ISO 16733-1:2015
Withdrawn
A Withdrawn Standard is one, which is removed from sale, and its unique number can no longer be used. The Standard can be withdrawn and not replaced, or it can be withdrawn and replaced by a Standard with a different number.
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Fire safety engineering — Selection of design fire scenarios and design fires — Part 1: Selection of design fire scenarios
Hardcopy , PDF
English, French
02-09-2015
09-04-2025
ISO 16733-1:2015 describes a methodology for the selection of design fire scenarios that are credible but conservative for use in fire safety engineering analyses of any built environment, including buildings, structures or transportation systems. Following the procedures given in this part of ISO 16733-1:2015, a manageable number of design fire scenarios is selected using a qualitative or semi-quantitative approach. For a full quantitative approach using risk assessment, the reader is directed to ISO 16732‑1.
| Committee |
ISO/TC 92/SC 4
|
| DevelopmentNote |
Supersedes ISO/DIS 16733-1. Supersedes ISO TS 16733. (09/2015)
|
| DocumentType |
Standard
|
| Pages |
31
|
| PublisherName |
International Organization for Standardization
|
| Status |
Withdrawn
|
| SupersededBy | |
| Supersedes |
| Standards | Relationship |
| BS ISO 16733-1:2015 | Identical |
| NF ISO 16733-1 : 2016 | Identical |
| DS ISO 16733-1 : 2015 | Identical |
| UNE-ISO 16733-1:2017 | Identical |
| BS ISO 24678-6:2016 | Fire safety engineering. Requirements governing algebraic formulae Flashover related phenomena |
| PD ISO/TS 29761:2015 | Fire safety engineering. Selection of design occupant behavioural scenarios |
| 17/30335581 DC : 0 | BS ISO 24678-7 - FIRE SAFETY ENGINEERING - REQUIREMENTS GOVERNING ALGEBRAIC EQUATIONS - PART 7: RADIATION HEAT FLUX RECEIVED FROM AN OPEN POOL FIRE |
| ISO/TR 24679-6:2017 | Fire safety engineering — Performance of structures in fire — Part 6: Example of an eight-storey office concrete building |
| ISO/TR 24679-2:2017 | Fire safety engineering — Performance of structure in fire — Part 2: Example of an airport terminal |
| ISO/TS 29761:2015 | Fire safety engineering — Selection of design occupant behavioural scenarios |
| PD ISO/TR 24679-6:2017 | Fire safety engineering. Performance of structures in fire Example of an eight-storey office concrete building |
| 16/30291954 DC : 0 | BS ISO 24678 - FIRE SAFETY ENGINEERING - REQUIREMENTS GOVERNING ALGEBRAIC EQUATIONS - PART 6: FLASHOVER RELATED PHENOMENA |
| PD ISO/TR 24679-2:2017 | Fire safety engineering. Performance of structure in fire Example of an airport terminal |
| ISO 24678-6:2016 | Fire safety engineering — Requirements governing algebraic formulae — Part 6: Flashover related phenomena |
| ISO 16735:2006 | Fire safety engineering — Requirements governing algebraic equations — Smoke layers |
| ISO 16730-1:2015 | Fire safety engineering — Procedures and requirements for verification and validation of calculation methods — Part 1: General |
| ISO 9705:1993 | Fire tests — Full-scale room test for surface products |
| ISO 31000:2009 | Risk management — Principles and guidelines |
| NFPA 5000 : 2018 | BUILDING CONSTRUCTION AND SAFETY CODE |
| ISO 13943:2017 | Fire safety — Vocabulary |
| ISO/TS 29761:2015 | Fire safety engineering — Selection of design occupant behavioural scenarios |
| ISO/TS 13447:2013 | Fire safety engineering — Guidance for use of fire zone models |
| ISO 23932:2009 | Fire safety engineering — General principles |
| NFPA 204 : 2015 | SMOKE AND HEAT VENTING |
| ISO 16732-1:2012 | Fire safety engineering — Fire risk assessment — Part 1: General |
| ISO 16737:2012 | Fire safety engineering — Requirements governing algebraic equations — Vent flows |
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