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Our business approach
HSE Design Expertise & Modeling
Safety Consultancy Services
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Technip is a world leader in project management, engineering and construction for the oil and gas industry.
With a global footprint, our talents constantly offer the most innovative technologies and best solutions to our clients to optimize their investments and meet the world’s energy challenges.
Our mission is to deliver safe, sustainable and quality projects across the world.
We operate in three main businesses:
Subsea
In subsea hydrocarbon field development, Technip’s activities include the design, manufacture and installation of rigid and flexible subsea pipelines and umbilicals.Thanks to our portfolio of technologies, industrial and operational assets on all continents and a state-of-the art fleet, we offer a unique vertically integrated model in the industry.
Offshore
In the Offshore business, our activities include engineering, procurement, construction (EPC) and installation of fixed and floating platforms.We use a complete range of technological solutions to answer the challenges faced by our clients.We are leveraging our expertise in full-range of offshore facilities, as well as our strong know-how with added-value process skills and proprietary platform design.
Onshore
In the Onshore business, we deliver to our clients all the experience we have acquired for almost 60 years, combined with a large technology solutions portfolio. We are working on onshore facilities that the energy sector needs, in particular for oil and gas industry players.Technip is one of the global leaders for the refining business and petrochemical units. We also reinforced our position on project management consultancy (PMC) activities, by leveraging our expertise in the management of complex projects.
Technip at a glance
HSE Design Expertise & Modeling 3
RISK
ANALYSIS
EFFECTS MODELLIN
GST
RUCTURE RESPON
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TEST
S AND ACCIDEN
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INVE
STIGATION
spot
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TRAINING
AUDIT
EXPERTISE
STUDY
Provide practical safety expertise to industries handling hazardous material from conceptual phase to post-installation start up
Support Technip operating centers on specific safety issues on their projects
Our experience is based on:
A team of experts with specific softwares
Hundreds of specific safety studies performed in-house since 1980 (Technip is accredited as third part for the French Environment Ministry)
Main references:• Oil and Gas (Shell, Total, BP, Exxon, Engie, etc.)• Defense/Space (Airbus, MBDA, ESA, Thales, etc.)• Chemicals (Solvay, Arkema, ENI-Versalis, etc.)• Nuclear (EDF, Areva, CEA, etc.)• Fertilizers (Yara, Borealis)
Safety experiments performed in the field of fire, explosions and cryogenic releases
Accident investigations (including major accidents like AZF Toulouse and Total La Mède)
Our difference
We combine both competencies of EPC contractor and technical safety expert consultants.
From risk assessment to structural design, Technip’s Paris office - HSE Design Expertise & Modeling department can provide our clients with in-house tailor-made technical safety studies considering their specific needs. Our fully integrated approach reduces interfaces between stakeholders and offers optimal and cost effective solutions.
HSE Design Expertise & ModelingOur mission
Our missions
HSE Design Expertise & Modeling4
Different methodologies of Risk Analysis may be selected according to the project phase or context and technology.
These methodologies result in recommendations to improve the safety of the system and may be incorporated in permitting process to help the owner to support the technical options in front of local authorities.
Our experts provide the following main services:
Perform Quantitative Risk Assessment (QRA) using methodologies and tools:
DNV PHASTRISK Frequency analysis: DNV Leak® v3.2 Likelihood of accidents: Fault tree, event tree, bow-tie (Risk Spectrum®, GRIF® software) SIL assessment according to standards as IEC61511 or ISA TR84.02, fault tree analysis – Markov (Risk Spectrum®, GRIF®,
with reliability data base ex OREDA, SINTEF, EXIDA)
Perform third-party analysis on safety studies
Optimization of toxic, fire and gas detection according to consequence analysis studies/F&G Mapping
Perform quantitative assessment of safety distances in real time during Risk Assessment sessions, using in-house software (PREDIT)
Training course packages on software use (e.g. DNV PHAST, GRIF etc.)
1 Supervision of diesel flow by operator2 High combustion air differencial pressure alarm3 Low combustion air differential pressure alarm4 Supervision of temperature rise by operator5 Burner management system6 Low fluidised bed level alarm set at 1,7 m 7 Low Low fluidised bed level switch set at 1,5 m shuts down cone valves 8 Low Low Low fluidised bed level switch set at 1,2 m shuts down coal and water supply 9 Nitrogen purge of vent duct10 Low Low fluidising air flow switch prevents from pulverised coal supply11 Low Low fluidising bed temperature switch shuts down pulverised coal supply12 Low fluidised bed differential pressure shuts down pulverised coal supply13 Operating procedures14 Low FBR temperature (800C) switch triggers automatic pulverised coal supply
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1 4 5
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10 11 12
6 7 8
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Impurities on diesel
storage tank
Flamme extinction indiesel burner
Poor mass transfer in the
FBR
Gas explosion inthe FBR
Overpressure in the
environment
Emission of heavy and
light projectiles
Temperature drops in the
FBR
Pulverised coal supplywhen bed is defluidised
followed by coal volatile compounds evaporation
Power failure and emergency
vent opening
Feed from the calciner at above the rate that
the FBR is feeding the furnace
Air flow control failure
Air is admitted in the FBR
Burners blockage
Diesel flowcontrol failure
Faulty diesel introduction
into fluidised bed
Restart without purging after
reducing conditions
Coal supply failure during reducing to
oxidisingconditions phase
Risk contours around SEVESO plant
Bow tie and barrier analysis
Aim: Identify hazards impacting people, environment and assets and check whether the design of facilities takes them into account.
Risk analysis
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An in-depth understanding of physical phenomena and a wide range of modeling tools allow the assessment of explosions, fires, gas dispersion and cryogenic releases phenomena. Our approaches range from engineering correlations to the use of more advanced CFD tools (FLACS®, AUTOREAGAS®, FDS, KFX®, LS-DYNA®, EOLE®). CFD tools have been intensively used at Technip for more than 15 years.
Through R&D programs and internal developments, HSE experts also worked on creating new methods or improving and adapting current modelling approaches to meet the ever evolving industry needs.
Our services range from spot support on specific safety issues to probabilistic Fire and Explosion Risk analysis (in-house tool ExploRisk). We can also provide dedicated training on hazard modelling and its integration in the overall design process. One of our defining feature is also the ability to deal with non standard /unusual safety issues.
Some examples of calculations
Gas explosion on offshore/onshore facilities Flammable/toxic gas dispersion Pool fires/jet fires in complex geometry Explosive phenomena (BLEVE, vessel burst, high explosive, etc.) Bund overtopping due to catastrophic rupture of storage tank Visibility and escape issues (in-house tool ERIAS) Cryogenic releases (LNG, etc.) behaviour and thermal exchange with substrates (JIP tests validated CFD code EOLE®)
Gas dispersion (FDS)
Offshore gas explosion (FLACS)Cryogenic spill (EOLE)®
Bund overtopping
Pool fire (FDS)
Aim: Provide accurate modeling of hazardous phenomena according to clients stakes, needs, schedule and budget.
Effects modeling: Gas dispersion, cryogenic spillage, fire and explosion
HSE Design Expertise & Modeling6
Many of safety critical elements (structures, equipment and piping) shall be designed or verified against Major Accidental Events or human threat in order to fulfill their function.
The calculation of response of structures and equipment against accidental loads or human threat requires a dedicated approach compared to common load cases (e.g. gravity, operating conditions). Hence common design rules should be modified in order to take into account the magnitude, short duration and low frequency of these loads otherwise the design will be highly conservative or not possible.
We have continuously developed expertise and methods for more than 20 years. Our services range from the simple ones (mostly from defense) to the most advanced 3D Non-Linear Finite Element Analysis (NFLEA) tools such as ANSYS® and LS-DYNA 3D®.
Our integrated approach also gives the opportunity to combine CFD results (fire, explosion, etc.) with NLFEA in order to:
Optimize design, cost and weight Evaluate the integrity of existing mitigation barriers.
Finally as part of an engineering company, we also provide practical and cost effective design solutions and assistance up to implementation/construction phase.
Structural response and optimization
Control room response under external explosion
Domino effects: impact on LPG storage
Existing Steel door exposed to human threat
SAFETY CRITICAL ELEMENT
More complex but more accurate
Simplifiedmethods
Category I
Equivalent staticapproach
Energyapproach
SDOF methods(individual)
Category II
SDOFDesign Charts
SDOFFinite difference
MDOF mehods(global)
Category III
Numerical toolsNLFEA (ANSYS®, LS-DYNA®)
Some examples of calculations:
Oil & Gas: Design or verification living-quarters, control rooms and critical technical buildings
Nuclear: Design of power plants and specific workshops against explosion
Defense/Space: Design of explosive storages and workshops
Local/public authorities: Evaluation of existing residential housing protection requirements.
Verification of safety critical elements such as equipment, piping and structures against accidental loads or human threat
Design optimization by advanced structural analysis
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Accident investigation:
Although unlikely, incidents do occur on existing installations. From potentially lethal accident to multiple fatalities major accident, it is always necessary to identify what went wrong (historically safety regulations have always evolved after a major accident). We have developed a rigourous and methodical procedure to determine accident scenarios.
The investigated accidents include:
Major accidents in a refinery and in an industrial site
Accident with internal casualty and lethal accident
Malfunctioning on a ground flare
Experiments:
Small scale gas explosion test to assess blast reflection factor
Fire test on nuclear containers
Detonation tests on fertilizers
Cryogenic releases tests on carbon steels, cryogenic spill proctection and water, through a joint industry project led by Technip.
Experiments are an opportunity to better understand physical processes involved in:
modeling accidental phenomena.
Our experts have conducted and participated in a significant number of tests outlined below
Tests and accident investigation
Jet fire deflector (test)
Cryogenic jet (test)
HeadquartersTechnip89 avenue de la Grande Armée75773 Paris Cedex 16 France Phone: +33 (0)1 47 78 24 00
CONTACTSHSE Expertise & Modeling Department92973 Paris La Défense CedexFranceJean-Pierre LANGUYPhone: +33 (0)1 47 78 54 23Fax: +33 (0)1 47 78 67 34E-mail: [email protected]
Risk AnalysisOlivier IDDIRPhone: +33 (0)1 47 78 32 61E-mail: [email protected]
Risk Analysis and Cryogenic modeling Mathieu RIVOTPhone: +33 (0)1 47 78 67 01E-mail: [email protected] Structural Optimisation & Experiment Frederic THIALLIERPhone: +33 (0)1 47 78 64 30E-mail: [email protected]
Fire, Gas Dispersion and Explosion modelingAnousone CHAMPASSITHPhone: +33 (0)1 47 78 54 68E-mail: [email protected]
Structural response and testsLaurent PARISPhone: +33 (0)1 47 78 53 85E-mail: [email protected]
www.technip.com
This document is the property of Technip and is not intended to be a binding contractual document. Any information contained herein shall not result in any binding obligation on the part of Technip, or any of its affiliates, and is provided for information purposes only.Technip - Region A Communications - September 2015 - Photo credits: Technip. Front cover: Harry Gruyaert/Magnum Photos.
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