

ipm

ent

Pow

er D

istr

ibut

ion

Pan

elC

ontr

ol P

anel

,Pow

er

Dis

trib

utio

n P

anel

Gen

erat

or R

oom

WT

R-P

RH

-MC

C-0

102

Mot

or C

ontr

ol C

entr

e M

CC

-01

02,S

witc

hgea

r E

lect

rical

Roo

mW

TR

WT

R-P

RH

-MC

C-0

102

WT

RN

o E

xist

Ele

ctric

al E

quip

men

tM

otor

Con

trol

C

entr

eC

ontr

ol P

anel

,MC

CS

witc

hgea

r-E

lect

rical

Roo

m

WT

R-P

RH

-MC

C-0

102

Mot

or C

ontr

ol C

entr

e M

CC

-01

02,S

witc

hgea

r E

lect

rical

Roo

mW

TR

WT

R-P

RH

-MC

C-0

102

WT

RN

o E

xist

Ele

ctric

al E

quip

men

tM

otor

Con

trol

C

entr

eC

ontr

ol P

anel

,MC

CS

witc

hgea

r-E

lect

rical

Roo

m

WT

R-P

RH

-CB

-020

2

Circ

uit B

reak

er C

B-

0202

,Mai

n,60

0V,R

oseh

ill P

umpi

ng

Sta

tion,

MC

C-0

101/

0201

WT

RW

TR

-PR

H-C

B-0

202

WT

RW

TR

-PR

H-C

B-0

202

Ele

ctric

al E

quip

men

tC

ircui

t Bre

aker

Circ

uit B

reak

erM

CC

-010

1/02

01 P

ump

Roo

m

WT

R-P

RH

-CB

-010

2

Circ

uit B

reak

er C

B-

0102

,Mai

n,60

0V,R

oseh

ill P

umpi

ng

Sta

tion,

MC

C-0

101/

0201

WT

RW

TR

-PR

H-C

B-0

202

WT

RW

TR

-PR

H-C

B-0

102

Ele

ctric

al E

quip

men

tC

ircui

t Bre

aker

Circ

uit B

reak

erM

CC

-010

1/02

01 P

ump

Roo

m

WT

R-P

RH

-GE

N-1

100

Die

sel G

ener

ator

GE

N-1

100

,Gen

erat

or R

oom

W

TR

WT

R-P

RH

-GE

N-1

100

WT

RN

o E

xist

Ele

ctric

al E

quip

men

tG

ener

ator

Gen

erat

or,E

lect

ricity

Gen

erat

or R

oom

WT

R-P

RH

-GE

N-1

200

Die

sel G

ener

ator

GE

N-1

200

,Gen

erat

or R

oom

WT

RW

TR

-PR

H-G

EN

-120

0W

TR

No

Exi

stE

lect

rical

Equ

ipm

ent

Gen

erat

orG

ener

ator

,Ele

ctric

ityG

ener

ator

Roo

m

WT

R-P

RH

-SC

R-1

100

SC

R-1

100

Rea

ctor

, Gen

erat

or R

oom

WT

RW

TR

-PR

H-S

CR

--11

00W

TR

No

Exi

stE

lect

rical

Equ

ipm

ent

Gen

erat

orG

ener

ator

,Ele

ctric

ityG

ener

ator

Roo

m

WT

R-P

RH

-SC

R-1

200

SC

R-1

200

Rea

ctor

, G

ener

ator

Roo

mW

TR

WT

R-P

RH

-SC

R-1

200

WT

RN

o E

xist

Ele

ctric

al E

quip

men

tG

ener

ator

Gen

erat

or,E

lect

ricity

Gen

erat

or R

oom

WT

R-P

RH

-BL-

1100

Blo

wer

BL-

1100

, Gen

erat

or R

oom

WT

RW

TR

-PR

H-B

L-11

00W

TR

No

Exi

stM

echa

nica

l Equ

ipm

ent

Blo

wer

Gen

erat

or R

oom

WT

R-P

RH

-BL-

1200

Blo

wer

BL-

1200

, Gen

erat

or R

oom

WT

RW

TR

-PR

H-B

L-12

00W

TR

No

Exi

stM

echa

nica

l Equ

ipm

ent

Blo

wer

Gen

erat

or R

oom

WT

R-P

RH

-C-0

001

Air

Com

pres

sor

C-0

001,

Gen

erat

or

Roo

mW

TR

WT

R-P

RH

-C-0

001

WT

RN

o E

xist

Mec

hani

cal E

quip

men

tC

ompr

esso

rC

ompr

esso

rG

ener

ator

Roo

m

New

Equ

ipm

ent t

hat i

s to

be

adde

d to

the

syst

em

Ent

ity B

asic

ED

OC

SLI

B-#

9501

-v1B

Pag

e 1

of 9

WM

S E

NT

ITY

INF

OR

MA

TIO

N S

PR

EA

DS

HE

ET

DA

TA

PIL

OT

(IN

TE

GR

AT

ED

)

En

tity

Nu

mb

erE

nti

ty N

ame

En

tity

Sit

e N

ame

Par

ent

Nu

mb

erP

aren

t S

ite

Nam

eO

rig

inal

Eq

uip

men

t N

um

ber

En

tity

Typ

eE

nti

ty

Cla

ssif

icat

ion

En

tity

Cat

ego

ryC

riti

calit

yS

ervi

ce

dat

eE

nti

ty L

oca

tio

n D

escr

ipti

on

Pri

ori

tyP

lan

ner

Su

per

viso

rA

llow

ch

arg

es

(Yes

/No

)S

eria

l n

um

ber

WT

R-P

RH

-T-1

100

Fue

l Day

Tan

k T

-110

0,G

ener

ator

R

oom

WT

RW

TR

-PR

H-T

-110

0W

TR

No

Exi

stM

echa

nica

l Equ

ipm

ent

Tan

kT

ank

Gen

erat

or R

oom

WT

R-P

RH

-T-1

200

Fue

l Day

Tan

k T

-120

0,G

ener

ator

R

oom

WT

RW

TR

-PR

H-T

-120

0W

TR

No

Exi

stM

echa

nica

l Equ

ipm

ent

Tan

kT

ank

Gen

erat

or R

oom

WT

R-P

RH

-T-1

010

Fue

l Sto

rage

Tan

k T

-101

0,G

ener

ator

R

oom

WT

RW

TR

-PR

H-T

-101

0W

TR

No

Exi

stM

echa

nica

l Equ

ipm

ent

Tan

kT

ank

Fue

l Vau

lt B

asem

ent

WT

R-P

RH

-T-1

020

Fue

l Sto

rage

Tan

k T

-102

0, G

ener

ator

R

oom

WT

RW

TR

-PR

H-T

-102

0W

TR

No

Exi

stM

echa

nica

l Equ

ipm

ent

Tan

kT

ank

Fue

l Vau

lt B

asem

ent

WT

R-P

RH

-T-0

001

Em

erge

ncy

Saf

ety

Eye

Was

h H

ot

Wat

er T

ank,

Gen

erat

or R

oom

WT

RW

TR

-PR

H-T

-000

1W

TR

No

Exi

stM

echa

nica

l Equ

ipm

ent

Tan

kT

ank

Gen

erat

or R

oom

WT

R-P

RH

-SQ

-000

1E

mer

genc

y S

afet

y S

how

er a

nd E

ye,

Gen

erat

or R

oom

WT

RW

TR

-PR

H-S

Q-0

001

WT

RN

o E

xist

Mec

hani

cal E

quip

men

tS

afet

y E

quip

men

tS

afet

yG

ener

ator

Roo

m

WT

R-P

RH

-FN

-010

1R

AD

Fan

FN

-010

1, S

tanb

y B

uild

ing

Roo

fW

TR

WT

R-P

RH

-FN

-010

1W

TR

No

Exi

stM

echa

nica

l Equ

ipm

ent

HV

AC

Fan

Sta

nby

Bui

ldin

g R

oof

WT

R-P

RH

-FN

-010

2R

AD

Fan

FN

-010

2, S

tanb

y B

uild

ing

Roo

fW

TR

WT

R-P

RH

-FN

-010

2W

TR

No

Exi

stM

echa

nica

l Equ

ipm

ent

HV

AC

Fan

Sta

ndby

Bui

ldin

g R

oof

WT

R-P

RH

-FN

-020

1R

AD

Fan

FN

-020

1, S

tanb

y B

uild

ing

Roo

fW

TR

WT

R-P

RH

-FN

-020

1W

TR

No

Exi

stM

echa

nica

l Equ

ipm

ent

HV

AC

Fan

Sta

ndby

Bui

ldin

g R

oof

WT

R-P

RH

-FN

-020

2R

AD

Fan

FN

-020

2, S

tanb

y B

uild

ing

Roo

fW

TR

WT

R-P

RH

-FN

-010

2W

TR

No

Exi

stM

echa

nica

l Equ

ipm

ent

HV

AC

Fan

Sta

ndby

Bui

ldin

g R

oof

WT

R-P

RH

-HE

-000

1F

uel C

oole

r H

eat E

xcha

nger

HE

-00

01, G

ener

ator

Roo

mW

TR

WT

R-P

RH

-HE

-000

1W

TR

No

Exi

stM

echa

nica

l Equ

ipm

ent

Hea

t Exc

hang

erH

eat E

xcha

nger

Gen

erat

or R

oom

WT

R-P

RH

-HE

-000

2F

uel C

oole

r H

eat E

xcha

nger

HE

-00

02, G

ener

ator

Roo

mW

TR

WT

R-P

RH

-HE

-000

2W

TR

No

Exi

stM

echa

nica

l Equ

ipm

ent

Hea

t Exc

hang

erH

eat E

xcha

nger

Gen

erat

or R

oom

WT

R-P

RH

-HE

-000

3F

uel C

oole

r H

eat E

xcha

nger

HE

-000

3,

Gen

erat

or R

oom

WT

RW

TR

-PR

H-H

E-0

003

WT

RN

o E

xist

Mec

hani

cal E

quip

men

tH

eat E

xcha

nger

Hea

t Exc

hang

erG

ener

ator

Roo

m

WT

R-P

RH

-HE

-000

4F

uel C

oole

r H

eat E

xcha

nger

HE

-000

4,

Gen

erat

or R

oom

WT

RW

TR

-PR

H-H

E-0

004

WT

RN

o E

xist

Mec

hani

cal E

quip

men

tH

eat E

xcha

nger

Hea

t Exc

hang

erG

ener

ator

Roo

m

WT

R-P

RH

-P-0

001

Fue

l Tra

nsfe

r P

ump

P-0

001,

Fue

l V

ault

Bas

emen

tW

TR

WT

R-P

RH

-P-0

001

WT

RN

o E

xist

Mec

hani

cal E

quip

men

tP

ump

Pum

pF

uel V

ault

Bas

emen

t

WT

R-P

RH

-P-0

002

Fue

l Tra

nsfe

r P

ump

P-0

002,

Fue

l V

ault

Bas

emen

tW

TR

WT

R-P

RH

-P-0

002

WT

RN

o E

xist

Mec

hani

cal E

quip

men

tP

ump

Pum

pF

uel V

ault

Bas

emen

t

WT

R-P

RH

-SIL

-000

1S

ilenc

er,S

IL-0

001,

Gen

erat

or R

oom

WT

RW

TR

-PR

H-S

IL-0

001

WT

RN

o E

xist

Mec

hani

cal E

quip

men

tH

VA

CH

.V.A

.C.

Gen

erat

or R

oom

WT

R-P

RH

-SIL

-000

2S

ilenc

er,S

IL-0

002,

Gen

erat

or R

oom

WT

RW

TR

-PR

H-S

IL-0

002

WT

RN

o E

xist

Mec

hani

cal E

quip

men

tH

VA

CH

.V.A

.C.

Gen

erat

or R

oom

WT

R-P

RH

-SIL

-000

3S

ilenc

er,S

IL-0

003,

Gen

erat

or R

oom

WT

RW

TR

-PR

H-S

IL-0

003

WT

RN

o E

xist

Mec

hani

cal E

quip

men

tH

VA

CH

.V.A

.C.

Gen

erat

or R

oom

WT

R-P

RH

-SIL

-000

4S

ilenc

er,S

IL-0

005,

Gen

erat

or R

oom

WT

RW

TR

-PR

H-S

IL-0

004

WT

RN

o E

xist

Mec

hani

cal E

quip

men

tH

VA

CH

.V.A

.C.

Gen

erat

or R

oom

WT

R-P

RH

-SIL

-000

5S

ilenc

er,S

IL-0

006,

Gen

erat

or R

oom

WT

RW

TR

-PR

H-S

IL-0

005

WT

RN

o E

xist

Mec

hani

cal E

quip

men

tH

VA

CH

.V.A

.C.

Gen

erat

or R

oom

WT

R-P

RH

-SIL

-000

6S

ilenc

er,S

IL-0

004,

Gen

erat

or R

oom

WT

RW

TR

-PR

H-S

IL-0

006

WT

RN

o E

xist

Mec

hani

cal E

quip

men

tH

VA

CH

.V.A

.C.

Gen

erat

or R

oom

WT

R-P

RH

-HT

R-0

004

Uni

t Hea

ter

HT

R-0

004,

Gen

erat

or

Roo

mW

TR

WT

R-P

RH

-HT

R-0

004

WT

RN

o E

xist

Mec

hani

cal E

quip

men

tH

VA

CH

.V.A

.C.,H

eate

r,U

nit

Gen

erat

or R

oom

WT

R-P

RH

-HT

R-0

005

Uni

t Hea

ter

HT

R-0

005,

Gen

erat

or

Roo

mW

TR

WT

R-P

RH

-HT

R-0

005

WT

RN

o E

xist

Mec

hani

cal E

quip

men

tH

VA

CH

.V.A

.C.,H

eate

r,U

nit

Gen

erat

or R

oom

ED

OC

SLI

B-#

9501

-v1B

Pag

e 2

of 9

WM

S E

NT

ITY

INF

OR

MA

TIO

N S

PR

EA

DS

HE

ET

DA

TA

PIL

OT

(IN

TE

GR

AT

ED

)

En

tity

Nu

mb

erE

nti

ty N

ame

En

tity

Sit

e N

ame

Par

ent

Nu

mb

erP

aren

t S

ite

Nam

eO

rig

inal

Eq

uip

men

t N

um

ber

En

tity

Typ

eE

nti

ty

Cla

ssif

icat

ion

En

tity

Cat

ego

ryC

riti

calit

yS

ervi

ce

dat

eE

nti

ty L

oca

tio

n D

escr

ipti

on

Pri

ori

tyP

lan

ner

Su

per

viso

rA

llow

ch

arg

es

(Yes

/No

)S

eria

l n

um

ber

WT

R-P

RH

-HT

R-0

006

Uni

t Hea

ter

HT

R-0

006,

Ele

ctric

al

Roo

mW

TR

WT

R-P

RH

-HT

R-0

006

WT

RN

o E

xist

Mec

hani

cal E

quip

men

tH

VA

CH

.V.A

.C.,H

eate

r,U

nit

Ele

ctric

al R

oom

WT

R-P

RH

-HT

R-0

007

Uni

t Hea

ter

HT

R-0

007,

Fue

l Vau

lt R

oom

WT

RW

TR

-PR

H-H

TR

-000

7W

TR

No

Exi

stM

echa

nica

l Equ

ipm

ent

HV

AC

H.V

.A.C

.,Hea

ter,

Uni

tD

iese

l Tan

k R

oom

WT

R-P

RH

-HT

R-0

008

Uni

t Hea

ter

HT

R-0

008,

Pum

p G

alle

ryW

TR

WT

R-P

RH

-HT

R-0

008

WT

RN

o E

xist

Mec

hani

cal E

quip

men

tH

VA

CH

.V.A

.C.,H

eate

r,U

nit

Pum

p G

alle

ry

WT

R-P

RH

-HT

R-1

100

SC

R-1

100

Hea

ter

HT

R-1

100,

G

ener

ator

Roo

mW

TR

WT

R-P

RH

-HT

R-1

100

WT

RN

o E

xist

Mec

hani

cal E

quip

men

tH

VA

CH

.V.A

.C.,H

eate

rG

ener

ator

Roo

m

WT

R-P

RH

-HT

R-1

200

SC

R-0

201

Hea

ter

HT

R-1

200,

G

ener

ator

Roo

mW

TR

WT

R-P

RH

-HT

R-1

200

WT

RN

o E

xist

Mec

hani

cal E

quip

men

tH

VA

CH

.V.A

.C.,H

eate

rG

ener

ator

Roo

m

WT

R-P

RH

-DM

-000

1M

otor

ized

Dam

per

DM

-000

1, G

ener

al

Ven

tilat

ion,

Gen

erat

or R

oom

WT

RW

TR

-PR

H-D

M-0

001

WT

RN

o E

xist

Mec

hani

cal E

quip

men

tH

VA

CD

ampe

r/Lo

uver

Gen

erat

or R

oom

WT

R-P

RH

-DM

-000

2M

otor

ized

Dam

per

DM

-000

2, G

ener

al

Ven

tilat

ion,

Gen

erat

or R

oom

WT

RW

TR

-PR

H-D

M-0

002

WT

RN

o E

xist

Mec

hani

cal E

quip

men

tH

VA

CD

ampe

r/Lo

uver

Gen

erat

or R

oom

WT

R-P

RH

-DM

-000

3M

otor

ized

Dam

per

DM

-000

3, G

ener

al

Ven

tilat

ion,

Fue

l Vau

lt B

asem

ent

WT

RW

TR

-PR

H-D

M-0

003

WT

RN

o E

xist

Mec

hani

cal E

quip

men

tH

VA

CD

ampe

r/Lo

uver

Fue

l Vau

lt B

asem

ent

WT

R-P

RH

-DM

-000

4M

otor

ized

Dam

per

DM

-000

4, G

ener

al

Ven

tilat

ion,

Fue

l Vau

lt B

asem

ent

WT

RW

TR

-PR

H-D

M-0

004

WT

RN

o E

xist

Mec

hani

cal E

quip

men

tH

VA

CD

ampe

r/Lo

uver

Fue

l Vau

lt B

asem

ent

WT

R-P

RH

-DM

-001

1M

otor

ized

Dam

per

DM

-001

1 ,In

take

C

ombu

stio

n A

ir , G

ener

ator

Roo

mW

TR

WT

R-P

RH

-DM

-001

1W

TR

No

Exi

stM

echa

nica

l Equ

ipm

ent

HV

AC

Dam

per/

Louv

erG

ener

ator

Roo

m

WT

R-P

RH

-DM

-001

2M

otor

ized

Dam

per

DM

-001

2,In

take

, G

ener

ator

Roo

mW

TR

WT

R-P

RH

-DM

-001

2W

TR

No

Exi

stM

echa

nica

l Equ

ipm

ent

HV

AC

Dam

per/

Louv

erG

ener

ator

Roo

m

WT

R-P

RH

-DM

-001

3M

otor

ized

Dam

per,

DM

-001

3, In

take

, G

ener

ator

Roo

mW

TR

WT

R-P

RH

-DM

-001

3W

TR

No

Exi

stM

echa

nica

l Equ

ipm

ent

HV

AC

Dam

per/

Louv

erG

ener

ator

Roo

m

WT

R-P

RH

-DM

-001

4M

otor

ized

Dam

per

DM

-001

4,In

take

, G

ener

ator

Roo

mW

TR

WT

R-P

RH

-DM

-001

4W

TR

No

Exi

stM

echa

nica

l Equ

ipm

ent

HV

AC

Dam

per/

Louv

erG

ener

ator

Roo

m

WT

R-P

RH

-DM

-002

1M

otor

ized

Dam

per

DM

-002

1 ,In

take

C

ombu

stio

n A

ir , G

ener

ator

Roo

mW

TR

WT

R-P

RH

-DM

-002

1W

TR

No

Exi

stM

echa

nica

l Equ

ipm

ent

HV

AC

Dam

per/

Louv

erG

ener

ator

Roo

m

WT

R-P

RH

-DM

-002

2M

otor

ized

Dam

per

DM

-002

2,In

take

, G

ener

ator

Roo

mW

TR

WT

R-P

RH

-DM

-002

2W

TR

No

Exi

stM

echa

nica

l Equ

ipm

ent

HV

AC

Dam

per/

Louv

erG

ener

ator

Roo

m

WT

R-P

RH

-DM

-002

3M

otor

ized

Dam

per

DM

-002

3,In

take

, G

ener

ator

Roo

mW

TR

WT

R-P

RH

-DM

-002

3W

TR

No

Exi

stM

echa

nica

l Equ

ipm

ent

HV

AC

Dam

per/

Louv

erG

ener

ator

Roo

m

WT

R-P

RH

-DM

-002

4M

otor

ized

Dam

per

DM

-002

4,In

take

, G

ener

ator

Roo

mW

TR

WT

R-P

RH

-DM

-002

4W

TR

No

Exi

stM

echa

nica

l Equ

ipm

ent

HV

AC

Dam

per/

Louv

erG

ener

ator

Roo

m

WT

R-P

RH

-LV

-000

1Lo

uver

LV

-000

1,In

take

,Gen

erat

or

Roo

mW

TR

WT

R-P

RH

-LV

-000

1W

TR

No

Exi

stM

echa

nica

l Equ

ipm

ent

HV

AC

Dam

per/

Louv

erG

ener

ator

Roo

m

WT

R-P

RH

-LV

-000

2Lo

uver

LV

-000

2,In

take

,Gen

erat

or

Roo

mW

TR

WT

R-P

RH

-LV

-000

2W

TR

No

Exi

stM

echa

nica

l Equ

ipm

ent

HV

AC

Dam

per/

Louv

erG

ener

ator

Roo

m

WT

R-P

RH

-LV

-000

4Lo

uver

LV

-000

4,G

ener

al

Ven

tilat

ion,

Gen

erat

or R

oom

WT

RW

TR

-PR

H-L

V-0

004

WT

RN

o E

xist

Mec

hani

cal E

quip

men

tH

VA

CD

ampe

r/Lo

uver

Gen

erat

or R

oom

WT

R-P

RH

-LV

-000

5Lo

uver

LV

-000

5,G

ener

al

Ven

tilat

ion,

Gen

erat

or R

oom

WT

RW

TR

-PR

H-L

V-0

005

WT

RN

o E

xist

Mec

hani

cal E

quip

men

tH

VA

CD

ampe

r/Lo

uver

Gen

erat

or R

oom

WT

R-P

RH

-LV

-000

6Lo

uver

LV

-000

6,G

ener

al V

entil

atio

n,

Fue

l Vau

lt B

asem

ent

WT

RW

TR

-PR

H-L

V-0

006

WT

RN

o E

xist

Mec

hani

cal E

quip

men

tH

VA

CD

ampe

r/Lo

uver

Fue

l Vau

lt B

asem

ent

WT

R-P

RH

-LV

-000

7Lo

uver

LV

-000

7,G

ener

al V

entil

atio

n,

Fue

l Vau

lt B

asem

ent

WT

RW

TR

-PR

H-L

V-0

007

WT

RN

o E

xist

Mec

hani

cal E

quip

men

tH

VA

CD

ampe

r/Lo

uver

Fue

l Vau

lt B

asem

ent

WT

R-P

RH

-FN

-000

1E

xhau

st F

an F

N-0

001,

Ven

tilat

ion

, G

ener

ator

Roo

mW

TR

WT

R-P

RH

-FN

-000

1W

TR

No

Exi

stM

echa

nica

l Equ

ipm

ent

HV

AC

Fan

Gen

erat

or R

oom

ED

OC

SLI

B-#

9501

-v1B

Pag

e 3

of 9

WM

S E

NT

ITY

INF

OR

MA

TIO

N S

PR

EA

DS

HE

ET

DA

TA

PIL

OT

(IN

TE

GR

AT

ED

)

En

tity

Nu

mb

erE

nti

ty N

ame

En

tity

Sit

e N

ame

Par

ent

Nu

mb

erP

aren

t S

ite

Nam

eO

rig

inal

Eq

uip

men

t N

um

ber

En

tity

Typ

eE

nti

ty

Cla

ssif

icat

ion

En

tity

Cat

ego

ryC

riti

calit

yS

ervi

ce

dat

eE

nti

ty L

oca

tio

n D

escr

ipti

on

Pri

ori

tyP

lan

ner

Su

per

viso

rA

llow

ch

arg

es

(Yes

/No

)S

eria

l n

um

ber

WT

R-P

RH

-FN

-000

5E

xhau

st F

an F

N-0

005,

Ven

tilat

ion

, F

uel V

ault

WT

RW

TR

-PR

H-F

N-0

005

WT

RN

o E

xist

Mec

hani

cal E

quip

men

tH

VA

CF

anG

ener

ator

Roo

m

WT

R-P

RH

-FN

-001

0A

ir In

take

Fan

FN

-001

0, V

entil

atio

n,

Gen

erat

or R

oom

WT

RW

TR

-PR

H-F

N-0

010

WT

RN

o E

xist

Mec

hani

cal E

quip

men

tH

VA

CF

anG

ener

ator

Roo

m

WT

R-P

RH

-FN

-002

0A

ir In

take

Fan

FN

-002

0, V

entil

atio

n,

Gen

erat

or R

oom

WT

RW

TR

-PR

H-F

N-0

020

WT

RN

o E

xist

Mec

hani

cal E

quip

men

tH

VA

CF

anG

ener

ator

Roo

m

WT

R-P

RH

-AH

U-0

001

Air

Han

delin

g U

nit A

HU

-000

1, M

eter

A

cces

s R

oom

,W

TR

WT

R-P

RH

-AH

U-0

001

WT

RN

o E

xist

Mec

hani

cal E

quip

men

tH

VA

CA

ir H

andl

ing

Uni

tM

eter

Acc

ess

Roo

m

WT

R-P

RH

-CU

-000

1C

oolin

g W

ater

Con

dens

er C

U-0

001,

M

eter

Acc

ess

Roo

mW

TR

WT

R-P

RH

-CU

-000

1W

TR

No

Exi

stM

echa

nica

l Equ

ipm

ent

HV

AC

Met

er A

cces

s R

oom

WT

R-P

RH

-AC

-000

1A

ir C

ondi

tion,

AC

-000

1, P

ump

Gal

lery

WT

RW

TR

-PR

H-A

C-0

001

WT

RN

o E

xist

Mec

hani

cal E

quip

men

tH

VA

CH

.V.A

.C.,A

ir C

ondi

tione

rP

ump

Gal

lery

WT

R-P

RH

-VS

L-10

10V

acuu

m S

witc

h V

SL-

1010

,Die

sel F

uel

Sto

rage

Tan

kW

TR

WT

R-P

RH

-VS

L-10

10W

TR

No

Exi

stIn

stru

men

t Equ

ipm

ent

Sen

sor

Vac

uum

Die

sel F

uel S

tora

ge T

ank

T-1

010

WT

R-P

RH

-LIT

-101

0Le

vel T

rans

mitt

er L

IT-1

010,

Die

sel

Fue

l Sto

rage

Tan

kW

TR

WT

R-P

RH

-LIT

-101

0W

TR

No

Exi

stIn

stru

men

t Equ

ipm

ent

Tra

nsm

itter

Tra

nsm

itter

,Lev

elD

iese

l Fue

l Sto

rage

Tan

k T

-101

0

WT

R-P

RH

-LE

-101

0Le

vel S

enso

r LE

-101

0,D

iese

l Fue

l S

tora

ge T

ank

WT

RW

TR

-PR

H-L

E-1

010

WT

RN

o E

xist

Inst

rum

ent E

quip

men

tS

enso

rS

enso

r,Le

vel

Die

sel F

uel S

tora

ge T

ank

T-1

010

WT

R-P

RH

-LS

L-10

10 L

evel

Sw

itch

Low

LS

L-10

10,D

iese

l F

uel S

tora

ge T

ank

WT

RW

TR

-PR

H-L

SL-

1010

WT

RN

o E

xist

Inst

rum

ent E

quip

men

tA

larm

Sw

itch,

Leve

l-Low

Die

sel F

uel S

tora

ge T

ank

T-1

010

WT

R-P

RH

-LS

H-1

010

Leve

l Sw

itch

Hig

h LS

H-1

010,

Die

sel

Fue

l Sto

rage

Tan

kW

TR

WT

R-P

RH

-LS

H-1

010

WT

RN

o E

xist

Inst

rum

ent E

quip

men

tA

larm

Sw

itch,

Leve

l-Hig

hD

iese

l Fue

l Sto

rage

Tan

k T

-101

0

WT

R-P

RH

-LS

HH

-101

0Le

vel S

witc

h H

igh

Hig

h LS

HH

-101

0,

Die

sel F

uel S

tora

ge T

ank

WT

RW

TR

-PR

H-L

SH

H-1

010

WT

RN

o E

xist

Inst

rum

ent E

quip

men

tA

larm

Sw

itch,

Leve

l-Hig

h-H

igh

Die

sel F

uel S

tora

ge T

ank

T-1

010

WT

R-P

RH

-VS

L-10

20V

acuu

m S

witc

h V

SL-

1020

,Die

sel F

uel

Sto

rage

Tan

kW

TR

WT

R-P

RH

-VS

L-10

20W

TR

No

Exi

stIn

stru

men

t Equ

ipm

ent

Sen

sor

Vac

uum

Die

sel F

uel S

tora

ge T

ank

T-1

020

WT

R-P

RH

-LIT

-102

0Le

vel T

rans

mitt

er L

IT-1

020,

Die

sel

Fue

l Sto

rage

Tan

kW

TR

WT

R-P

RH

-LIT

-102

0W

TR

No

Exi

stIn

stru

men

t Equ

ipm

ent

Tra

nsm

itter

Tra

nsm

itter

,Lev

elD

iese

l Fue

l Sto

rage

Tan

k T

-102

0

WT

R-P

RH

-LE

-102

0Le

vel S

enso

r LE

-102

0,D

iese

l Fue

l S

tora

ge T

ank

WT

RW

TR

-PR

H-L

E-1

020

WT

RN

o E

xist

Inst

rum

ent E

quip

men

tS

enso

rS

enso

r,Le

vel

Die

sel F

uel S

tora

ge T

ank

T-1

020

WT

R-P

RH

-LS

L-10

20 L

evel

Sw

itch

Low

LS

L-10

20,D

iese

l F

uel S

tora

ge T

ank

WT

RW

TR

-PR

H-L

SL-

1020

WT

RN

o E

xist

Inst

rum

ent E

quip

men

tA

larm

Sw

itch,

Leve

l-Low

Die

sel F

uel S

tora

ge T

ank

T-1

020

WT

R-P

RH

-LS

H-1

020

Leve

l Sw

itch

Hig

h LS

H-1

020,

Die

sel

Fue

l Sto

rage

Tan

kW

TR

WT

R-P

RH

-LS

H-1

020

WT

RN

o E

xist

Inst

rum

ent E

quip

men

tA

larm

Sw

itch,

Leve

l-Hig

hD

iese

l Fue

l Sto

rage

Tan

k T

-102

0

WT

R-P

RH

-LS

HH

-102

0Le

vel S

witc

h H

igh

Hig

h LS

HH

-102

0,

Die

sel F

uel S

tora

ge T

ank

WT

RW

TR

-PR

H-L

SH

H-1

020

WT

RN

o E

xist

Inst

rum

ent E

quip

men

tA

larm

Sw

itch,

Leve

l-Hig

h-H

igh

Die

sel F

uel S

tora

ge T

ank

T-1

020

WT

R-P

RH

-LS

LL-1

100

Leve

l Sw

itch

Low

Low

LS

LL-

1100

,Fue

l Day

Tan

kW

TR

WT

R-P

RH

-LS

LL-1

100

WT

RN

o E

xist

Inst

rum

ent E

quip

men

tA

larm

Sw

itch,

Leve

l-Low

-Low

Fue

l Day

Tan

k T

-110

0

WT

R-P

RH

-LS

HH

-110

0Le

vel S

witc

h H

igh

Hig

h LS

HH

-11

00,F

uel D

ay T

ank

WT

RW

TR

-PR

H-L

SH

H-1

100

WT

RN

o E

xist

Inst

rum

ent E

quip

men

tA

larm

Sw

itch,

Leve

l-Hig

h-H

igh

Fue

l Day

Tan

k T

-110

0

WT

R-P

RH

-LS

HH

-120

0Le

vel S

witc

h H

igh

Hig

h L

SH

H-

1200

,Fue

l Day

Tan

kW

TR

WT

R-P

RH

-LS

HH

-120

0W

TR

No

Exi

stIn

stru

men

t Equ

ipm

ent

Ala

rmS

witc

h,Le

vel-H

igh-

Hig

hF

uel D

ay T

ank

T-1

200

WT

R-P

RH

-LS

LL-1

200

Leve

l Sw

itch

Low

Low

LS

LL-

1200

,Fue

l Day

Tan

kW

TR

WT

R-P

RH

-LS

LL-1

200

WT

RN

o E

xist

Inst

rum

ent E

quip

men

tA

larm

Sw

itch,

Leve

l-Low

-Low

Fue

l Day

Tan

k T

-120

0

WT

R-P

RH

-LS

H-1

100

Leve

l Sw

itch

Hig

h L

SH

-110

0,F

uel

Day

Tan

kW

TR

WT

R-P

RH

-LS

H-1

100

WT

RN

o E

xist

Inst

rum

ent E

quip

men

tA

larm

Sw

itch,

Leve

l-Hig

hF

uel D

ay T

ank

T-1

100

WT

R-P

RH

-LS

H-1

200

Leve

l Sw

itch

Hig

h L

SH

-120

0,F

uel

Day

Tan

kW

TR

WT

R-P

RH

-LS

H-1

200

WT

RN

o E

xist

Inst

rum

ent E

quip

men

tA

larm

Sw

itch,

Leve

l-Hig

hF

uel D

ay T

ank

T-1

200

ED

OC

SLI

B-#

9501

-v1B

Pag

e 4

of 9

WM

S E

NT

ITY

INF

OR

MA

TIO

N S

PR

EA

DS

HE

ET

DA

TA

PIL

OT

(IN

TE

GR

AT

ED

)

En

tity

Nu

mb

erE

nti

ty N

ame

En

tity

Sit

e N

ame

Par

ent

Nu

mb

erP

aren

t S

ite

Nam

eO

rig

inal

Eq

uip

men

t N

um

ber

En

tity

Typ

eE

nti

ty

Cla

ssif

icat

ion

En

tity

Cat

ego

ryC

riti

calit

yS

ervi

ce

dat

eE

nti

ty L

oca

tio

n D

escr

ipti

on

Pri

ori

tyP

lan

ner

Su

per

viso

rA

llow

ch

arg

es

(Yes

/No

)S

eria

l n

um

ber

WT

R-P

RH

-LS

L-12

00Le

vel S

witc

h L

ow L

SL-

1200

,Fue

l Day

T

ank

WT

RW

TR

-PR

H-L

SL-

1200

WT

RN

o E

xist

Inst

rum

ent E

quip

men

tA

larm

Sw

itch,

Leve

l-Low

Fue

l Day

Tan

k T

-120

0

WT

R-P

RH

-LS

L-11

00Le

vel S

witc

h L

ow L

SL-

1100

,Fue

l Day

T

ank

WT

RW

TR

-PR

H-L

SL-

1100

WT

RN

o E

xist

Inst

rum

ent E

quip

men

tA

larm

Sw

itch,

Leve

l-Low

Fue

l Day

Tan

k T

-110

0

WT

R-P

RH

-VS

L-11

00V

acuu

m S

witc

h V

SL-

1100

,Fue

l Day

T

ank

WT

RW

TR

-PR

H-V

SL-

1100

WT

RN

o E

xist

Inst

rum

ent E

quip

men

tS

enso

rV

acuu

mF

uel D

ay T

ank

T-1

100

WT

R-P

RH

-VS

L-12

00V

acuu

m S

witc

h V

SL-

1200

,Fue

l Day

T

ank

WT

RW

TR

-PR

H-V

SL-

1200

WT

RN

o E

xist

Inst

rum

ent E

quip

men

tS

enso

rV

acuu

mF

uel D

ay T

ank

T-1

200

WT

R-P

RH

-AIT

-000

3S

mok

e D

etec

tor

AIT

-000

3, S

witc

hgea

r R

oom

WT

RW

TR

-PR

H-A

IT-0

003

WT

RN

o E

xist

Inst

rum

ent E

quip

men

tA

larm

Fire

Pre

vent

ion,

Sm

oke

Det

ecto

rS

witc

hgea

r R

oom

WT

R-P

RH

-AIT

-000

4S

mok

e D

etec

tor

AIT

-000

4, G

ener

ator

R

oom

WT

RW

TR

-PR

H-A

IT-0

004

WT

RN

o E

xist

Inst

rum

ent E

quip

men

tA

larm

Fire

Pre

vent

ion,

Sm

oke

Det

ecto

rG

ener

ator

Roo

m

WT

R-P

RH

-AIT

-000

5S

mok

e D

etec

tor

AIT

-000

5, G

ener

ator

R

oom

WT

RW

TR

-PR

H-A

IT-0

005

WT

RN

o E

xist

Inst

rum

ent E

quip

men

tA

larm

Fire

Pre

vent

ion,

Sm

oke

Det

ecto

rG

ener

ator

Roo

m

WT

R-P

RH

-AIT

-000

6S

mok

e D

etec

tor

AIT

-000

6, F

uel V

ault

Roo

m B

asem

ent

WT

RW

TR

-PR

H-A

IT-0

006

WT

RN

o E

xist

Inst

rum

ent E

quip

men

tA

larm

Fire

Pre

vent

ion,

Sm

oke

Det

ecto

rF

uel V

ault

Roo

m B

asem

ent

WT

R-P

RH

-LS

H-0

002

Leve

l Sw

itch

Hig

h LS

H-0

002,

Fue

l V

ault

Roo

m F

lood

Ala

rmW

TR

WT

R-P

RH

-LS

H-0

002

WT

RN

o E

xist

Inst

rum

ent E

quip

men

tA

larm

Sw

itch,

Leve

l-Hig

hF

uel V

ault

Roo

m B

asem

ent

WT

R-P

RH

-FS

H-0

001

Flo

w S

witc

h H

igh

FS

H-0

001,

Eyw

ash

Uni

tW

TR

WT

R-P

RH

-FS

H-0

001

WT

RN

o E

xist

Inst

rum

ent E

quip

men

tA

larm

Sw

itch,

Flo

w-H

igh

Eyw

ash

Uni

t Sw

itchg

ear

Roo

m

WT

R-P

RH

-FS

H-0

002

Flo

w S

witc

h H

igh

FS

H-0

002,

Spr

inkl

er

Sys

tem

WT

RW

TR

-PR

H-F

SH

-000

2W

TR

No

Exi

stIn

stru

men

t Equ

ipm

ent

Ala

rmS

witc

h,F

low

-Hig

hS

prin

kler

Sys

tem

WT

R-P

RH

-TS

H-0

003

Tem

pera

ture

Sw

itch

Hig

h, T

SH

-000

3,

Gen

erat

or R

oom

WT

RW

TR

-PR

H-T

SH

-000

3W

TR

No

Exi

stIn

stru

men

t Equ

ipm

ent

Ala

rmS

witc

h,T

empe

ratu

re-

Hig

hG

ener

ator

Roo

m

WT

R-P

RH

-TS

L-00

03T

empe

ratu

re S

witc

h Lo

w, T

SL-

0003

, G

ener

ator

Roo

mW

TR

WT

R-P

RH

-TS

L-00

03W

TR

No

Exi

stIn

stru

men

t Equ

ipm

ent

Ala

rmS

witc

h,T

empe

ratu

re-L

owG

ener

ator

Roo

m

WT

R-P

RH

-TS

H-0

004

Tem

pera

ture

Sw

itch

Hig

h, T

SH

-000

4,

Sw

itchg

ear

Roo

mW

TR

WT

R-P

RH

-TS

H-0

004

WT

RN

o E

xist

Inst

rum

ent E

quip

men

tA

larm

Sw

itch,

Tem

pera

ture

-H

igh

Sw

itchg

ear

Roo

m

WT

R-P

RH

-TS

L-00

04T

empe

ratu

re S

witc

h Lo

w, T

SL-

0004

, S

witc

hgea

r R

oom

WT

RW

TR

-PR

H-T

SL-

0004

WT

RN

o E

xist

Inst

rum

ent E

quip

men

tA

larm

Sw

itch,

Tem

pera

ture

-Low

Sw

itchg

ear

Roo

m

WT

R-P

RH

-LS

L-00

01Le

vel S

witc

h L

ow L

SL-

0001

,UR

EA

S

tora

ge T

ank

WT

RW

TR

-PR

H-L

SL-

0001

WT

RN

o E

xist

Inst

rum

ent E

quip

men

tA

larm

Sw

itch,

Leve

l-Low

UR

EA

Sto

rage

Tan

k T

-000

1

WT

R-P

RH

-LS

L-11

01Le

vel S

witc

h L

ow L

SL-

1101

,Rad

iato

r JW

Exp

ansi

on T

ank

WT

RW

TR

-PR

H-L

SL-

1101

WT

RN

o E

xist

Inst

rum

ent E

quip

men

tA

larm

Sw

itch,

Leve

l-Low

gene

rato

r G

EN

-110

0

WT

R-P

RH

-LS

L-11

02Le

vel S

witc

h L

ow L

SL-

1102

,Rad

iato

r A

C E

xpan

sion

Tan

kW

TR

WT

R-P

RH

-LS

L-11

02W

TR

No

Exi

stIn

stru

men

t Equ

ipm

ent

Ala

rmS

witc

h,Le

vel-L

owge

nera

tor

GE

N-1

100

WT

R-P

RH

-LS

L-12

01Le

vel S

witc

h L

ow L

SL-

1201

,Rad

iato

r JW

Exp

ansi

on T

ank

WT

RW

TR

-PR

H-L

SL-

1201

WT

RN

o E

xist

Inst

rum

ent E

quip

men

tA

larm

Sw

itch,

Leve

l-Low

gene

rato

r G

EN

-120

0

WT

R-P

RH

-LS

L-12

02Le

vel S

witc

h L

ow L

SL-

1202

,Rad

iato

r A

C E

xpan

sion

Tan

kW

TR

WT

R-P

RH

-LS

L-12

02W

TR

No

Exi

stIn

stru

men

t Equ

ipm

ent

Ala

rmS

witc

h,Le

vel-L

owge

nera

tor

GE

N-1

200

WT

R-P

RH

-DS

LC-1

100

Dig

ital S

ynch

roni

zer

and

Load

Con

trol

, D

SLC

-110

0, G

ener

ator

Roo

mW

TR

WT

R-P

RH

-DS

LC-1

100

WT

RN

o E

xist

Inst

rum

ent E

quip

men

tR

ecor

der

Con

trol

ler

Gen

erat

or R

oom

WT

R-P

RH

-DS

LC-1

200

Dig

ital S

ynch

roni

zer

and

Load

Con

trol

, D

SLC

-120

0, G

ener

ator

Roo

mW

TR

WT

R-P

RH

-DS

LC-1

200

WT

RN

o E

xist

Inst

rum

ent E

quip

men

tR

ecor

der

Con

trol

ler

Gen

erat

or R

oom

WT

R-P

RH

-UP

S-0

002

Uni

nter

rupt

ed P

ower

Sup

ply,

UP

S-

0002

, Con

trol

Pan

el R

PU

-000

2W

TR

WT

R-P

RH

-UP

S-0

002

WT

RN

o E

xist

Inst

rum

ent E

quip

men

tU

PS

Uni

nter

rupt

ible

Pow

er

Sup

ply

Sw

itchg

ear

Roo

m, R

PU

-000

2

WT

R-P

RH

-RP

U-0

002

Rem

ote

Pro

cess

ing

Uni

t, R

PU

-000

2,

Con

trol

Pan

el

WT

RW

TR

-PR

H-R

PU

-000

2W

TR

No

Exi

stIn

stru

men

t Equ

ipm

ent

Rem

ote

Pro

cess

or

Uni

tC

ontr

ol

Pan

el,In

stru

men

tatio

nS

witc

hgea

r R

oom

ED

OC

SLI

B-#

9501

-v1B

Pag

e 5

of 9

WM

S E

NT

ITY

INF

OR

MA

TIO

N S

PR

EA

DS

HE

ET

DA

TA

PIL

OT

(IN

TE

GR

AT

ED

)

En

tity

Nu

mb

erE

nti

ty N

ame

En

tity

Sit

e N

ame

Par

ent

Nu

mb

erP

aren

t S

ite

Nam

eO

rig

inal

Eq

uip

men

t N

um

ber

En

tity

Typ

eE

nti

ty

Cla

ssif

icat

ion

En

tity

Cat

ego

ryC

riti

calit

yS

ervi

ce

dat

eE

nti

ty L

oca

tio

n D

escr

ipti

on

Pri

ori

tyP

lan

ner

Su

per

viso

rA

llow

ch

arg

es

(Yes

/No

)S

eria

l n

um

ber

WT

R-P

RH

-FN

-000

3A

ir In

take

Fan

FN

-000

3, W

ashr

oom

, M

ezza

nine

WT

RW

TR

-PR

H-F

N-0

003

WT

RN

o E

xist

Mec

hani

cal E

quip

men

tH

VA

CF

anM

ezza

nine

WT

R-P

RH

-LV

-000

3Lo

uver

LV

-000

3,In

take

,Pum

p G

alle

ryW

TR

WT

R-P

RH

-LV

-000

3W

TR

No

Exi

stM

echa

nica

l Equ

ipm

ent

HV

AC

Dam

per/

Louv

erP

ump

Gal

lery

WT

R-P

RH

-LV

-000

8Lo

uver

LV

-000

8, E

xhau

st,P

ump

Gal

lery

WT

RW

TR

-PR

H-L

V-0

003

WT

RN

o E

xist

Mec

hani

cal E

quip

men

tH

VA

CD

ampe

r/Lo

uver

Pum

p G

alle

ry

WT

R-P

RH

-SB

-000

1S

crub

ber,

SB

-000

1, G

ener

ator

Roo

mW

TR

WT

R-P

RH

-SB

-000

1W

TR

No

Exi

stM

echa

nica

l Equ

ipm

ent

HV

AC

Scr

ubbe

rge

nera

tor

Roo

m

WT

R-P

RH

-SB

-000

2S

crub

ber,

SB

-000

2, G

ener

ator

Roo

mW

TR

WT

R-P

RH

-SB

-000

2W

TR

No

Exi

stM

echa

nica

l Equ

ipm

ent

HV

AC

Scr

ubbe

rge

nera

tor

Roo

m

WT

R-P

RH

-PS

L-00

01P

ress

ure

Sw

itch

Low

, PS

L-00

01,

Bas

emen

tW

TR

Pre

ssur

e S

witc

h Lo

w, P

SL-

0001

, Bas

emen

tW

TR

No

Exi

stM

echa

nica

l Equ

ipm

ent

HV

AC

Sw

itch,

Pre

ssur

e-Lo

wB

asem

ent,

Tra

nsfe

r P

ump

P-0

001

WT

R-P

RH

-PS

H-0

001

Pre

ssur

e S

witc

h H

igh,

PS

H-0

001,

B

asem

ent

WT

RP

ress

ure

Sw

itch

Hig

h, P

SH

-00

01, B

asem

ent

WT

RN

o E

xist

Mec

hani

cal E

quip

men

tH

VA

CS

witc

h,P

ress

ure-

Hig

hB

asem

ent,

Tra

nsfe

r P

ump

P-0

001

WT

R-P

RH

-PS

H-0

002

Pre

ssur

e S

witc

h H

igh,

PS

H-0

002,

B

asem

ent

WT

RP

ress

ure

Sw

itch

Hig

h, P

SH

-00

02, B

asem

ent

WT

RN

o E

xist

Mec

hani

cal E

quip

men

tH

VA

CS

witc

h,P

ress

ure-

Hig

hB

asem

ent,

Tra

nsfe

r P

ump

P-0

002

WT

R-P

RH

-PI-

0001

Pre

ssur

e G

auge

, PI-

0001

, Bas

emen

tW

TR

WT

R-P

RH

-PI-

0001

WT

RN

o E

xist

Mec

hani

cal E

quip

men

tH

VA

CP

ress

ure

Sen

sor,

Gau

geB

asem

ent,

Tra

nsfe

r P

ump

P-0

001

WT

R-P

RH

-PI-

0002

Pre

ssur

e G

auge

, PI-

0002

, Bas

emen

tW

TR

WT

R-P

RH

-PI-

0002

WT

RN

o E

xist

Mec

hani

cal E

quip

men

tH

VA

CP

ress

ure

Sen

sor,

Gau

geB

asem

ent,

Tra

nsfe

r P

ump

P-0

002

WT

R-P

RH

-TC

-000

1T

empe

ratu

re C

ontr

ol, T

C-0

001,

G

ener

ator

Roo

mW

TR

WT

R-P

RH

-TC

-000

1W

TR

No

Exi

stIn

stru

men

t Equ

ipm

ent

Sen

sor

Sen

sor,

Tem

pera

ture

Gen

erat

or R

oom

WT

R-P

RH

-TC

-000

2T

empe

ratu

re C

ontr

ol, T

C-0

002,

G

ener

ator

Roo

mW

TR

WT

R-P

RH

-TC

-000

2W

TR

No

Exi

stIn

stru

men

t Equ

ipm

ent

Sen

sor

Sen

sor,

Tem

pera

ture

Gen

erat

or R

oom

WT

R-P

RH

-TC

-000

3T

empe

ratu

re C

ontr

ol, T

C-0

003,

G

ener

ator

Roo

mW

TR

WT

R-P

RH

-TC

-000

3W

TR

No

Exi

stIn

stru

men

t Equ

ipm

ent

Sen

sor

Sen

sor,

Tem

pera

ture

Gen

erat

or R

oom

WT

R-P

RH

-TC

-000

4T

empe

ratu

re C

ontr

ol, T

C-0

004,

G

ener

ator

Roo

mW

TR

WT

R-P

RH

-TC

-000

4W

TR

No

Exi

stIn

stru

men

t Equ

ipm

ent

Sen

sor

Sen

sor,

Tem

pera

ture

Gen

erat

or R

oom

WT

R-P

RH

-TE

-000

1T

empe

ratu

re E

lem

ent,

TE

-000

1,

Gen

erat

or R

oom

WT

RW

TR

-PR

H-T

E-0

001

WT

RN

o E

xist

Inst

rum

ent E

quip

men

tS

enso

rS

enso

r,T

empe

ratu

reG

ener

ator

Roo

m

WT

R-P

RH

-TE

-000

2T

empe

ratu

re E

lem

ent,

TE

-000

2,

Gen

erat

or R

oom

WT

RW

TR

-PR

H-T

E-0

002

WT

RN

o E

xist

Inst

rum

ent E

quip

men

tS

enso

rS

enso

r,T

empe

ratu

reG

ener

ator

Roo

m

WT

R-P

RH

-CP

-110

1C

ontr

ol P

anel

, CP

-110

1, S

CR

Con

trol

P

anel

, Gen

erat

or R

oom

WT

RW

TR

-PR

H-C

P-1

101

WT

RN

o E

xist

Inst

rum

ent E

quip

men

tG

ener

ator

Con

trol

Pan

elG

ener

ator

Roo

m

WT

R-P

RH

-CP

-110

2C

ontr

ol P

anel

, CP

-110

2, S

CR

PR

E-

Hea

t Con

trol

Pan

el, G

ener

ator

Roo

mW

TR

WT

R-P

RH

-CP

-110

2W

TR

No

Exi

stIn

stru

men

t Equ

ipm

ent

Gen

erat

orC

ontr

ol P

anel

Gen

erat

or R

oom

WT

R-P

RH

-CP

-120

1C

ontr

ol P

anel

, CP

-120

1, S

CR

Con

trol

P

anel

, Gen

erat

or R

oom

WT

RW

TR

-PR

H-C

P-1

201

WT

RN

o E

xist

Inst

rum

ent E

quip

men

tG

ener

ator

Con

trol

Pan

elG

ener

ator

Roo

m

WT

R-P

RH

-CP

-120

2C

ontr

ol P

anel

, CP

-120

2, S

CR

PR

E-

Hea

t Con

trol

Pan

el, G

ener

ator

Roo

mW

TR

WT

R-P

RH

-CP

-120

2W

TR

No

Exi

stIn

stru

men

t Equ

ipm

ent

Gen

erat

orC

ontr

ol P

anel

Gen

erat

or R

oom

WT

R-P

RH

-MS

-000

5M

otio

n D

etec

tor,

MS

-000

5, S

witc

hgea

r R

oom

WT

RW

TR

-PR

H-M

S-0

005

WT

RN

o E

xist

Inst

rum

ent E

quip

men

tS

enso

rS

enso

r,M

otio

nS

witc

hgea

r R

oom

WT

R-P

RH

-MS

-000

6M

otio

n D

etec

tor,

MS

-000

6, S

witc

hgea

r R

oom

WT

RW

TR

-PR

H-M

S-0

006

WT

RN

o E

xist

Inst

rum

ent E

quip

men

tS

enso

rS

enso

r,M

otio

nS

witc

hgea

r R

oom

WT

R-P

RH

-MS

-000

7M

otio

n D

etec

tor,

MS

-000

7, G

ener

ator

R

oom

WT

RW

TR

-PR

H-M

S-0

007

WT

RN

o E

xist

Inst

rum

ent E

quip

men

tS

enso

rS

enso

r,M

otio

nG

ener

ator

Roo

m

WT

R-P

RH

-MS

-000

8M

otio

n D

etec

tor,

MS

-000

8, G

ener

ator

R

oom

WT

RW

TR

-PR

H-M

S-0

008

WT

RN

o E

xist

Inst

rum

ent E

quip

men

tS

enso

rS

enso

r,M

otio

nG

ener

ator

Roo

m

ED

OC

SLI

B-#

9501

-v1B

Pag

e 6

of 9

WM

S E

NT

ITY

INF

OR

MA

TIO

N S

PR

EA

DS

HE

ET

DA

TA

PIL

OT

(IN

TE

GR

AT

ED

)

En

tity

Nu

mb

erE

nti

ty N

ame

En

tity

Sit

e N

ame

Par

ent

Nu

mb

erP

aren

t S

ite

Nam

eO

rig

inal

Eq

uip

men

t N

um

ber

En

tity

Typ

eE

nti

ty

Cla

ssif

icat

ion

En

tity

Cat

ego

ryC

riti

calit

yS

ervi

ce

dat

eE

nti

ty L

oca

tio

n D

escr

ipti

on

Pri

ori

tyP

lan

ner

Su

per

viso

rA

llow

ch

arg

es

(Yes

/No

)S

eria

l n

um

ber

WT

R-P

RH

-MS

-000

9M

otio

n D

etec

tor,

MS

-000

9, S

outh

D

oor

D00

7W

TR

WT

R-P

RH

-MS

-000

9W

TR

No

Exi

stIn

stru

men

t Equ

ipm

ent

Sen

sor

Sen

sor,

Mot

ion

Sou

th D

oor

D00

7

WT

R-P

RH

-MS

-001

0M

otio

n D

etec

tor,

MS

-001

0, F

uel V

ault

WT

RW

TR

-PR

H-M

S-0

010

WT

RN

o E

xist

Inst

rum

ent E

quip

men

tS

enso

rS

enso

r,M

otio

nF

uel V

ault

WT

R-P

RH

-MS

-001

1M

otio

n D

etec

tor,

MS

-001

1, F

uel V

ault

WT

RW

TR

-PR

H-M

S-0

011

WT

RN

o E

xist

Inst

rum

ent E

quip

men

tS

enso

rS

enso

r,M

otio

nF

uel V

ault

WT

R-P

RH

-MS

-001

2M

otio

n D

etec

tor,

MS

-001

2, R

oof D

oor

D01

1W

TR

WT

R-P

RH

-MS

-001

2W

TR

No

Exi

stIn

stru

men

t Equ

ipm

ent

Sen

sor

Sen

sor,

Mot

ion

Roo

f Doo

r D

011

WT

R-P

RH

-MS

-001

3M

otio

n D

etec

tor,

MS

-001

3, R

oof

WT

RW

TR

-PR

H-M

S-0

013

WT

RN

o E

xist

Inst

rum

ent E

quip

men

tS

enso

rS

enso

r,M

otio

nR

oof

WT

R-P

RH

-ZS

-000

8D

oor

Con

tact

, ZS

-000

8, W

est D

oor

Equ

ipm

ent D

oor

D00

5W

TR

WT

R-P

RH

-ZS

-000

8W

TR

No

Exi

stIn

stru

men

t Equ

ipm

ent

Sen

sor

Doo

r,A

cces

sW

est D

oor

Equ

ipm

ent D

oor

D00

5

WT

R-P

RH

-ZS

-000

9D

oor

Con

tact

, ZS

-000

9, W

est D

oor

Equ

ipm

ent D

oor

D00

5W

TR

WT

R-P

RH

-ZS

-000

9W

TR

No

Exi

stIn

stru

men

t Equ

ipm

ent

Sen

sor

Doo

r,A

cces

sW

est D

oor

Equ

ipm

ent D

oor

D00

5

WT

R-P

RH

-ZS

-001

0D

oor

Con

tact

, ZS

-001

0, W

est D

oor

Equ

ipm

ent D

oor

D00

6W

TR

WT

R-P

RH

-ZS

-001

0W

TR

No

Exi

stIn

stru

men

t Equ

ipm

ent

Sen

sor

Doo

r,A

cces

sW

est D

oor

Equ

ipm

ent D

oor

D00

6

WT

R-P

RH

-ZS

-001

1D

oor

Con

tact

, ZS

-001

1, W

est D

oor

Equ

ipm

ent D

oor

D00

6W

TR

WT

R-P

RH

-ZS

-001

1W

TR

No

Exi

stIn

stru

men

t Equ

ipm

ent

Sen

sor

Doo

r,A

cces

sW

est D

oor

Equ

ipm

ent D

oor

D00

6

WT

R-P

RH

-ZS

-001

2

Latc

h S

enso

r, Z

S-0

012,

Sou

th D

oor

Mai

n E

ntra

nce

to S

tand

by P

ower

B

uild

ing

D00

7W

TR

WT

R-P

RH

-ZS

-001

2W

TR

No

Exi

stIn

stru

men

t Equ

ipm

ent

Sen

sor

Doo

r,A

cces

sS

outh

Doo

r M

ain

Ent

ranc

e to

S

tand

by P

ower

Bui

ldin

g D

007

WT

R-P

RH

-ZS

-001

3

Doo

r C

onta

ct, Z

S-0

013,

Sou

th D

oor

Mai

n E

ntra

nce

to S

tand

by P

ower

B

uild

ing

D00

7W

TR

WT

R-P

RH

-ZS

-001

3W

TR

No

Exi

stIn

stru

men

t Equ

ipm

ent

Sen

sor

Doo

r,A

cces

sS

outh

Doo

r M

ain

Ent

ranc

e to

S

tand

by P

ower

Bui

ldin

g D

007

WT

R-P

RH

-UN

-000

3

Car

d R

eade

r, U

N-0

003,

Sou

th D

oor

Mai

n E

ntra

nce

to S

tand

by P

ower

B

uild

ing

D00

7W

TR

WT

R-P

RH

-UN

-000

3W

TR

No

Exi

stIn

stru

men

t Equ

ipm

ent

Sen

sor

Doo

r,A

cces

sS

outh

Doo

r M

ain

Ent

ranc

e to

S

tand

by P

ower

Bui

ldin

g D

007

WT

R-P

RH

-AD

-000

2

Arm

/Dis

arm

, AD

-000

2, S

outh

Doo

r M

ain

Ent

ranc

e to

Sta

ndby

Pow

er

Bui

ldin

g D

007

WT

RW

TR

-PR

H-A

D-0

002

WT

RN

o E

xist

Inst

rum

ent E

quip

men

tS

enso

rD

oor,

Acc

ess

Sou

th D

oor

Mai

n E

ntra

nce

to

Sta

ndby

Pow

er B

uild

ing

D00

7

WT

R-P

RH

-ZS

-001

4D

oor

Con

tact

, ZS

-001

4, S

outh

Doo

r D

009

WT

RW

TR

-PR

H-Z

S-0

014

WT

RN

o E

xist

Inst

rum

ent E

quip

men

tS

enso

rD

oor,

Acc

ess

Sou

th D

oor

D00

9

WT

R-P

RH

-ZS

-001

5D

oor

Con

tact

, ZS

-001

5, E

ast D

oor

D01

0W

TR

WT

R-P

RH

-ZS

-001

5W

TR

No

Exi

stIn

stru

men

t Equ

ipm

ent

Sen

sor

Doo

r,A

cces

sE

ast D

oor

D01

0

WT

R-P

RH

-ZS

-001

6La

tch

Sen

sor,

ZS

-001

6, R

oof D

oor

D01

1W

TR

WT

R-P

RH

-ZS

-001

6W

TR

No

Exi

stIn

stru

men

t Equ

ipm

ent

Sen

sor

Doo

r,A

cces

sR

oof D

oor

D01

1

WT

R-P

RH

-UN

-000

4C

ard

Rea

der,

UN

-000

4, R

oof D

oor

D01

1W

TR

WT

R-P

RH

-UN

-000

4W

TR

No

Exi

stIn

stru

men

t Equ

ipm

ent

Sen

sor

Doo

r,A

cces

sR

oof D

oor

D01

1

WT

R-P

RH

-ZS

-001

7D

oor

Con

tact

, ZS

-001

7, R

oof D

oor

D01

1W

TR

WT

R-P

RH

-ZS

-001

7W

TR

No

Exi

stIn

stru

men

t Equ

ipm

ent

Sen

sor

Doo

r,A

cces

sR

oof D

oor

D01

7

WT

R-P

RH

-ZS

-000

7D

oor

Con

tact

, ZS

-000

7, N

orth

Doo

r D

001

WT

RW

TR

-PR

H-Z

S-0

007

WT

RN

o E

xist

Inst

rum

ent E

quip

men

tS

enso

rD

oor,

Acc

ess

Nor

th D

oor

D00

1

WT

R-S

CA

M-0

003

Sec

urity

Cam

era,

SC

AM

-000

3, S

outh

D

oor

D00

7W

TR

WT

R-S

CA

M-0

003

WT

RN

o E

xist

Inst

rum

ent E

quip

men

tC

amer

aS

ecur

ity S

yste

m,C

amer

aS

outh

Doo

r D

007

WT

R-P

RH

-MS

-000

1M

otio

n D

etec

tor,

MS

-000

1, P

ump

Roo

m

WT

RW

TR

-PR

H-M

S-0

001

WT

RN

o E

xist

Inst

rum

ent E

quip

men

tS

enso

rS

enso

r,M

otio

nP

ump

Roo

m

WT

R-P

RH

-MS

-000

2M

otio

n D

etec

tor,

MS

-000

2, P

ump

Roo

m

WT

RW

TR

-PR

H-M

S-0

002

WT

RN

o E

xist

Inst

rum

ent E

quip

men

tS

enso

rS

enso

r,M

otio

nP

ump

Roo

m

WT

R-P

RH

-MS

-000

3M

otio

n D

etec

tor,

MS

-000

3, M

eter

A

cces

s R

oom

WT

RW

TR

-PR

H-M

S-0

003

WT

RN

o E

xist

Inst

rum

ent E

quip

men

tS

enso

rS

enso

r,M

otio

nM

eter

Acc

ess

Roo

m

Exi

stin

g E

quip

men

t to

the

syst

em

ED

OC

SLI

B-#

9501

-v1B

Pag

e 7

of 9

WM

S E

NT

ITY

INF

OR

MA

TIO

N S

PR

EA

DS

HE

ET

DA

TA

PIL

OT

(IN

TE

GR

AT

ED

)

En

tity

Nu

mb

erE

nti

ty N

ame

En

tity

Sit

e N

ame

Par

ent

Nu

mb

erP

aren

t S

ite

Nam

eO

rig

inal

Eq

uip

men

t N

um

ber

En

tity

Typ

eE

nti

ty

Cla

ssif

icat

ion

En

tity

Cat

ego

ryC

riti

calit

yS

ervi

ce

dat

eE

nti

ty L

oca

tio

n D

escr

ipti

on

Pri

ori

tyP

lan

ner

Su

per

viso

rA

llow

ch

arg

es

(Yes

/No

)S

eria

l n

um

ber

WT

R-P

RH

-MS

-000

4M

otio

n D

etec

tor,

MS

-000

4, W

est D

oor

D00

2W

TR

WT

R-P

RH

-MS

-000

4W

TR

No

Exi

stIn

stru

men

t Equ

ipm

ent

Sen

sor

Sen

sor,

Mot

ion

Wes

t Doo

r D

002

WT

R-P

RH

-ZS

-000

4

Latc

h S

enso

r, Z

S-0

004,

Wes

t Doo

r M

ain

Ent

ranc

e to

Exi

stin

g P

umpi

ng

Sta

tion

D00

2W

TR

WT

R-P

RH

-ZS

-000

4W

TR

No

Exi

stIn

stru

men

t Equ

ipm

ent

Sen

sor

Doo

r,A

cces

sW

est D

oor

Mai

n E

ntra

nce

to

Exi

stin

g P

umpi

ng S

tatio

n D

002

WT

R-P

RH

-ZS

-000

3

Doo

r C

onta

ct, Z

S-0

003,

Wes

t Doo

r M

ain

Ent

ranc

e to

Exi

stin

g P

umpi

ng

Sta

tion

D00

2W

TR

WT

R-P

RH

-ZS

-000

3W

TR

No

Exi

stIn

stru

men

t Equ

ipm

ent

Sen

sor

Doo

r,A

cces

sW

est D

oor

Mai

n E

ntra

nce

to

Exi

stin

g P

umpi

ng S

tatio

n D

002

WT

R-P

RH

-UN

-000

1

Car

d R

eade

r, U

N-0

001,

Wes

t Doo

r M

ain

Ent

ranc

e to

Exi

stin

g P

umpi

ng

Sta

tion

D00

2W

TR

WT

R-P

RH

-UN

-000

1W

TR

No

Exi

stIn

stru

men

t Equ

ipm

ent

Sen

sor

Doo

r,A

cces

sW

est D

oor

Mai

n E

ntra

nce

to

Exi

stin

g P

umpi

ng S

tatio

n D

002

WT

R-P

RH

-UN

-000

2

Car

d R

eade

r, U

N-0

002,

Wes

t Doo

r M

ain

Ent

ranc

e to

Exi

stin

g P

umpi

ng

Sta

tion

D00

2W

TR

WT

R-P

RH

-UN

-000

2W

TR

No

Exi

stIn

stru

men

t Equ

ipm

ent

Sen

sor

Doo

r,A

cces

sW

est D

oor

Mai

n E

ntra

nce

to

Exi

stin

g P

umpi

ng S

tatio

n D

002

WT

R-P

RH

-AD

-000

1

Arm

/Dis

arm

, AD

-000

1, W

est D

oor

Mai

n E

ntra

nce

to E

xist

ing

Pum

ping

S

tatio

n D

002

WT

RW

TR

-PR

H-A

D-0

001

WT

RN

o E

xist

Inst

rum

ent E

quip

men

tS

enso

rD

oor,

Acc

ess

Wes

t Doo

r M

ain

Ent

ranc

e to

E

xist

ing

Pum

ping

Sta

tion

D00

2

WT

R-P

RH

-ZS

-000

1D

oor

Con

tact

, ZS

-000

1, W

est D

oor

Equ

ipm

ent D

oor

WT

RW

TR

-PR

H-Z

S-0

001

WT

RN

o E

xist

Inst

rum

ent E

quip

men

tS

enso

rD

oor,

Acc

ess

Wes

t Doo

r E

quip

men

t Doo

r

WT

R-P

RH

-ZS

-000

2D

oor

Con

tact

, ZS

-000

2, W

est D

oor

Equ

ipm

ent D

oor

WT

RW

TR

-PR

H-Z

S-0

002

WT

RN

o E

xist

Inst

rum

ent E

quip

men

tS

enso

rD

oor,

Acc

ess

Wes

t Doo

r E

quip

men

t Doo

r

WT

R-P

RH

-ZS

-000

5O

verh

ead

Doo

r C

onta

ct, Z

S-0

005,

P

ump

Roo

mW

TR

WT

R-P

RH

-ZS

-000

5W

TR

No

Exi

stIn

stru

men

t Equ

ipm

ent

Sen

sor

Doo

r,A

cces

sP

ump

Roo

m

WT

R-P

RH

-ZS

-000

6O

verh

ead

Doo

r C

onta

ct, Z

S-0

006,

P

ump

Roo

mW

TR

WT

R-P

RH

-ZS

-000

6W

TR

No

Exi

stIn

stru

men

t Equ

ipm

ent

Sen

sor

Doo

r,A

cces

sP

ump

Roo

m

WT

R-P

RH

-HS

-000

1S

iren,

HS

-000

1, D

002

WT

RW

TR

-PR

H-H

S-0

001

WT

RN

o E

xist

Inst

rum

ent E

quip

men

tS

enso

rD

oor,

Acc

ess

D00

2

WT

R-S

CA

M-0

001

Sec

urity

Cam

era,

SC

AM

-000

1, W

est

Doo

r D

002

WT

RW

TR

-SC

AM

-000

1W

TR

No

Exi

stIn

stru

men

t Equ

ipm

ent

Cam

era

Sec

urity

Sys

tem

,Cam

era

Wes

t Doo

r D

002

WT

R-S

CA

M-0

002

Sec

urity

Cam

era,

SC

AM

-000

2, N

orth

D

oor

D00

1W

TR

WT

R-S

CA

M-0

002

WT

RN

o E

xist

Inst

rum

ent E

quip

men

tC

amer

aS

ecur

ity S

yste

m,C

amer

aN

orth

Doo

r D

001

WT

R-P

RH

-V-0

001

But

terf

ly V

alve

V-0

001,

Act

uate

d ,E

xist

ing

P.S

Bas

emen

tW

TR

WT

R-P

RH

-V-0

001

WT

RW

TR

-PR

H-V

-000

1M

echa

nica

l Equ

ipm

ent

Val

veV

alve

,But

terf

ly,A

ctua

ted

Exi

stin

g P

.S B

asem

ent

WT

R-P

RH

-V-0

002

Con

e V

alve

V-0

002,

Act

uate

d, E

xist

ing

P.S

Bas

emen

tW

TR

WT

R-P

RH

-V-0

002

WT

RW

TR

-PR

H-V

-000

2M

echa

nica

l Equ

ipm

ent

Val

veV

alve

,Con

e,A

ctua

ted

Exi

stin

g P

.S B

asem

ent

WT

R-P

RH

-V-0

101

But

terf

ly V

alve

V-0

101,

Man

ual,

Exi

stin

g P

.S B

asem

ent

WT

RW

TR

-PR

H-V

-010

1W

TR

WT

R-P

RH

-V-0

101

Mec

hani

cal E

quip

men

tV

alve

Val

veE

xist

ing

P.S

Bas

emen

t

WT

R-P

RH

-V-0

201

But

terf

ly V

alve

V-0

201,

Man

ual,

Exi

stin

g P

.S B

asem

ent

WT

RW

TR

-PR

H-V

-020

1W

TR

WT

R-P

RH

-V-0

201

Mec

hani

cal E

quip

men

tV

alve

Val

veE

xist

ing

P.S

Bas

emen

t

WT

R-P

RH

-V-0

301

But

terf

ly V

alve

V-0

301,

Man

ual,

Exi

stin

g P

.S B

asem

ent

WT

RW

TR

-PR

H-V

-030

1W

TR

WT

R-P

RH

-V-0

301

Mec

hani

cal E

quip

men

tV

alve

Val

veE

xist

ing

P.S

Bas

emen

t

WT

R-P

RH

-V-0

102

Che

ck V

alve

V-0

102,

Man

ual,

Exi

stin

g P

.S B

asem

ent

WT

RW

TR

-PR

H-V

-010

2W

TR

WT

R-P

RH

-V-0

102

Mec

hani

cal E

quip

men

tV

alve

Val

ve,C

heck

Exi

stin

g P

.S B

asem

ent

WT

R-P

RH

-V-0

202

Che

ck V

alve

V-0

202,

Man

ual,

Exi

stin

g P

.S B

asem

ent

WT

RW

TR

-PR

H-V

-020

2W

TR

WT

R-P

RH

-V-0

202

Mec

hani

cal E

quip

men

tV

alve

Val

ve,C

heck

Exi

stin

g P

.S B

asem

ent

WT

R-P

RH

-V-0

302

Che

ck V

alve

V-0

302,

Man

ual,

Exi

stin

g P

.S B

asem

ent

WT

RW

TR

-PR

H-V

-030

2W

TR

WT

R-P

RH

-V-0

302

Mec

hani

cal E

quip

men

tV

alve

Val

ve,C

heck

Exi

stin

g P

.S B

asem

ent

WT

R-P

RH

-V-0

103

Con

e V

alve

V-0

103,

Act

uate

d,

Exi

stin

g P

.S B

asem

ent

WT

RW

TR

-PR

H-V

-010

3W

TR

WT

R-P

RH

-V-0

103

Mec

hani

cal E

quip

men

tV

alve

Val

ve,C

one,

Act

uate

dE

xist

ing

P.S

Bas

emen

t

WT

R-P

RH

-V-0

203

Con

e V

alve

V-0

203,

Act

uate

d,

Exi

stin

g P

.S B

asem

ent

WT

RW

TR

-PR

H-V

-020

3W

TR

WT

R-P

RH

-V-0

203

Mec

hani

cal E

quip

men

tV

alve

Val

ve,C

one,

Act

uate

dE

xist

ing

P.S

Bas

emen

t

WT

R-P

RH

-V-0

303

Con

e V

alve

V-0

303,

Act

uate

d,

Exi

stin

g P

.S B

asem

ent

WT

RW

TR

-PR

H-V

-030

3W

TR

WT

R-P

RH

-V-0

303

Mec

hani

cal E

quip

men

tV

alve

Val

ve,C

one,

Act

uate

dE

xist

ing

P.S

Bas

emen

t

WT

R-P

RH

-LB

-010

2S

econ

dary

Loa

d B

reak

er L

B-0

102,

41

60V

, Sw

itchg

ear

Ele

ctric

al R

oom

WT

RW

TR

-PR

H-L

B-0

102

WT

RW

TR

-PE

L-LB

-010

2E

lect

rical

Equ

ipm

ent

Load

Bre

ak S

witc

hLo

ad B

reak

Sw

itch

Sw

itchg

ear-

Ele

ctric

al R

oom

WT

R-P

RH

-LB

-020

2S

econ

dary

Loa

d B

reak

er L

B-0

202,

41

60V

, Sw

itchg

ear

Ele

ctric

al R

oom

WT

RW

TR

-PR

H-L

B-0

202

WT

RW

TR

-PE

L-LB

-020

2E

lect

rical

Equ

ipm

ent

Load

Bre

ak S

witc

hLo

ad B

reak

Sw

itch

Sw

itchg

ear-

Ele

ctric

al R

oom

WT

R-P

RH

-LB

-000

1S

econ

dary

Tie

Bre

aker

LB

-000

1 41

60V

, Sw

itchg

ear

Ele

ctric

al R

oom

WT

RW

TR

-PR

H-L

B-0

001

WT

RW

TR

-PE

L-LB

-000

1E

lect

rical

Equ

ipm

ent

Load

Bre

ak S

witc

hLo

ad B

reak

Sw

itch

Sw

itchg

ear-

Ele

ctric

al R

oom

Exi

stin

g E

quip

men

t tha

t is

to b

e re

plac

ed w

ith n

ew

ED

OC

SLI

B-#

9501

-v1B

Pag

e 8

of 9

WM

S E

NT

ITY

INF

OR

MA

TIO

N S

PR

EA

DS

HE

ET

DA

TA

PIL

OT

(IN

TE

GR

AT

ED

)

En

tity

Nu

mb

erE

nti

ty N

ame

En

tity

Sit

e N

ame

Par

ent

Nu

mb

erP

aren

t S

ite

Nam

eO

rig

inal

Eq

uip

men

t N

um

ber

En

tity

Typ

eE

nti

ty

Cla

ssif

icat

ion

En

tity

Cat

ego

ryC

riti

calit

yS

ervi

ce

dat

eE

nti

ty L

oca

tio

n D

escr

ipti

on

Pri

ori

tyP

lan

ner

Su

per

viso

rA

llow

ch

arg

es

(Yes

/No

)S

eria

l n

um

ber

WT

R-P

RH

-TR

-030

1V

,Pow

er,R

oseh

ill P

umpi

ng

Sta

tion,

Sw

itchg

ear

Ele

ctric

al R

oom

WT

RW

TR

-PR

H-T

R-0

301

WT

RW

TR

-PE

L-T

R-0

301

Ele

ctric

al E

quip

men

tT

rans

form

erT

rans

form

er,P

ower

Sw

itchg

ear-

Ele

ctric

al R

oom

WT

R-P

RH

-TR

-040

1

Tra

nsfo

rmer

TR

-040

1, 4

160/

600

V,

Pow

er,R

oseh

ill P

umpi

ng

Sta

tion,

Sw

itchg

ear

Ele

ctric

al R

oom

WT

RW

TR

-PR

H-T

R-0

401

WT

RW

TR

-PR

H-T

R-0

401

Ele

ctric

al E

quip

men

tT

rans

form

erT

rans

form

er,P

ower

Sw

itchg

ear-

Ele

ctric

al R

oom

WT

R-P

RH

-CB

-010

1,M

ain,

600V

,Ros

ehill

Pum

ping

S

tatio

n,M

CC

-010

1/02

01W

TR

WT

R-P

RH

-CB

-010

1W

TR

WT

R-P

RH

-CB

-010

1E

lect

rical

Equ

ipm

ent

Circ

uit B

reak

erC

ircui

t Bre

aker

MC

C-0

101/

0201

Pum

p R

oom

WT

R-P

RH

-CB

-020

1

Circ

uit B

reak

er C

B-

0201

,Mai

n,60

0V,R

oseh

ill P

umpi

ng

Sta

tion,

MC

C-0

101/

0201

WT

RW

TR

-PR

H-C

B-0

201

WT

RW

TR

-PR

H-C

B-0

201

Ele

ctric

al E

quip

men

tC

ircui

t Bre

aker

Circ

uit B

reak

erM

CC

-010

1/02

01 P

ump

Roo

m

WT

R-P

RH

-TB

-000

1

Tie

Circ

uit B

reak

er C

B-

0001

,Mai

n,60

0V,R

oseh

ill P

umpi

ng

Sta

tion,

MC

C-0

101/

0201

WT

RW

TR

-PR

H-T

B-0

001

WT

RW

TR

-PR

H-T

B-0

001

Ele

ctric

al E

quip

men

tC

ircui

t Bre

aker

Circ

uit B

reak

erM

CC

-010

1/02

01 P

ump

Roo

m

WT

R-P

RH

-JIT

-010

2B

reak

er F

eede

r M

anag

emen

t Rel

ay,

SR

750

,Sw

itchg

ear

Ele

ctric

al R

oom

W

TR

WT

R-P

RH

-LB

-010

2W

TR

WT

R-P

RH

-JIT

-010

2E

lect

rical

Equ

ipm

ent

Pro

tect

ive

Rel

ayR

elay

,Pro

tect

ive

Sw

itchg

ear-

Ele

ctric

al R

oom

WT

R-P

RH

-JIT

-010

2AT

rans

form

er M

anag

emen

t Rel

ay ,S

R

745,

Sw

itchg

ear

Ele

ctric

al R

oom

W

TR

WT

R-P

RH

-LB

-010

2W

TR

WT

R-P

RH

-JIT

-010

2AE

lect

rical

Equ

ipm

ent

Pro

tect

ive

Rel

ayR

elay

,Pro

tect

ive

Sw

itchg

ear-

Ele

ctric

al R

oom

WT

R-P

RH

-JIT

-010

2BS

yncr

oniz

e co

ntro

l Rel

ay ,S

CR

,S

witc

hgea

r E

lect

rical

Roo

m

WT

RW

TR

-PR

H-L

B-0

102

WT

RW

TR

-PR

H-J

IT-0

102A

Ele

ctric

al E

quip

men

tP

rote

ctiv

e R

elay

Rel

ay,P

rote

ctiv

eS

witc

hgea

r-E

lect

rical

Roo

m

WT

R-P

RH

-JIT

-010

3G

ener

ator

Man

agem

ent R

elay

,SR

48

9, S

witc

hgea

r E

lect

rical

Roo

mW

TR

WT

R-P

RH

-LB

-010

3W

TR

No

Exi

stE

lect

rical

Equ

ipm

ent

Pro

tect

ive

Rel

ayR

elay

,Pro

tect

ive

Sw

itchg

ear-

Ele

ctric

al R

oom

WT

R-P

RH

-JIT

-020

2F

eede

r M

anag

emen

t Rel

ay, S

R

750,

Sw

itchg

ear

Ele

ctric

al R

oom

W

TR

WT

R-P

RH

-LB

-020

2W

TR

WT

R-P

RH

-JIT

-020

2E

lect

rical

Equ

ipm

ent

Pro

tect

ive

Rel

ayR

elay

,Pro

tect

ive

Sw

itchg

ear-

Ele

ctric

al R

oom

WT

R-P

RH

-JIT

-020

2AT

rans

form

er M

anag

emen

t Rel

ay ,S

R

745,

Sw

itchg

ear

Ele

ctric

al R

oom

W

TR

WT

R-P

RH

-LB

-020

2W

TR

WT

R-P

RH

-JIT

-020

2AE

lect

rical

Equ

ipm

ent

Pro

tect

ive

Rel

ayR

elay

,Pro

tect

ive

Sw

itchg

ear-

Ele

ctric

al R

oom

WT

R-P

RH

-JIT

-020

2BS

yncr

oniz

e co

ntro

l Rel

ay ,S

CR

,S

witc

hgea

r E

lect

rical

Roo

m

WT

RW

TR

-PR

H-J

IT-0

202B

WT

RW

TR

-PR

H-J

IT-0

202A

Ele

ctric

al E

quip

men

tP

rote

ctiv

e R

elay

Rel

ay,P

rote

ctiv

eS

witc

hgea

r-E

lect

rical

Roo

m

WT

R-P

RH

-JIT

-020

3G

ener

ator

Man

agem

ent R

elay

,SR

48

9, S

witc

hgea

r E

lect

rical

Roo

mW

TR

WT

R-P

RH

-LB

-020

3W

TR

No

Exi

stE

lect

rical

Equ

ipm

ent

Pro

tect

ive

Rel

ayR

elay

,Pro

tect

ive

Sw

itchg

ear-

Ele

ctric

al R

oom

WT

R-P

RH

-BA

T-0

001

Bat

tery

Cha

rger

Sys

tem

, 120

V,

Ele

ctric

al R

oom

WT

RW

TR

-PR

H-B

AT

-000

1W

TR

WT

R-P

RH

-BA

T-0

001

Ele

ctric

al E

quip

men

tB

atte

ryC

harg

er,B

atte

ryE

lect

rical

Roo

m

WT

R-P

RH

-BU

S-0

102

Sw

itchg

ear,

416

0V, R

oseh

ill P

umpi

ng

Sta

tion

WT

RW

TR

-PR

H-B

US

-010

2W

TR

WT

R-P

RH

-BU

S-0

102

Ele

ctric

al E

quip

men

tS

witc

hgea

rS

witc

hgea

r,In

door

Sw

itchg

ear-

Ele

ctric

al R

oom

WT

R-P

RH

-BU

S-0

202

Sw

itchg

ear,

416

0V, R

oseh

ill P

umpi

ng

Sta

tion

WT

RW

TR

-PR

H-B

US

-020

2W

TR

WT

R-P

RH

-BU

S-0

202

Ele

ctric

al E

quip

men

tS

witc

hgea

rS

witc

hgea

r,In

door

Sw

itchg

ear

-Ele

ctric

al R

oom

WT

R-P

RH

-FN

-000

6E

xhau

st F

an #

2, F

M-5

WT

RW

TR

-PR

H-F

N-0

006

WT

RW

TR

-PR

H-F

N-0

006

Mec

hani

cal E

quip

men

tH

VA

CF

anE

xist

ing

Pum

ping

Sta

tion

WT

R-P

RH

-FN

-000

7E

xhau

st F

an #

3, F

M-6

WT

RW

TR

-PR

H-F

N-0

007

WT

RW

TR

-PR

H-F

N-0

007

Mec

hani

cal E

quip

men

tH

VA

CF

anE

xist

ing

Pum

ping

Sta

tion

WT

R-P

RH

-FN

-000

2In

take

Air

Fan

#2,

FM

-2W

TR

WT

R-P

RH

-FN

-000

2W

TR

WT

R-P

RH

-FN

-000

2M

echa

nica

l Equ

ipm

ent

HV

AC

Fan

Exi

stin

g P

umpi

ng S

tatio

n

WT

R-P

RH

-FN

-000

1In

take

Air

Fan

#1,

FM

-1W

TR

WT

R-P

RH

-FN

-000

1W

TR

WT

R-P

RH

-FN

-000

1M

echa

nica

l Equ

ipm

ent

HV

AC

Fan

Exi

stin

g P

umpi

ng S

tatio

n

Exi

stin

g E

quip

men

t tha

t is

to b

e de

lete

d an

d re

mov

ed fr

om s

yste

m

ED

OC

SLI

B-#

9501

-v1B

Pag

e 9

of 9

WM

S E

NT

ITY

INF

OR

MA

TIO

N S

PR

EA

DS

HE

ET

En

tity

Bas

ic (

Ind

ivid

ual

Tab

)

Dat

a P

ilot

- E

nti

ty B

asic

En

tity

Nu

mb

erE

nti

ty N

ame

En

tity

Sit

e N

ame

Par

ent

Nu

mb

erP

aren

t S

ite

Nam

e

Ori

gin

al

Eq

uip

men

t N

um

ber

En

tity

Typ

eE

nti

ty

Cla

ssif

icat

ion

En

tity

Cat

ego

ryC

riti

calit

yS

ervi

ce

dat

eE

nti

ty L

oca

tio

n D

escr

ipti

on

Pri

ori

tyP

lan

ner

Su

per

viso

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V-0

001

Lou

ver

175

mm

x 2

5mm

(3”

x 1

”)A

lum

iniu

m B

LA

CK

lett

erin

g te

flon

coa

ted

Louv

er L

V-0

002,

Inta

ke,G

ener

ator

Roo

mW

TR

-PR

H-L

V-0

002

Lou

ver

175

mm

x 2

5mm

(3”

x 1

”)A

lum

iniu

m B

LA

CK

lett

erin

g te

flon

coa

ted

Louv

er L

V-0

003,

Inta

ke,P

ump

Gal

lery

WT

R-P

RH

-LV

-000

3L

ouve

r1

75m

m x

25m

m (

3” x

1”)

Alu

min

ium

BL

AC

K le

tter

ing

tefl

on c

oate

dLo

uver

LV

-000

4,G

ener

al V

entil

atio

n,G

ener

ator

Roo

mW

TR

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H-L

V-0

004

Lou

ver

175

mm

x 2

5mm

(3”

x 1

”)A

lum

iniu

m B

LA

CK

lett

erin

g te

flon

coa

ted

Louv

er L

V-0

005,

Gen

eral

Ven

tilat

ion,

Gen

erat

or R

oom

WT

R-P

RH

-LV

-000

5L

ouve

r1

75m

m x

25m

m (

3” x

1”)

Alu

min

ium

BL

AC

K le

tter

ing

tefl

on c

oate

dLo

uver

LV

-000

6,G

ener

al V

entil

atio

n, F

uel V

ault

Bas

emen

tW

TR

-PR

H-L

V-0

006

Lou

ver

175

mm

x 2

5mm

(3”

x 1

”)A

lum

iniu

m B

LA

CK

lett

erin

g te

flon

coa

ted

Louv

er L

V-0

007,

Gen

eral

Ven

tilat

ion,

Fue

l Vau

lt B

asem

ent

WT

R-P

RH

-LV

-000

7L

ouve

r1

75m

m x

25m

m (

3” x

1”)

Alu

min

ium

BL

AC

K le

tter

ing

tefl

on c

oate

dLo

uver

LV

-000

8, E

xhau

st,P

ump

Gal

lery

WT

R-P

RH

-LV

-000

8L

ouve

r1

75m

m x

25m

m (

3” x

1”)

Alu

min

ium

BL

AC

K le

tter

ing

tefl

on c

oate

dM

otio

n D

etec

tor,

MS

-000

1, P

ump

Roo

m

WT

R-P

RH

-MS

-000

1M

otio

n D

etec

tor

175

mm

x 2

5mm

(3”

x 1

”)A

lum

iniu

m B

LA

CK

lett

erin

g te

flon

coa

ted

Mot

ion

Det

ecto

r, M

S-0

002,

Pum

p R

oom

W

TR

-PR

H-M

S-0

002

Mot

ion

Det

ecto

r1

75m

m x

25m

m (

3” x

1”)

Alu

min

ium

BL

AC

K le

tter

ing

tefl

on c

oate

dM

otio

n D

etec

tor,

MS

-000

3, M

eter

Acc

ess

Roo

mW

TR

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H-M

S-0

003

Mot

ion

Det

ecto

r1

75m

m x

25m

m (

3” x

1”)

Alu

min

ium

BL

AC

K le

tter

ing

tefl

on c

oate

dM

otio

n D

etec

tor,

MS

-000

4, W

est D

oor

D00

2W

TR

-PR

H-M

S-0

004

Mot

ion

Det

ecto

r1

75m

m x

25m

m (

3” x

1”)

Alu

min

ium

BL

AC

K le

tter

ing

tefl

on c

oate

dM

otio

n D

etec

tor,

MS

-000

5, S

witc

hgea

r R

oom

WT

R-P

RH

-MS

-000

5M

otio

n D

etec

tor

175

mm

x 2

5mm

(3”

x 1

”)A

lum

iniu

m B

LA

CK

lett

erin

g te

flon

coa

ted

Mot

ion

Det

ecto

r, M

S-0

006,

Sw

itchg

ear

Roo

mW

TR

-PR

H-M

S-0

006

Mot

ion

Det

ecto

r1

75m

m x

25m

m (

3” x

1”)

Alu

min

ium

BL

AC

K le

tter

ing

tefl

on c

oate

dM

otio

n D

etec

tor,

MS

-000

7, G

ener

ator

Roo

mW

TR

-PR

H-M

S-0

007

Mot

ion

Det

ecto

r1

75m

m x

25m

m (

3” x

1”)

Alu

min

ium

BL

AC

K le

tter

ing

tefl

on c

oate

dM

otio

n D

etec

tor,

MS

-000

8, G

ener

ator

Roo

mW

TR

-PR

H-M

S-0

008

Mot

ion

Det

ecto

r1

75m

m x

25m

m (

3” x

1”)

Alu

min

ium

BL

AC

K le

tter

ing

tefl

on c

oate

dM

otio

n D

etec

tor,

MS

-000

9, S

outh

Doo

r D

007

WT

R-P

RH

-MS

-000

9M

otio

n D

etec

tor

175

mm

x 2

5mm

(3”

x 1

”)A

lum

iniu

m B

LA

CK

lett

erin

g te

flon

coa

ted

Mot

ion

Det

ecto

r, M

S-0

010,

Fue

l Vau

ltW

TR

-PR

H-M

S-0

010

Mot

ion

Det

ecto

r1

75m

m x

25m

m (

3” x

1”)

Alu

min

ium

BL

AC

K le

tter

ing

tefl

on c

oate

dM

otio

n D

etec

tor,

MS

-001

1, F

uel V

ault

WT

R-P

RH

-MS

-001

1M

otio

n D

etec

tor

175

mm

x 2

5mm

(3”

x 1

”)A

lum

iniu

m B

LA

CK

lett

erin

g te

flon

coa

ted

Mot

ion

Det

ecto

r, M

S-0

012,

Roo

f D

oor

D01

1W

TR

-PR

H-M

S-0

012

Mot

ion

Det

ecto

r1

75m

m x

25m

m (

3” x

1”)

Alu

min

ium

BL

AC

K le

tter

ing

tefl

on c

oate

dM

otio

n D

etec

tor,

MS

-001

3, R

oof

WT

R-P

RH

-MS

-001

3M

otio

n D

etec

tor

175

mm

x 2

5mm

(3”

x 1

”)A

lum

iniu

m B

LA

CK

lett

erin

g te

flon

coa

ted

Mot

oriz

ed D

ampe

r D

M-0

001,

Gen

eral

Ven

tilat

ion,

Gen

erat

or R

oom

WT

R-P

RH

-DM

-000

1D

ampe

r1

75m

m x

25m

m (

3” x

1”)

Alu

min

ium

BL

AC

K le

tter

ing

tefl

on c

oate

dM

otor

ized

Dam

per

DM

-000

2, G

ener

al V

entil

atio

n, G

ener

ator

Roo

mW

TR

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H-D

M-0

002

Dam

per

175

mm

x 2

5mm

(3”

x 1

”)A

lum

iniu

m B

LA

CK

lett

erin

g te

flon

coa

ted

Mot

oriz

ed D

ampe

r D

M-0

003,

Gen

eral

Ven

tilat

ion,

Fue

l Vau

lt B

asem

ent

WT

R-P

RH

-DM

-000

3D

ampe

r1

75m

m x

25m

m (

3” x

1”)

Alu

min

ium

BL

AC

K le

tter

ing

tefl

on c

oate

d

EG

UIP

ME

NT

(A

SS

ET

) T

AG

LIS

T -

AL

UM

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AG

S

ED

OC

SLI

B-#

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AP

age

1 of

2

Mot

oriz

ed D

ampe

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M-0

004,

Gen

eral

Ven

tilat

ion,

Fue

l Vau

lt B

asem

ent

WT

R-P

RH

-DM

-000

4D

ampe

r1

75m

m x

25m

m (

3” x

1”)

Alu

min

ium

BL

AC

K le

tter

ing

tefl

on c

oate

dM

otor

ized

Dam

per

DM

-001

1 ,In

take

Com

bust

ion

Air

, Gen

erat

or R

oom

WT

R-P

RH

-DM

-001

1D

ampe

r1

75m

m x

25m

m (

3” x

1”)

Alu

min

ium

BL

AC

K le

tter

ing

tefl

on c

oate

dM

otor

ized

Dam

per

DM

-001

2,In

take

, G

ener

ator

Roo

mW

TR

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H-D

M-0

012

Dam

per

175

mm

x 2

5mm

(3”

x 1

”)A

lum

iniu

m B

LA

CK

lett

erin

g te

flon

coa

ted

Mot

oriz

ed D

ampe

r D

M-0

014,

Inta

ke ,

Gen

erat

or R

oom

WT

R-P

RH

-DM

-001

4D

ampe

r1

75m

m x

25m

m (

3” x

1”)

Alu

min

ium

BL

AC

K le

tter

ing

tefl

on c

oate

dM

otor

ized

Dam

per

DM

-002

1 ,In

take

Com

bust

ion

Air

, Gen

erat

or R

oom

WT

R-P

RH

-DM

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1D

ampe

r1

75m

m x

25m

m (

3” x

1”)

Alu

min

ium

BL

AC

K le

tter

ing

tefl

on c

oate

dM

otor

ized

Dam

per

DM

-002

2,In

take

, G

ener

ator

Roo

mW

TR

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H-D

M-0

022

Dam

per

175

mm

x 2

5mm

(3”

x 1

”)A

lum

iniu

m B

LA

CK

lett

erin

g te

flon

coa

ted

Mot

oriz

ed D

ampe

r D

M-0

023,

Inta

ke ,

Gen

erat

or R

oom

WT

R-P

RH

-DM

-002

3D

ampe

r1

75m

m x

25m

m (

3” x

1”)

Alu

min

ium

BL

AC

K le

tter

ing

tefl

on c

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dM

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ized

Dam

per

DM

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4,In

take

, G

ener

ator

Roo

mW

TR

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H-D

M-0

024

Dam

per

175

mm

x 2

5mm

(3”

x 1

”)A

lum

iniu

m B

LA

CK

lett

erin

g te

flon

coa

ted

Mot

oriz

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ampe

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M-0

013,

Inta

ke ,

Gen

erat

or R

oom

WT

R-P

RH

-DM

-001

3D

ampe

r1

75m

m x

25m

m (

3” x

1”)

Alu

min

ium

BL

AC

K le

tter

ing

tefl

on c

oate

dO

verh

ead

Doo

r C

onta

ct, Z

S-0

005,

Pum

p R

oom

WT

R-P

RH

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oor

Con

tact

175

mm

x 2

5mm

(3”

x 1

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lum

iniu

m B

LA

CK

lett

erin

g te

flon

coa

ted

Ove

rhea

d D

oor

Con

tact

, ZS

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6, P

ump

Roo

mW

TR

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H-Z

S-0

006

Doo

r C

onta

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75m

m x

25m

m (

3” x

1”)

Alu

min

ium

BL

AC

K le

tter

ing

tefl

on c

oate

dP

ress

ure

Gau

ge, P

I-00

01, B

asem

ent

WT

R-P

RH

-PI-

0001

Pre

ssur

e G

auge

175

mm

x 2

5mm

(3”

x 1

”)A

lum

iniu

m B

LA

CK

lett

erin

g te

flon

coa

ted

Pre

ssur

e G

auge

, PI-

0002

, Bas

emen

tW

TR

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H-P

I-00

02P

ress

ure

Gau

ge1

75m

m x

25m

m (

3” x

1”)

Alu

min

ium

BL

AC

K le

tter

ing

tefl

on c

oate

dP

ress

ure

Sw

itch

Hig

h, P

SH

-000

1, B

asem

ent

WT

R-P

RH

-PS

H-0

001

Pre

ssur

e S

witc

h1

75m

m x

25m

m (

3” x

1”)

Alu

min

ium

BL

AC

K le

tter

ing

tefl

on c

oate

dP

ress

ure

Sw

itch

Hig

h, P

SH

-000

2, B

asem

ent

WT

R-P

RH

-PS

H-0

002

Pre

ssur

e S

witc

h1

75m

m x

25m

m (

3” x

1”)

Alu

min

ium

BL

AC

K le

tter

ing

tefl

on c

oate

dP

ress

ure

Sw

itch

Low

, PS

L-00

01, B

asem

ent

WT

R-P

RH

-PS

L-0

001

Pre

ssur

e S

witc

h1

75m

m x

25m

m (

3” x

1”)

Alu

min

ium

BL

AC

K le

tter

ing

tefl

on c

oate

dR

AD

Fan

FN

-010

1, S

tand

by B

uild

ing

Roo

fW

TR

-PR

H-F

N-0

101

Rad

Fan

175

mm

x 2

5mm

(3”

x 1

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lum

iniu

m B

LA

CK

lett

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g te

flon

coa

ted

RA

D F

an F

N-0

102,

Sta

ndby

Bui

ldin

g R

oof

WT

R-P

RH

-FN

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2R

ad F

an1

75m

m x

25m

m (

3” x

1”)

Alu

min

ium

BL

AC

K le

tter

ing

tefl

on c

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dR

AD

Fan

FN

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1, S

tand

by B

uild

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Roo

fW

TR

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H-F

N-0

201

Rad

Fan

175

mm

x 2

5mm

(3”

x 1

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lum

iniu

m B

LA

CK

lett

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g te

flon

coa

ted

RA

D F

an F

N-0

202,

Sta

ndby

Bui

ldin

g R

oof

WT

R-P

RH

-FN

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2R

ad F

an1

75m

m x

25m

m (

3” x

1”)

Alu

min

ium

BL

AC

K le

tter

ing

tefl

on c

oate

dS

CR

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1 H

eate

r H

TR

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0, G

ener

ator

Roo

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TR

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H-H

TR

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0H

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75m

m x

25m

m (

3” x

1”)

Alu

min

ium

BL

AC

K le

tter

ing

tefl

on c

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dS

CR

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0 H

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r H

TR

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0, G

ener

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Roo

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TR

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H-H

TR

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0H

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r1

75m

m x

25m

m (

3” x

1”)

Alu

min

ium

BL

AC

K le

tter

ing

tefl

on c

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dS

CR

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or, G

ener

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Roo

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TR

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H-S

CR

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0R

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75m

m x

25m

m (

3” x

1”)

Alu

min

ium

BL

AC

K le

tter

ing

tefl

on c

oate

dS

CR

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0 R

eact

or ,

Gen

erat

or R

oom

WT

R-P

RH

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R-1

200

Rea

ctor

175

mm

x 2

5mm

(3”

x 1

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lum

iniu

m B

LA

CK

lett

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g te

flon

coa

ted

Scr

ubbe

r, S

B-0

001,

Gen

erat

or R

oom

WT

R-P

RH

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-000

1S

crub

ber

175

mm

x 2

5mm

(3”

x 1

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lum

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m B

LA

CK

lett

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g te

flon

coa

ted

Scr

ubbe

r, S

B-0

002,

Gen

erat

or R

oom

WT

R-P

RH

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-000

2S

crub

ber

175

mm

x 2

5mm

(3”

x 1

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lum

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m B

LA

CK

lett

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Sec

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Cam

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AM

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WT

R-S

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Sec

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75m

m x

25m

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min

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BL

AC

K le

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on c

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dS

ecur

ity C

amer

a, S

CA

M-0

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TR

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Cam

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175

mm

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LA

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lett

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Sec

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3, G

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Roo

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TR

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ecur

ity

Cam

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175

mm

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5mm

(3”

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lum

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LA

CK

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Sile

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Sile

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175

mm

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lum

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LA

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ted

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Sile

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175

mm

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lum

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m B

LA

CK

lett

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g te

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ted

Sile

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TR

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Sile

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175

mm

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TR

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Sile

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175

mm

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5mm

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m B

LA

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lett

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Air Intake Fan FN-0010, Ventilation, Generator RoomAir Intake Fan FN-0020, Ventilation, Generator RoomFan FN-0101, RAD, Standby Building RoofFan FN-0102,RAD, Standby Building RoofFan FN-0201,RAD, Standby Building RoofFan FN-0202, RAD, Standby Building RoofHeat Exchanger HE-0001, Fuel Cooler, Generator RoomHeat Exchanger HE-0002, Fuel Cooler, Generator RoomPanel LP-0002, Lighting, Generator Room Panel DP-0001, Power Distribution, Generator RoomSCR-1100 Heater HTR-1100, Generator RoomSCR-1200 Heater HTR-1200, Generator RoomSCR-1100 Blower BL-1100, Generator RoomSCR-1200 Blower BL-1200, Generator RoomFan FN-0001,Exhaust,Generator RoomFan FN-0003, Air Intake, Washroom, MezzanineFan FN-0005, Exhaust, Ventilation , Fault VaultCrane CRN-0101 , Overhead,, Existing Rosehill Pumping StationReceptacle, 30A, Basement Existing Rosehill Pumping StationMotor Control Centre MCC-0102,Switchgear Electrical RoomControl Panel, CP-1101, SCR Control Panel, Generator RoomControl Panel, CP-1102, SCR PRE-Heat Control Panel, Generator RoomControl Panel, CP-1201, SCR Control Panel, Generator RoomControl Panel, CP-1202, SCR PRE-Heat Control Panel, Generator RoomPump P-0001 ,Fuel Transfer, Fuel Vault BasementPump P-0002, Fuel Transfer, Fuel Vault BasementRemote Processing Unit, RPU-0002, Control Panel Control Panel CP-0001, FueL Transfer Control, Generator RoomPump, P-0001,Fuel Transfer,Generator RoomPump P-0001, Fuel Transfer,Generator RoomBattery Charger BAT-1100, Generator G-1100, Generator RoomBattery Charger BAT-1200, Generator G-1200, Generator RoomAir Compressor C-0001, Generator RoomHeater HTR-0004, Unit ,Generator RoomHeater HTR-0005,Unit, Generator RoomHeater HTR-0006, Unit, Switchgear Electrical RoomHeater HTR-0007,Unit ,Fuel Vault RoomAHU Heater HTR-0008 ,Pump GalleryGEN-1100 Heater, Block, Generator RoomGEN-1200 Heater, Block, Generator RoomAir Conditioning AC-0001, DP-0001 Generator Room

Tag Description (Entity Name)

Line 1 Line 2WTR-PRH-FN-0010 ELECTRICAL SUPPLY FROMWTR-PRH-FN-0020 ELECTRICAL SUPPLY FROMWTR-PRH-FN-0101 ELECTRICAL SUPPLY FROMWTR-PRH-FN-0102 ELECTRICAL SUPPLY FROMWTR-PRH-FN-0201 ELECTRICAL SUPPLY FROMWTR-PRH-FN-0202 ELECTRICAL SUPPLY FROMWTR-PRH-HE-0001 ELECTRICAL SUPPLY FROMWTR-PRH-HE-0002 ELECTRICAL SUPPLY FROMWTR-PRH-LP-0002 ELECTRICAL SUPPLY FROMWTR-PRH-DP-0001 ELECTRICAL SUPPLY FROMWTR-PRH-HTR-1100 ELECTRICAL SUPPLY FROMWTR-PRH-HTR-1200 ELECTRICAL SUPPLY FROMWTR-PRH-BL-1100 ELECTRICAL SUPPLY FROMWTR-PRH-BL-1200 ELECTRICAL SUPPLY FROMWTR-PRH-FN-0001 ELECTRICAL SUPPLY FROMWTR-PRH-FN-0003 ELECTRICAL SUPPLY FROMWTR-PRH-FN-0005 ELECTRICAL SUPPLY FROMWTR-PRH-CRN-0101 ELECTRICAL SUPPLY FROMWTR-PRH-RC-0001 ELECTRICAL SUPPLY FROMWTR-PRH-MCC-0102 ELECTRICAL SUPPLY FROMWTR-PRH-CP-1101 ELECTRICAL SUPPLY FROMWTR-PRH-CP-1102 ELECTRICAL SUPPLY FROMWTR-PRH-CP-1201 ELECTRICAL SUPPLY FROMWTR-PRH-CP-1202 ELECTRICAL SUPPLY FROMWTR-PRH-P-0001 ELECTRICAL SUPPLY FROMWTR-PRH-P-0002 ELECTRICAL SUPPLY FROMWTR-PRH-RPU-0002 ELECTRICAL SUPPLY FROMWTR-PRH-CP-0001 ELECTRICAL SUPPLY FROMWTR-PRH-P-0001 ELECTRICAL SUPPLY FROMWTR-PRH-P-0002 ELECTRICAL SUPPLY FROMWTR-PRH-BAT-1100 ELECTRICAL SUPPLY FROMWTR-PRH-BAT-1200 ELECTRICAL SUPPLY FROMWTR-PRH-C-0001 ELECTRICAL SUPPLY FROMWTR-PRH-HTR-0004 ELECTRICAL SUPPLY FROMWTR-PRH-HTR-0005 ELECTRICAL SUPPLY FROMWTR-PRH-HTR-0006 ELECTRICAL SUPPLY FROMWTR-PRH-HTR-0007 ELECTRICAL SUPPLY FROMWTR-PRH-HTR-0008 ELECTRICAL SUPPLY FROMWTR-PRH-HTR-1100 ELECTRICAL SUPPLY FROMWTR-PRH-HTR-1200 ELECTRICAL SUPPLY FROMWTR-PRH-AC-0001 ELECTRICAL SUPPLY FROM

Lamacoid Tag Specification:

Use text with the following characteristics:Lettering: UppercaseFont: Times New RomanStyle: RegularSize: 5 mm Character Spacing: NormalJustification: Center lettering on each line

Material to be engraved gravoploy laminate nameplates, 1.5 mm thick with bevelle

LAMACOID SUPPTag Description

Scale text with to fit label where needed

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F 40TOTAL

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of 1

ARBORIST REPORT

ROSEHILL PUMPING STATION REHABILITATION & STANDBY POWER

INSTALLATION

CITY OF TORONTO

May 12, 2017 Revised: May 29, 2017

Arborist Report

Arborist Report | Rosehill Pumping Station – Rehabilitation & Standby Power Installation WSP | May 29, 2017 | 151-10733-00-0400

Table of Contents1.0� INTRODUCTION ...................................................................................................................... 1�2.0� EXISTING CONDITIONS ......................................................................................................... 1�3.0� FIELD OBSERVATIONS .......................................................................................................... 2�4.0� DEFINITIONS ........................................................................................................................... 2�5.0� BY-LAWS / PERMITS: ............................................................................................................. 4�

City Tree by-law ................................................................................................................................... 4�Parks by-law / Public Open Space ...................................................................................................... 4�Ravine and Natural Feature Protection By-Law .................................................................................. 4�Tree Injury ............................................................................................................................................ 4�City of Toronto Tree Categories .......................................................................................................... 4�

6.0� DISCUSSION: .......................................................................................................................... 5�Assumptions: ....................................................................................................................................... 5�Area of Consideration .......................................................................................................................... 6�

7.0� ASH TREE REMOVAL ............................................................................................................. 7�8.0� TREE REMOVALS / INJURY / COMPENSATION .................................................................. 7�9.0� CONCLUSION .......................................................................................................................... 7�10.0� PRESERVATION AND PROTECTION RECOMMENDATIONS ............................................. 8�

By-Laws and Provincial Regulations ................................................................................................... 8�Additional Recommendations ............................................................................................................ 10�

Branch Pruning Practices: ...................................................................................................... 10�11.0� LIMITATIONS OF ASSESSMENT ......................................................................................... 11�

Tables

Table 1: Tree Inventory and Preservation Chart

List of Drawings TI-1 Tree Inventory Plan TP-1 & TP-2 Tree Preservation Plans, Notes & Details

Arborist Report


1

1.0 Introduction

WSP�Group�Canada�Inc.�is�undertaking�detailed�design�services�for�the�rehabilitation�and�standby�power�installation�at�the�Rosehill�Pumping�Station.��The�rehabilitation�near�existing�trees�will�involve�the�installation�of�a�new�concrete�curb,�300mm�diameter�storm�drains�to�catch�basin/manhole�#1,�2�&�3�within�the�parking�lot�/�paved�area,�staging�area�within�the�front�yard�of�the�pumping�station�and�a�storm�drain�connection�to�an�existing�manhole�#1�in�an�open�space�sodded�area�adjacent�to�the�David�A�Balfour�Park�ravine.��This�report�presents�a�detailed�inventory�of�the�trees�within�the�Area�of�Consideration�/�project� limits�including�trees�along�the�ravine�edge�that�are�12m�from�the�limit�of�work�(curb�installation)�and�storm�drain�connection�to�the�existing�manhole�and�trees�in�the�front�yard�within�vicinity�of�the�staging�areas.�Along�the�ravine�edge�trees�of�any�size�have�been�assessed�in�3�groupings�and�individually�of�any�size�within�the�front�yard.�Groupings�and�individual�trees�are�within�the�regulatory�limits�of�the�TRCA,�Ravine�and�Natural�Feature�Protection�by�law�(RNFP)�and�City�owned�property.�Recommendations�have�been�provided�for�tree�protection,�tree�injury�and�tree�removals�based�on�the�limits�of�work.��This�report�is�to�be�read�in�conjunction�with:�

� Table�1:�Tree�Inventory�and�Preservation�Chart�(Table�1)�� Tree�Inventory�Plan�(Sheet�TI�1)�� Tree�Preservation�Plans�(Sheets�TP�1�&�TP�2)�

�

2.0 Existing Conditions

The�pumping�station�located�at�240�Mt.�Pleasant�Road�on,�south�of�St.�Clair�Avenue,�adjacent�to�the�David�A�Balfour�Park�ravine.�The�terrain�is�generally�flat�between�the�pumping�station�and�the�road.�The�ravine�is�located�on�the�north�and�west�sides�of�the�pumping�station�with�steep�slopes�generally�2:1.�There�are�sodded�areas�in�the�front�and�rear�of�the�property�and�a�paved�entrance�and�parking�area�behind�the�pumping�station.�The�ravine�slopes�down�to�the�David�A�Balfour�Park�Trail.��Vegetation�observed�in�the�front�adjacent�to�Mt.�Pleasant�Road�consists�of�individually�planted�Norway�Maple�(Acer�platanoides),�Red�Oak�(Quercus�rubra)�and�Little�Leaf�Linden�(Tilia�cordata)�that�range�in�size�from�6�to�32cm�DBH.��Vegetation�cover�along�the�top�of�slope�and�along�the�slope�of�the�ravine�is�dense�and�has�established�along�the�top�of�slope,�along�the�slope�to�the�trail�at�the�bottom�of�slope�and�continues�to�the�Don�River.�Trees�along�the�ravine�edge,�inventoried�up�to�9m�from�the�top�of�slope�are�a�mixture�of�native�and�non�native�species�that�range�in�size�from�<10cm�to�71cm�DBH.�Young�/�immature�trees�have�established�along�the�top�of�slope�and�semi�mature�to�mature�trees�have�established�down�the�slope.�There�are�several�mature�Red�Oak�along�the�top�of�slope�along�the�west�side�of�the�property.�Species�are�comprised�of�an�abundance� of� Norway� Maple,� the� occasional� Red� Oak,� White� Ash� (Fraxinus� americana),� Siberian� Elm�(Ulmus� pumila)� and� a� limited� amount� of� White� Poplar� (Populus� alba),� Basswood� (Tilia� americana),�Chokecherry�(Prunus�virginiana)�and�Pin�Cherry�(Prunus�pensylvanica).��

Arborist Report


2

�Screening�for�tree�species� listed�as� ‘Endangered’�of� ‘threatened’�under�the�Ontario�Species�at�Risk�Act�(2007)� was� conducted� during� the� inventory.� No� species� at� Risk� were� observed� within� the� Area� of�Consideration.��Tree�health�ranges�between�good�and�poor;�a�majority�observed�to�be�in�good�condition.�Signs�of�decline�and�defects�were�observed�on�a�small�amount�of�trees�including:�

� Deadwood�ranging�between�10�to�>40%;�� Weakly� formed� unions;� poor� tree� form� due� to� abnormal� development� of� scaffold� branches�

causing�injury�to�other�branches;�� Base�suckers�and�Epicormic�shoots;�� Lack�of�vigour;�� Lean�&�contorted�growth;�� Base�cavities;�� Broken�branches;�� Trunk�wounds;�� Dead�stems;�� Symptoms�of�decline�in�Ash�trees�due�to�the�presence�of�Emerald�Ash�Borer�which�included:�

o ‘D’�shaped�holes;�o Suckering�at�the�base;�o Woodpecker�damage�from�woodpeckers�eating�the�larvae�and;�o Deadwood�in�Crown.�

�

3.0 Field Observations

The�field�observations�were�conducted�on�May�8,�2017�within�the�Rosehill�Pumping�Station�property�limits�and�up�to�12m�beyond�the�limits�of�work�including�the�installation�of�a�new�curb,�storm�sewer�drains�and�the�staging�area.�Tree�information�recorded�included�species,�diameter�at�breast�height�(DBH),�dripline�radius,� location� and� general� health� condition.� Trees� were� identified� in� accordance� with� the� City� of�Toronto’s�City�Tree�by�law�and� the�Ravine�&�Natural�Feature�Protection�by�law.�Trees�were� identified�within�3�groupings�along�the�ravine�slope�and�individually�within�the�front�yard.�Trees�within�groupings�and�individual�trees�were�identified�using�an�alphabetical�or�tree�grouping�identifier.��A�total�of�65�trees�were�assessed�for�this�report�consisting�of�6�individual�trees�(648,�649,�650,�V1,�E1�&�F1)�and�59�trees�in�three�(3)�groupings�(TG�1�to�TG�3)�labelled:�A�to�Z,�A1�to�D1,�and�G1�to�U1.��

4.0 Definitions

The�following�are�the�definitions�of�the�assessment�categories�utilized�in�our�tree�assessment:�

Tree�Number� � � this�number�refers�to�the�number�on�the�reference�plan�e.g.:�TG�1,�A��Tree�Grouping� a�tree�grouping�is�more�than�one�(1)�tree�located�within�close�proximity�

of�other�trees�with�no�separation�between�the�canopies.��Species�� the�botanical�and�common�names�are�provided�for�each�tree.��

Arborist Report


3

�DBH� this�refers�to�diameter�(in�centimetres)�at�breast�height�and�is�measured�

at�1.4�m�above�the�ground�for�each�tree.��Tree�Protection�Zone�� this�refers�to�the�preservation�area�of�the�tree�to�be�protected�with�tree�

protection� measures.� No� construction� activities� are� to� be� undertaken�within�this�zone.�

�Suppressed� Refers� to� trees� that� have� their� crowns� completely� overtopped� by�

adjacent�trees�and�received�limited�to�very�limited�sunlight.��Co�dominant�Stem� Stems� equal� in� size� and� relative� importance,� usually� associated� with�

either�the�trunks�and�stems�or�scaffold�limbs�and�branches�in�the�crown.��Union� Junction� point� where� two� or� more� stems� meet.� A� ‘U’� shaped� junction�

indicates�a�well�formed�union.�A�‘V’�shaped�junction�indicates�a�weakly�formed� union,� whereas� stems� grow� and� increase� in� girth,� weak� bark�called�‘included�bark’�forms�within�the�junction�and�stems�start�to�push�apart�causing�vertical�cracks�and�loss�of�structure.�

�Tree�Form� Refers�to�branches�and�stems�that�have�formed�irregularly�often�resulting�

in�contorted�growth,�weak�attachments,�weakly�formed�unions�and�co�dominant� stems.� The� irregular� growth� of� scaffold� (lateral)� branches�typically�leads�to�damage�to�other�scaffold�branches.�

Root�Zone� Refers� to� the� subterranean� area� around� the� tree� measured� from� the�trunk�to�the�drip�line�plus�one�metre.�

Critical�Root�Zone� The�minimum�area�of�the�root�system�necessary�to�maintain�vitality�or�stability�of�the�tree.�Typically�this�area�extends�to�the�drip�line�of�the�tree.�The�severing�of�one�root�can�cause�approximately�5�20%�loss�of�the�root�system.�A�reduction�of�this�area�by�greater�than�30%�can�pose�stability�concerns�for�the�tree.�

�Tree�Assessment�Criteria��Trunk�Integrity�(T.I.)� this� is� an� assessment� of� the� trunk� for� any� defects� or� weaknesses.� It� is�

measured�on�a�scale�of�poor,�fair,�good.��Canopy�Structure�(C.S)� this�is�an�assessment�of�the�scaffold�branches,�unions�and�the�canopy�of�

the�tree.�This�is�measured�on�a�scale�of�poor,�fair,�good.��Canopy�Vigour�(C.V.)� this�is�an�assessment�of�the�health�of�the�tree�and�assesses�the�amount�

of� deadwood� and� live� growth� in� the� crown� as� compared� to� a� 100%�healthy�tree.�The�size,�colour�and�amount�of�foliage�are�also�considered�in�this�category.�This�is�measured�on�a�scale�of�poor,�fair,�good.�

�GOOD� tree� displays� less� than� 15%� deficiency/defect� within� the� given� tree�

assessment�criteria�(TI,�CS,�CV).�

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4

�FAIR� tree� displays� 15%�40%� deficiency/defect� within� the� given� tree�

assessment�criteria�(TI,�CS,�CV).��POOR� tree� displays� greater� than� 40%� deficiency/defect� within� the� given� tree�

assessment�criteria�(TI,�CS,�CV).��

5.0 By-laws / Permits: �Trees�inventoried�within�the�limits�of�work�on�City�property�and�the�ravine�are�subject�to�the�regulations�of�two�City�of�Toronto�tree�protection�by�laws�(City�Tree�by�law�and�the�Ravine�and�Natural�Feature�Protection�by�law),�and�two�different�‘Tree�Categories’�(Categories�3�&�4�–�see�below).��Several�Ash�trees�infested�with�EAB�were�observed�within�the�project�limits,�however�none�will�be�impacted�by�infrastructure�work.�All�by�laws�/�directives�are�discussed�below:�

City�Tree�by�law�The�City�of�Toronto’s�City�Street�tree�by�law�applies�to�trees�within�a�common�or�public�highway,�road,�street,�lane�and�any�road�allowance.�

� The� City� of� Toronto� also� requires� that� an� ‘Arborist� Report� for� Development� Applications’� be�included�and�submitted�for�approval.�The�application�form�has�been�included�in�Appendix�1.�

�

Parks�by�law�/�Public�Open�Space�The�City�of�Toronto’s�Park’s�By�Law�applies�to�trees�of�any�size�and�regulates�the�injury�and�destruction�of�trees�located�within�City�parkland.�Approval�is�required�from�the�Parks�department�prior�to�the�removal�of�trees�

� No�trees�within�City�owned�Parkland�will�be�impacted�by�the�proposed�work.�

Ravine�and�Natural�Feature�Protection�By�Law�(RNFP)�The�City�of�Toronto’s�Ravine�and�Natural�Feature�Protection�By�law�applies�to�trees�of�any�size�within�areas�designated�as�‘Ravine’.�

� No�trees�within�RNFP�limits�will�be�impacted�by�the�proposed�work.�A�Ravine�and�Natural�Feature�Permit�Application�has�been�included�in�the�submission�package.�

Tree�Injury�The�City�of�Toronto’s�Tree�injury�policy�is�defined�as:�The�minimum�tree�protection�zone�(TPZ)�not�being�protected.�

� No�Trees�will�be�injured�by�the�proposed�work,�however�reductions�of�the�minimum�TPZ�will�be�required.�

City�of�Toronto�Tree�Categories�Categories�as�per�City�of�Toronto�Arborist�Report�for�Development�Applications�Form�(Refer�to�Table�1:�Tree�Inventory�&�Preservation�Charts)�

1. Trees�with�diameters�of�30cm�or�more�situated�on�private�property�on�the�subject�site.�2. Trees�with�diameters�of�30cm�or�more�situated�on�private�property,�within�6m�of�the�subject�site.�

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3. Trees�of�all�diameters�situated�on�City�owned�parkland�within�6m�of�the�subject�site.�4. Trees� of� all� diameters� situated� within� lands� designated� under� City� of� Toronto� Municipal� code,�

Chapter�658,�Ravine�Protection.�5. Trees�of�all�diameters�situated�within�the�City�road�allowance�adjacent�to�the�subject�site.�

�CFIA�Directive�(D�03�08):�Phytosanitary�Requirements�to�Prevent�the�Introduction�Into�and�Spread�within�Canada�of�the�Emerald�Ash�Borer,�Agrilus�planipennis�(Fairmaire)�The�Canadian�Food�Inspection�Agency�issues�a�prohibition�of�movement�where�the�emerald�ash�borer�(EAB)�has�been�confirmed.�EAB�has�been�found�in�the�City�of�Toronto�and�thus�the�municipality�has�been�identified�as�part�of�the�EAB�Regulated�Area�encompassing�most�of�south�and�central�Ontario�as�well�as�western�Quebec.�The�subject�property�is�within�identified�areas�prohibiting�the�movement�of�regulated�materials� (including� but� not� limited� to� ash� wood� or� bark� and� ash� wood� chips� or� bark� chips)� from� a�regulated� area.� EAB� regulated� articles� moving� out� of� a� regulated� area� must� be� accompanied� by� a�Movement�Certificate�issued�by�the�CFIA.�Refer�to�the�EAB�Regulated�Areas�of�Canada�found�on�the�CFIA�website.�

6.0 Discussion:�This�section�is�a�discussion�of�the�retention�potential,�preservation�and�or�impacts�to�trees�within�the�‘Area�of�Consideration’�which�includes�the�entire�area�of�site�disturbance,�including�curb�installation,�staging�areas�and�storm�drain�connections.�This�area�extends�up�to�12m�beyond�the�limit�of�site�disturbance�for�trees�protected�under�the�Ravine�and�Natural�Feature�Protection�(RNFP)�By�law.�At�the�time�this�report�was�prepared,�engineering�drawings�had�been�issued�for�tender�and�had�been�provided�to�the�Arborist�for�coordination.��Vegetation� recommended� to� be� ‘Retained’� is� deemed� to� be� minimally� affected� and� will� be� protected�through�mitigation�measures.��Vegetation�recommended�to�be�‘Removed’�is�deemed�to�be�within�work�limits� and� would� not� be� able� to� withstand� construction� related� activities� or� changes� to� grading.� This�designation�also�may�be�applied�to�trees�that�are�dead,�in�poor�condition�or�trees�that�could�pose�future�safety�concerns�and�trees�dying�as�a�result�of�a�disease�or�insect�infestation.�Vegetation�recommended�to�be�‘Transplanted’�is�deemed�to�be�within�the�limit�of�work,�in�good�condition�and�typically�under�30cm�DBH.�Transplanting�of�trees�is�dependent�on�available�space�on�site.��

Assumptions:��Tree�Protection�Zone�(TPZ)�Encroachment�Assessments�of�encroachment�are�based�on�the�following�parameters:�

� Reduction�necessary�to�install�storm�drains,�curbs�and�pumping�of�the�septic�tanks.��

Tree�Injury�Assumptions�� Reductions�/�Encroachments� into�the�TPZ�as�a�result�of� the� location�of�the�edge�of�pavement,�

driveways�and�sidewalks�will�assume�‘no�injury’�due�to�the�likelihood�that�there�are�no�roots�under�the�curb,�road�and�some�sidewalk�locations.�

��

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�Tree�Removal�Assumptions�

� Tree�removal�is�based�on�the�degree�of�excavation�/�disturbance�within�the�TPZ�considering:�tree�species,�size,�condition�and�the�amount�of�critical�roots�that�would�be�impacted�that�are�vital�to�sustaining�the�trees�overall�health�and�stability.�

� This�amount�of�impact�and�above�is�likely�to�cause�a�significant�and�irreversible�decline�in�health�of�the�tree.�

�Tree�Preservation�Assumptions�

� Preservation�of�trees�is�considered�where�an�encroachment,�excavation�or�disturbance�into�the�TPZ�is�expected�to�be�minor�or�nil�and�that�tree�health�and�stability�will�not�be�adversely�impacted.�

� The�implementation�of�mitigation�measures�will�reduce�potential�impacts�to�the�tree�therefore�allowing�for�the�tree�to�be�preserved.��

Area�of�Consideration�Along�the�ravine�and�in�the�front�and�rear�sodded�open�space�areas�there�are�65�trees.�The�proposed�work�within�vicinity�of�existing�trees�will�involve�the�installation�of�new�concrete�curbs�along�the�entrance�and�parking� area,� storage� of� equipment� and� staging� within� the� front� yard� open� space� area,� excavation� to�replace� a� valve� and� the� installation� of� a� storm� drain� connection� to� an� existing� manhole� #1.� Potential�impacts�and�tree�protection�measures�are�discussed�below.��Tree�Impacts�No�impacts�will�occur�to�existing�trees�as�all�work�can�be�conducted�outside�of�tree�protection�zones.��Tree�Protection�Zone�Reduction�There�are�several�locations�where�the�tree�protection�zone�will�require�a�reduction�due�to�constraints�with�proposed� works� or� the� location� of� existing� hard� surfaces.� The� minimum� tree� protection� zone� of� one�Norway�Maple�(E1)�and�two�Red�Oaks�(Q�and�P1)�will�require�reductions.�No�Injury�will�occur�as�the�work�that�will�be�conducted�within�the�reduced�TPZ’s�will�not�impact�roots�or�branches.�

� Tree�E1:�The�tree�protection�zone�/�hoarding�extends�into�the�paved�portion�where�the�curb�will�be�replaced.�To�install�the�new�curb�it�is�recommended�that�the�TPZ�be�reduced�on�the�east�side�to�1m�behind�the�curb�to�allow�for�excavation,�formwork�and�installation.�Due�to�the�depth�of�asphalt�paving,�granular�bases�and�existing�curbs� it� is�assumed�that�minimal� to�no�roots�have�penetrated�this�area,�therefore�no�roots�will�be�injured�or�damaged.�Since�the�minimum�TPZ�will�require�a�reduction�related�to�construction�activities,�this�tree�is�considered�‘injured’.�

� Tree�Q:�Tree�protection�hoarding�will�require�temporary�removal�in�the�area�of�the�septic�tank�to�allow�for�the�tank�to�be�pumped�and�cleaned.�Once�this�has�been�completed�the�hoarding�must�be�reinstated�to�original�conditions.�

� Tree�P1:�The�tree�protection�zone�/�hoarding�extends�into�the�paved�portion�where�the�curb�will�be�replaced.�To�install�the�new�curb�it�is�recommended�that�the�TPZ�be�reduced�on�the�north�side�to�the�edge�of�asphalt�to�allow�for�excavation,�formwork�and�installation.�Due�to�the�depth�of�asphalt�paving,�granular�bases�and�existing�curbs� it� is�assumed�that�minimal� to�no�roots�have�penetrated�this�area,�therefore�no�roots�will�be�injured�or�damaged.�

�Due�to�the�minimum�tree�protection�zone�not�being�protected�for�the�above�noted�trees,�a�‘Ravine�and�Natural�Feature�Permit�Application’�has�been�included�in�the�submission.��

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Tree�Removal�No�trees�will�require�removal�as�a�result�of�the�proposed�works.��Tree�Preservation�Trees� beyond� limits� of� curb,� storm� drain� and� valve� replacement� installations,� can� be� retained� and�preserved.�Hoarding� to�consist�of� two� types� installed�at� the�minimum�tree�protection� zone�distances,�listed�on�sheet�TP�1�and�on�Table�1�in�this�report.�Refer�to�plans�for�type�and�location�and�details�on�sheet�TP�2.�See�below�for�types�of�hoarding�pertaining�to�individual�trees�and�trees�in�groupings:�

� 1.2m�high�paige�wire�Sediment�Control�Fence,� installed�at� locations� indicated�on�plan�that�are�generally�within�the�TRCA�regulated�limit�/�RNFP�limit.�Refer�to�detail�T�219.130�1�on�sheet�TP�2.�

� City�standard�2.4m�height�plywood�(3/4”�thick)�to�be�installed�per�detail�TP�1�on�sheet�TP�2�as�indicated�on�plan�TP�1�for�trees�that�are�generally�within�the�TRCA�regulated�limit�/�RNFP�limit�and�open�space�areas.�

�

7.0 Ash Tree Removal Emerald�Ash�Borer�(EAB)�was�observed�within�Ash�trees�inventoried�within�the�12m�inventory�limit.�The�decline�of�trees�as�a�result�of�the�infestation�varied�from�‘poor’�to�‘dead’.�EAB�killed�trees�are�likely�to�become�a�‘Hazard’�and�are�more�susceptible�to�wind�throw.�As�some�of�these�trees�are�within�proximity�of� the� work� area� /� parking� lot� it� is� recommended� that� they� be� removed� to� reduce� the� possibility� of�becoming�a�hazard.�As�such�four�(4)�trees�have�been�identified�to�be�removed:�

� J,�C1,�G1�and�I1.��Ash�tree�removals�are�to�occur�within�accordance�with�CFIA�regulations�(see�section�5.0�of�this�report).�Ash�tree�removals�are�exempt�from�requiring�a�permit�and�compensation.��

8.0 Tree Removals / Injury / Compensation The�proposed�works�will�not�impact�any�existing�trees�on�the�property.��One� tree� ‘E1’� is� considered� ‘injured’� due� the� minimum� TPZ� not� being� protected� as� a� result� of� a�recommended�reduction.�One�(1)�tree�is�required�as�compensation�and�is�to�be�planted�within�the�flat�tableland�within�the�RNFP�limits.�Refer�to�plan�L001�for�the�location,�type�of�tree.��

9.0 Conclusion�A�majority�of�vegetation�found�ranges�from�immature�to�mature�and�characterized�by�a�mixture�of�planted�native�and�non�native�urban�tolerant�species.��As�the�proposed�works�will�occur�outside�of�tree�protection�zones�impacts�to�trees�will�be�minimal�to�nil.�Given�the�implementation�of�the�mitigation�measures�enclosed�in�this�report,�including�protection�of�trees�beyond�the�area�of�consideration,�significant�impacts�to�trees�are�not�anticipated.��Vegetation� has� been� recommended� to� be� retained� and� preserved� beyond� the� construction� limits.�Proposed�mitigation�measures�will�minimize�the�detrimental�effects�from�grading�and�will�help�to�ensure�that�the�good�tree�health�will�continue.��

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�Care�should�be�taken�to�protect�trees�to�be�retained�with�tree�protection�fencing�as�illustrated�on�the�attached�plans.�Tree�protection�fencing�shall�be�erected�prior�to�the�start�of�construction�and�demolition�and�maintained�for�the�duration�of�the�work.�Priority�should�be�given�to�protecting�vegetation�that�will�not�be� impacted�by�grading�and�construction�as� this�vegetation�along�property� lines�provides�a�visual�barrier,�shade,�noise�and�wind�buffer�between�properties.�

10.0 Preservation and Protection Recommendations �The� survival� rates� for� trees,� which� are� in� proximity� to� construction,� are� dependent� on� the� resultant�changes� to� a� variety� of� environmental� and� anthropogenic� factors.� � These� construction� activities� bring�about� changes� to� a� variety� of� environmental� features� such� as� the� existing� microclimate� that� includes�winds,�air�temperature,�soil�moisture,�amount�of�available�sunlight,�soil�quality,�and�the�level�of�the�water�table.� � Increased�human�activities�may�also�damage�the�structure�and/or�physiological�activities�of�the�trees.��The�full�effects�of�the�damage�may�not�appear�until�several�years�after�its�occurrence.��Thus,�it�is�essential� that� both� vegetative� clearing� and� preservation� methods� follow� the� guidelines� below.� The�guidelines�are�organized�into�those�requirements�set�out�by�the�City�of�Toronto�Private�Tree�By�law�and�the�Ravine�and�Natural�Feature�Protection�By�law�and�applicable�provincial�regulations,�and�additional��recommendations,�that�are�in�keeping�with�good�horticultural�and�construction�practices.�

By�Laws�and�Provincial�Regulations��Private�Tree�and�City�Tree�By�Laws�

� Prior� to� the� commencement� of� construction,� tree� protection� barriers� shall� be� installed� in�accordance�with�the�City�of�Toronto�Tree�Protection�Policy�and�Specifications�for�Construction�Near�Trees,�and�in�accordance�with�the�approved�tree�protection�plans�and�arborist�reports,�and�must�be�approved�by�Urban�Forestry.��

� Tree�protection�barriers�shall�be�maintained�in�good�condition�and�shall�not�be�altered,�moved�or�removed�unless�and�until�authorized�by�Urban�Forestry.��

� The� owner� shall� notify� all� contractors� and� other� parties� working� on� site� of� approved� tree�protection� plans� and� arborists� reports,� and� shall� ensure� that� all� contractors� and� other� parties�adhere�strictly�to�the�requirements�of�the�tree�protection�plan.�

� The�permit�shall�be�posted�in�a�conspicuous�location�visible�from�the�street,�for�a�period�of�one�day�prior�to�the�commencement�of�the�approved�tree�injury�and�until�such�time�as�the�approved�tree�injury�has�been�completed�in�accordance�with�the�permit.�

� If� a� permit� to� injure� or� remove� trees� is� issued,� the� work� shall� be� carried� out� by� or� under� the�supervision�of�an�arborist.��

� Prior� to� the�commencement�of�any�excavation,� roots�approved� for�pruning�by�Urban�Forestry�must�first�be�exposed�using�pneumatic�(air)�excavation,�by�hand�digging�or�by�using�a�low�pressure�hydraulic� (water)� excavation.� This� root�sensitive� excavation� must� be� undertaken� by� an�experienced�operator�under�the�supervision�of�a�qualified�and�experienced�arborist.�The�water�pressure�for�hydraulic�excavation�must�be�low�enough�that�root�bark�is�not�damaged�or�removed.�This�will�allow�a�proper�pruning�cut�and�minimize�tearing�of�the�roots.�The�arborist�retained�to�carry�out�root�pruning�must�contact�Urban�Forestry�no�less�than�three�(3)�working�days�prior�to�conducting�any�specified�work.��

� The�following�activities�are�prohibited�within�a�TPZ:�

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o demolition,� construction,� replacement� or� alteration� of� permanent� or� temporary�buildings,�structures�or�pathways�of�any�kind;�

o installation�of�large�stones�or�boulders;��o altering� grade� by� adding� or� removing� soil� or� fill,� excavating,� trenching,� topsoil� or� fill�

scraping,�compacting�soil�or�fill,�dumping�or�disturbance�of�any�kind;��o storage� of� construction� materials,� equipment,� wood,� branches,� leaves,� soil� or� fill,�

construction�waste�or�debris�of�any�sort;��o application,�discharge�or�disposal�of�any�substance�or�chemical�that�may�adversely�affect�

the�health�of�a�tree;�o causing�or�allowing�water�or�discharge,�to�flow�over�slopes�or�through�natural�areas;��o access,�parking�or�movement�of�vehicles,�equipment�or�pedestrians;��o cutting,�breaking,�tearing,�crushing,�exposing�or�stripping�tree's�roots,�trunk�and�branches;��o nailing�or�stapling�into�a�tree,�including�attachment�of�fences,�electrical�wires�or�signs;��o stringing�of�cables�or�installing�lights�on�trees;��o soil�remediation,�removal�of�contaminated�fill;��o excavating�for�directional�or�micro�tunneling�and�boring�entering�shafts.�

� Every� precaution� must� be� taken� to� prevent� damage� to� trees� and� root� systems� from� damage,�compaction� and� contamination� resulting� from� the� construction� to� the� satisfaction� of� Urban�Forestry.��The�Contractor�must�report�immediately�to�Urban�Forestry�any�accidental/unforeseen�damage�to�trees�such�as�broken�limbs�and�damage�to�roots�so�that�the�damage�can�be�assessed�and�mitigated�as�deemed�appropriate�by�Urban�Forestry.��

Urban�Forestry,�Ravine�and�Natural�Feature�Protection��City�of�Toronto�18�Dyas�Road�1st�Floor�Toronto,�ON�M3B�1V5��Migratory�Bird�Protection:�

� Nesting�migratory�birds�are�protected�under�the�Migratory�Birds�Conservation�Act,�MBCA�(1994)�and�Regulations.��

� No�work� is�permitted� to�proceed� that�would� result� in� the�destruction�of�nests�or�eggs,�or� the�wounding�or�killing�of�birds�species�protected�under�the�MBCA�and�/�or�Regulations�under�that�Act.� � It� is�the�responsibility�of�the�proponent�and/or�contractor�to�ensure�compliance�with�the�MBCA.� � Guidance� for� assessing� potential� risk� of� MBCA� contravention� and� other� relevant�information�is�found�on�Environment�Canada’s�website:��

http://www.ec.gc.ca/paom�itmb/default.asp?lang=En&n=1B16EAFB�1.�� In�general,� it� is� recommended� that�activities�which�could� result� in�an� MBCA� contravention�be�

conducted� outside� of� the� area�specific� “Regional� Nesting� Period”.� � See� nesting� period� and�calendars�here:��

http://www.ec.gc.ca/paom�itmb/default.asp?lang=En&n=4F39A78F�1.�� If�works�are�proposed�within�that�Regional�Nesting�Period,�the�proponent�must�demonstrate�due�

diligence,�including�an�evaluation�of�risk�(per�Environment�Canada�guidelines�at�the�referenced�web�links)�and�appropriate�avoidance�/�mitigation�measures.��This�is�a�site�specific�analysis�based�on�habitat,�species�recorded�/�expected�and�potential�risk�due�to�activities.�

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Additional�Recommendations�The� following� is�a� list�of� recommendations�based�on�arboricultural�best�practices,� to�be� implemented�during�the�construction�phase�of�the�project,�applying�to�all�trees�that�may�be�impacted�by�construction.�All�items�denoting�the�term�“shall”�are�required�to�be�followed�in�conjunction�with�City�of�Toronto�and�provincial�regulations.��Construction�Implementation:��

� Prior�to�construction,�a�site�meeting�shall�be�held�with�the�Contractor�and�Contract�Administrator�to� review� the� clearing� limits� and� confirm� the� installation� location� for� the� temporary� tree�protection�fence.��

� Tree�protection�barriers�shall�be�clearly�staked�in�the�field�and�approved�by�Urban�Forestry�prior�to�construction�to�ensure�correct�positioning�of�fencing�and�avoid�unnecessary�disturbance.�

� To�avoid�root�zone�impacts�on�trees�to�be�retained,�excavated�material�shall�not�be�stored�against�the�tree�protection�barrier.�

� Inspection�of�the�tree�protection�fencing,�including�photographic�records�and�deficiency�notes,�shall� be� undertaken� by� the� site� supervisor� and� submitted� to� Urban� Forestry� prior� to� the�commencement�of�construction,�during�construction�and�after�construction�is�completed.�

� 100�200mm�of�organic�amendment�and�500�750mm�of�wood�chip�mulch�shall�be�applied�to�the�area�within�the�drip�line�of�trees�to�be�retained�in�parking�islands�within�the�subject�property�to�retain�moisture�and�promote�survival.�Upon�completion�of�construction,�all�but�100mm�of�excess�mulch�shall�be�removed.��

� All�removals�should�be�felled� into�the�work�area�to�ensure�that�damage�does�not�occur�to�the�trees�within�the�tree�preservation�zone.�Upon�completion�of�the�tree�removals,�all�felled�trees�are�to�be�removed�from�the�site,�and�all�brush�chipped.�All�brush,�roots�and�wood�debris�should�be�shredded�into�pieces�that�are�smaller�than�25�mm�in�size�to�ensure�that�any�insect�pests�that�could�be�present�within�the�wood�are�destroyed.�

�Root�Pruning�Practices:�

� All� approved� root� pruning� is� to� take� place� by� or� under� the� supervision� of� an� arborist� and� in�accordance�with�the�Toronto�Tree�Protection�Specifications.��

� Pruned�root�ends�shall�be�neatly�and�squarely�trimmed�and�the�area�shall�be�backfilled�with�clean�native�fill�as�soon�as�possible�to�prevent�desiccation�and�promote�root�growth.��

� The�exposed�roots�shall�not�be�allowed�to�dry�out�and�an�appropriate�watering�schedule�shall�be�undertaken�(e.g.�water�bi�weekly�to�field�capacity�between�June�1st�and�September�15th)�so�that�the�roots�maintain�optimum�soil�moisture�during�construction�and�backfilling�operations.��

� Backfilling� shall� occur� immediately� and� shall� be� with� clean� uncontaminated� topsoil� from� an�approved�source.�It� is�recommended�that�texture�of�backfill�be�coarser�than�existing�soils,�and�that�backfill�comes�into�clean�contact�with�existing�soils�(remove�air�pockets,�sod,�etc.)�

Branch�Pruning�Practices:�� All�limbs�damaged�or�broken�during�the�course�of�construction�should�be�pruned�cleanly,�utilizing�

by�pass� secateurs� in� accordance� with� approved� horticultural� practices.� � Should� there� be� a�potential�risk�of�transfer�of�disease�from�infected�to�non�infected�trees;�tools�must�be�disinfected�after�pruning�each�tree�by�dipping�in�methyl�hydrate.��This�practice�is�particularly�important�during�periods� of� tree� stress� and� when� pruning� many� members� of� the� same� genera,� within� which� a�disease�could�be�spread�quickly�(i.e.,�Verticillium�Wilt�on�Maples�or�Fireblight�on�genera�of�the�Rosaceae�family).�

Arborist Report


11

� All�pruning�cuts�should�be�made�to�a�growing�point�such�as�a�bud,�twig�or�branch,��cut�just�outside�the�branch�collar�(the�swollen�area�at�the�base�of�the�branch�that�sometimes�has�a�bark�ridge),�and�perpendicular�to�the�branch�being�pruned�rather�than�as�close�to�the�trunk�as�possible.��This�minimizes�the�site�of�the�wound.��No�stubs�should�be�left.��Poor�cut�location,�poor�cut�angle�and�torn�cuts�are�not�acceptable.�

� Extensive�pruning�is�best�completed�before�plants�break�dormancy.��Pruning�should�be�limited�to�the�removal�of�no�more�than�one�third�(1/3)�of�the�total�bud�and�leaf�bearing�branches.��Pruning�should�include�the�careful�removal�of:�

1. deadwood,�2. branches� that� are� weak,� damaged,� diseased� and� those� which� will� interfere� with�

construction�activity,�3. secondary�leaders�of�conifers,�4. trunk�and�root�suckers,�5. trunk�waterspouts,�and�6. tight�V�shaped�or�weak�crotches�(included�unions).�

�� Any� branches� that� overhang� the� work� area� and� require� pruning� are� to� be� pruned� using� good�

arboricultural� practices� utilizing� by�pass� secateurs� in� accordance� with� approved� horticultural�practices�and/or�American�National�Standard�(ANSI)�A300�(Part�1)�–�2008�Pruning.��

� The�Contractor�must�report�immediately�any�damage�to�trees�such�as�broken�limbs,�damage�to�roots,� or� wounds� to� the� main� trunk� or� stem� systems� so� that� the� damage� can� be� assessed�immediately.�

11.0 Limitations of Assessment

It�is�our�policy�to�attach�the�following�clause�regarding�limitations.�We�do�this�to�ensure�that�the�client�is�aware�of�what�is�technically�and�professionally�realistic�in�retaining�trees.��The� assessment� of� the� trees� presented� in� this� report� has� been� made� using� accepted� arboricultural�techniques.�These�include�a�visual�examination�of�all�the�above�ground�parts�of�the�tree�for�structural�defects,�scars,�external�indications�of�decay�such�as�fungal�fruiting�bodies,�evidence�of�attack�by�insects,�discoloured�foliage,�the�condition�of�any�visible�root�structures,�the�degree�and�direction�of�lean�(if�any),�the�general�condition�of�the�trees�and�the�surrounding�site,�and�the�proximity�of�property�and�people.�Except�where�specifically�noted,�the�trees�were�not�cored,�probed�or�climbed�and�there�was�no�detailed�inspection�of�the�root�crowns�involving�excavations.��Notwithstanding�the�recommendations�and�conclusions�made�in�this�report,�it�must�be�recognized�that�trees�are�living�organisms,�and�their�health�and�vigour�constantly�change�over�time.�They�are�not�immune�to�changes�in�site�conditions�or�seasonal�variations�in�the�weather�conditions.��While�reasonable�efforts�have�been�made�to�ensure�that�the�subject�trees�are�healthy,�no�guarantees�are�offered,�or�implied,�that�these�trees�or�any�of�their�parts�will�remain�standing.�It�is�both�professionally�and�practically�impossible�to�predict�with�absolute�certainty�the�behaviour�of�any�single�tree�or�its�component�parts�under�all�circumstances.�Inevitably,�a�standing�tree�will�always�pose�some�level�of�risk.�Most�trees�have�the�potential�for�failure�under�adverse�weather�conditions,�and�the�risk�can�only�be�eliminated�if�the�tree�is�removed.��

Arborist Report


12

Although�every�effort�has�been�made�to�ensure�that�this�assessment� is�reasonably�accurate,�the�trees�should� be� re�assessed� periodically.� The� assessment� presented� in� this� report� is� valid� at� the� time� of�inspection.�

WSP�Group�Canada�Inc.�

Peter�McNamara,�BA�Landscape�Designer�|�ISA�Certified�Arborist�ON�1140A�

�TABLE 1

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Page

3

�APPENDIX 1

Arborist Report Development Applications Form

ARBORIST REPORT FOR DEVELOPMENT APPLICATIONS

City Planning / Parks, Forestry & Recreation

The purpose of this form is to acquire preliminary information respecting trees on private and City property, in order for staff to assess the applicability of City of Toronto tree protection by-laws.

City of Toronto by-laws respecting trees provide for the protection of trees situated on both private and City property. Retention and appropriate protection of existing trees is expected to be considered when developing plans and whenever possible, buildings, driveways and utilities are to be diverted around trees. Therefore, you are required to complete Section 1 of this form if there are trees in any of the five categories noted below. If you have additional trees, please list them on a separate sheet. The General Manager of Parks, Forestry and Recreation may request a Tree Guarantee Deposit to guarantee the planting or protection of trees. It is the applicant’s responsibility to advise the General Manager of Parks, Forestry and Recreation that the trees have been planted in accordance with approved plans and/or tree protection zones have been created in accordance with approved plans. It is also the applicant’s responsibility to submit a written request to the General Manager for the refund of a Tree Guarantee Deposit, 2 years after the completion of all construction activity and/or 2 years after tree planting. Section 2 of the form is to be signed only if there are no trees in any of the 5 categories.

Categories 1. Trees with diameters of 30 cm or more, situated on private property on the subject site. 2. Trees with diameters of 30 cm or more, situated on private property, within 6 m of the subject site. 3. Trees of all diameters situated on City owned parkland within 6 m of the subject site. 4. On lands designated under City of Toronto Municipal Code, Chapter 658, Ravine and Natural Feature

Protection, trees of all diameters situated within 10 metres of any construction activity. 5. Trees of all diameters situated within the City road allowance adjacent to the subject site.

Municipal Address of Property:

Development Application No:

SECTION 1 - ARBORIST REPORT

Tree Service Company: Phone No: (or name of Certified/ Registered Arborist or Forester)

Date of Inspection:

IMPORTANT: Please read the following before completing the remaining portions of the form.

Note: A stand-alone inventory of trees on the site is not considered adequate information. In addition to identifying the species, size, condition and category of trees involved with this application, the Arborist is required to provide a tree preservation plan which provides recommendations for tree protection and preservation measures for all trees that are to be retained. The Arborist must have access to relevant site, construction and grading plans in order to determine the potential impact of construction activities on trees and to recommend required tree protection measures. The ‘Arborist Report’ will be considered incomplete unless the required tree preservation plan is submitted with this arborist report form. Please refer to “Building Toronto Together: A Development Guide” for additional information regarding completion of an arborist report.

Tree No. *

Species DBH** (cm)

Condition*** (good, fair, poor)

Tree Categories (see description above)

Check (�) appropriate category 1 2 3 4 5

* The location of all trees must be accurately indicated by number on the site plan for the proposed construction/ development ** All diameter measurements must be taken at 1.4 m above ground level. Measurements must be accurate. *** Please notify City of Toronto, Urban Forestry Services at 311 of any dead or hazardous tree on City owned property.

Inaccurate information and/or omitted information may delay the processing of your application. If it is determined that you require a permit to injure or destroy a tree, you will be advised and additional information will be required at that time.

Name of Certified/ Registered Arborist or Forester Signature Date (Please print)

SECTION 2 - DECLARATION

If there are no trees in any of the above mentioned categories 1 to 5, please complete the information requested below and sign the following declaration.

I/ We do hereby declare that there are no trees in respect of this development application which meet the criteria outlined in the above listed categories 1 to 5.

Name of authorized Agent or Owner Signature Date (Please print) June 2010

240 Mt. Pleasant Road (Rosehill Pumping Station)

WSP Group Canada Inc. 905-882-1100

May 8, 2017

REFER TO ARBORIST REPORT

Peter McNamara May 12, 2017

� APPENDIX 3

Ravine and Natural Feature Protection Permit Application

�LIST OF DRAWINGS

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IRON FENCE

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RB

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TIN

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GR

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G

TRC

A / R

NFP

LIM

IT

�LIST OF DRAWINGS

Tree Preservation Plans (TP-1 & TP-2)

IRON FENCE

CO

NC

. CU

RB

&G

UTT

ER

CSL

GR

ASS

GR

ASS

GR

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ASPH

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DIRE

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LL D

E AN

GELI

S, P

. ENG

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DESI

GN &

CON

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NMA

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INFR

ASTR

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WAT

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S AN

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2016

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CO

NTR

ACTO

R IS

TO

PR

UN

E AL

LEX

POSE

D R

OO

TS C

LEAN

LY. P

RU

NED

RO

OT

END

S AR

E TO

BE

NEA

TLY

AND

SQ

UAR

ELY

TRIM

MED

AN

D T

HE

AREA

ISTO

BE

BAC

KFIL

LED

WIT

H C

LEAN

NAT

IVE

FILL

AS

SOO

N A

S PO

SSIB

LE T

O P

REV

ENT

DES

ICC

ATIO

N A

ND

PR

OM

OTE

RO

OT

GR

OW

TH. T

HE

EXPO

SED

RO

OTS

SH

OU

LD N

OT

BE A

LLO

WED

TO

DR

Y O

UT,

AN

D T

HE

CO

NTR

ACTO

R S

HAL

LD

ISC

USS

WAT

ERIN

G O

F TH

E R

OO

TS W

ITH

TH

E C

ON

SULT

ING

AR

BOR

IST

SO T

HAT

TH

E R

OO

TS S

HAL

L M

AIN

TAIN

OPT

IMU

M S

OIL

MO

ISTU

RE

DU

RIN

G C

ON

STR

UC

TIO

N A

ND

BAC

KFIL

LIN

G O

PER

ATIO

NS,

YET

SO

NO

T TO

INTE

RFE

RE

WIT

H C

ON

STR

UC

TIO

N O

PER

ATIO

NS.

BAC

KFIL

LIN

G M

UST

BE

WIT

H C

LEAN

UN

CO

NTA

MIN

ATED

TO

PSO

IL F

RO

M A

NAP

PRO

VED

SO

UR

CE.

TEX

TUR

E M

UST

BE

CO

ARSE

R T

HAN

EXI

STIN

G S

OIL

S, A

ND

TO

CO

ME

INTO

CLE

AN C

ON

TAC

TW

ITH

EXI

STIN

G S

OIL

S (R

EMO

VE A

IR P

OC

KETS

, SO

D, E

TC.)

�TR

EE R

OO

TS S

HO

ULD

NO

T BE

EXC

AVAT

ED W

ITH

IN T

HE

CR

ITIC

AL S

TRU

CTU

RAL

RO

OTI

NG

AR

EA.

THIS

IS T

HE

MIN

IMU

M A

REA

OF

THE

RO

OT

SYST

EM N

ECES

SAR

Y TO

MAI

NTA

IN V

ITAL

ITY

OR

STA

BILI

TY O

F TH

E TR

EE. T

YPIC

ALLY

THIS

AR

EA E

XTEN

DS

TO T

HE

DR

IPLI

NE

OF

THE

TREE

. TH

E SE

VER

ING

OF

ON

E R

OO

T C

AN C

AUSE

APP

RO

XIM

ATEL

Y5-

20%

LO

SS O

F TH

E R

OO

T SY

STEM

. A R

EDU

CTI

ON

OF

THIS

AR

EA B

Y G

REA

TER

TH

AN 3

0% C

AN P

OSE

STA

BILI

TYC

ON

CER

NS

FOR

TH

E TR

EE.

�A

SLO

W R

ELEA

SE F

ERTI

LIZE

R E

G: B

ON

E M

EAL

OR

APP

RO

VED

EQ

UAL

TO

BE

APPL

IED

TO

TR

EES

WH

ERE

RO

OT

PRU

NIN

G O

R R

OO

T D

AMAG

E H

AS O

CC

UR

RED

. AP

PLY

PER

MAN

UFA

CTU

RER

'S R

ECO

MM

END

ATIO

NS

�R

OO

TS O

VER

2.5

cm D

IAM

ETER

TH

AT A

RE

TO B

E C

UT

SHO

ULD

BE

PRU

NED

RAT

HER

TH

AN L

EFT

TOR

N O

R C

RU

SHED

�AT

TH

E C

OM

MEN

CEM

ENT

OF

CO

NST

RU

CTI

ON

PR

UN

E R

OO

TS C

LEAN

LY U

SIN

G A

CC

EPTA

BLE

ARBO

RIC

ULT

UR

ALPR

ACTI

CES

AN

D IM

MED

IATE

LY B

ACKF

ILL

WIT

H A

PPR

OPR

IATE

MAT

ERIA

L. T

HE

FOLL

OW

ING

AR

E G

ENER

AL M

ETH

OD

SO

F R

OO

T PR

UN

ING

TO

TO

UTI

LIZE

D W

HEN

GR

ADIN

G /

CO

NST

RU

CTI

ON

WIL

L O

CC

UR

WIT

HIN

TH

E D

RIP

LIN

E O

FTR

EES:

�AL

L LI

MBS

DAM

AGED

OR

BR

OKE

N D

UR

ING

TH

E C

OU

RSE

OF

CO

NST

RU

CTI

ON

SH

OU

LD B

E PR

UN

ED C

LEAN

LY, U

TILI

ZIN

GBY

-PAS

S SE

CAT

EUR

S IN

AC

CO

RD

ANC

E W

ITH

APP

RO

VED

HO

RTI

CU

LTU

RAL

PR

ACTI

CES

. SH

OU

LD T

HER

E BE

A P

OTE

NTI

ALR

ISK

OF

TRAN

SFER

OF

DIS

EASE

FR

OM

INFE

CTE

D T

O N

ON

-INFE

CTE

D T

REE

S; T

OO

LS M

UST

BE

DIS

INFE

CTE

D A

FTER

PRU

NIN

G E

ACH

TR

EE B

Y D

IPPI

NG

IN M

ETH

YL H

YDR

ATE.

TH

IS P

RAC

TIC

E IS

PAR

TIC

ULA

RLY

IMPO

RTA

NT

DU

RIN

G P

ERIO

DS

OF

TREE

STR

ESS

AND

WH

EN P

RU

NIN

G M

ANY

MEM

BER

S O

F TH

E SA

ME

GEN

ERA,

WIT

HIN

WH

ICH

A D

ISEA

SE C

OU

LD B

ESP

REA

D Q

UIC

KLY

(I.E.

, VER

TIC

ILLI

UM

WIL

T O

N M

APLE

S O

R F

IRE

BLIG

HT

ON

GEN

ERA

OF

THE

RO

SAC

EA F

AMIL

Y).

�AL

L PR

UN

ING

CU

TS S

HO

ULD

BE

MAD

E TO

A G

RO

WIN

G P

OIN

T SU

CH

AS

A BU

D, T

WIG

OR

BR

ANC

H,

CU

T JU

ST O

UTS

IDE

THE

BRAN

CH

CO

LLAR

(TH

E SW

OLL

EN A

REA

AT

THE

BASE

OF

THE

BRAN

CH

TH

AT S

OM

ETIM

ES H

AS A

BAR

K R

IDG

E), A

ND

PER

PEN

DIC

ULA

R T

O T

HE

BRAN

CH

BEI

NG

PR

UN

ED R

ATH

ER T

HAN

AS

CLO

SE T

O T

HE

TRU

NK

AS P

OSS

IBLE

. TH

IS M

INIM

IZES

THE

SITE

OF

THE

WO

UN

D.

NO

STU

BS S

HO

ULD

BE

LEFT

. PO

OR

CU

T LO

CAT

ION

, PO

OR

CU

T AN

GLE

AN

D T

OR

N C

UTS

AR

EN

OT

ACC

EPTA

BLE.

�EX

TEN

SIVE

PR

UN

ING

IS B

EST

CO

MPL

ETED

BEF

OR

E PL

ANTS

BR

EAK

DO

RM

ANC

Y. P

RU

NIN

G S

HO

ULD

BE

LIM

ITED

TO

TH

ER

EMO

VAL

OF

NO

MO

RE

THAN

ON

E TH

IRD

(1/3

) OF

THE

TOTA

L BU

D A

ND

LEA

F BE

ARIN

G B

RAN

CH

ES.

PRU

NIN

G S

HO

ULD

INC

LUD

E TH

E C

AREF

UL

REM

OVA

L O

FD

EAD

WO

OD

,BR

ANC

HES

TH

AT A

RE

WEA

K, D

AMAG

ED, D

ISEA

SED

AN

D T

HO

SE W

HIC

H W

ILL

INTE

RFE

RE

WIT

H C

ON

STR

UC

TIO

N A

CTI

VITY

,SE

CO

ND

ARY

LEAD

ERS

OF

CO

NIF

ERS,

TRU

NK

AND

RO

OT

SUC

KER

S,TR

UN

K W

ATER

SPO

UTS

, AN

DTI

GH

T V-

SHAP

ED O

R W

EAK

CR

OTC

HES

(IN

CLU

DED

UN

ION

S).

�TH

E C

ON

TRAC

TOR

MU

ST IM

MED

IATE

LY R

EPO

RT

ANY

DAM

AGE

TO T

REE

S SU

CH

AS

BRO

KEN

LIM

BS, D

AMAG

E TO

RO

OTS

,O

R W

OU

ND

S TO

TH

E M

AIN

TR

UN

K O

R S

TEM

SYS

TEM

S SO

TH

AT T

HE

DAM

AGE

CAN

BE

ASSE

SSED

IMM

EDIA

TELY

.

�TH

E TR

EE P

RO

TEC

TIO

N F

ENC

ING

WIL

L BE

MAI

NTA

INED

UN

TIL

ALL

CO

NST

RU

CTI

ON

IS C

OM

PLET

ED, S

OIL

S AR

E ST

ABIL

IZED

AND

ALL

OF

THE

EQU

IPM

ENT

HAS

BEE

N R

EMO

VED

FR

OM

TH

E SI

TE.

�AN

Y BR

ANC

HES

TH

AT O

VER

HAN

G T

HE

WO

RK

AREA

AN

D R

EQU

IRE

PRU

NIN

G A

RE

TO B

E PR

UN

ED U

SIN

G G

OO

DAR

BOR

ICU

LTU

RAL

PR

ACTI

CES

UTI

LIZI

NG

BY-

PASS

SEC

ATEU

RS

IN A

CC

OR

DAN

CE

WIT

H A

PPR

OVE

D H

OR

TIC

ULT

UR

ALPR

ACTI

CES

AN

D/O

R A

MER

ICAN

NAT

ION

AL S

TAN

DAR

D (A

NSI

) A30

0 (P

ART

1) -

2008

PR

UN

ING

1.SO

IL E

XCAV

ATIO

N U

SIN

G S

UPE

RSO

NIC

AIR

TO

OLS

, PR

ESSU

RIZ

ED W

ATER

OR

HAN

D T

OO

LS,

FOLL

OW

ED B

Y SE

LEC

TIVE

RO

OT

CU

TTIN

G2.

CU

TTIN

G T

HR

OU

GH

TH

E S

OIL

ALO

NG

A P

RED

ETER

MIN

ED L

INE

ON

TH

E SU

RFA

CE

USI

NG

TO

OL

SPEC

IFIC

ALLY

DES

IGN

ED T

O C

UT

RO

OTS

3.M

ECH

ANIC

ALLY

EXC

AVAT

ING

(e.g

. BAC

KHO

E) T

HE

SOIL

AN

D P

RU

NIN

G W

HAT

IS L

EFT

OF

THE

EXPO

SED

RO

OTS

.4.

CU

TS T

O B

E M

ADE

WIT

H H

AND

PR

UN

ING

SH

EAR

S, B

Y-PA

SS B

LAD

E, P

RU

NIN

G S

AW. D

O N

OT

USE

ANVI

L TY

PE P

RU

NER

S.

RO

OT

PRU

NIN

G P

RA

CTI

CES

:

BR

AN

CH

PR

UN

ING

PR

AC

TIC

ES:

TREE

PR

ESER

VATI

ON

NO

TES

AND

GU

IDEL

INES

GEN

ERA

L R

ECO

MM

END

ATI

ON

S:

�It

is th

e ap

plic

ants

’ res

pons

ibilit

y to

dis

cuss

pot

entia

l im

pact

s to

tree

s lo

cate

d ne

ar o

r who

lly o

n ad

jace

nt p

rope

rties

or o

nsh

ared

bou

ndar

y lin

es w

ith th

eir n

eigh

bour

s. S

houl

d su

ch tr

ees

be in

jure

d to

the

poin

t of i

nsta

bilit

y or

dea

th th

e ap

plic

ant

may

be

held

resp

onsi

ble

thro

ugh

civi

l act

ion.

The

app

lican

t wou

ld a

lso

be re

quire

d to

repl

ace

such

tree

s to

the

satis

fact

ion

of U

rban

For

estry

�Tr

ee p

rote

ctio

n ba

rrier

s sh

all b

e in

stal

led

to s

tand

ards

as

deta

iled

in th

is d

ocum

ent a

nd�

to th

e sa

tisfa

ctio

n of

Urb

an F

ores

try�

Tree

pro

tect

ion

barri

ers

mus

t be

inst

alle

d us

ing

plyw

ood

clad

hoa

rdin

g (m

inim

um 1

9mm

or ¾

" thi

ck) o

r an

equi

vale

ntap

prov

ed b

y U

rban

For

estry

�W

here

requ

ired,

sig

ns a

s sp

ecifi

ed in

Sec

tion

4, T

ree

Prot

ectio

n Si

gnag

e m

ust b

e at

tach

ed to

all

side

s of

the

barri

er�

Prio

r to

the

com

men

cem

ent o

f any

site

act

ivity

suc

h as

site

alte

ratio

n, d

emol

ition

or

�co

nstru

ctio

n, th

e tre

e pr

otec

tion

mea

sure

s sp

ecifi

ed o

n th

is p

lan

mus

t be

inst

alle

d to

the

satis

fact

ion

of U

rban

For

estry

�O

nce

all t

ree/

site

pro

tect

ion

mea

sure

s ha

ve b

een

inst

alle

d, U

rban

For

estry

sta

ff m

ust b

e co

ntac

ted

to a

rrang

e fo

r an

insp

ectio

n of

the

site

and

app

rova

l of t

he tr

ee/s

ite p

rote

ctio

n re

quire

men

ts.

Phot

ogra

phs

that

cle

arly

sho

w th

e in

stal

led

tree/

site

pro

tect

ion

shal

l be

prov

ided

for U

rban

For

estry

revi

ew�

Whe

re c

hang

es to

the

loca

tion

of th

e ap

prov

ed T

PZ o

r sed

imen

t con

trol o

r whe

re te

mpo

rary

acc

ess

to th

e TP

Z is

prop

osed

, Urb

an F

ores

try m

ust b

e co

ntac

ted

to o

btai

n ap

prov

al p

rior t

o al

tera

tion

�Tr

ee p

rote

ctio

n ba

rrier

s m

ust r

emai

n in

pla

ce a

nd in

goo

d co

nditi

on d

urin

g de

mol

ition

, con

stru

ctio

n an

d/or

site

dis

turb

ance

,in

clud

ing

land

scap

ing,

and

mus

t not

be

alte

red,

mov

ed o

r rem

oved

unt

il au

thor

ized

by

Urb

an F

ores

try�

No

cons

truct

ion

activ

ities

incl

udin

g gr

ade

chan

ges,

sur

face

trea

tmen

ts o

r exc

avat

ion

of a

ny k

ind

are

perm

itted

with

in th

ear

ea id

entif

ied

on th

e Tr

ee P

rote

ctio

n Pl

an o

r Site

Pla

n as

a m

inim

um tr

ee p

rote

ctio

n zo

ne (T

PZ).

No

root

cut

ting

ispe

rmitt

ed. N

o st

orag

e of

mat

eria

ls o

r fill

is p

erm

itted

with

in th

e TP

Z. N

o m

ovem

ent o

r sto

rage

of v

ehic

les

or e

quip

men

t is

perm

itted

with

in th

e TP

Z. T

he a

rea(

s) id

entif

ied

as a

TPZ

mus

t be

prot

ecte

d an

d re

mai

n un

dist

urbe

d at

all

times

�Al

l add

ition

al tr

ee p

rote

ctio

n or

pre

serv

atio

n re

quire

men

ts, a

bove

and

bey

ond

the

inst

alla

tion

of tr

ee p

rote

ctio

n ba

rrier

s,m

ust b

e un

derta

ken

or im

plem

ente

d as

det

aile

d in

the

Urb

an F

ores

try a

ppro

ved

arbo

rist r

epor

t and

/or t

he a

ppro

ved

tree

prot

ectio

n pl

an a

nd to

the

satis

fact

ion

of U

rban

For

estry

�If

the

min

imum

tree

pro

tect

ion

zone

(TPZ

) mus

t be

redu

ced

to fa

cilit

ate

cons

truct

ion

acce

ss, t

he tr

ee p

rote

ctio

n ba

rrier

sm

ust b

e m

aint

aine

d at

a le

sser

dis

tanc

e an

d th

e ex

pose

d po

rtion

of T

PZ m

ust b

e pr

otec

ted

usin

g a

horiz

onta

l roo

tpr

otec

tion

met

hod

appr

oved

by

Urb

an F

ores

try�

Any

root

s or

bra

nche

s in

dica

ted

on th

is p

lan

whi

ch re

quire

pru

ning

, as

appr

oved

by

Urb

an F

ores

try, m

ust b

e pr

uned

by

anar

boris

t. Al

l pru

ning

of t

ree

root

s an

d br

anch

es m

ust b

e in

acc

orda

nce

with

goo

d ar

boric

ultu

ral p

ract

ice.

Roo

ts th

at h

ave

rece

ived

app

rova

l fro

m U

rban

For

estry

to b

e pr

uned

mus

t firs

t be

expo

sed

usin

g pn

eum

atic

(air)

exc

avat

ion,

by

hand

digg

ing

or b

y a

usin

g lo

w p

ress

ure

hydr

aulic

(wat

er) e

xcav

atio

n.�

The

wat

er p

ress

ure

for h

ydra

ulic

exc

avat

ion

mus

t be

low

eno

ugh

that

root

bar

k is

not

dam

aged

or r

emov

ed. T

his

will

allo

wa

prop

er p

runi

ng c

ut a

nd m

inim

ize

tear

ing

of th

e ro

ots.

The

arb

oris

t ret

aine

d to

car

ry o

ut c

row

n or

root

pru

ning

mus

tco

ntac

t Urb

an F

ores

try n

o le

ss th

an th

ree

wor

king

day

s pr

ior t

o co

nduc

ting

any

spec

ified

wor

k�

The

appl

ican

t/ow

ner s

hall

prot

ect a

ll by

-law

regu

late

d tre

es in

the

area

of c

onsi

dera

tion

that

hav

e no

t bee

n ap

prov

ed fo

rre

mov

al th

roug

hout

dev

elop

men

t wor

ks to

the

satis

fact

ion

of U

rban

For

estry

Con

vict

ions

of o

ffenc

es re

spec

ting

the

regu

latio

ns in

the

Stre

et T

ree

By-la

w a

nd P

rivat

e.�

Tree

By-

law

are

sub

ject

to fi

nes.

A p

erso

n co

nvic

ted

of a

n of

fenc

e un

der t

hese

by-

law

s is

liab

le to

a m

inim

um fi

ne o

f $50

0an

d a

max

imum

fine

of $

100,

000

per t

ree,

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the

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to s

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vent

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PLAN

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