Hilti fastening

Hilti is company which produce fastenings products for structural, piping and Electrical & Instrument Area. Normally Hilti is used in indoor application ,example in Main & Control Equipment Room, specially for electrical & Instrument.

sometimes also applied in outdoor area in certain case, especiallly installation supports in places where sitting position of equipment is already painted. so we can not weld supports to structural side because welding will damage paints.

CCTV-PTZ Type

A thermal imager is a camera which is capable of detecting extremely small temperature diff erences. These temperature diff erences can be converted into a real-time video image. Displayed on a monitor, this video image is extremely suited for night vision applications. Unlike other night vision systems that require low amounts of light to generate an image, a thermal imager needs no light at all. This makes it the perfect tool to see in absolute darkness, to see during the darkest night.

Thermal imagers are very eff ective for securing large open areas. Thermal imaging is invisible to intruders, allowing security personnel to monitor their actions without their knowledge, protecting people and assets before they are exposed to danger.

Specification for cables ...BS oriented

1. All cables, busbars trunkings and wiring accessories shall be obtained from approved manufactures and shall be manufactured and tested to the relevant British Standard Specifications and the requirements of the Local Testing Authority.
Multicore cables and busbars trunkings shall have colour identifications to distinguish between different phases, neutral and earth conductors.
Cables shall be delivered to site in unbroken coils with the original wrapping intact. Cables with kinks or abrasions shall be replaced at no extra cost.
Unless otherwise specified, conductors shall be copper with 98% minimum conductivity. They shall be stranded plain annealed type to BS 6360 where used for cables and hard drawn type to BS 159 where used for busbar trunkings.
Unless otherwise specified all cables shall be PVC sheated and electrical accessories made of high impact PVC materials where used in corrosive environments.

2. PVC and PVC/PVC cables shall be selected in accordance with the followings:-
i) Where used as final sub-circuits for lighting and power and with conductor sizes not exeeding 25 mm2, they shall be of 440 volt/250 volt insulation grade to BS 6004.
ii) Where used as mains circuits or where conductor sizes exceed 25 mm2, they shall be 600 volt/1000 volt insulation grade to BS 6346.
iii) They shall have insulation suitable for 70 Degree C conductor temperature and comply to BS 6746.

3. PVC Armoured cables shall be selected in accordance with the following:-
i) They shall be of 600 volt/1000 volt grade to BS 6346 and suitable for 70 degree C conductor temperature with insulation complying to BS 6746.
ii) Unless otherwise specified, the armouring shall be constructed of single layer of galvanised steel wires complying with BS 1442.
iii) They shall be multi-core type

4. Paper insulated cables shall be selected in accordance with the following:-
i) They shall be of 600 volt/1000 volt grade to BS 6480 : Part 1 and suitable for 80 degree C. conductor temperature.
ii) Unless otherwise specified, they shall be of lead sheath double steel tape armoured (PILCDSTA) type.
iii) Single core cables shall be of non-magnetic armouring type with lead alloy sheath.
iv) They shall be mass impregnated with non draining insulationg compounds (M.I.N.D.).
v) They shall have the manufacturer names, year of manufacture and voltage rating printed on the tape immediately under the metal sheath.
vi) Where used as underground cables, they shall have served with compound layers of fibrous material and bitumen. Where used indoors and exposed, they shall be finished with extruded PVC oversheath.

5. Mineral insulated cables shall be selected in accordance with the following:-
i) Unless otherwise specified, they shall be of copper sheath to BS 6207 : Part 1.
ii) Where used in final sub-circuit for lighting and power with conductor size of 100 mm2 and less, they shall be of 440 volt insulation grade.
iii) Where used as mains circuits or where conductor sizes exceed 100 mm2, they shall be of 660 volt insulation grade.
iv) Silicon rubber sleeve insulation shall be used to replace copper sheath stripped off near the terminations. Where terminations exceed 150 degree C, varnished glass fibre sleeve insulation shall be used to replaced the "stripped off" copper sheath.
v ) Terminations, unless otherwise specified shall be rated for 105 degree C.

6. XLPE armoured cables shall be selected in accordance with the following:-
i) They shall be of 600 Volt/1000 Volt grade to BS 5467 and suitable for 90 degree C conductor temperature.
ii) Insulated cores shall be cabled with suitable fillers in round shape and a binder tape shall be applied helically over the cable cores.
iii) Separation sheath shall be black PVC compound complying with ST2 and IEC 502.
iv) Armour shall consist of a single layer of galvanised steel wires (type SWA) for multicore cables and hard drawn Aluminium wires (AWA) of single core cables.
v) Outer sheath shall be black PVC compound complying with ST2 of IEC 502.
vi) ELECTRIC CABLE voltage rating and name of manufacturer shall be embosed on the outersheath.

7. Fire resistant cables shall be selected in accordance with the following :
i) They shall be of 300 Volt/500 Volt grade to BS 6387 and suitable for 75 degree C conductor temperature.
ii) They shall have fire resistant characteristic to IEC 331 which are established by special mica fire proof tape applied over the conductor.
iii) Special fire retardant polyethylene is used for sheathing material of the cable. They shall have flame retardants characteristics to IEC 332-1.
iv) They shall have features such as non-toxis gas (non-halagon gas) and low smoke generation at fire to IEC 754-1.
v) Terminations, unless otherwise specified shall be rated for 105 degree C.

8. Busbar trunkings shall be selected in accordance with the following :-
i) They shall be of low resistance, totally enclosed, non-ventilated interchargeable feeder to plug-in type having current density not exceeding 1500 Amp. per 1000 mm2 and comply fully with BS 159.
ii) Unless otherwise specified, they shall withstand a minimum breaking capacity of 31 MVA at 415V, 50 Hz for a duration of 3.0 Second.
iii) Phase and neutral busbars shall have the same cross-sectional area. They shall carry continuous rated current with temperature rise not exceed 55 degree C. The impedance characteristic shall be such that the line to line voltage drop at rated current for any power factor will not exceed 0.115 volt per meter for feeder duct or 0.145 volt per meter for plug in duct.
iv) The trunking channels and removable cover plates shall be constructed to 14 gauge and 16 gauge galvanised mild steel sheet respectively and finished with two coats of approved paints.
v) They shall be supplied in sectional lengths to suit the installation. Proper expansion joints shall be provided at every 6 meter interval between the lengths. Continuous tinned-copper earthing strips of not less than 25% of cross-sectional area of phase conductor shall be provided between lenghts of busbar trunkings.
vi) Each section of the busbar trunking shall be removable without disturbing any section.

9. Wiring devices shall be selected in accordance with the following:-
i) They shall have voltage rating suitable for the supply characteristics to which they are applied.
ii) They shall be manufactured from moulded track-resisting material to BS 1322 and shall be of the type and rating as specified and shown in the Drawings.
iii) Unless otherwise specified, lighting switches shall be 5 Amp. rating, flush mounting, rocker operated type single pole, 2-way switch and comply with BS3676. They shall be grid switch type for multigang and plate switch type for single gang.
iv) All switches rated at 20 Amp. and above shall be of the double pole type, flush mounted and rocker operated incorporating pilot lamp.
v) Unless otherwise specified, lighting socket outlets shall be 5 Amp. rating flush mounting, shuttered, round pin type rocker operated with single-pole micro break switch and complying with BS 546.
vi) Unless otherwise specified, power socket outlets shall be 13 Amp. rating, flush mounting, shuttered, rectangular pin type, rocker operated with single-pole micro break switch and complying with BS 1363.
vii) In the electrical and mechanical equipment rooms, all switches and socket outlets shall be of the metalclad type.
viii) Where exposed to weather, socket outlets shall incorporate locking rings and rubber gaskets in the weatherproof housing manufactured for the purpose and provided with screw-in cover. Switches shall be of the type fitted with a cork gland around the stem of the operating knob and by a cork gasket between the cover and the base.
ix) Ceiling roses shall comply with BS 67. They shall be either surface or semi-recess type with the base having a minimum of three knockouts for cable entires. The base shall incorporate clamp type terminals suitable for holding the phase, neutral, earth and loop-in cables in a distinct manner. The cover plates shall be of the screw-in type.
x) 15A switched soclet outlets and socket outlets shall be of round pin type and comply

Measurement

Oil Gas Process Overview

This is simple overview of oil and gas exploration. start from wellhead platform, go to Central Processing Platform (separator system, desander system, degasser system, coalescer system, metering system, temperature treatment system, metering system, water treatment system). finally exporting system (supplied to pipe line or transported by Shipping or FPSO (Floating Production Storage Offloading)

IEEE Index

IEEE Std 1-2000 IEEE Recommended Practice General Principles for Temperature Limits in the Rating

IEEE Std 62-1995 IEEE Guide for Diagnostic Field Testing of Electric Power Apparatus–Part 1: Oil Filled

IEEE Std 98-2002 IEEE Standard for the Preparation of Test Procedures for the Thermal Evaluation of

IEEE Std 99-1980 (R2000) IEEE Recommended Practice for the Preparation of Test Procedures for the Thermal

IEEE Std 259-1999 (R2004) IEEE Standard Test Procedure for Evaluation of Systems of Insulation for Dry-Type

IEEE Std 315-1975 (R1993) with 315A-1986 IEEE Graphic Symbols for Electrical and Electronics Diagrams (Including Reference

IEEE Std 637-1985 (R2002) IEEE Guide for the Reclamation of Insulating Oil and Criteria for Its Use

IEEE Std 638-1992 (R1999) IEEE Standard for Qualification of Class 1E Transformers for Nuclear Generating Stations

IEEE Std 1276-1997 IEEE Guide for the Application of High Temperature Insulation Materials in Liquid-Immersed

IEEE Std 1277-2000 IEEE Standard General Requirements and Test Code for Dry-Type and Oil-Immersed Smoothing Reactors

IEEE Std 1312-1993 (R2004) IEEE Standard Preferred Voltage Ratings for Alternating-Current Electrical Systems

IEEE Std 1313.1-1996 (R2002) IEEE Standard for Insulation Coordination–Definitions, Principles, and Rules (Revision

IEEE Std 1313.2-1999 IEEE Guide for the Application of Insulation Coordination

IEEE Std 1388-2000 IEEE Standard for the Electronic Reporting of Transformer Test Data

IEEE Std 1538-2000 IEEE Guide for Determination of Maximum Winding Temperature Rise in Liquid-Filled

IEEE Std C57.12.00-2000 IEEE Standard General Requirements for Liquid-Immersed Distribution, Power, and Regulating

IEEE Std C57.12.01-1998 IEEE Standard General Requirements for Dry-Type Distribution and Power Transformers

ANSI C57.12.10-1997 American National Standard for Transformers–230 kV and Below 833/958 through 8333/10

ANSI C57.12.20-1997 American National Standard for Overhead Type Distribution Transformers, 500 kVA and Smaller...

ANSI C57.12.21-1992 American National Standard Requirements for Pad-Mounted, Compartmental-Type Self-Cooled,

ANSI C57.12.22-1993 (R1998) American National Standard Requirements for Pad-Mounted, Compartmental-Type Self-Cooled,

IEEE Std C57.12.23-2002 IEEE Standard for Underground Type, Self-Cooled, Single-Phase, Distribution Transformers

ANSI C57.12.24-2000 American National Standard for Transformers--Underground-Type, Three-Phase Distribution Transfomers...

ANSI C57.12.25-1990 American National Standard for Transformers–Pad-Mounted, Compartmental-Type, Self-Cooled,

IEEE Std C57.12.26-1992 IEEE Standard for Pad-Mounted, Compartmental-Type, Self-Cooled, Three-Phase Distribution

ANSI C57.12.28-1999 American National Standard Pad-Mounted Equipment–Enclosed Integrity

ANSI C57.12.29-1991 American National Standard Switchgear and Transformers-Pad-Mounted Equipment-Enclosure

IEEE Std C57.12.31-2002 IEEE Standard for Pole Mounted Equipment - Enclosure Integrity

IEEE Std C57.12.32-2002 IEEE Standard for Submersible Equipment–Enclosure Integrity

IEEE Std C57.12.34-2004 IEEE Standard Requirements for Pad-Mounted, Compartmental-Type, Self-Cooled, Three-Phase Distribution Transformers...

IEEE Std C57.12.35-1996 (R2004) IEEE Standard for Bar Coding for Distribution Transformers

ANSI C57.12.40-2000 American National Standard for Secondary Network Transformers–Subway and Vault Types

IEEE Std C57.12.44-2000 IEEE Standard Requirements for Secondary Network Protectors

ANSI C57.12.50-1981 (R1998) American National Standard Requirements for Ventilated Dry-Type Distribution Transformers,

ANSI C57.12.51-1981 (R1998) American National Standard Requirements for Sealed Dry-Type Power Transformers,

ANSI C57.12.52-1981 (R1998) American National Standard Requirements for Sealed Dry-Type Power Transformers, 501

ANSI C57.12.55-1987 (R1998) American National Standard for Transformers–Used in Unit Installations, Including Unit Substations...

IEEE Std C57.12.56-1986 IEEE Standard Test Procedure for Thermal Evaluation of Insulation Systems for Ventilated

IEEE Std C57.12.58-1991 (R1996, 2002) IEEE Guide for Conducting a Transient Voltage Analysis of a Dry-Type Transformer

IEEE Std C57.12.59-2001 IEEE Guide for Dry-Type Transformer Through-Fault Current Duration

IEEE Std C57.12.60-1998 IEEE Guide for Test Procedures for Thermal Evaluation of Insulation Systems for Solid-Cast

IEEE Std C57.12.70-2000 IEEE Standard Terminal Markings and Connections for Distribution and Power Transformers

IEEE Std C57.12.80-2002 IEEE Standard Terminology for Power and Distribution Transformers

IEEE Std C57.12.90-1999 IEEE Standard Test Code for Liquid-Immersed Distribution, Power, and Regulating Transformers

IEEE Std C57.12.91-2001 IEEE Standard Test Code for Dry-Type Distribution and Power Transformers

IEEE Std C57.13-1993 (R2003) IEEE Standard Requirements for Instrument Transformers

IEEE Std C57.13.1-1981 (R1992, 1999) IEEE Guide for Field Testing of Relaying Current Transformers

IEEE Std C57.13.3-1983 (R1990) IEEE Guide for the Grounding of Instrument Transformer Secondary Circuits and Cases

IEEE Std C57.13.5-2003 IEEE Trial-Use Standard of Performance and Test Requirements for Instrument and Transformers

IEEE Std C57.15-1999 IEEE Standard Requirements, Terminology, and Test Code for Step-Voltage Regulators

IEEE Std C57.16-1996 (R2001) IEEE Standard Requirements, Terminology, and Test Code for Dry-Type Air-Core Series-Connected

IEEE Std C57.18.10-1998 (R2003) IEEE Standard Practices and Requirements for Semiconductor Power Rectifier Transformers

IEEE Std C57.19.00-1991 (R1997) IEEE Standard General Requirements and Test Procedures for Outdoor Power Apparatus

IEEE Std C57.19.01-2000 IEEE Standard Performance Characteristics and Dimensions for Outdoor Apparatus Bushings

IEEE Std C57.19.03-1996 (R2002) IEEE Standard Requirements, Terminology, and Test Code for Bushings for DC Applications

IEEE Std C57.19.100-1995 (R2003) IEEE Guide for Application of Power Apparatus Bushings

IEEE Std C57.21-1990 (R2004) IEEE Standard Requirements, Terminology, and Test Code for Shunt Reactors Rated over

IEEE Std C57.91-1995 (R2004) IEEE Guide for Loading Mineral-Oil-Immersed Transformers

IEEE Std C57.91-1995/Cor 1-2002 IEEE Guide for Loading Mineral-Oil-Immersed Transformers Corrigendum 1 (Corrigendum

IEEE Std C57.93-1995 (R2001) IEEE Guide for Installation of Liquid-Immersed Power Transformers

IEEE Std C57.94-1982 (R2000) IEEE Recommended Practice for the Installation, Application, Operation, and Maintenance

IEEE Std C57.96-1999 (R2004) IEEE Guide for Loading Dry-Type Distribution and Power Transformers

IEEE Std C57.98-1993 (R1999) IEEE Guide for Transformer Impulse Tests

IEEE Std C57.100-1999 IEEE Standard Test Procedure for Thermal Evaluation of Liquid-Immersed Distribution...

IEEE Std C57.104-1991 IEEE Guide for the Interpretation of Gases Generated in Oil-Immersed Transformers

IEEE Std C57.105-1978 (R1999) IEEE Guide for Application of Transformer Connections in Three-Phase Distribution

IEEE Std C57.106-2002 IEEE Guide for Acceptance and Maintenance of Insulating Oil in Equipment

IEEE Std C57.109-1993 (R2000) IEEE Guide for Liquid-Immersed Transformer Through-Fault-Current Duration

IEEE Std C57.110-1998 (R2004) IEEE Recommended Practice for Establishing Transformer Capability When Supplying

IEEE Std C57.111-1989 (R2003) IEEE Guide for Acceptance of Silicone Insulating Fluid and Its Maintenance in Transformers

IEEE Std C57.113-1991 (R2002) IEEE Guide for Partial Discharge Measurement in Liquid-Filled Power Transformers

IEEE Std C57.116-1989 (R2002) IEEE Guide for Transformers Directly Connected to Generators

IEEE Std C57.117-1986 (R1998) IEEE Guide for Reporting Failure Data for Power Transformers and Shunt Reactors on

IEEE Std C57.119-2001 IEEE Recommended Practice for Performing Temperature Rise Tests on Oil-Immersed Power

IEEE Std C57.120-1991 (R2000) IEEE Loss Evaluation Guide for Power Transformers and Reactors

IEEE Std C57.121-1998 IEEE Guide for Acceptance and Maintenance of Less Flammable Hydrocarbon Fluid in

IEEE Std C57.123-2002 IEEE Guide for Transformer Loss Measurement

IEEE Std C57.124-1991 (R1996, 2002) IEEE Recommended Practice for the Detection of Partial Discharge and the Measurement

IEEE Std C57.125-1991 (R1998) IEEE Guide for Failure Investigation, Documentation, and Analysis for Power Transformers

IEEE Std C57.127-2000 IEEE Trial-Use Guide for the Detection of Acoustic Emissions from Partial Discharges

IEEE Std C57.129-1999 IEEE Standard General Requirements and Test Code for Oil-Immersed HVDC Converter

IEEE Std C57.131-1995 IEEE Standard Requirements for Load Tap Changers

IEEE Std C57.134-2000 IEEE Guide for Determination of Hottest-Spot Temperature in Dry-Type Transformers

IEEE Std C57.135-2001 IEEE Guide for the Application, Specification, and Testing of Phase-Shifting Transformers

IEEE Std C57.136-2000 IEEE Guide for Sound Level Abatement and Determination for Liquid-Immersed Power

IEEE Std C57.138-1998 IEEE Recommended Practice for Routine Impulse Test for Distribution Transformers

IEEE Std C57.144-2004 IEEE Guide for Metric Conversion of Transformer Standards

Flow Standard Reference

AISC - AMERICAN INSTITUTE OF STEEL CONSTRUCTION

AISC 316
Manual of Steel Construction Allowable Stress Design
AISC 348
Specification for Structural Joints using ASTM A325 or A490 Bolts
AISC S334L
Load and Resistance Factor Design Specifications for Structural Joints Using ASTM A325 or A490 Bolts


ANSI - AMERICAN NATIONAL STANDARDS INSTITUTE

ANSI A14.3
Safety Requirements for Fixed Ladders
ANSI B16.5
Pipe Flanges and Flanged Fittings
ANSI B31.3
Code for Pressure Piping ; Chemical Plant and Petroleum, Refinery Piping, Addenda A, B & C.


API - AMERICAN PETROLEUM INSTITUTE

API - RP 520
Design and Installation of Pressure Relieving Systems in Refineries Parts1and 2
API - RP 540
Recommended Practice for Electrical Installations in Petroleum Processing Plants
API - RP 551/6
Installation of Refinery All Parts
API 550-Part 1
Manual on Installation of Refinery Instruments and Control Systems
API 600
Valves
API 607
Ball Valves Fire Testing
API 6D
Pipeline Valves, End Closures, Connectors and Swivels
API Manual of Petroleum Measurement Standards :Chapter 4-Proving Systems, Chapter 5, Section 1, General Considerations for Measurement by Meters, Section 3
: Measurement of Liquid Hydrocarbons by Turbine Meters, Section 4 Accessory Equipment for Liquid Meters, Section 5: Fidelity and Security of Flow Measurement pulsed-Data transmission System, Chapter 6, Section 5: Metering Systems for Loading and Unloading Marine Bulk Carriers, Section 6: Pipeline Metering Systems, Chapter 7: Temperature Determination, Chapter 8: Sampling, Chapter 12, Section 2: Instructions for Calculating Liquid Petroleum Quantities Measured by Turbine Meters, Chapter 14, Section 1: Measuring, Sampling, Testing and Base Conditions for Natural Gas Fluids, Section 6: Installing and Proving Density Meters used to Measure Hydrocarbon Liquid
API MPMS 12.2
Manual of Petroleum Measurement Standards, Chapter 12 – Calculation of Petroleum Quantities, Section 2 - Instructions for Calculating Liquid Petroleum Quantities Measured by Turbine Displacement Meters
API MPMS 14.1
Manual of Petroleum Measurement Standards, Chapter 14 – Natural Gas Fluids Measurement, Section 1 – Collecting and Handling of Natural Gas Samples for Custody Transfer
API MPMS 14.6
Manual of Petroleum Measurement Standards, Chapter 14 – Natural Gas Fluids Measurement, Section 6 – Continuous Density Measurement Errata.
API MPMS 4.5
Manual of Petroleum Measurement Standards, Chapter 4 – Proving Systems Section 5 – Master-Meter Provers
API MPMS 5.1
Manual of Petroleum Measurement Standards, Chapter 5 – Metering, Section 1– General Considerations for Measurement by Meters
API MPMS 5.3
Manual of Petroleum Measurement Standards, Chapter 5 – Metering, Section 3 – Measurement of Liquid Hydrocarbons by Turbine Meters
API MPMS 5.4
Manual of Petroleum Measurement Standards, Chapter 5 – Metering, Section 4 – Accessory Equipment for Liquid Meters
API MPMS 5.5
Manual of Petroleum Measurement Standards, Chapter 5 – Metering, Section 1 – Fidelity and Security of Flow Measurement pulsed-data transmission system
API MPMS 6.5
Manual of Petroleum Measurement Standards, Chapter 6 – Metering Assemblies, Section 5 – Metering Systems for Loading and Unloading Marine Bulk Carriers
API MPMS 6.6
Manual of Petroleum Measurement Standards, Chapter 6 – Metering Assemblies, Section 6 – Pipeline Metering Systems
API MPMS 7
Manual of Petroleum Measurement Standards, Chapter 7 – Temperature Determination
API MPMS 8
Manual of Petroleum Measurement Standards, Chapter 8 – Sampling, Sections 1 through 4
API RP 520 Part 1
Sizing, Selection, and Installation of Pressure- Relieving Devices in Refineries, Part 1 – Sizing and Selection
API RP 520 Part 2
Sizing, Selection, and Installation of Pressure- Relieving Devices in Refineries, Part 2 – Installation
API RP 540
Electrical Installations in Petroleum Processing Plants
API RP 551
Process Measurement Instrumentation - Section 2 Flow
API RP 552
Transmission Systems
API RP 553
Refinery Control Valves
API RP 554
Process instrumentation and Control
API RP 556
Instrumentation and Control Systems for Fired Heaters and Steam Generators
API SPEC 6D
Petroleum and Natural Gas Industries-Pipeline Transportation Systems-Pipeline Valves
API Std 2534
Measurement Control Charts and Statistical Methods for Petroleum Metering Systems
API STD 600
Bolted Bonnet Steel Gate Valves for Petroleum and Natural Gas Industries
API STD 607
Fire Test for Soft-Seated Quarter-Turn Valves


ASCE - American Society of Civil Engineers

ASCE 7-88
Minimum Design Loads for Buildings and Other Structures


ASME - AMERICAN SOCIETY OF MECHANICAL ENGINEERS

ASME 3-31-3
Calculation for thickness of Restriction Orifices
ASME B16.5
Pipe Flanges and Flanged Fittings NPS ½ Through NPS 24
ASME B31.3
Process Piping
ASME Boiler and Pressure Vessel Code
SECT VIII ; Unfired Pressure Vessels, SECT IX Welding, Power Test Code, PTC 19.3, Temperature Measurement ( Thermowell Stress Calculations)
ASME PTC 19.3
Part 3: Temperature Measurement Instruments and Apparatus
ASME-MFC-3M
Measurement of fluid flow in pipes using Orifice, Nozzle and Venturi


AWS - AMERICAN WELDING SOCIETY

AWS D1.1
Structural Welding Codes Steel


BRITISH STANDARDS INSTITUTION (BSI)

BSI 1780
Bourdon tube pressure and vacuum gauges
BSI 4800
Building Colours
BSI 5146
Inspection and testing of valves
BSI 5490
Specification for degrees of protection provided by enclosures
BSI 5501
Electrical apparatus for potentially explosive atmospheres
BSI 6121
Mechanical Cable Glands for Elastomeric and Plastic Insulated Cables
BSI BS 4800
Paint Colours for Building Purposes
BSI BS 6121
Mechanical Cable Glands
BSI BS 6755 Part 1
Testing of Valves Part 1: Production Pressure testing Requirements
BSI BS 6755 Part 2
Testing of Valves Part 2: Specification for Fire Type-Testing Requirements
BSI BS EN 50262
Metric Cable Glands for Electrical Installations AMD 13524
BSI BS EN 837.1
Pressure gauges Part 1- Bourdon Tube Pressure Gauges – Dimensions, Metrology, Requirements and Testing


CENELEC EN

CENELEC EN 10204
Metallic Products - Types of Inspection Documents
EN - European standard

EN 10204
Metallic products-Types of inspection documents
ICBO - International Conference of Building Officials

ICBO Uniform Building Code (UBC)

ICBO Uniform Building Code V.1
Uniform Building Code Volume 1
ICBO Uniform Building Code V.2
Uniform Building Code Volume 2


IEC - INTERNATIONAL ELECTROTECHNICAL COMMISSION

IEC 60079
Electrical Apparatus for Explosive Gas Atmospheres
IEC 60331
Tests for Electric Cables under Fire Conditions – Circuit Integrity
IEC 60529


Classification of degree of protection provided by enclosure
IP - Institute of Petroleum (GB)

IP Petroleum Measurement Manual Part VII Section 2
(Tentative) Continuous Density Measurement.
IP Petroleum Measurement Manual Part XIII Section 1
Receive dual pulse inputs from the associated turbine meter and carry on pulse security checking.


ISA - INSTRUMENTATION, SYSTEMS AND AUTOMATION SOCIETY

ISA 75.01.01
Flow Equations for Sizing Control Valves
ISC - American Institute of Steel Construction

ISC Manual of Steel Construction (Allowable Stress Design)

ISC Specification for Structural Joints Using ASTM A325 A490 Bolts


ISO - INTERNATIONAL STANDARD ORGANIZATION

ISO 5167-1
Measurement of fluid flow by means of pressure differential devices – Part 1: Orifice plates, Venturi tubes inserted in circular cross-section conduits running full
ISO 5168
Measurement of Fluid Flow: Estimation of Uncertainties.
ISO 9001:2000
Quality Manangement Systems – Requirements.


MPMS - API MANUAL OF PETROLEUM MEASUREMENT STANDARDS

MPMS AGA 8
Compressibility and calculation
MPMS AGA Report No. 9
Ultrasonic meters
MPMS Chapter 12
Calculation of Petroleum Quantities
MPMS Chapter 12.2
Calculation of Liquid Petroleum Quantities Measured Measured by Turbine or Displacement Meters
MPMS Chapter 5
Metering
MPMS Chapter 5.1
Foreword, General Considerations and Scope of Metering
MPMS Chapter 5.2
Measurement of Liquid Hydrocarbons by Displacement
MPMS Chapter 5.3
Turbine Meters
MPMS Chapter 5.4
Instrumentation or Accessory Equipment for Liquid
MPMS Chapter 6
Metering Assemblies
MPMS Chapter 6.6
Pipeline Metering Systems
MPMS Chapter 6.7
Metering Viscous Hydrocarbons


OSHA - OCCUPATIONAL SAFETY AND HEALTH ADMINISTRATION

OSHA 29 CFR
1917.118Fixed Ladders
ROARK

ROARK 6TH Edition
Calculation for thickness of Restriction Orifices



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