09/19984091 DC : DRAFT JAN 2009
Superseded
A superseded Standard is one, which is fully replaced by another Standard, which is a new edition of the same Standard.
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BS EN ISO 19906 - PETROLEUM AND NATURAL GAS INDUSTRIES - ARCTIC OFFSHORE STRUCTURES
02-28-2011
11-23-2012
Foreword
Introduction
1 Scope
2 Normative references
3 Terms and definitions
4 Symbols and abbreviated terms
4.1 Symbols
4.2 Abbreviated terms
5 General requirements and conditions
5.1 Fundamental requirements
5.2 Design methods
5.3 Site-specific considerations
5.4 Construction, transportation and installation
5.5 Design considerations
5.6 Environmental protection
5.7 Vibrations and crew comfort
5.8 Issues relevant for cold regions environments
without ice features
6 Physical environmental conditions
6.1 General
6.2 Daylight hours
6.3 Meteorology
6.4 Oceanography
6.5 Sea ice and icebergs
6.6 Seabed considerations
7 Reliability and limit states design
7.1 Design philosophy
7.2 Limit states design method
8 Actions and action effects
8.1 General
8.2 Ice actions
8.3 Metocean related actions
8.4 Seismic actions
9 Foundation design
9.1 General
9.2 Site investigation
9.3 Characteristic material properties
9.4 Design considerations
9.5 Gravity base structures
9.6 Piled structures
9.7 Floating structures
9.8 Scour
9.9 Inspection and performance monitoring
9.10 Seismic analysis
10 Man-made islands
10.1 General
10.2 Island types
10.3 Design considerations
10.4 Seismic design
10.5 Construction
10.6 Monitoring and maintenance
10.7 Decommissioning and reclamation
11 Fixed steel structures
11.1 General
11.2 General design requirements
11.3 Structural modelling and analysis
11.4 Strength of tubular members and joints
11.5 Strength of stiffened plate panels
11.6 Strength of steel-concrete composite walls
11.7 Seismic design
11.8 Fatigue
11.9 Materials, testing and NDT
11.10 Corrosion and abrasion protection
11.11 Welding
12 Fixed concrete structures
12.1 General requirements
12.2 Actions and action effects
12.3 Structural analysis
12.4 Concrete works
12.5 Mechanical systems
12.6 Marine operations and construction afloat
12.7 Corrosion control
12.8 Inspection and condition monitoring
13 Floating structures
13.1 General
13.2 General design methodology
13.3 Environment
13.4 Actions
13.5 Hull integrity
13.6 Hull stability
13.7 Stationkeeping
13.8 Mechanical systems
13.9 Operations
14 Subsea production systems
14.1 General
14.2 Subsea production systems
14.3 Ice and seabed considerations
14.4 Actions on subsea production systems
14.5 Seismic design
14.6 Risk reduction
15 Topsides
15.1 Overall considerations
15.2 Design and operational requirements
15.3 Seismic design
16 Ice engineering
16.1 Ice roads and supplies over ice
16.2 Artificial ice islands
16.3 Protection barriers
16.4 Measurements of ice pressure and actions
16.5 Ice tank modelling
16.6 Offloading in ice
17 Ice management
17.1 General
17.2 Ice management system
17.3 Ice management system capabilities
17.4 Ice management planning and operations
18 Escape, evacuation and rescue
18.1 General
18.2 Escape, evacuation and rescue philosophy
18.3 EER strategy
18.4 Environment
18.5 Hazard and risk analysis
18.6 Continuous assessment
18.7 EER system design
18.8 Emergency response organization
18.9 Competency assurance
18.10 Communications and alarms
18.11 Personal protective equipment (PPE)
18.12 Man overboard recovery
18.13 Escape design
18.14 Evacuation design
18.15 Rescue design
Annex A (informative) - Additional information and guidance
A.1 Scope
A.2 Normative references
A.3 Terms and definitions
A.4 Symbols and abbreviated terms
A.5 General requirements and conditions
A.6 Physical environmental conditions
A.7 Reliability and limit states design
A.8 Actions and action effects
A.9 Foundation design
A.10 Man-made Islands
A.11 Fixed steel structures
A.12 Fixed concrete structures
A.13 Floating structures
A.14 Subsea production systems
A.15 Topsides
A.16 Ice engineering
A.17 Ice management
A.18 Escape, evacuation and rescue
Annex B (informative) - Regional information
B.1 Introduction to regional information
B.2 Baffin Bay and Davis Strait
B.3 Labrador
B.4 Newfoundland
B.5 Canadian Arctic Archipelago
B.6 Greenland
B.7 Beaufort Sea
B.8 The Chukchi Sea
B.9 Bering Sea
B.10 Cook Inlet
B.11 Okhotsk Sea
B.12 Tatar Strait
B.13 Bohai Sea
B.14 North Caspian
B.15 Baltic Sea
B.16 Barents Sea
B.17 Kara Sea
B.18 The Laptev Sea
B.19 East Siberian Sea
B.20 Black Sea
B.21 Sea of Azov
Bibliography
BS EN ISO 19906
Committee |
B/525/12
|
DocumentType |
Draft
|
PublisherName |
British Standards Institution
|
Status |
Superseded
|
SupersededBy |
ISO 12494:2017 | Atmospheric icing of structures |
ISO 15027-3:2012 | Immersion suits Part 3: Test methods |
ISO 15649:2001 | Petroleum and natural gas industries — Piping |
ISO 19901-2:2017 | Petroleum and natural gas industries Specific requirements for offshore structures Part 2: Seismic design procedures and criteria |
ISO 19900:2013 | Petroleum and natural gas industries General requirements for offshore structures |
CSA S16 : 2014 | DESIGN OF STEEL STRUCTURES |
API BULL 2V : 2004 | DESIGN OF FLAT PLATE STRUCTURES |
ISO 19901-7:2013 | Petroleum and natural gas industries — Specific requirements for offshore structures — Part 7: Stationkeeping systems for floating offshore structures and mobile offshore units |
ISO 19903:2006 | Petroleum and natural gas industries Fixed concrete offshore structures |
ISO 17776:2016 | Petroleum and natural gas industries Offshore production installations Major accident hazard management during the design of new installations |
ISO 15544:2000 | Petroleum and natural gas industries — Offshore production installations — Requirements and guidelines for emergency response |
NORSOK M 630 : REV 6 | MATERIAL DATA SHEETS AND ELEMENT DATA SHEETS FOR PIPING |
ISO 2631-4:2001 | Mechanical vibration and shock — Evaluation of human exposure to whole-body vibration — Part 4: Guidelines for the evaluation of the effects of vibration and rotational motion on passenger and crew comfort in fixed-guideway transport systems |
ISO 15027-1:2012 | Immersion suits Part 1: Constant wear suits, requirements including safety |
ISO 19904-1:2006 | Petroleum and natural gas industries Floating offshore structures Part 1: Monohulls, semi-submersibles and spars |
ISO 19901-4:2016 | Petroleum and natural gas industries Specific requirements for offshore structures Part 4: Geotechnical and foundation design considerations |
ASTM D 420 : 1998 | Guide to Site Characterization for Engineering, Design, and Construction Purposes |
ACI 306R : 2016 | GUIDE TO COLD WEATHER CONCRETING |
ISO 19902:2007 | Petroleum and natural gas industries Fixed steel offshore structures |
ISO 2631-2:2003 | Mechanical vibration and shock — Evaluation of human exposure to whole-body vibration — Part 2: Vibration in buildings (1 Hz to 80 Hz) |
NFPA 70 : 2017 | NATIONAL ELECTRICAL CODE |
ASTM C 671 : 1994 | Standard Test Method for Critical Dilation of Concrete Specimens Subjected to Freezing (Withdrawn 2003) |
ASTM C 330 : 2005 | Standard Specification for Lightweight Aggregates for Structural Concrete |
CGSB 65.16 : 2005 | IMMERSION SUIT SYSTEMS |
ISO 2631-1:1997 | Mechanical vibration and shock — Evaluation of human exposure to whole-body vibration — Part 1: General requirements |
ISO 19901-1:2015 | Petroleum and natural gas industries Specific requirements for offshore structures Part 1: Metocean design and operating considerations |
ISO 13702:2015 | Petroleum and natural gas industries — Control and mitigation of fires and explosions on offshore production installations — Requirements and guidelines |
ISO 15027-2:2012 | Immersion suits Part 2: Abandonment suits, requirements including safety |
CSA S471 : 2004 | GENERAL REQUIREMENTS, DESIGN CRITERIA, THE ENVIRONMENT, AND LOADS |
ISO 2631-5:2004 | Mechanical vibration and shock Evaluation of human exposure to whole-body vibration Part 5: Method for evaluation of vibration containing multiple shocks |
ISO 13623:2017 | Petroleum and natural gas industries — Pipeline transportation systems |
NS 3472 : 2001 | STEEL STRUCTURES - DESIGN RULES |
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