METHOD STATEMENT FOR INSTALLATION, TESTING AND COMMISSIONING OF FIRE FIGHTING PUMP SET

RAMSPROZONE	METHOD STATEMENT — Installation, Testing and Commissioning of Fire Fighting Pump Set
Company / Contractor Name: [ENTER COMPANY / CONTRACTOR NAME]	Doc No: [DOC NO.]

DOCUMENT TITLE BLOCK
Document No. [ENTER DOCUMENT NUMBER]	Revision 00	Project Location [ENTER PROJECT LOCATION]	Project Name [ENTER PROJECT NAME]
Project No. [ENTER PROJECT NUMBER]	Prepared By [ENTER NAME]	Date [DD/MM/YYYY]	Reviewed By [ENTER NAME / DESIGNATION]
Approved By [ENTER NAME / DESIGNATION]	Client / Owner [ENTER CLIENT / OWNER NAME]	Main Contractor [ENTER MAIN CONTRACTOR NAME]	Sub-Contractor [ENTER SUB-CONTRACTOR NAME]
Applicable Standards: NFPA 13, NFPA 20, EN 12845, ISO 9001:2015, ISO 45001:2018, ISO 14001:2015

All fields in [RED BRACKETS / ITALIC] are placeholders. Replace each with your project-specific information before issue or use. Provided free of charge by RAMSPROZONE for global HSE professionals.

TABLE OF CONTENTS

• 1. Purpose
• 2. Scope of Work
• 3. Responsibilities
• 4. Required Tools & Equipment
• 5. Materials
• 6. Handling & Storage
  • 6.1 Fabrication / Pre-assembly
  • 6.2 Receipt & Inspection at Site
  • 6.3 Unloading, Shifting & Storage
• 7. Installation / Work Procedure
  • 7.1 Preparation and Pre-commencement Checks
  • 7.2 Pump Set Base Frame and Anchor Bolt Installation
  • 7.3 Fire Pump, Jockey Pump and Driver Alignment
  • 7.4 Pipework Connections and Valves
  • 7.5 Electrical and Control Panel Connections
  • 7.6 Hydraulic Testing
  • 7.7 Functional Testing and Commissioning
  • 7.8 Protection of Completed Work
• 8. Health, Safety & Environment (HSE)
• 9. Quality Control & Inspection
• 10. Reference Documents
• 11. Document Revision History
• 12. Approval & Sign-Off

1. PURPOSE

This Method Statement establishes the controlled procedure for the installation, testing, and commissioning of a fire fighting pump set, including the main fire pump, jockey (pressure maintenance) pump, electric motor(s) or diesel engine driver, associated pipework, valves, instrumentation, and control panel equipment. The document defines the sequence of operations, safety requirements, quality control measures, and acceptance criteria to be followed by all personnel engaged in the works.

This Method Statement shall be read in conjunction with the approved construction drawings, project specifications, manufacturer's installation and operation manuals, and the requirements of [LOCAL AUTHORITY / REGULATORY BODY NAME]. It is applicable to all personnel involved, including site engineers, supervisors, technicians, HSE officers, and QA/QC inspectors.

Compliance with all applicable international standards — including NFPA 20 (Standard for the Installation of Stationary Pumps for Fire Protection), NFPA 13, EN 12845, and ISO 45001:2018 — is mandatory throughout the execution of this work.

2. SCOPE OF WORK

The scope of works covered by this Method Statement includes, but is not limited to, the following activities:

• Survey, marking out, and preparation of the pump room/plant room for pump set installation.
• Supply, handling, and positioning of the fire fighting pump set package (electric and/or diesel-driven fire pump, jockey pump, base frame, and control panel).
• Installation and grouting of pump set base frame and anchor bolts to structural slab.
• Alignment of pump(s), driver(s), and flexible couplings in accordance with manufacturer specifications.
• Connection of suction and discharge pipework, including installation of gate valves, butterfly valves, non-return valves, pressure relief valves, and test/drain connections.
• Installation of pressure gauges, flow meters, and instrumentation as specified.
• Connection of electrical supply and control wiring to the fire pump controller and associated panels in coordination with the MEP electrical trade.
• Filling, venting, and flushing of the system prior to testing.
• Hydraulic pressure testing of all pipework and connections.
• Functional testing and performance testing of the complete pump set against design duty point (flow and pressure).
• Commissioning and calibration of automatic start sequences, alarm signals, and control panel settings.
• Coordination and interface with civil, structural, electrical, and building management system (BMS) trades.
• Preparation and submission of as-installed records, test certificates, and commissioning reports.

3. RESPONSIBILITIES

Role / Designation	Responsibilities
Site Engineer	Responsible for overall technical supervision and execution of installation, testing, and commissioning activities in accordance with this Method Statement, approved drawings, and project specifications. Conducts pre-commencement checks and raises any technical queries or non-conformances.
Site Foreman / Supervisor (Fire Pump Installation)	Directly supervises the pump installation crew. Ensures correct sequencing of work, verifies alignment checks, co-ordinates with other trades, and ensures all personnel comply with HSE requirements at all times.
HSE Officer	Conducts and documents Toolbox Talks (TBTs) prior to commencement and at each new phase. Monitors compliance with PPE, permit-to-work, and site safety requirements. Investigates any incidents or near-misses and implements corrective actions.
QA/QC Inspector	Performs hold point and witness point inspections as defined in the Inspection and Test Plan (ITP). Reviews and approves test records, calibration certificates, and commissioning reports. Raises non-conformance reports (NCRs) where required.

Additional roles may be added as required per [PROJECT / COMPANY ORGANISATIONAL CHART REFERENCE].

4. REQUIRED TOOLS & EQUIPMENT

1. Mobile hydraulic crane or chain block hoist (capacity rated for pump set weight) with certified lifting slings and shackles.
2. Forklift or pallet truck for off-loading and positioning.
3. Dial test indicators (DTI) and magnetic base stands for shaft and coupling alignment checks.
4. Laser alignment tool (e.g. Pruftechnik Rotalign or equivalent) for precision coupling alignment.
5. Spirit level and precision machinist's level for base frame levelling.
6. Torque wrench set (calibrated) for anchor bolt and flange bolt tightening.
7. Electric drill, core drill, and grinder for anchor hole preparation.
8. Pipe threading machine and pipe cutting tools.
9. Hydraulic pressure test pump and calibrated digital pressure gauge (range: 0–25 bar minimum, calibration certificate required).
10. Multimeter and insulation resistance tester (megger) for electrical checks.
11. Clamp-type ammeter for motor current verification.
12. Flow measuring device (pitot tube or ultrasonic flow meter) for commissioning performance test.
13. Portable RPM tachometer for pump speed verification.
14. Vibration analyser for baseline vibration measurement post-commissioning.
15. Standard hand tools: spanners, wrenches, screwdrivers, Allen keys, pipe wrenches.
16. Personal protective equipment as listed in Section 8.
17. Fire extinguisher (minimum 9 kg dry powder) in the pump room during all works.

5. MATERIALS

• Fire fighting pump set (complete package) — main electric/diesel fire pump, jockey pump, base frame, and couplings, as per approved material submittal.
• Fire pump controller / automatic control panel — listed and approved to UL 218 or equivalent.
• Grouting material — non-shrink cementitious grout for base frame.
• Anchor bolts and chemical anchors — rated as per structural engineer's specification.
• Ductile iron or carbon steel flanged pipework — as per project specification (ASTM A795 / EN 10255 or equivalent).
• Gate valves, butterfly valves, non-return valves, and pressure relief valves — fire-rated, as per approved submittal.
• Flexible connections (pump inlet and outlet) — approved vibration-isolation type.
• Pressure gauges, compound gauges, and instrumentation — as per project specifications.
• PTFE tape, thread sealant, and flange gaskets — compatible with potable/fire water service.
• Cable trays, conduit, and electrical cabling — as per MEP electrical specification.
• Cable glands, terminals, and labelling materials.
• Touch-up paint (fire-rated where required) and corrosion protection coating.

All materials shall be in strict accordance with the approved material submittals and project specifications. No substitutions shall be made without written approval from the Engineer / Client. All materials shall be accompanied by valid mill test certificates, product data sheets, and third-party certifications where required.

6. HANDLING & STORAGE

6.1 Fabrication / Pre-assembly (if applicable)

Where factory-assembled pump sets are supplied, no site fabrication is required other than pipework spools and cable assemblies. Any site-fabricated pipework spools shall be cut, threaded, and painted off-site or in a designated fabrication area, away from the pump room, to maintain a clean working environment. All fabricated items shall be inspected and tagged prior to installation.

6.2 Receipt & Inspection at Site

Upon delivery, the Site Engineer and QA/QC Inspector shall jointly inspect each item against the approved delivery/packing list, approved material submittals, and approved shop drawings. The following shall be verified:

• Model, type, rating, and serial numbers match the approved submittal and purchase order.
• Physical condition — no visible damage to pump casing, motor, control panel, or frame.
• Completeness of manufacturer's documentation: installation manual, wiring diagrams, test certificates, and warranty cards.
• Presence of all accessories — coupling guards, pressure gauges, bolts, gaskets, and ancillary items.

Any item found damaged, incorrect, or without documentation shall be tagged as non-conforming (red tag), quarantined, and a Non-Conformance Report (NCR) raised immediately.

6.3 Unloading, Shifting & Storage

• Pump sets shall be unloaded using a rated crane or forklift; lifting points marked by the manufacturer shall be used exclusively.
• Lifting slings, shackles, and spreader bars shall be inspected and within valid certification dates prior to use.
• The pump set shall be stored in a dry, covered, secure area on level ground, with protection against weather, dust, and physical damage.
• Pump shafts shall be rotated manually at least once per week during storage to prevent bearing damage.
• Control panels and electrical components shall be stored in a climate-controlled environment where possible; desiccant bags shall be used in humid conditions.
• Flanged connections and openings shall remain protected with plastic caps/plugs until installation to prevent ingress of debris.

7. INSTALLATION / WORK PROCEDURE

7.1 Preparation and Pre-commencement Checks

7.1.1 Obtain all required permits to work (PTW) and ensure risk assessments are reviewed and signed off by all relevant personnel prior to commencement of any work.

7.1.2 Conduct a Toolbox Talk (TBT) covering the scope of work for the day, associated hazards, controls, emergency procedures, and the requirements of this Method Statement.

7.1.3 Verify that the pump room is structurally complete, clean, adequately lit, and ventilated. Confirm that drainage provisions and floor penetrations are complete.

7.1.4 Confirm that all civil anchor bolt pockets or pre-cast inserts are positioned correctly per the pump set layout drawing (±5 mm tolerance). Engage a licensed surveyor or use a total station to verify positions if required.

7.1.5 Verify all materials are on-site, inspected, correctly tagged, and approved. Confirm that calibration certificates for all test instruments are valid and on file.

7.1.6 Check that hoisting and lifting equipment is rated and certified for the load, and that rigging has been verified by a competent rigger.

7.2 Pump Set Base Frame and Anchor Bolt Installation

7.2.1 Mark out the exact location of the pump set base frame on the structural slab using the approved layout drawing. Use a total station or laser level to confirm centreline and orientation.

7.2.2 Drill anchor bolt holes to the diameter and depth specified by the structural engineer using a rotary hammer drill with a dust extraction attachment. Blow out holes with compressed air and clean with a wire brush and vacuum prior to chemical anchor installation.

7.2.3 Install chemical anchors in strict accordance with the manufacturer's specification (correct adhesive, correct curing time based on ambient temperature). Insert threaded rods and allow full cure prior to loading.

7.2.4 Lower the base frame onto the slab using the crane, aligning over the anchor bolts. Use stainless steel shim packs beneath the base frame feet to achieve level; check with a precision machinist's level (maximum deviation: 0.05 mm/m).

7.2.5 Once level is confirmed, tighten anchor nuts finger-tight. Mix and pour non-shrink cementitious grout beneath the base frame through the grout hole(s) provided in the frame, ensuring full contact between slab and base frame. Allow grout to cure for minimum 24 hours (or manufacturer-recommended period) before final torque-tightening of anchor bolts.

7.2.6 After grout cure, torque-tighten all anchor bolts to the specified torque value using a calibrated torque wrench. Record torque values on the installation checklist.

7.3 Fire Pump, Jockey Pump and Driver Alignment

7.3.1 Lift the fire pump and motor assembly onto the base frame using certified slings and the rated crane. Do not impact or shock-load the equipment.

7.3.2 Position the pump centreline to match the suction and discharge pipe centrelines as per approved drawings. Use shims under the motor/pump feet to achieve the correct height and angle.

7.3.3 Carry out preliminary coupling alignment using a dial test indicator (DTI). Check both angular and parallel (offset) misalignment on the coupling. Adjust motor feet shims as required.

7.3.4 Perform final precision alignment using a laser alignment tool. Maximum allowable misalignment values shall be as stated in the manufacturer's manual (typically ≤0.05 mm parallel and ≤0.05 mm/100 mm angular for direct-coupled units). Record all final alignment readings on the alignment check sheet.

7.3.5 Install the coupling guard after satisfactory alignment is confirmed. Repeat the above for the jockey pump and for the diesel engine driver where applicable.

7.3.6 Rotate the pump shaft by hand and confirm free rotation with no mechanical interference before securing all hold-down bolts to final torque.

7.4 Pipework Connections and Valves

7.4.1 Install suction pipework from the break tank or suction source to the pump inlet, using the approved isometric drawings. Suction pipework shall be supported independently of the pump; no loads shall be transferred to the pump casing.

7.4.2 Install a flexible (vibration-isolation) connection on both the suction and discharge of each pump to prevent vibration transmission to the pipework system.

7.4.3 Install concentric reducers on the pump suction (to prevent air pockets) and eccentric reducers (flat top) on the pump discharge where required by the drawings.

7.4.4 Fit all specified valves — gate valve or butterfly valve (closed-type lockable) on suction side, non-return valve and gate/butterfly valve on discharge side, pressure relief valve, and test/drain connection — in accordance with NFPA 20 and the approved drawings.

7.4.5 All flanged joints shall use correctly rated full-face or ring gaskets. Bolts shall be tightened in a cross-bolt (star pattern) sequence to the specified torque.

7.4.6 Install pressure gauges on the suction and discharge of each pump, and a compound gauge on the suction where sub-atmospheric pressures may occur.

7.4.7 Cap all open pipe ends with temporary blanks prior to hydraulic testing.

7.5 Electrical and Control Panel Connections

7.5.1 The fire pump controller shall be installed on the wall adjacent to the pump set or at the location indicated on the approved drawings, in strict compliance with NFPA 20 and the approved electrical drawings. This work shall only be performed by a licensed/approved electrician.

7.5.2 Install power supply conduit and cabling from the dedicated fire pump distribution board to the fire pump controller. Ensure the supply is from a dedicated circuit with no other loads, as required by NFPA 20.

7.5.3 Connect motor power cables, control wiring for pressure transducers, flow switches, alarm contacts, and BMS interface terminals as per the approved wiring diagrams.

7.5.4 Perform insulation resistance (megger) testing on all motor windings and power cables prior to energisation. Record results; minimum insulation resistance shall comply with IEC 60034 requirements.

7.5.5 Verify correct phase rotation prior to energising the motor. Confirm direction of motor rotation matches the pump rotation arrow prior to coupling; run motor uncoupled for initial rotation check.

7.5.6 Set all controller parameters — start pressure, stop pressure, alarm setpoints, and auto-start delay — in accordance with the system design and hydraulic calculations, under the supervision of the commissioning engineer.

7.6 Hydraulic Testing

7.6.1 Once all pipework within the pump room is complete and all temporary blanks are in place, fill the system slowly from the suction source, venting all high points manually to expel trapped air.

7.6.2 Connect the hydraulic pressure test pump at a low point. Pressurise the system gradually to the test pressure as specified in the project specification (typically 1.5× the system design working pressure, minimum 15 bar unless otherwise stated).

7.6.3 Hold the test pressure for a minimum period of one hour (or as specified). Monitor the calibrated pressure gauge for any pressure drop. Visually inspect all joints, fittings, and connections for leaks.

7.6.4 Any leaks found shall be marked, depressurised, repaired, and the test repeated in full. No acceptance shall be made until a zero-leak, zero-pressure-drop result is achieved.

7.6.5 Record all test results on the hydraulic test record form, including test date, test pressure, duration, ambient temperature, result (pass/fail), and signatures of the Site Engineer and QA/QC Inspector.

7.7 Functional Testing and Commissioning

7.7.1 Prior to functional testing, confirm that all electrical checks in 7.5 are satisfactorily completed and that the system is filled and vented.

7.7.2 Perform a manual start test: start each pump manually from the controller and verify correct rotation direction, no excessive vibration, no abnormal noise, and stable pressure on the discharge gauge.

7.7.3 Perform an automatic start test: reduce system pressure below the start setpoint using the test drain valve and confirm the fire pump starts automatically within the time period specified (typically ≤30 seconds from pressure drop to pump at duty speed per NFPA 20).

7.7.4 Conduct a pump performance test at three operating points: shut-off (zero flow), duty point (design flow and pressure), and overload/maximum flow condition. Plot results against the pump manufacturer's certified performance curve and confirm results are within ±5% of specified values.

7.7.5 Record motor running current (amps) at each test point using a calibrated clamp meter and confirm values do not exceed the motor nameplate full-load current (FLA).

7.7.6 Test all alarm signals — pump running, pump fault, controller in manual, low suction pressure, and high pressure alarm — by simulating each condition and verifying correct indication at the panel and at the BMS where applicable.

7.7.7 Perform jockey pump start and stop cycling test. Confirm that the jockey pump maintains system pressure within the specified range and that the main pump starts only upon sustained pressure loss indicating a fire demand.

7.7.8 For diesel-driven pumps: verify automatic start on signal, battery charger operation, fuel level indication, weekly automatic exercise start sequence, and all engine alarms.

7.7.9 Complete and sign all commissioning checklists and test records. Submit commissioning report to the Client/Engineer for review and acceptance.

7.8 Protection of Completed Work

7.8.1 Upon satisfactory commissioning, all valves shall be set to the correct operational position (open/closed) and secured/locked as specified by the design engineer.

7.8.2 Install valve position indicators and colour-coded valve tags in accordance with the project's valve schedule.

7.8.3 Apply touch-up paint to any areas of pipework or equipment damaged during installation.

7.8.4 Restrict access to the pump room to authorised personnel only. Install warning signage and operational instructions at the controller panel.

7.8.5 Ensure all as-installed/as-built documentation, test records, and commissioning certificates are compiled and submitted to the Client/Engineer.

8. HEALTH, SAFETY & ENVIRONMENT (HSE)

All works shall comply with the project HSE Plan, the applicable regulations of [LOCAL HSE AUTHORITY / REGULATORY BODY NAME], and the requirements listed below:

• Toolbox Talk (TBT): A TBT shall be conducted by the HSE Officer or Site Supervisor prior to each shift and at the start of each new phase of work. Attendance shall be recorded and signed by all participants.
• Mandatory PPE: As a minimum, all personnel shall wear: hard hat (EN 397), safety footwear with steel toe cap (EN ISO 20345), high-visibility vest (EN ISO 20471), safety glasses (EN 166), and cut-resistant work gloves. When working in the pump room with noise levels >85 dB(A), ear defenders (EN 352) are mandatory. Coveralls are required when handling chemicals such as chemical anchor adhesives; nitrile or chemical-resistant gloves and goggles shall be worn.
• Working at Height: Where access to pipe supports or elevated areas above 1.8 m is required, a full-body harness (EN 363 / BS EN 363), lanyards, and anchor points shall be used. A Working at Height Permit shall be issued. Scaffolding or mobile elevated work platforms (MEWPs) shall be inspected and tagged before use.
• Electrical Safety: All electrical works shall be carried out by licensed electricians only. Lockout/tagout (LOTO) procedures shall be applied before any work on electrical panels. No live working shall be permitted except with a specific energised electrical work permit and under strict control measures.
• Chemical / Substance Handling: Safety Data Sheets (SDS) for all chemicals used (chemical anchors, grout, solvents, diesel fuel) shall be available at the work location. Storage, handling, and disposal shall be in accordance with the SDS requirements and the project Environmental Management Plan.
• Manual Handling: Mechanical aids (crane, forklift, trolley) shall be used for all items exceeding 25 kg. Team lifting and proper manual handling technique shall be demonstrated and briefed via TBT for lighter items.
• Waste Management: Waste shall be segregated at source into general, recyclable, and hazardous waste streams. Chemical containers, oils, and diesel shall be disposed of through a licensed waste contractor. No chemicals shall be discharged to drains or onto the ground.
• Activity-Specific Hazards: Crane and lifting operations — exclusion zones to be established and maintained; only certified riggers and slinger-signallers to direct lifts. Hydraulic pressure testing — personnel shall not stand in line with pipe ends under pressure; test area to be barricaded; pressure shall be released in a controlled manner. Rotating equipment — coupling guards must be fitted before any test run; no loose clothing or jewellery near rotating parts. Confined/restricted space (pump room) — ventilation to be verified prior to entry; emergency egress route to be clear at all times.
• Emergency Procedures: Emergency contact numbers, first aid locations, and emergency evacuation routes shall be communicated during each TBT. A minimum of one first-aider shall be present on-site at all times. In the event of injury, work shall cease, the HSE Officer shall be notified immediately, and the incident reported per the project Incident Reporting Procedure.

Permit to Work Requirements: [ENTER PTW REQUIREMENTS — e.g. Hot Work Permit, Electrical Isolation Permit, Working at Height Permit, Lifting Operations Permit]

Risk Assessment Reference: [ENTER RA DOCUMENT REFERENCE NUMBER]

9. QUALITY CONTROL & INSPECTION

All inspection activities shall be carried out in accordance with the project Inspection and Test Plan (ITP). Hold points (H) shall not be proceeded past without written sign-off by the QA/QC Inspector; Witness points (W) shall be notified to the QA/QC Inspector in advance. The following minimum inspection activities apply:

#	Inspection Activity	Reference Document	Acceptance Criteria	Type
1	Material receipt inspection — pump set, valves, controller	Approved Material Submittals; Delivery Note	Model, rating, serial no. match approval; no physical damage; all documentation present	H
2	Pump room readiness check (civil, drainage, dimensions)	Approved Layout Drawing	Room dimensions, drain, anchor positions within ±5 mm tolerance	H
3	Base frame level and anchor bolt installation check	Manufacturer Manual; Project Specification	Level ≤0.05 mm/m; anchor bolt chemical cure complete; grout fully filled	H
4	Pump and motor coupling alignment verification	Manufacturer Manual; Alignment Record Sheet	Parallel and angular misalignment within manufacturer tolerance (typically ≤0.05 mm)	H
5	Pipework installation and valves check (type, size, orientation)	Approved Isometric / P&ID Drawings; NFPA 20	Correct valve type, size, and orientation; pipe supports correctly installed; no loads on pump flanges	W
6	Electrical insulation resistance (megger) test — motors and cables	IEC 60034; Electrical Specification	Insulation resistance ≥1 MΩ (or as specified); correct phase rotation confirmed	H
7	Hydraulic pressure test — pump room pipework	Project Specification; NFPA 20	1.5× design working pressure for 1 hour; zero leaks; zero pressure drop	H
8	Pump manual start test and rotation check	Manufacturer Manual; Commissioning Checklist	Correct rotation; no abnormal vibration or noise; stable discharge pressure	W
9	Automatic start test — pressure drop trigger	NFPA 20; Controller Setting Sheet	Pump starts automatically within ≤30 seconds of set pressure drop	H
10	Pump performance test — flow vs. pressure at duty point	Approved Hydraulic Calculations; Manufacturer Curve	Flow and pressure within ±5% of design duty point; motor current within FLA	H
11	Alarm and signal test — all panel and BMS signals	Approved Wiring Diagrams; BMS Specification	All alarms activate correctly; BMS signals confirmed and acknowledged	W

ITP Reference: [ENTER ITP DOCUMENT REFERENCE NUMBER]

10. REFERENCE DOCUMENTS

• ISO 9001:2015 — Quality Management Systems
• ISO 14001:2015 — Environmental Management Systems
• ISO 45001:2018 — Occupational Health & Safety Management Systems
• IOSH — Managing Safely (risk assessment and method statement principles)
• NFPA 13 — Standard for the Installation of Sprinkler Systems
• NFPA 20 — Standard for the Installation of Stationary Pumps for Fire Protection
• NFPA 72 — National Fire Alarm and Signalling Code
• NFPA 2001 — Standard on Clean Agent Fire Extinguishing Systems
• EN 12845 — Fixed firefighting systems — Automatic sprinkler systems
• ISO 6183 — Fire protection equipment — CO2 extinguishing systems
• IEC 60034 — Rotating electrical machines (motor insulation and performance)
• BS EN 363 — Personal fall protection equipment
• OSHA 29 CFR 1926.502 — Fall protection systems criteria
• ISO 16025 — Standards for height safety equipment
• Approved Material Submittals — as issued on the project
• Approved Shop / Construction Drawings — as issued on the project
• Project Specifications — [ENTER RELEVANT SPECIFICATION SECTION]
• Project HSE Plan — Ref: [ENTER REFERENCE]
• Inspection & Test Plan (ITP) — Ref: [ENTER REFERENCE]
• Risk Assessment — Ref: [ENTER REFERENCE]

11. DOCUMENT REVISION HISTORY

Rev.	Date	Description of Change	Approved By
00	[DD/MM/YYYY]	Initial Issue	[NAME / DESIGNATION]
01	[DD/MM/YYYY]	[DESCRIBE CHANGE]	[NAME / DESIGNATION]

12. APPROVAL & SIGN-OFF

Prepared By	Reviewed By	Approved By	Client / Owner Representative
Name: [ENTER NAME] Designation: [ENTER DESIGNATION] Signature: ____________________ Date: ____________________	Name: [ENTER NAME] Designation: [ENTER DESIGNATION] Signature: ____________________ Date: ____________________	Name: [ENTER NAME] Designation: [ENTER DESIGNATION] Signature: ____________________ Date: ____________________	Name: [ENTER NAME] Designation: [ENTER DESIGNATION] Signature: ____________________ Date: ____________________

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