NFPS Offshore Compression Complexes Project COMP2

COMPANY Contract No.: LTC/C/NFP/5128/20

CONTRACTOR Project No.: 033734

Document Title

:

SPECIFICATION FOR ELECTRICAL PACKAGED EQUIPMENT FOR CP6S AND CP7S COMPLEXES

COMPANY Document No.

: 200-20-EL-SPC-00002

Saipem Document No.

: 033734-B-D-30-SPM-EL-S-10008

Discipline

: ELECTRICAL

Document Type

: SPECIFICATIONS

Document Category/Class

: 1

Document Classification

: Internal

B

A

06-Apr-2023

Issued for Approval

Faiqahnor

Salwa Solahuddin

22-Feb-2023

Issued for Review

Salwa Solahuddin

Nik Sharris

Anand Bhatt / Sriram Murthy Anand Bhatt / Sriram Murthy

REV.

DATE

DESCRIPTION OF REVISION

PREPARED BY

CHECKED BY

APPROVED BY

Saipem S.p.A.

Company No._Rev. 200-20-EL-SPC-00002_B

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Digitally signed by Faiqahnor LatibDate: 2023.04.06 16:47:48 +08’00’Digitally signed by Salwa SolahuddinDate: 2023.04.06 16:52:28 +08’00’Salwa SolahuddinDigitally signed by Anand BhattDN: cn=Anand Bhatt, c=MY, o=Ranhill Worley, email=anand.bhatt@worley.comReason: I agree to the specified portions of this documentDate: 2023.04.06 17:16:49 +08’00’SRIRAM MURTHYDigitally signed by SRIRAM MURTHY DN: cn=SRIRAM MURTHY, o=SAIPEM, ou=SAIPEM, email=srirammurthy.valiveti@saipem.com, c=MY Date: 2023.04.06 17:51:52 +08’00’

NFPS Offshore Compression Complexes Project COMP2 SPECIFICATION FOR ELECTRICAL PACKAGED EQUIPMENT FOR CP6S AND CP7S COMPLEXES

REVISION HISTORY

Revision

Date of Revision

Revision Description

A1

A

B

03-Feb-2023

22-Feb-2023

06-Apr-2023

Issued for Inter-Discipline Check

Issued for Review

Issued for Approval

HOLDS LIST

Hold No

Hold Description

1

General - COMPANY Document Number (under request to CPY)

Company No._Rev. 200-20-EL-SPC-00002_B

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NFPS Offshore Compression Complexes Project COMP2 SPECIFICATION FOR ELECTRICAL PACKAGED EQUIPMENT FOR CP6S AND CP7S COMPLEXES

TABLE OF CONTENTS

1

2

3

4

5

6

7

8

9

INTRODUCTION … 5

1.1 PROJECT OBJECTIVE … 5 1.2 PROJECT SCOPE … 5

DEFINITIONS AND ABBREVIATIONS … 7

2.1 DEFINITIONS … 7 2.2 ABBREVIATIONS … 8

REFERENCE, RULES, CODES AND STANDARDS … 10

3.1 COMPANY DOCUMENTS … 10 3.2 PROJECT DOCUMENTS … 11 3.3 CONTRACTOR DOCUMENTS … 12 INTERNATIONAL CODES AND STANDARDS … 12 3.4

PURPOSE … 14

SCOPE … 14

SITE SERVICE CONDITIONS … 14

6.1 DESIGN LIFE … 14 6.2 ENVIRONMENT … 14

6.2.1 Offshore Ambient Conditions … 14

6.2.2 Design Ambient Conditions … 15 6.3 INGRESS PROTECTION … 16 6.4 AREA CLASSIFICATION … 17 6.5 ELECTRICAL SERVICE CONDITIONS … 18 6.6 SEISMIC LOAD … 19 6.7 NOISE LEVEL … 19 6.8 OBSOLESCENCE MANAGEMENT … 19 6.9 OPERATIONAL SAFETY AND RELIABILITY … 20 6.10 STANDARDIZATION OF EQUIPMENT AND MATERIALS … 20 6.11 MAINTAINABILITY AND ACCESSIBILITY … 20

GENERAL … 21

DESIGN / INTERFACES … 22

FABRICATION AND ELECTRICAL EQUIPMENT … 24

9.1 CABLE TRAY … 24 9.2 CONDUIT … 24 9.3 CABLE AND WIRE … 24 9.4 MOTOR … 25 9.5 LOCAL CONTROL STATION (LCS) … 25 9.6 CABLE GLAND … 26

9.6.1 Multi-Cable Transit (MCT) … 27

9.6.2 Cabling … 27 9.7 JUNCTION BOX … 27 9.8 EARTHING … 29 9.9 LIGHTING AND RECEPTACLE … 30 9.10 TRANSFORMER … 31 9.11 DC BATTERY CHARGERS AND BATTERIES … 31 9.12 HEAT TRACING … 31 9.13 WORKMANSHIP … 32 9.14 PROTECTION OF CONDUCTORS … 33

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9.15 AVIATION WARNING LIGHTS … 33

9.15.1 Obstacle Marking and Lighting … 33

9.15.2 Crane Beacon Requirements … 34

9.15.3 Flare Tower Aviation Warning Light Requirements … 34

9.15.4 Telecom Masts and Tower Beacons … 34

10

TESTING AND COMMISSIONING … 34

10.1 ELECTRICAL TEST AND CHECKS … 34 10.2 TEST RESULTS … 35

11

12

13

DOCUMENTATION … 35

SPARE PARTS AND SPECIAL TOOLS … 36

PACKAGING AND TRANSPORTATION … 36

13.1 PREPARATION FOR SHIPMENT … 36 13.2 STORAGE PRESERVATION … 36

14

15

16

17

MATERIAL HANDLING … 37

HUMAN FACTOR ENGINEERING … 37

THIRD PARTY CERTIFICATES AND LICENSE … 38

PERFORMANCE GUARANTEE … 38

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NFPS Offshore Compression Complexes Project COMP2 SPECIFICATION FOR ELECTRICAL PACKAGED EQUIPMENT FOR CP6S AND CP7S COMPLEXES

1

INTRODUCTION

The North Field is the world’s largest natural gas field and accounts for nearly all of the state of Qatar’s gas production. The reservoir pressure in the North Field has been declining due to continuous production since the early 1990s. The principal objective of the NFPS Project is to sustain the plateau from existing QG South Operation (RL Dry Gas, RGE Wet gas) and existing QG North Operation (QG1 & QG2) production areas by implementing an integrated and optimum investment program consisting of subsurface development, pressure drop reduction steps and compression. Refer to the figure below for a schematic of the North Field.

Qatargas Operating Company Limited is leading the development of the North Field Production Sustainability (NFPS) Project.

1.1 Project Objective

The objective of this Project includes:

• Achieve standards of global excellence in Safety, Health, Environment, Security and Quality

performance.

• Sustain the Qatargas North Field Production Plateau by installing new Compression Complex facilities CP6S & CP7S in QG south with integration to the existing facilities under Investment #3 program.

• Facility development shall be safe, high quality, reliable, maintainable, accessible, operable,

and efficient throughout their required life.

1.2 Project Scope

The Project Scope includes detailed engineering, procurement, construction, transportation & installation, hook-up and commissioning, tie-in to EXISTING PROPERTY and provide support for start- up activities of the following facilities and provisions for future development. The WORK shall be following the specified regulations, codes, specifications and standards, achieves the specified performance, and is safe and fit‐for‐purpose in all respects.

Offshore

CP6S and CP7S Compression Complexes that are part of QG-S RGE facilities as follows:

• CP6S Compression Complex

• Compression Platform CP6S, Living Quarters LQ6S, Flare FL6S

• Bridges BR6S-2, BR6S-3, BR6S-4, BR6S-5

• Bridge linked Tie-in to RP6S

Production from existing wellheads (WHP6S & WHP10S) and new wellhead (WHP14S) are routed via riser platform RP6S to compression platform CP6S to boost pressure and export to onshore via two export lines through the existing WHP6S pipeline and a new 38” carbon steel looping trunkline from RP6S (installed by EPCOL). CP6S is bridge-linked to RP6S.

• CP7S Compression Complex

• Compression Platform CP7S, Living Quarters LQ7S, Flare FL7S

• Bridges BR7S-2, BR7S-3, BR7S-4, BR7S-5

• Bridge linked Tie-in to RP7S

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NFPS Offshore Compression Complexes Project COMP2 SPECIFICATION FOR ELECTRICAL PACKAGED EQUIPMENT FOR CP6S AND CP7S COMPLEXES

CP7S shall receive production from existing wellheads (WHP5S & WHP7S) and new wellhead (WHP13S). There is only one export line for CP7S through the existing export pipeline from WHP7S. CP7S is bridge-linked to RP7S.

RGA Complex Destressing

Migration of the Electrical power source, Telecoms, Instrumentation and Control systems from WHPs and RPs hosted by RGA to the respective Compression Complexes listed below:

• WHP6S, WHP10S, WHP14S, RP6S and RP10S to CP6S Compression Complex

• WHP5S, WHP7S, WHP13S and RP7S to CP7S Compression Complex

Destressing of Telecoms, Instrumentation and Control system in RGA Complex Control Room, which would include decommissioning and removal of telecom system devices and equipment that would no longer be required post migration and destressing activity.

Onshore

An Onshore Collaborative Center (OCC) will be built under EPC-9, which will enable onshore based engineering teams to conduct full engineering surveillance of all the offshore facilities. The OCC Building will be located in Ras Laffan Industrial City (RLIC) within the Qatar Gas South Plot. MICC & Telecommunication, ELICS related scope will be performed in the OCC building.

Figure 1.2.1: NFPS Compression Project COMP2 Scope

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2 DEFINITIONS AND ABBREVIATIONS

2.1 Definitions

Definition

Description

COMPANY

Qatargas Operating Company Limited.

CONTRACTOR

Saipem S.p.A.

DELIVERABLES

FACILITIES

All products (drawings, equipment, services) which must be submitted by CONTRACTOR to COMPANY at times specified in the contract. All machinery, apparatus, materials, articles, components, systems and items of all kinds to be designed, engineered, procured, manufactured, constructed, supplied, tested and permanently installed by CONTRACTOR at SITE in connection with the NFPS Project as further described in Exhibit 6.

fabricated,

MILESTONE

A reference event splitting a PROJECT activity for progress measurement purpose.

PROJECT

NFPS Offshore Compression Complexes Project COMP 2

SITE

(i) any area where Engineering, Procurement, Fabrication of the FACILITIES related to the CP6S and CP7S Compression Complexes are being carried out and (ii) the area offshore required for installation of the FACILITIES in the State of Qatar.

SUBCONTRACT

Contract signed by SUBCONTRACTOR and CONTRACTOR for the performance of a certain portion of the WORK within the Project.

SUBCONTRACTOR

Any organization selected and awarded by CONTRACTOR to supply a certain Project materials or equipment or whom a part of the WORK has been Subcontracted.

WORK

Scope of Work defined in the CONTRACT.

WORK PACKAGE

The lowest manageable and convenient level in each WBS subdivision.

VENDOR

The person, group, or organization responsible for the design, manufacture, the Equipment/Material.

load-out/shipping

testing,

and

of

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NFPS Offshore Compression Complexes Project COMP2 SPECIFICATION FOR ELECTRICAL PACKAGED EQUIPMENT FOR CP6S AND CP7S COMPLEXES

2.2 Abbreviations

Code

Definition

AC

API

ATEX

ANSI

AWL

BoD

BOM

COMP2

DC

DCS

EDCP

ELICS

EMC

EPC

EQDB

GRP

HVAC

IEC

IP

ITP

LCS

LED

Alternating Current

American Petroleum Institute

Atmospheres Explosive

American National Standards Institute

Aviation Warning Light

Basis of Design

Bill of material

Compression Complex CP6S and CP7S and MICC Installation at Onshore Collaborative Center (OCC)

Direct Current

Distributed Control System (process control part)

Electrical Distribution Control Panel

Electrical Integrated Control System

Electromagnetic Compatibility

Engineering Procurement Construction

Equipment Database

Glass Reinforced Polyester

Heating Ventilation and Air Conditioning

International Electrotechnical Commission

Ingress Protection

Inspection and Test Plan

Local Control Station

Light Emitting Diode

LOTO

Lock Out Tag Out

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LV

MCT

MV

NEC

NFPS

OCC

PB

PE

PLC

QG-S

RGE

SPL

TCP

UPS

VSDS

Low voltage

Multi cable transit system

Medium Voltage

National Electrical Code

North Field Production Sustainability

Onshore Collaborative Center

Push Button

Protective Earthing

Programmable Logic Controller

Qatargas South

RasGas Expansion

Spare part list

Thyristor Controlled Panel

Uninterruptible Power Supply

Variable Speed Drive system

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3 REFERENCE, RULES, CODES AND STANDARDS

The following codes, standards and specification are referenced within the document and shall be considered as part of this specification. Conflict among applicable specification and / or codes shall be brought to the attention of the COMPANY for resolution. COMPANY decision shall be final and shall be implemented. The latest editions of codes and specification effective as on date of contract shall be followed.

In general, the order of precedence shall be followed:

a) Qatari Governmental and Regulatory Requirements

b) COMPANY Procedures, Policies and Standards

c) Project Specifications

d) Industry Codes and Standards

e) COMPANY and CONTRACTOR’S lessons learned

If CONTRACTOR / VENDOR deems any deviations from the specifications will result in significant project cost and schedule saving, proposal to such deviations shall be submitted to COMPANY for review and approval. CONTRACTOR / VENDOR shall not proceed with any deviation to the Specifications without prior COMPANY approval.

3.1 Company Documents

S. No

Document Number

Title

ONS-OTS-MNT-03

PRJ-PJL-PRC-004

Spare Parts and Material Identification, Procurement, Delivery, Receipt and Payment-OTS-OED Support Projects Procedure

Facilities Engineering and Vendor Document Numbering Procedure

PRJ-PJL-PRC-006

Project Information Handover Procedure

PRJ-PJL-PRC-007

Smart Plant Engineering Applications and Drafting (CAD) Standard Procedure.

PRJ-PJL-PRC-005

Facilities System and Unit Number Codes and Descriptions

PRJ-PJL-PRC-048

Facilities Documentation Metadata Requirements

PRJ-PJL-PRC-049

Project Information Handover, Verification and Acceptance Procedure

INF-ISG-POL-001

Information Classification Policy

IM-VDR-T001

Template for Vendor Document numbering

PRJ-PJL-PRC-008

Qatargas Equipment Numbering Philosophy Procedure

TCH-000-PRC-005-F01

TCH-000-PRC-005-F02

ICS Security Engineering Switch and Router Hardening Checklist (Typical)

ICS Security Engineering Firewall Hardening Checklist (Typical)

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INF-ISG-PRC-007

TCH-AIG-PRC-044

ICS Security Engineering Workstation Hardening Checklist (Typical)

Industrial Control System Security Engineering Specification Procedure

TCH-000-POL-001

Industrial Control System Security Engineering Policy

Qatar National Information Assurance: National Industrial Control System Security Standard

3.2 Project Documents

S. No

Document Number

Title

LTC/C/NFP/5128/20

Contract Agreement

EXHIBIT 5

EXHIBIT 6

200-20-EL-DEC-00001

200-20-EL-DEC-00006

200-20-EL-SPC-00005

200-20-EL-SPC-00006

200-20-EL-SPC-00007

200-20-EL-SPC-00012

200-20-EL-SPC-00013

200-20-EL-SPC-00014

200-20-EL-SPC-00015

200-20-EL-SPC-00016

200-51-IN-SPC-00021

200-20-SH-DEC-00007

200-20-CE-SPC-00015

[HOLD]

Project Instructions

Scope of Work

Electrical Design Basis for CP6S and CP7S Complexes Lighting Design Philosophy for CP6S and CP7S Complexes Specification for AC UPS for CP6S and CP7S Complexes Specification for DC UPS for CP6S and CP7S Complexes Specification for Navigational Aids System for CP6S and CP7S Complexes Specification for Cable Ladder and Tray for CP6S and CP7S Complexes Specification for Electrical Cable for CP6S and CP7S Complexes Specification for Low Voltage (LV) And Medium Voltage (MV) Motor for CP6S and CP7S Complexes Specification for Low Voltage (LV) And Medium Voltage (MV) Variable Speed Drive System for CP6S and CP7S Complexes Specification for Low Voltage Distribution Board for CP6S and CP7S Complexes Instrument Specification Equipment for CP6S and CP7S Complexes Noise and Vibration Design Philosophy for CP6S and CP7S Complexes Painting Specification for CP6S and CP7S Complexes Topside Typical Medium Voltage Switchgear Single Line Diagram

Packaged

for

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[HOLD]

[HOLD]

[HOLD]

[HOLD]

200-20-EL-SPC-00011

200-20-ME-DEC-00003

200-20-SH-SPC-00011

[HOLD]

200-20-CE-DEC-00003

200-20-PR-DEC-00026

200-51-IN-DEC-00021

200-51-IN-SPC-00023

Typical Low Voltage Switchgear Single Line Diagram

Typical Medium Voltage Schematic Diagram

Typical Low Voltage Schematic Diagram

Typical Earthing Block Diagram

Specification for Power Transformer and Earthing Transformer for CP6S and CP7S Complexes Material Handling Philosophy for CP6S and CP7S Complexes HFE Workplace Design Specification for CP6S and CP7S Complexes Equipment Criticality Assessment Workshop Report Material Selection Philosophy for CP6S and CP7S Complexes Sparing Philosophy Complexes Electrical and Instrument Interface Philosophy for CP6S and CP7S Complexes Specification Protection, for Machinery Condition and Performance Monitoring System for CP6S and CP7S Complexes

for CP6S and CP7S

200-23-ME-SPC-00001

Specification for Export Gas Compressor

3.3 Contractor Documents

S. No

Document Number

Title

1

Not applicable

Not applicable

3.4

International Codes and Standards

S. No

Document Number

Title

IEC 60034

Rotating electrical machines- All Parts

IEC 60038

Standard voltages

IEC 60072

IEC 60079

Dimensions and Output Series for Rotating Electrical Machines Electrical apparatus for explosive gas atmospheres- All Parts

IEC 60228

Conductors of Insulated Cables

IEC 60331-21

Tests for Electric Cables under Fire Conditions - Circuit Integrity - Part 21: Procedures and

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IEC 60332-3

IEC 60364

Requirements - Cables of Rated Voltage up to and Including 0,6/1,0 kV Tests on electric and optical fibre cables under fire conditions – Part 3: Test for vertical flame spread of vertically-mounted bunched wires or cables Low-voltage electrical installations – Part 1: Fundamental principles, assessment of general characteristics

IEC 60529

Degrees of Protection Provided by Enclosures

IEC 60947-4-1

Low-voltage switchgear and controlgear – Part 4-1: Contactors and motor-starters – Electromechanical contactors and motor-starters

IEC 61000

Electromagnetic compatibility (EMC)

IEC 61537

IEC 61892

Cable management – Cable tray systems and cable ladder systems Mobile and fixed offshore units – Electrical installations – Part 1: General requirements and conditions

IEC 61914

Cable cleats for electrical installations

IEC 62262

ANSI

Degrees of Protection Provided by Enclosures for Electrical Equipment Against External Mechanical Impacts (IK Code) Electrical Rigid Metal Conduit – Aluminum (ERMC- A)

NEMA FG 1

Fiberglass Cable Tray System

NEMA VE 1

Metal Cable Tray Systems

NEMA VE 2

Cable Tray Installation Guidelines

NFPA 70

National Electrical Code

UL 360

UL Standard for Safety – Liquid – Tight Flexible Metal Conduit

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NFPS Offshore Compression Complexes Project COMP2 SPECIFICATION FOR ELECTRICAL PACKAGED EQUIPMENT FOR CP6S AND CP7S COMPLEXES

4 PURPOSE

The purpose of this document is to define the minimum requirements for the design, materials, fabrication, inspection & testing and documentation for Electrical equipment on Packaged units supplied by equipment VENDORS as part of packaged units for NFPS COMP2 project.

This specification shall be read in conjunction with the electrical data sheets and the equipment supplied shall be capable of meeting all the requirements stated therein. This specification is complementary to the Data Sheets for the individual items of equipment. Compliance by the VENDOR, with the provisions of this specification does not relieve him of his responsibility to furnish the equipment and accessories of a proper design to meet the specified service conditions, Local Codes and Agreements, Statutory Legislation and Health and Safety requirements.

This Specification and referred specifications and standards shall be applicable, in general for offshore compression facilities.

For GTC Package, the design requirement as per Specification for Export Gas Compressor are applicable [46].

5 SCOPE

The specification shall cover the complete supply of the equipment and auxiliary systems design, engineering, materials, fabrication, assembly, coordination, weight control, inspection, testing, certification, surface preparation and painting, documentation, export packing, corrosion protection and delivery in full compliance with the requirements of this specification.

This specification shall be read in conjunction with the appropriate electrical, mechanical, equipment and instrument specifications for the main equipment.

This Specification does not dictate the detailed design of the equipment or assembly of components. It is intended that those responsibilities be retained fully by the VENDOR so that all equipment warranties remain unmitigated. This Specification includes tagging and packing for the preparation for overseas shipment of all equipment furnished. The specification shall be applicable as part of the Request for Quotation/ Material Requisition/ Technical Requisition Package and form part of the Purchase Order.

6 SITE SERVICE CONDITIONS

6.1 Design Life

The design life of electrical equipment shall be a minimum of thirty (30) years.

6.2 Environment

All electrical equipment shall be suitable for offshore installation, in a marine environment. Equipment shall be fully tropicalized.

6.2.1 Offshore Ambient Conditions

The following offshore metrological data shall be used:

• Ambient Temperature

• Expected maximum daily average

36 °C

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• Expected maximum daily

• Expected minimum daily

• Expected yearly maximum temperature

• Expected yearly minimum temperature

• Air cooler design

• Gas Turbine design

• Black Bulb Temperature (includes flare and solar radiation)

• Design temperature for electrical equipment outdoor installed

operating at ambient conditions

• Relative Humidity

• Minimum

• Average

• Maximum

• Atmospheric Pressure

• Minimum

• Maximum

• Rainfall

• Once in 2 years minimum

• Once in 10 years minimum

• Once in 50 years minimum

41.1 °C

12.7 °C

45.6 °C

8.3 °C

45.6 °C

42 °C

84 °C

49 °C

37 %

71 %

100 %

998 mbar

1020 mbar

12 mm/h

27 mm/h

41 mm/h

Note: Equipment exposed to sunlight shall be designed for black bulb temperature or shall be furnished with a sunshade / canopy by package VENDOR.

6.2.2 Design Ambient Conditions

All electrical equipment shall be capable of continuous operation under the service conditions specified in Table 6-1.

Table 6-1 : Design Ambient Conditions

Minimum design ambient temperature

Maximum design ambient temperature for all electrical equipment (outdoor)

Maximum design ambient temperature for all electrical equipment (indoor)

Relative Humidity

Design temperature for Electrical Cable

Offshore +8.3 ºC

+49 ºC

+45 ºC

37 to 100 %

• Aboveground installation

+49 ºC

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The indoor main electrical equipment shall be installed in the electrical room. This room shall be air- conditioned but in the unlikely event of HVAC failure, the equipment shall continue to function as long as equipment temperature does not exceed the design temperature and duration to be determined based on HVAC calculation and minimum operation duration required.

For all equipment exposed to direct solar radiation, especially during summer, equipment surface temperature can reach to 84°C due to radiation and equipment design shall take into consideration of this aspect to maintain temperature below this value, e.g. equipment provided with either canopy or sunshade type covering.

Where outdoor equipment / installation subject to direct solar radiation or flare radiation, the installation shall be provided with sunshade accordingly.

All electrical equipment selected for outdoor installation exposed to field ambient conditions shall be suitable for installation and operation in sulphurous corrosive marine conditions with sand and dust storms as encountered on an offshore production platform.

6.3

Ingress Protection

The minimum enclosure degrees of ingress protection, in accordance with IEC 60529, taking into account the environmental conditions mentioned above, the following ingress protection shall be considered as a minimum are shown below. With enclosures open, all live parts shall be protected (e.g., shrouded / protective barrier, etc.) and shall provide a minimum degree of ingress protection to IP20.

Table 6-2 : Ingress Protection

Equipment Type

Dry type transformer / Neutral Earthing Transformer

Ingress Protection IP32

MV Switchgear

LV Switchgear

LV Motor Control Center

Indoor

LV Distribution Board

LV Control Panel AC UPS / DC UPS / BC, ELICS Panel, Thyristor Control Panels, VSD, Package UCPs, Soft Starter

Indoor Junction Box

Transformer / Neutral Earthing Transformer

Electric Motor

Motor Terminal Box / Heater Terminal Box

Motor Local Control Station

Outdoor

Control Panel and Distribution Board

Lighting Fixtures

Socket Outlet / Plug

Junction Box

Subsea Cable Splitter Box

IP42

IP42

IP42

IP42

IP42

IP42

IP42

IP 56

IP 56

IP 56

IP 56

IP 56

IP 66

IP 66

IP 66

IP 66

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Power Box

Fibre Optic Box

IP 66

IP 66

The requirements of IP Ratings to protect against temporary or permanent submersion of equipment shall be as below per IEC 60529:

a) Submerged at least IP 68.

b) Where electrical equipment located in area especially area (for example sump deck) that can be affected by green water, IP67 protection shall be specified and/or the installation shall be done to minimize / avoid the effect of being submerged by green water. For cable routing in such exposed areas, consideration to be given for covered ladders/trays to protect cables from direct impact due to waves.

Attention shall be paid to the IP classification of equipment and proximity to deluge nozzles etc. If any equipment having an IP rating of IP 56 or less and is located close to a deluge sprinkler nozzle, where deluge water can strike the enclosure with more force than that created by gravity, then additional ingress protection shall be provided in form of external canopy mounted / installed on top of equipment. Such location shall be identified during detailed design phase.

All enclosures installed outdoors shall be provided with drain/breather arrangements. Suitable drain at low point and breather at high point shall be provided on every outdoor power junction box.

6.4 Area Classification

Electrical equipment installed in indoor areas (exception of battery room) shall be of standard industrial type. However, shall be suitable for offshore marine environment.

To cater for the possibility of reclassification of areas and for the purpose spares inter-changeability, all outdoor equipment shall be Zone 2 rated as a minimum even if they are located in non-hazardous area. All electrical equipment located in hazardous area shall be suitable for Zone 2, gas group IIB and temperature class T3 as minimum. Classification of electrical equipment located at external area required to function during emergency condition shall be rated to Zone 1, gas group IIB, temperature class T3. This requirement is not applicable for indoor electrical equipment such as emergency switchgear and distribution boards.

All electrical equipment including cabling installed within Hazardous Areas shall comply with the IEC 60079 series of standards. This includes but is not limited to the design, selection, erection, cabling and inspection of equipment.

To demonstrate compliance an Ex verification dossier shall be provided in accordance with IEC 60079 including but not limited to an Ex equipment register, design calculations, design drawings, certification and initial detailed inspection reports.

Equipment located in classified areas shall be certified to IEC “Ex” scheme. Equipment having ATEX certification and equipment that complies with NEMA is acceptable subject to COMPANY approval.

All electrical equipment shall be referred to project Area Classification drawings as applicable.

Electrical equipment shall be selected in accordance with the Project Specifications

a) Type of protection appropriate for the zone classification

b) Temperature classification of the equipment (t class) appropriate for the gas, vapour or dust

involved

c) Equipment subgroup appropriate for the gas, vapours or dust involved

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d) Equipment construction appropriate for the environmental conditions.

Electrical equipment installed within battery room shall be suitably classified for Zone 1, gas group IIC, temperature class T3 as a minimum.

All electrical bulk and lighting fixtures (including AWL and navigation aids) installed outdoors shall be suitable for minimum Zone 1, gas group IIB, temperature class T3 hazardous area. All lighting fixtures installed inside battery room shall be classified for Zone 1, gas group IIC, temperature class T3 area. All other indoor lighting fixtures shall be industrial type with exception of emergency and escape lighting.

Purged enclosures (Ex p) and pressurized enclosures may be provided only if approved by COMPANY. Purging shall be in accordance with the IEC regulations. Purged enclosures shall be manufactured of stainless steel material (type 316 or better) in accordance with IEC 60529 type, IP 56 (minimum). The pressurizing control system shall be certified.

6.5 Electrical Service Conditions

Electrical equipment and materials provided as part of Package Unit shall be suitable for the electrical system conditions specified below.

The system voltages shall be selected from IEC 60038.The electrical system frequency shall be 50 Hz as recommended in IEC 60038.

The voltage levels shall be selected for the electrical equipment as per below table:

Table 6-3 : Utilization Voltage

System Voltage

Application

11 kV, 3Phase, 3 wire

• Normal Power generation and distribution

• Power supply for motors > 150 kW (Note a)

• Normal power distribution

400V, 3Phase, 3 wire + PE

• Power supply for motor ≤ 150 kW (Note a)

• Welding socket

400V, 3Phase+N, 3 wire + N + PE

• Emergency power generation and distribution

400V, 3phase+N, 3 wire + N + PE

230V, 1phase+N, 2 wire + PE

• Lighting, convenient sockets and utility power

distribution and sub-distribution

230V,1phase+N, 2 wire + PE (from UPS)

• AC UPS supply for vital loads

110V DC (from UPS)

• Electrical control for switchgear

• Turbine Generator Control Panel and DC post lube

oil pump

DC UPS [Note b]

• Navigational Aids System

Based on Vendor design

Notes:

• Turbine Compressor Control Panel and DC post

lube oil pump

a) The maximum power demand mentioned in the above table shall be considered as recommended value only and shall not be considered as compulsory limits. The selection of LV

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or MV motors with ratings higher or lower than those limits may be considered when technically and economically justifiable depending on installation requirements (i.e., distance between switchboard and motor, starting conditions), the availability of suitable material (switchgear, MV fuse) or the load classification (normal, essential or emergency). The selection of LV or MV motors with rating higher or lower than the limits specified in above table shall be approved by COMPANY.

b) Voltages supplied from UPS equipment furnished as part of packaged equipment items, e.g., marine navigational aids, etc., can be in accordance with the Vendor’s standard for the equipment.

c) Brownfield design of existing offshore electrical equipment and system shall be designed for operation at the utilization voltage as per existing facilities design voltage, unless agreed with COMPANY otherwise.

All electrical equipment shall be rated for a steady state voltage variation of ± 10% and system frequency variation of ± 5%. Under normal steady state conditions, the system voltage and frequency variations shall be within ± 5% and ± 2% respectively.

System earthing for individual system shall be as follow:

Table 6-4 : System Earthing

Sub-System

Earthing principle

11kV MV system

400V LV system

Earthing via Earthing Transformer (IT system with high impedance)

Solidly earthed (TN-S system)

400/230V lighting and utility power systems*

Solidly earthed (TN-S system) / HRG (IT system)

AC UPS system*

DC UPS systems

Unearthed (IT system)

Positive (+) & Negative (-) (Floating system)

• Refer Table 6-3 for circuit phasing and earthing

6.6 Seismic Load

Seismic design shall be carried out as per API RP 2A-WSD. Seismic Zone shall be as defined in the “Greenfield Topsides Structural Design Basis”.

6.7 Noise Level

The noise level shall be in accordance with “Noise and Vibration Design Philosophy for CP6S and CP7S Complexes ” [31].

6.8 Obsolescence Management

VENDOR shall submit an obsolescence plan for technologies used as part of the Services.

The obsolescence shall be managed as per IEC 62402.

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All technologies shall be supported by the VENDOR for a minimum of 15 years from the placement of order or 10 years from end of warranty, whichever period ends last. These technologies include system hardware, firmware, and software with spare parts and services. This support shall not be contingent on the customer upgrading to later releases of software or hardware unless this upgrade is supplied at no additional cost.

System software upgrades to the latest revisions shall be provided for a period of up to 5-years from date of commissioning, at no additional cost.

As contracts will be awarded in stages, the obsolescence for backward compatibility to hardware and software shall be at least 10 years. Bid proposal shall cover this requirement explicitly.

6.9 Operational Safety and Reliability

The design of electrical systems and equipment shall ensure that all operating and maintenance activities can be performed safely and conveniently. Safe conditions shall be ensured under all operating conditions, including those associated with start-up and shutdown of plant and equipment and throughout the intervening shutdown periods.

The selection of electrical equipment shall be governed by fitness for purpose, safety, reliability, maintainability, availability of spares and service, compatibility with specified future technical options, design margins, suitability for environment, economic considerations and past service history.

6.10 Standardization of Equipment and Materials

For ease of maintenance and to limit the spare parts inventory, it is intended that as far as is practical, each class of electrical equipment shall be of the same type and supplied by the same Manufacturer wherever it is used in the plant.

Spare parts interchangeability shall be considered when selecting materials and equipment. Standardization of materials and equipment shall be aimed for and compatible with standard design. Electrical equipment which will become obsolete in the near future shall not be installed.

6.11 Maintainability and Accessibility

Electrical facilities shall be designed, constructed and installed so that components of the facilities are accessible without temporary access platform for maintenance and capable of being repaired and replaced.

Access for maintenance shall ensure that work on equipment can be performed safely without the need to work on or adjacent to live exposures.

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7 GENERAL

1. The package SUPPLIER shall be responsible for engineering and detailed design for all electrical

equipment required for the operation of the package.

2. This specification indicates the electrical requirement for the equipment within the boundaries of

package unit. The scope of supply shall include but not limited to the following:

i) Electrical equipment such as electric motors, heaters, etc.,

ii) Variable Speed Drive System (VSDS) (if required)

iii) Thyristor Controlled Heater (TCP) (if required)

iv) Motor soft starter (if required)

v) Electrical Distribution Control Panel (EDCP) for on-skid equipment (if required)

vi) On skid trace heating (if required)

vii) On skid cabling, including interconnecting cabling for package units consisting of more than one

skid

viii) Cable ladder/tray with cover for all cabling within the skid

ix) On skid cable support and MCTs

x) On skid lighting for sight glasses, instrument read out, etc. (if required)

xi) Junction boxes at skid edge, for field connection by VENDOR (except motors)

xii) Cable gland and adaptors for terminations of VENDOR cable only.

xiii) On skid earthing system (safety and continuity)

xiv) Earth bosses (diagonally installed) for skid earthing to structure

xv) Type test certificate for all equipment installed in hazardous area

xvi) Support for Local Control Station (if required)

xvii) Inspection and Testing

xviii) Start-up and commissioning spare parts

xix) Special tools (if any)

3. All electrical equipment shall be designed to accept frequency 50 Hz ± 5% and voltage fluctuation

of ± 10%.

4. When specified, the VENDOR shall provide technically trained personnel to assist in field testing

and start-up of the package.

CONTRACTOR shall furnish the following equipment and services, except where specifically stated that these items are to be furnished by the VENDOR:

a) Electric power supply to the skid mounted unit.

b) Motor controller(s) and all required protection functions shall be part of relevant MV / LV

Switchgear for loads with direct power supply from MV/LV Switchgear.

c) Wiring between the VENDOR’s equipment installed outside the package skid and the electric

power supply.

d) Connection of VENDOR skid to the platform earthing system. The VENDOR shall provide

suitable earthing connectors on the skid, as detailed in Section 9.8.

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e) Area lighting by CONTRACTOR, however equipment skid lighting (inside of enclosure or container supplied by Package SUPPLIER, or when Package is in modules, notably if they are stacked on each other, etc) shall be furnished by the VENDOR as required by this guide. For requirement on lighting, refer to Section 9.9.

5. The VENDOR shall supply all material, equipment, interconnection wiring, terminations, labour, and

services required for a complete and operational system.

6. Electrical equipment, control stations, junction boxes, and fittings shall not be obstructed by installed

equipment and shall be installed so as to be accessible for maintenance.

7. Isolation shall be provided where metallic enclosures are mounted on steel support to inhibit

galvanic isolation.

8. Clearances in front of the electrical equipment shall comply with IEC 60364 and IEC 61892 requirements. There are specific clearances required for EEx d equipment under IEC Ex rules as specified in IEC 60079-14.

9. VENDOR shall coordinate equipment and material purchases with SUB-SUPPLIERs and CONTRACTOR to ensure compatibility of equipment and uniformity of manufacturers and components.

8 DESIGN / INTERFACES

1. Electrical equipment installed on skid shall be in accordance with classification requirements established for the assembly. The equipment requirements shall not be less stringent than that for the classification specified.

2. For outdoor location, where the area classification is identified as “unclassified”, all electrical equipment shall be suitable for minimum Zone 2, Group IIB, temperature class T3 requirements. Classification of electrical equipment located at external area required to function during emergency condition shall be rated to Zone 1, gas group IIB, temperature class T3. This requirement is not applicable for indoor electrical equipment such as emergency switchgear and distribution boards. All motors located outdoor shall be certified as a minimum for Zone 2, gas group IIB, temperature class T3 rating corresponds with the required zoning. Equipment exposed to sunlight shall be furnished with a sunshade / canopy.

3. Electrical equipment in battery room shall be certified for Zone 1, gas group IIC and temperature

class T3.

4. For other electrical items, the area classification shall be followed as per respective sections in this

specification, described further.

5. The location classification shall be determined using the guidelines and requirements of IEC 60079. Project area classification drawings shall be used for the design, fabrication, inspection, installation and testing of the electrical equipment, apparatus and materials supplied by the VENDOR.

6. VENDORS shall assume complete responsibility for furnishing equipment and providing wiring methods that meet all applicable requirements of the location classification and regulatory authorities. If the assemblies to be supplied handle flammable liquids or vapours, any relief valves or other sources discharging to atmosphere or to an open drain system, these shall be identified by the VENDOR and used for the preparation or revision of an overall area classification plan by the others.

7. The installation of electrical equipment, control devices, junction boxes, and fittings shall be suitable

for the area classification.

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8. System voltages available on the platform are as detailed in as per Table 6-3 “.

Any other voltage required (control circuit, safety control voltage, etc.) shall be built in the package.

9. Electrical power distribution of the package equipment design shall comply to section 6.5 and referred specifications. The power distribution shall not cause disturbance to the Electrical system like voltage drop, wave disturbance/harmonics, over voltage.

10. VENDOR shall provide an electrical load list for VENDOR package, complete with voltage, number of phases, frequency, number of wires, power type (non-UPS or UPS) information, together with VENDOR bids / proposals. VENDOR shall self-derive other voltage (example: 48 VDC, 24 VDC etc) if required by VENDOR package. UPS battery autonomy requirement for package equipment shall be as per package vendor requirement. VENDOR shall provide details for protection device type / setting which are mounted inside the skid.

11. For interfacing with other systems, the following shall apply:

a) All cable tray for electrical devices requiring external connections shall be extended to the edge of the equipment assembly. Wiring shall be functionally grouped and routed to terminal boxes located at the assembly perimeter. Empty cable tray shall be routed to pull boxes at the assembly perimeter for future connection. Empty cable tray shall be provided and routed from assembly perimeter to the motor terminal box.

b) The proposed location of all terminals and pull boxes shall be coordinated with CONTRACTOR

to ensure proper alignment with external connections.

c) Overcurrent protection for feeder circuits originating off the assembly shall be provided by

CONTRACTOR.

12. Any electrical switching components inside Ex ‘e’ type enclosure shall be Ex ’d’ certified.

13. Control and alarm circuits shall be designed to be fail-safe. In an energized circuit, component failure, open circuited conductor, or short circuit shall shut down running equipment, initiate alarms, and prevent machinery start up.

14. All live parts and bus bars or equipment and components located within the enclosure shall be protected by barriers or shrouds to prevent inadvertent contact or short circuit by personnel when performing control circuit adjustments or when resetting/replacing protective devices, etc. Degree of protection shall be at least IP 20.

15. Control panels shall be fitted with anti-condensation heaters. Where these are less than 2 kW, they shall be controlled by a series thermostat and be suitable for operation from single-phase mains supply. In addition, isolation facilities shall be provided.

16. VSD shall be provided with serial communication link with ELICS and DCS. Alternatively, if the dual communication port not available in VSD, then required signals shall be hardwired to ELICS. For packaged VSD controlled from UCP, VSD shall have direct link with UCP.

17. Electrical power and control interface shall be as shown on Typical MV/LV Single Line diagram [33]

and Typical MV/LV Schematic Diagram [35][36].

18. The performance of the equipment shall not be affected by Harmonic Voltage THD up to 10% and each individual harmonic distortion within the limits of Class 3, table 3 and 4 of IEC 61000-2-4.

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9 FABRICATION AND ELECTRICAL EQUIPMENT

9.1 Cable Tray

1. Cable tray shall conform to the requirements of “Specification for Cable Ladder and Tray for CP6S

and CP7S Complexes ” [25].

9.2 Conduit

1. Conduit system usage is acceptable with COMPANY approval only.

2. Only rigid, aluminum copper-free conduit shall be used and shall comply with ANSI C80.5.

3. The minimum conduit size shall be 3/4 inch.

4. Liquid tight flexible metal conduit shall comply with UL 360.

5. Conduit shall confirm to the requirements of “Specification for Cable Ladder and Tray for CP6S and

CP7S Complexes ” [25].

9.3 Cable and Wire

1. Flame retardant cable, conductor, insulation, armour and outer sheath shall in accordance with

“Specification for Electrical Cable for CP6S and CP7S Complexes ” [26].

2. IEC type cable is preferred; however, NEC type cable can be considered case by case basis, upon

COMPANY approval.

3. In general, all power cable shall be routed on-skid using armoured cable installed in ladder or tray,

suitably terminated via certified cable glands.

4. Specialized cable shall require COMPANY / CONTRACTOR approval, such as cable for high-

temperature applications.

5. All single core panel wiring shall be low smoke, halogen-free construction.

6. All conductors shall be identified at each end by a number corresponding to those of wiring

diagrams.

7. Fire resistant cable shall be in accordance with “Specification for Electrical Cable for CP6S and CP7S Complexes ” [26], for use in critical systems such as VENDOR provided fire system, communication and alarm systems.

8. Conductors for control panel and switchboard wiring shall be in accordance with IEC 60228 Class

5 and Class 6 respectively.

9. Conductors of different power systems shall be separated in accordance with the requirements of

“Specification for Cable Ladder and Tray for CP6S and CP7S Complexes ” [25].

10. Each cable shall be identified with permanent cable markers (embossed Stainless steel for outdoor, plastic type acceptable for indoor). Wiring and terminals shall be numbered as shown on drawings. Each conductor shall be separately terminated and shall have ferrules at both ends. These ferrules shall be of engraved plastic slip on, interlocked and self-grip type, etc. All the termination shall be done through proper glanding and suitable ferrules shall be provided for all the wires.

11. Instrumentation and Telecom wiring shall not occupy the same junction box, conduits or cable trays as conductors of lighting, power, alarms circuits. Instrumentation and communications wiring shall be installed in separate enclosures, conduits or cable trays.

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9.4 Motor

1. Electric motors shall conform to the requirements of “Specification for Low Voltage (LV) And Medium

Voltage (MV) Motor for CP6S and CP7S Complexes ” [27].

2. The package Supplier shall be responsible for the rating and the functional characteristics to match

the driven unit.

3. Electric motors shall be designed and constructed in accordance with the latest requirements of IEC 60034 and suitable for operation at MV and LV, 3 phases. Motor shall generally be delivered as part of the pre-engineered package, i.e., mounted on the same skid or base plate as the driven equipment.

4. All motors located outdoor shall be certified as minimum for Zone 2, gas group IIB, temperature

class T3.

5. All motors shall be of squirrel cage, totally enclosed fan cooled (TEFC) induction type, continuously operate at rated for duty service S1, and generally suitable for direct-on-line starting where possible.

6. Motors shall be provided with insulated rated Class F with a Class B temperature rise.

7. Motor space heater and monitoring devices i.e. RTDs requirements shall be in accordance with “Specification for Low Voltage (LV) And Medium Voltage (MV) Motor for CP6S and CP7S Complexes ” [27].

9.5 Local Control Station (LCS)

Local Control Station shall conform to the following:

1. Unless specified otherwise or process requirement, all motors shall be provided with a Local Control

Station mounted locally to the motor.

2. Local Control Station shall with Start push button + Stop Push button + Selector switch for Local /

Remote + Emergency stop Push Button.

3. START Push Button shall be black or gray colour.

4. STOP Push Button shall be red, lockable in the STOP position.

5. Emergency Stop Push Button shall be red, lockable, mushroom-head pushbutton lockable in the

STOP position.

6. It shall be ensured that when power to the motor is interrupted, any selector switch in the LOCAL

position will not automatically restart the motor once power returns.

7. All selector switches shall be provided with LOCAL and REMOTE contacts. Remote contact shall be used in the motor control circuit, and also in series with STOP Push button contact shall be used in the motor control circuit. Local contact in series with START push button contact shall be used in motor control circuit. The control power for this function should come from the controller.

8. All control wires, such as START/STOP/Selector/emergency PB or input/output, from a PLC or a DCS shall be wired to the motor controller. Control wires from UCP/PLC and DCS shall be wired to Switchgear/MCC through Interposing relay panel (IRP) located in Electrical room.

9. LCSs shall be heavy duty type and shall be certified for Zone 1, IIB, T3 in accordance with IEC

11. Control stations shall be installed on mild steel structural supports adjacent to the equipment and

readily accessible.

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11. LCS shall be mounted on the opposite side of the motor junction box. (When LV motor junction box is oriented on top of motor, local control station location shall be positioned to limit exposure).

12. Enclosure IP rating, protection and material shall comply with Table 9-1 as a minimum.

13. Ex (as per Table 9-1) control stations shall be constructed of Glass Reinforced Polyester Material, Carbon black impregnated. However, LCS enclosure with 316 stainless steel material is acceptable subject to COMPANY approval.

14. LCS shall be selected as per COMPANY’s Approved Vendor List (AVL).

Table 9-1 : Motor Control Station Enclosures and Components

Location / Classification

Ingress Protection (IP Rating) (Minimum protection)

Component Type of Protection (Minimum Protection)

Enclosure Material

Indoor, Non-hazardous

IP42

EEx e, IIB, T3

Indoor, Zone 1 or Zone 2

IP 55 as a minimum

Outdoor, Non-hazardous, Zone 1 or Zone 2

IP 56 as a minimum

EEx ia, IIB, T3 EEx ib, IIB, T3 EEx d, IIB, T3 EEx de, IIB, T3 EEx m, IIB, T3

EEx ia, IIB, T3 EEx ib, IIB, T3 EEx d, IIB, T3 EEx de, IIB, T3 EEx m, IIB, T3

GRP or 316 stainless steel

GRP or 316 stainless steel

GRP or 316 stainless steel

Notes:

1. Hazardous gas at the location and equipment functionality during emergency condition shall

determine enclosure temperature and / or gas group.

2. Impact rating (IK code) in accordance with IEC 62262 shall be followed.

3. LCS installed in hazardous areas shall be certified accordance with IEC Ex certification schemes

for the applicable hazardous area classification.

9.6 Cable Gland

For offshore marine environment installation, cables shall be terminated into enclosures using mechanical compression type cable glands, either Nickel plated Brass or stainless steel 316L (metallic enclosures or armoured cables), or polyamide (Polyester enclosures and non-armoured cables). Aluminum alloy cable glands are prohibited.

Spare and unused entries shall be properly plugged or sealed with hazardous certified plug as required.

In general, cable glands shall be of the mechanical compression type and shall include integral facilities for securing and bonding the armouring of the cable.

Cable glands of armoured cables shall be of the double compression type complete with inner and outer seals. Glands for armoured cables shall have secure armour clamping which shall be fully inspectable without removing the gland from equipment or disturbing the terminations.

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The gland Manufacturer shall provide the guaranteed inner and outer sheath diameter fit for the cables, for each type and size of gland offered.

Cable glands shall be complete with serrated washer, sealing washer, earth tag and locknut.

The cable glands shall have ISO metric threads.

Top entry of conduits or cables into enclosure is not allowed to avoid drainage and leakage problems. Bottom entry of conduits and cables is preferred; side entry is acceptable only with prior COMPANY approval. Junction boxes and control panels shall be sized to accommodate all bottom entry of all cabling, including connections by others. Side entry will be considered only if bottom entry is impractical, and the conduit is equipped with a drain at the low point of the vertical run.

9.6.1 Multi-Cable Transit (MCT)

Multi-Cable Transit may be used for package enclosure entries and shall be supplied by the Package Supplier.

MCT frames shall be Mild steel suitable for offshore application. For single core cables, where each phase is not covered by individual frame, the MCT frame shall be made stainless steel (non- magnetic material). MCT sizes and frame configurations (including whether non-flange type for welded installation or flange type for bolt-on installation). MCTs shall be certified for use in hazardous area if cabin is installed in hazardous area.

MCT shall be complete with all accessories to make a complete MCT system, e.g., stainless-steel stay plates, insert modules, packing unit (wedge), etc. Lubricant shall also be included for installation of insert modules. Insert modules shall come in two-halves and shall be selected for the cable outside diameter.

9.6.2 Cabling

1. Cable gland installed outdoors shall be IP66 with metric threads. Glands for use in metallic and non- metallic enclosures shall utilize earth tags. VENDOR shall provide separate gland plates for the glanding of project cables. The gland plates shall be removable and undrilled. All certified enclosures shall be drilled by Manufacturer or supplied with removable certified gland plates complete with the information about number and size of threaded holes maintaining the IEC Ex certification. Drilled holes in certified apparatus shall be fitted with certified nickel-plated brass stopping plugs.

2. Outdoor cable glands shall be suitable for Zone 1, IIB, T3.

3. Cable glands shall be glanded directly on the sheet metal or gland plate.

9.7 Junction Box

1. Outdoor junction box shall be suitable for Zone 1, IIB, T3.

2. Junction boxes and enclosures shall comply with the Table 9-2 and be suitable for the environment in which they are installed. Enclosure material shall be 316 stainless steel for power junction box. Lighting junction box made by high impact resistant, flame retardant glass-reinforced black polyester with internal earth continuity plate.

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Table 9-2 : Junction Boxes, Enclosures and Components Type and Material

Location / Classification

Indoor, Non-hazardous, Environmentally Controlled, Pressured Building

Ingress Protection (IP Rating) (Minimum protection)

Component Type of Protection (Minimum Protection)

IP42

Outdoor, Zone 1, Zone 2 and non-hazardous

IP66 as a minimum

EEx ia, IIB, T3 EEx ib, IIB, T3 EEx d, IIB, T3 EEx e, IIB, T3 EEx de, IIB, T3 EEx m, IIB, T3

Enclosure Material

316 Stainless Steel for power junction box and GRP for lighting junction box.

316 Stainless Steel for power junction box and GRP for lighting junction box.

Notes:

a) Hazardous gas at the location and equipment functionality during emergency condition shall

determine enclosure temperature and / or gas group.

b) Impact rating (IK code) in accordance with IEC 62262 shall be followed.

3. Enclosures containing electrical devices and/or terminals shall be adequately sized to allow for maintenance and replacement of entire components without disturbing adjacent devices. Enclosures shall have 100 mm minimum spacing around terminal blocks for ease in termination of conductors. Enclosures shall have sufficient space for routing and bending cables without crossing over interior terminals and devices. Additional requirements are as follows:

a) Enclosures shall conform to the requirements specified in IEC 60079, IEC 60529 and IEC EX,

as applicable.

b) EEx junction boxes shall have DIN rails for mounting of suitable terminals and hardware. Any certified enclosure/junction box shall be supplied with the certified number of terminals and penetrations permissible under its certificate. No hardware or additional terminals shall be added to VENDOR’s stipulations or by an uncertified person or persons.

c) Separate junction or terminal boxes shall be provided for power, control, and instrumentation circuit groups. Groups containing both AC and DC circuits shall also be terminated in separate junction or terminal boxes.

d) All outdoor junction boxes cable entry shall be from bottom except for lighting junction boxes

where side and/or bottom entries are acceptable.

e) Requirements for breathers and drains are as follows:

i) Breathers and drains to be installed on all certified explosion proof enclosures shall be

approved for such usage.

ii) All junction boxes and enclosures shall be supplied with breathers and drains.

iii) EEx e drain shall be installed via clearance opening.

f) Earthing bonding / earthing plate shall be provided for Junction box with GRP enclosure.

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4. FRP/GRP JB shall comply for Hazardous Area and Fire/Safety Requirements installation. All hardware and fixing clamps shall be stainless steel, grade 316L and marine environment rated. All hardware shall be stainless steel, grade 316L.

5. Intermediate junction boxes or cable splices are not permitted on power cabling unless approved in writing. In general, this is only permitted to connect regular power cable to motor cable e.g., submersible motor. All package skid interface junction boxes shall be at the skid edge external to any acoustic enclosure.

6. Junction boxes (except junction boxes for power distribution) shall include a minimum of 20% spare

terminals to allow later modification without invalidating the certification.

9.8 Earthing

1. Earthing and bonding shall be provided in accordance with IEC 61892 and Electrical Design Basis,

as applicable.

2. The following items shall be earthed to the skid frame:

a) Motor frames and generator frames.

b) Non-current-carrying metallic parts of electrical equipment and installations such as enclosures

for panel boards, control panels, control stations, and individual motor controllers.

c) Tanks, vessels, stacks, exchangers, and similar equipment not directly welded to an earthed

supporting structure.

d) Engine-driven rotating equipment

e) Metallic conduit, metallic armouring, metallic cable troughs, cable glands and metallic ladder / trays, if any, equipment racks, and busways. Flexible tinned copper bonding straps shall be provided around all metallic cable ladder / tray expansion joints, cable tray joints, and any hinged cable tray connections.

3. Each skid shall be provided with two copper-faced or 316L stainless steel earth pads, located on diagonally opposite corners, seal welded in the web of the skid main structural members. Each pad shall be drilled and tapped to accept a compression lug. As an alternative, tinned copper 316L stainless steel earthing bosses may be welded to the structure. The lugs provided shall be able to accommodate from 35 sq.mm to 95 sq.mm wire.

4. Bonding or earthing circuit protective conductors shall be single core, stranded copper, Class 2 or

Class 5, in accordance with IEC 60228. Insulation shall be yellow and green.

Minimum earthing conductor size of associated current carrying conductor within a cable shall not be less than the size required by Table 2 of IEC 61892-2 as tabulated in Table 9-3

Table 9-3 : Size of earth continuity Conductors

Cross-section Q of associated current carrying conductor mm2

Minimum cross section of earth conductor

Q ≤ 16 mm2

Q > 16 mm2

Q

50% of the current-carrying conductor, but not less than 16 mm2

5. For equipotential bonding conductor size shall in accordance with below table

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Table 9-4 : Equipotential Bonding Cable size

Intended use

Conductor Size

Main loop

Loop interconnection

Power transformer enclosure

Building and Pipe Rack Steel

Bus enclosure

Building earth bus

Control panel

Switchgear and MCC Earthing bus

Other Equipment such as support stands, junction box, cable gland, lighting enclosure, motor control station and other metallic equipment.

Metallic Cable Ladder and Tray

Equipment Skid

Pump and Motor

Tank, Columns and Tall Structure

70 mm2

70 mm2

70 mm2

35 mm2

70 mm2

70 mm2

35 mm2

As per fault current (Refer to Typical Earthing block Diagram[37])

Min 16 mm2

16 mm2

70 mm2

35 mm2

70 mm2

6. Earth return conductors (of a power cable) shall be located within cable assemblies, run with

cable assemblies, or individual circuit conductors if single core power cables are used.

7. The overall lightning protection design shall meet requirements stated in IEC 62305.

9.9 Lighting and Receptacle

When required the package Supplier shall provide luminaires and receptacle.

On assemblies where equipment may obscure area lighting from providing adequate illumination for maintenance and safety, additional lighting shall be provided to ensure that walkways, control panels, and electrical equipment are illuminated. Lighting shall be installed to ensure that there is an adequate level of illumination for operators / maintenance personnel to safely access all areas. Lighting shall be categorized into the following:

• Normal lighting

• Essential lighting (minimum 30% of normal lighting)

• Emergency and Escape lighting

Essential lighting luminaries shall be installed at strategic locations including control rooms, switchgear room, instrument electrical room, living quarters and areas where required for essential services. Power supply to essential lighting shall be backed-up by emergency diesel generator.

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Part of the essential lighting shall be emergency lighting and escape lighting. The emergency and escape lighting to be located such as to illuminate the escape routes, ladders and walkways to allow safe movement of personnel to the muster points, lifeboats, etc.

Emergency and escape lighting shall be provided with self-contained batteries with autonomy of 90 minutes. The self-contained units shall be equipped with test provision and have an automatic switching device to light the unit when the normal lighting supply fails. Emergency lighting illumination levels shall have a minimum average value on the “seeing task” (surface requiring emergency lighting) of 22 lux (2 foot-candles).

Lighting fixtures shall be LED type.

Convenience receptacles, when specified shall be suitable for the location area classification. Outdoor lighting fixtures and receptacles shall be suitable for Zone 1, IIB, T3. Convenience receptacles shall be provided with switch or other mechanism/technology for safe connection and disconnection of the plug.

9.10 Transformer

Transformers for control supplies or lighting service shall be of dry type with encapsulated insulation and approved for area classification.

Transformers located offshore and outdoors shall have enclosure made of painted 316L stainless steel, meeting the hazardous area classification requirements. Power Transformer shall be in accordance with “Specification for Power Transformer and Earthing Transformer for CP6S and CP7S Complexes ” [38].

9.11 DC Battery Chargers and Batteries

When specified in the packaged unit project standard the package Supplier shall purchase the battery charger and batteries subject to COMPANY approval. They shall be in accordance with “Specification for DC UPS for CP6S and CP7S Complexes ” [23].

9.12 Heat Tracing

When specified, the heat tracing shall be within the package Supplier’s scope. It shall be in accordance with the following requirements, unless superseded by more stringent local regulations.

1. The trace heating systems shall be suitable for installation and operation for Zone-1, IIB and T3 requirement. The tape, when installed in hazardous areas, shall have a tinned copper overbraid as per IEC 60079-30-1 § 4.1 and an overall flame retardant outer sheath.

2. Unless specified otherwise, 400V, 3Ph+N+PE, TNS, 50Hz., supply shall be considered in the design for heat racing system as required. Further distribution to heat tracing circuit shall be with 230V, 1Ph+N supply. Design and supply of heat tracing power distribution shall be part of the CONTRACTOR scope.

3. In addition to the power panel described above, dedicated control panel for heat tracing controls, shall be designed and supplied by the VENDOR and it shall be located in safe area, electrical equipment room. Alternatively, VENDOR may also propose advance control system and components that would complies to all conventional control & monitoring system.

4. Electrical devices shall be rated for Type 2 coordination as per IEC 60947.

5. Anti-condensation heaters with humidity controller shall be provided in the field power/control

panels.

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6. The size, length, process / fluid and thermal insulation data of each pipe requiring trace heating shall be given in the P&I Diagrams, Piping General Arrangement and Piping Isometric drawings. Sufficient length shall be provided to allow for pipe expansion and contraction.

7. Electrical Heat Tracing (EHT) shall be used to maintain the minimum temperature of fluid contents in process piping subject to congealing, separation, excessive increases in viscosity, or forming water by condensation. In some cases, EHT may be required to be provided where product heat- up is required or if over-temperature can degrade a product.

8. The installed electric heat trace cable shall allow maintenance activities, including valve, pump and

instrument removal, without damage to the trace integrity.

9. Self-Regulating Polymer Cable type is preferred over the MI Element type. Further, VENDOR may also propose additional / alternative type of electrical heat tracing (if any) with technical justification, for CONTRACTOR / COMPANY approval.

10. Freeze protection tracing shall be turned on and off with an ambient sensor set at a temperature typically between 0 °C (32 °F) and 10 °C (50 °F). All tracer installations shall use controllers or thermostats; direct connection of tracers to circuit breakers is not permitted.

11. Circuits designed for Process Temperature Maintenance will use electronic-type controllers, as per the temperature range as may stipulated in the respective line list. The controllers will use RTD type temperature sensors. Alarms shall be initiated by the controller on low temperature. In instances where installing a controller is not practical, dual thermostats shall be allowed (with approval), one for control, one for alarm (however, thermostats should not generally initiate alarms).

12. For non-critical and small systems, heating control of low wattage circuits such as freeze protection may utilize contactors actuated by bulb-type thermostats when a wide temperature spread (delta) (up to 10 °C [18 °F] or greater) between power on and power off can be tolerated.

13. Control and monitoring systems shall be capable of communicating with platform DCS for status review, and alarm annunciation. The Control Systems shall include but not be limited to the following:

• The system shall be switched by an external solid-state relay with a minimum rating of 30

amps.

• The system shall be capable of assigning one or more RTDs to a circuit to monitor temperature. One RTD can be applied to control the heater circuit and a second RTD for another control point or to measure sheath temperature of a heater for high temperature cut- out.

• The system shall monitor temperature, voltage, and line current to the systems.

• The system shall monitor ground-fault current and offer the option of alarm only or alarm and

trip if the ground fault exceeds 30mA the selectable level.

9.13 Workmanship

1. Electrical equipment shall be installed in a neat and workmanlike manner.

2. All electrical components (i.e. cables, fuses, terminals, pushbuttons, wires, etc…) shall be identified

as on schematics.

3. All labels shall be engraved type and shall be fixed by means of screws or rivets. Adhesives are not

permitted.

4. Labelling shall be consistent with overall Project Procedure for identification, labelling and

equipment numbering.

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5. Cables tagging and numbering on the wiring shall be done with clarity.

6. Conduits shall be routed plumb, both horizontally and vertically, with neat and uniform bends and offsets. Conduit runs shall be installed parallel to one another or at right angles to the equipment line.

7. Electrical enclosures shall be mounted plumb with the lines of the equipment and piping and

securely attached to its supports.

8. Wiring inside enclosures shall be routed parallel with the edges of the enclosure. Changes in direction shall be made with 90-degree bends. Wiring shall be bundled and secured to enclosures with plastic ties or wireway.

9. All enclosures shall be clean of cuttings, paper and scrap materials. Surfaces shall be free of tape,

extraneous markings, and shall not be deformed.

10. All accessories such as clamps for cable trays shall be copper free aluminum or 316L stainless steel. Cable ladder/tray support could be made of galvanized carbon steel for indoor and outdoor installation.

11. Copper-free aluminum conduit shall be isolated electrically from steel structures.

12. The VENDOR shall provide engraved, laminated plastic or traffolyte nameplates with black letters on a white background for equipment identification. Nameplates shall be provided for distribution boards, cabinets, safety switches, contactors, motor control station, circuit breakers, control devices, and other equipment used to control, switch, or disconnect electrical circuits. All nameplates shall be permanently mounted with 316L stainless steel screws. Nameplate and lettering sizes shall be proportioned to the size of the equipment to be identified and to the need to be seen for operational and safety considerations. The marking/Identification Rating plate of non-corrosive material shall be provided as per the project specification.

13. Package equipment design shall comply to electrical isolation as per COMPANY LOTO (Lock Out

Tag Out) requirement.

9.14 Protection of Conductors

Protection shall be provided for cables, electrical equipment, devices, and conduits when installed in areas subject to physical damage or vibration.

Cable trays or other framing shall be used where necessary to provide support and prevent cable damage. Ladder cover shall be provided where drop object occurrence is a possibility apart from direct solar radiation or flare radiation.

9.15 Aviation Warning Lights

9.15.1 Obstacle Marking and Lighting

Telecommunications towers, masts, antennae supports, crane and flare shall be treated as obstructions in accordance with ICAO annex 14. Marking for day and night shall be achieved in accordance with this document.

The layout of these lights shall enable omnidirectional signaling and be visible from the top.

These lights shall be LED type and shall be suitable zone-1, IIB, T3 hazardous area requirement. The aviation obstruction lights shall be a part of the safety lighting system.

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9.15.2 Crane Beacon Requirements

Crane obstruction lighting shall be preferably fed from the 230 V AC UPS network.

These lights shall preferably be supplied by the crane Manufacturer and located on the frame and boom.

9.15.3 Flare Tower Aviation Warning Light Requirements

For flare tower, floodlights shall be installed at the bottom / vicinity of the flare and directed at flare nozzle. Floodlight fixture design shall be narrow beam type to facilitate illumination of flare tower up to flare nozzle. Floodlights shall withstand high temperature expected during flare operation at the flare tower base.

9.15.4 Telecom Masts and Tower Beacons

These beacons shall hall be usually supplied as telecom equipment part. Beacons should be fed from the 230 V AC UPS network.

10 TESTING AND COMMISSIONING

1. These requirements reflect only the minimum standards and procedures to be followed before electrical assemblies are placed in service or hand over to CONTRACTOR as being mechanically complete. It shall be the responsibility of the VENDOR to make any additional tests or commissioning checks necessary to provide a safe, reliable, and functionally sound electrical installation.

2. Where applicable, the testing and commissioning requirements of this guide shall be conducted in accordance with the VENDOR’s recommendations or under the supervision of a VENDOR’s representative, when equipment warranties could otherwise be voided.

3. All test equipment shall be provided by the VENDOR and be subject to approval by CONTRACTOR

for accuracy, calibration, and suitability for the intended function.

4. All package equipment Vendor to propose commissioning spare parts and two-year spare parts.

10.1 Electrical Test and Checks

Individual electrical equipment shall be tested as per the testing requirement specified in respective equipment specification. For overall package, testing shall include, but not be limited to, the following for all electrical systems:

• Continuity test for all wiring

•

Insulation tests of all wiring

• Functional tests of all electrical equipment and devices

• Check of protection for short circuits and earth faults

• Checking that terminal and wiring identification is in accordance with the drawings.

•

Interlocking, control and i-system shall be tested to ascertain that the system will function as indicated schematic diagrams, description of operation, etc… Where necessary, manual operation of control devices, to be used to simulate actual operating conditions in the checking of the system.

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• Physical and dimensional check

10.2 TEST Results

1. Records of the results for each test and commissioning function shall be submitted to

CONTRACTOR on a weekly basis, unless otherwise mutually agreed.

2. The results of repetitive tests or commissioning functions, such as megohmmeter testing of motors

or of motor feeders and control cables, may be grouped on a single record form.

3. As a minimum, the records shall contain the following information:

a) Extent of the system under consideration, description of the test or commissioning function, date

performed, and identification of the test equipment used

b) Applicable ratings, equipment numbers, and location of the assembly

c) For cable tests, the size, length, and rating of cables; whether cables are shielded or unshielded; and manufacturer’s test values for cables including fire resistance / fire retardant certificate

d) Ambient temperature and humidity, where applicable to the particular test or commissioning

function

e) Minimum test values acceptable in compliance with the specifications

f) Test results, including comments where necessary for clarification

g) Details of any corrective actions taken

h) Results after corrective actions have been taken

i) Signature of the CONTRACTOR’s representative

j) Signature of the COMPANY observer when a test is witnessed by COMPANY.

4. The specific commissioning requirements, including the commissioning team and the necessary procedures for assuring the operability and proper functioning of the various systems and equipment, shall be developed by the VENDOR, subject to CONTRACTOR approval.

11 DOCUMENTATION

Documentation such as calculation, general arrangement, single line diagram and other documents as detailed in Purchase Requisition shall be part of VENDOR scope to be included in the lump sum for the package.

Vendor shall include 3D design, supply of electronic files for electrical equipment along with mechanical packages skid if requested in Material requisition.

As part of digitalization, VENDOR to submit the documents including but not limited to equipment data base (EQDB), bill of material (BOM), spare parts list (SPL), special tools, maintenance manual. Installation and operational manual, preservation procedure, etc., Refer to the COMPANY’s standard templates in the document as referred in section 3.1 [1].

Further to the above, VENDOR to provide the scanning technology that could help to retrieve the equipment information and details (similar / better to barcode / QR Code / RFID code).

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12 SPARE PARTS AND SPECIAL TOOLS

Spares required for start-up, commissioning and two years of operation of the package shall be furnished along with VENDOR’s quotation and shall be included in the scope of supply.

Any special tools, if required, for operation and maintenance (including assembly or disassembly of the components) of the equipment within the package shall be furnished along with VENDOR’s quotation and shall be included in the scope of supply.

List of VENDORS recommended spare parts for 2 year operation of the equipment shall be furnished, with itemized cost, in specific COMPANY template in accordance with instructions for recommended spare parts and operating supplies recommendation. Further information and details with respect to spares, refer to the Project sparing philosophy [43].

13 PACKAGING AND TRANSPORTATION

Electrical packaged equipment and associated accessories shall be delivered in a seaworthy packing with the specified maximum lengths and width. The material shall be covered with suitable material to provide physical protection during transit, ordinary storage and handling operations.

13.1 Preparation for Shipment

Preparation for shipment and storage shall be smooth and in accordance with manufacturer’s best practices. VENDOR shall submit recommended preservation procedure for approval. Seaworthy packing, preservation and suitable preparation of the units for transportation and 12 months outdoor storage in marine environment is requested.

Documents including uploading, unpacking and lifting instructions, list of lifting gears, a description of the reassembly steps required for installation and pre-commissioning and start up instructions shall be included with the package. The number of copies of documents to be provided shall be as stated in the requisition (VDRL).

Prior to shipment, all instrumentation and other equipment vulnerable to damage shall be disassembled and boxed separately for shipment.

Each shipping section shall be provided with supports in the form of steel sections, lifting eyes etc. to maintain alignment of parts during shipping, handling, hoisting and installation. Location of lifting points shall be clearly marked on shipping containers and on drawings. Each shipping section shall have its weight and center of gravity clearly marked on the container.

Preparation for shipment shall protect the equipment auxiliary devices, accessories, etc. against corrosion, dampness, breakage or vibration injury during transportation.

VENDOR shall ensure the equipment is suitably supported and braced for transport. COMPANY shall be the sole judge of adequacy of export preparation.

Additional monitoring, inspection and checks etc. if any, shall be advised. This is to ensure that the equipment which are not under operation can be brought in operating condition within less period of time. Vendor shall also propose additional hardware/software if available to achieve this.

13.2 Storage Preservation

VENDOR shall protect and preserve the equipment and its components. VENDOR shall provide preservation requirements post-delivery and prior to being placed in-service. The preservation

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requirement for equipment for site storage and preservation shall be specified by VENDOR in their document clearly.

VENDOR must provide detailed instructions and procedures for site storage requirements and during shipment to final facility location for approval.

14 MATERIAL HANDLING

Equipment packages shall be designed for safe material handling (MH) as per “Material Handling Philosophy for CP6S and CP7S Complexes ”[39],and shall comply with the Human Factors Engineering (HFE) design requirements contained in HFE Workplace Design Specification[40].

VENDOR shall list all items’ weight and dimension that will be handled during maintenance period and this input shall be conveyed to CONTRACTOR’s Material Handling specialist. All the specific handling instruction and recommended facilities to dismantle, extract and lift all parts of the package shall be described to CONTRACTOR. Also, working space required for the maintenance activities shall be clearly defined in the general arrangement drawing, considering the HFE Workplace Design Specification [40] requirement.

As a general guideline, items weighing more than 23kg should be lifted or moved using a hoist or trolley. Items weighing less than 23kg should be manually handled. Risk of injury increases significantly beyond this weight and these handling tasks require special attention in risk assessment. Mechanical lifting aids shall be provided to mitigate injury risk in these circumstances.

All maintenance and the associated lifting activities within the VENDOR package boundary shall be assessed and appropriate lifting solutions and special tools provided. This assessment, lifting solutions and special tools shall be part of the VENDOR’s supply.

All lifting devices such as slings, shackles and spreader beams required for handling of the complete package during transportation shall be part of supply and shall comply with “Material Handling Philosophy for CP6S and CP7S Complexes ” [39]. The lifting arrangement shall be based on single point lift, unless otherwise agreed with the CONTRACTOR.

15 HUMAN FACTOR ENGINEERING

All aspects of the design of the offshore facility, including VENDOR supplied equipment/ hardware, shall comply with the Human Factors Engineering (HFE) design requirements contained in HFE Workplace Design Specification [40].

If there is a conflict between the HFE requirements contained in HFE Workplace Design Specification mentioned above, and other project design requirements, the CONTRACTOR’s HFE Authorised Person immediately for a resolution of the conflict.

the VENDOR shall notify

The VENDOR shall be responsible for the inclusion of HFE design requirement into their respective equipment design via the review of all relevant engineering documents, layouts, specifications, drawings, operations and maintenance equipment manuals, etc., and in this role shall interface with the CONTRACTOR’s HFE Authorised Person to audit that Human Factors Engineering principles and design requirements are “built in” to the respective equipment designs.

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If the VENDOR is unable to comply with the specific design requirements listed above, it shall notify the CONTRACTOR’s HFE Authorised Person immediately on reaching that decision and provide an explanation why an HFE design requirement cannot be met, substantiated with human factors risk assessment by a qualified HFE Specialist for CONTRACTOR’s and COMPANY’s approval.

During the design and fabrication of a VENDOR-supplied equipment/ hardware/software, it is possible that the VENDOR site will be visited by either, or both, of the COMPANY and CONTRACTOR’s HFE Authorised Person. The purpose of the visit will be to review the VENDOR design and/or fabrication progress. All visits will be coordinated with the VENDOR to set a time and date agreeable to all parties.

Any relocation of equipment/valves/auxiliaries due to accessibility issue shall be analysed for other operational consequences.

All action items or issues raised through the course of HFE reviews, visits or inspections shall be tracked and closed by the VENDOR in their respective HFE Issues register.

16 THIRD PARTY CERTIFICATES AND LICENSE

Third party certificates available if any for Equipment and associated accessories, shall be provided by VENDOR. Further, software license for the electronic instruments / system used within supplied package, shall also be available and provided along with the equipment.

17 PERFORMANCE GUARANTEE

Unless otherwise agreed, all equipment shall be guaranteed as follows:

All equipment shall perform satisfactorily under the specific operating conditions as detailed on this technical specification, requisition, the primary codes and standards listed here in, and shall be fit for the intended purpose. Tests shall confirm the VENDOR’s guaranteed performance.

The VENDOR shall guarantee the overall electrical integrity, workmanship and the materials used for the construction. The VENDOR shall guarantee the equipment for the warranty period and the conditions stated in the Purchase Order. If any defect or mal-performance occurs during the guarantee period, the VENDOR shall make all necessary alterations, repairs and maintenance immediately and free of charge to the COMPANY.

VENDOR shall be capable of supplying the services of a competent on-site commissioning technician and shall be responsible for verifying proper installation and ensuring that the installation complies with the mechanical and design requirements.

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Project: Q-21699 - Saipem COMP2 Folder: Electrical