Offshore SafetyOffshore Safety
BYBY
Khaled IsmailKhaled Ismail
Introduction to HSE importanceIntroduction to HSE importance
Protect your production basic elements Protect your production basic elements Workers Workers , Equipment , Material and Environment , Equipment , Material and Environment
HSE regulations is sound barrier between the HSE regulations is sound barrier between the production resources and the workplace production resources and the workplace hazards hazards ..
Accidents and injuries are more expensive than any and injuries are more expensive than any realize.realize.
The production objectives & accident prevention can The production objectives & accident prevention can not be achieved without sound HSE management.not be achieved without sound HSE management.
HSE BARRIERSHSE BARRIERS
Engineering Controls
Administrative Controls
PPE
Engineering
Safety management
Human factors
I need to designbetter engineering
More procedures!
Behavioural modificationwill fix it…(theirs not mine)
Time
Accident rate
The Accident Rate and HSE Controls .
DEFENITIONSDEFENITIONS
HSEHSE : Health , safety and environment : Health , safety and environment
Hazards :Hazards : Source or situation or act with a potential for harm in Source or situation or act with a potential for harm in terms of injury or ill health, damage to property, damage to work terms of injury or ill health, damage to property, damage to work place environment, or a combination of theseplace environment, or a combination of these
Hazard identificationHazard identification : Process of recognizing that a hazard : Process of recognizing that a hazard exists and defining its characteristics.exists and defining its characteristics.
Risk Risk : It is the chance low or high which somebody or something : It is the chance low or high which somebody or something can harmed by the hazard Combination of the likelihood and can harmed by the hazard Combination of the likelihood and consequencesconsequences
Risk assessmentRisk assessment : Overall process of estimating the magnitude : Overall process of estimating the magnitude of risk and deciding whether or not the risk is tolerable.of risk and deciding whether or not the risk is tolerable.
Tolerable riskTolerable risk : Risk that has been reduced to a level that can be : Risk that has been reduced to a level that can be endured by the organization having regard to its legal endured by the organization having regard to its legal obligations and its HSE policyobligations and its HSE policy
Dispatcher The person responsible for the safe loading and
unloading of personnel at the Heli-Pad and Heli-Deck and for ensuring that they are wearing a life jacket and are securely strapped into their seats before take-off.
Heli-Pad The Onshore Helicopter base from where
Helicopters operate.
Heli-Deck The Offshore Helicopter landing area on
platforms and barges.
Tail-Rotor The vertical propeller at the rear of a Helicopter
which is at a height where it can inflict fatal injuries to anyone walking into it.
Life Jacket The life saving equipment which you place your
head through and tie tightly round your waist with tie straps attached. Used only in an emergency or when transferring from ship to platform or vice versa.
Life Vest The 3 piece-foam filled life saving equipment, which
fits over the shoulders and fastens at the chest with 2 metal hooks. Used only for safety when working in exposed areas.
Muster Station Area of platform at the life rafts where you gather
together to await instruction in emergencies.
Tailing Rope light rope attached to a load being moved by crane
operator which allows the swing and orientation to be controlled.
Live Platform An operational platform where there is gas and
hydrocarbons present.
Gamma Ray Source An ionizing source, which produces Gamma Rays, used in
radiography.
Sea-Anchor conical shaped piece of canvas equipment supplied in the
life rafts attached to a line when launched provides a drag, which keeps the raft from drifting away.
OIM Operation Installation Manager
HAZARDS CLASSIFICATONS
Physical hazards
Chemical hazards
Mechanical hazards
Fire hazards
Passive hazards
Biological hazards
HAZARDS EFFECT
Injuries
Occupational illness ( ill health )
Property Loss or Damage
Damage to environment
Reputation
INCIDENTS
ACCIDENTS
NEAR MISS HI POINCIDENT
Hazard Identification techniques
Check - list
HAZOP
FMEA
FTA
ETA
What IF ?TBRA
Risk Assessment Process
Identify theHazard
Record andReview
Control The Risk
Analyze The Risk
Evaluate the Risk
54321
How Is Risk Estimated?
SEVERITYSEVERITY
LIKELIHOODLIKELIHOOD
measure of the frequency at
which an event might occurmeasure of the frequency at
which an event might occur
measure of the adverse effects of an event measure of the adverse effects of an event
LIKELIHOODLIKELIHOOD SEVERITY SEVERITY xx
For an eventFor an event
RISKRISK
Offshore related standards SOLAS : Safety Of Life At Sea Offshore installations ( Safety case ) regulations 2005
( SCR ) Prevention of Fire and Explosion and Emergency
Response regulation 1995 ( PFEER ) Offshore installations and wells ( Design and
Construction ) regulation 1996 ( DCR ) Offshore Installations and pipeline works ( Management
and Administration ) Regulations 1995 ( MAR ) The lifting operations and Lifting Equipment Regulations
1999 ( LOLER ) Health and Safety at Work Act 1974 ( HSWA ) Management of Health and Safety at Work Regulations
1999 ( MHSWR) The Provision and Use of Work Equipment Regulations
1998 ( PUWER )
Offshore Accidents
GENERAL Safety zones around oil and gas
installations , What is a safety zone? A safety zone is an area of 500 m radius established
automatically around all offshore oil and gas installations which project above the sea at any state of the tide. Some sub sea installations also have safety zones . Vessels of all nations are required to respect them. It is an offence to enter a safety zone except under the special circumstances .
The purpose of a safety zone is to protect : the safety of people working on or in the immediate vicinity
of the installation the installation itself against damage. They also provide the
additional benefit of protecting fishermen and other mariners by reducing the risk of collision with the installation
Offshore Platform 500 M Zone Entry Permit
Introduction– The 500 meter Zone permit has been established to
enhance verbal communications between the offshore platform OIM and all vessels, rigs and barges associated with the company Offshore Operations and Projects.
– This will allow the Platform OIM to be aware of the vessels entering his area of responsibility and their intent.
It also allows the OIM to describe any potential safety or operational concerns and local vessel traffic to the Vessel Masters
Offshore Platform 500 M Zone Entry Permit
Objectives The 500 meter Zone permit is intended to
ensure:– Communication links are clearly defined– Current work or operational conditions of the
platform and Vessel are discussed, i.e. isolations, anchor pattern requirements, sub-sea pipeline location, etc.
– Permission is granted before entering the 500 meter zone.
Offshore Platform 500 M Zone Entry Permit
Application of the 500 Meter Permit Before vessel enters the 500 meter Zone
– the Vessel Master completes the zone entry permit by: Describing the vessel name, vessel type , date,
platform, and reasons why to enter. Entering the vessel preparation information Contacting the platform and requesting permission
to enter. As applicable, request for a copy of the Isolation
Confirmation Certificate – ICC, in English. Testing the communication link in the event of
emergencies. Fax the Form to the Platform OIM for his approval
to enter.
Offshore Platform 500 M Zone Entry Permit
The Platform OIM will complete the lower section by: Providing the Vessel Master with a copy of the ICC Describing current operational conditions of the
platform Informing of other local vessels operating in the
area. Verifying communications with the Vessel. Granting permission to enter or decline based on
safety or operational upsets. Faxing the signed form back to the vessel
After entering the 500 meter zone, the OIM and Vessel Master contact each other at a minimum twice per shift.
GENERAL
Safety Systems Shall be considered
Separation and segregation Heating , ventilation and air conditioning Fire and gas detection and alarm systems Isolation , emergency shutdown and blow down Emergency power , communication and lighting . Escape ,evacuation and rescue arrangements .
GENERAL– MUSTERING including public address system and
flashing lights , radios shall be provided to personnel entering areas not covered by public address
– Secondary muster point should be identified in the event of primary muster point is impaired by an event .
– Totally Enclosed Motor Propelled Survival crafts ( TEMPSC )shall be provided with sufficient numbers according to loss prevention design basis .
Lifeboats shall be provided and signage to its locations shall be considered
GENERAL– Life jackets shall be located adjacent to life
rafts .– Safety patrol vessels equipped with firefighting
equipment shall be available .– Specific emergency plan shall be developed and
emergency drills shall be implemented regularly – Emergency escape route drawings shall be
posted at strategic locations – T-Card system shall be available at muster point – Permit to work system shall be implemented for
any construction and /or maintenance activities .
Traveling To / From OffshoreTraveling To / From Offshore
• Traveling by Helicopter All persons required to travel to platforms, barges
or to other facilities by Helicopter shall strictly adhere to the following instructions without question or variance.
Boarding The Helicopter (On shore or Offshore)
– Do not approach the helicopter until instructed to do so by the dispatcher.
– Remove all headwear, caps, safety hats etc. before approaching the helicopter and extinguish cigarettes.
– Approach the helicopter from a forward direction.– Never approach a helicopter from the rear.– Never duck under the tail of a helicopter.– The dispatcher will be in position at the cargo door
Main Rotor
Never go beyond his position. beware of the tail rotor and If you have to go, go to the other side of the helicopter go
round the nose of the helicopter never round the tail. on entering the helicopter immediately put on your life
jacket and when properly seated secure your seat belt. you are now in the complete charge of the captain of the
helicopter and you must obey any instructions he may give during flight.
Tail Rotor
Danger Zone
Appro
ac
h Zo
ne
Hazards from Helicopter Hazards from Helicopter
Hazards from Helicopter Hazards from Helicopter
Leaving The Helicopter
• On landing you must not unfasten your seat belt or life jacket until the indicator lights have been switched off or you have been instructed to do so by the captain of the Helicopter.
On leaving the Helicopter you must never: Go round the tail of the helicopter. Duck under the tail of the helicopter Put on caps, safety hats etc until you have left the
heli-deck. The dispatcher will be in position at the cargo door,
do not go beyond his position and be ware of the tail rotor.
If you have to go to the other side of the helicopter go round the nose of the helicopter never round the tail.
Leave the heli-deck immediately, do not stand on the heli-deck talking to others.
Boarding the vessel (From the Dockside)– Boarding the vessel from the
dockside is a relative easy and safe operation since the vessel is moored against the jetty in calm waters
– Boarding may be simply stepping onto the deck of the vessel or by walking up a gangway. However, if a gangway is not provided the vessel must be moored "Close snubbed" alongside the dock with no space between ship and jetty where persons may fall in.
•All persons traveling to platforms, barges or other offshore facilities shall strictly adhere to the following instructions and other instructions pertaining to the vessel or as may be advised by the captain
Traveling By Supply Boat
Traveling By Supply BoatTraveling By Supply Boat
– There must be a life jacket aboard the vessel for every person sailing on the vessel. All persons must be shown the location of the life jackets.
– All persons, on boarding the vessel, should be advised as to safety regulations and instructions for passengers. i. Emergency procedures
ii. Location of life rafts
• Ring Buoy
•Quick Access?•Line attached?
•Light attached?
• Life raft mount
• Service Date
• Hydrostatic release Date
• Life raft capacity *
General Precautions
• The following precautions apply in all circumstances:-
• Weather and sea conditions must be such that the boat Captain is able to keep the boat close to the
platform and is happy for the transfer to take place
•During the transfer, hands should be kept free. Baggage etc should be handed across after the
transfer is complete
•A life jacket must always be worn during the transfer and while on the boat landing platform
•Swing ropes must be in good condition. At least 3 swing ropes should be provided
•Particular care should be taken to keep feet and legs clear of the platform landing face so as to avoid being
trapped by the boat bumping against the platform
Supervision
•The transfer should be done under close supervision from the area
authority supervisor and/or a representative from the boat crew.
•Boat Captain -The Boat Captain will prohibit transfer if he is not satisfied it
can be undertaken safely
•Any broken or missing safety equipment such as gratings or
handrails must be reported immediately to the area authority of
the platform or the boat captain.
DISEMBARKING AND EMBARKING AT A BARGE
Contractors/subcontractors personnel require to disembark to or embark from a barge. The method of disembarkation and embarkation will depend entirely upon the weather condition and sea state, however, this must never be attempted without wearing a life jacket and someone standing by to render assistance or raise the alarm should anyone fall overboard.
THIS IS A VERY DANGEROUS OPERATION AND SHOULD ANYONE FALL BETWEEN THE VESSEL AND THE BARGE HE COULD BE SERIOUSLY INJURED OR CRUSHED TO DEATH BETWEEN THE TWO VESSELS.
Disembarking and embarking (at the platform) Weather conditions and the sea state will dictate the method of
disembarkation from the vessel to the platform and embarkation onto the vessel from the platform.
A. In calm seas the vessel shall come along side the boat landing of the platform and hold station tight against the fenders
B. All personnel shall wear a life jacket and disembark onto the boat landing. Platform HSE engineer or persons delegated shall stand by on the boat landing to give assistance as required.
C. Embarking from the platform in calm seas will be done in reverse of a, and b, of this section.
D. When weather does not permit the vessel to come alongside the boat landing, embarkation and disembarkation shall be by personnel basket. All persons shall wear a life jacket during this operation.
WARNING: Never disembark or embark over the stern of the vessel since, should you fall overboard you will be sucked into the propellers and killed.
Cranes and Personnel Baskets Numbers of recorded personnel transfer basket incidents
are low, but basket transfers to or from offshore installations are considered a high-risk operation.
Personnel baskets should only be used in exceptional circumstances, ie emergencies or when transfer is essential and it is not practicable to gain access by less hazardous means.
All personnel baskets must possess a current thorough examination report undertaken by a competent person in accordance with LOLER regulation 9.
The safe working load (SWL) should be clearly marked on all personnel baskets, together with instructions for their use.
Procedures should include the methods of maintenance and storage together with instructions related to inspection before use.
'Freefall' or non-powered lowering should not be adopted when personnel are carried in baskets.
The following minimum lifting practices are recommended for all cranes assisted personnel transfer net devices:
Any offshore facility making personnel transfers with a personnel carrier should have a written procedure for this task.
A pre-use inspection should be conducted prior to any personnel carrier transfer.
Cranes assigned to personnel lifting duties should be suitable for this purpose per relevant API spec.
Crane operators assigned to personnel lifting duties should be certified and competent to perform this task per 46 CFR 109.527.
A tag line should be affixed to all personnel carriers. Crane hooks used for personnel transfers must have a
positive locking Latch
Cranes and Personnel Baskets
Cranes and Personnel Baskets Only approved personnel carriers should be used
for lifting personnel per API RP spec. Personnel carriers should not be used as a
workbasket or cargo net. Before any attempt is made to lift personnel with a
carrier, clear instructions should be given to all persons involved.
No person suffering from acute sea sickness or vertigo shall be transported by personnel carrier.
Any individual has the right to refuse transfer by a personnel basket.
Cranes and Personnel Baskets All personnel riding on a personnel carrier should stand on
the outer rim, evenly spaced, and adjacent to a sidewall opening in the netting, facing inward. Passenger forearms should be interlocked on inside of sidewall netting.
If crane operator’s view of the primary signalman is obstructed, the personnel carrier should not be moved until alternative communication or signal devices are placed in service.
A designated primary landing zone should be marked in a safe area as determined by a Job Hazard Analysis (JHA).
When transferring personnel, the personnel carrier should be lifted only high enough to clear obstructions. It should then be gently lowered to the deck.
The crane operator may refuse to lift any person who does not comply with the operator’s instructions.
.
Cranes and Personnel Baskets Personnel will be transferred by basket in greater
safety and with less apprehension if they have received training in the techniques involved
Transfer operations should be conducted during daylight hours. However, the OIM may agree night-time transfers provided that the circumstances requiring transfer by basket are exceptional and the operation is conducted under their personal direction.
People being transferred should wear life jackets, suitable clothing and immersion suits. All life jackets should be equipped with suitable means of illumination during night transfers. Appropriate rescue and recovery arrangements must be in place (eg standby vessel equipped with a fast rescue craft ready to launch).
Responsibilities of personnel basket transfer The Offshore Installation Manager ( OIM )should:
– be satisfied with the fitness, training and briefing of the people to be transferred;
– be content with the suitability of the vessel; – know the limitations of visibility and sea state; – be aware of the limitations on transfer by night; – be aware of the suitability of the crane for personnel transfer; – check the wind speed limitations on crane operations; – establish and maintain communication with the Master of the
Vessel; – be satisfied with the competence and experience of the crane
operator; – ensure appropriate emergency precautions are in place, eg notify
the standby vessel before the transfer; be satisfied with the inspection and testing of the
personnel basket
Responsibilities of personnel basket transfer
The Master of the Vessel should confirm to the OIM that:
– the transfer has been accepted and the procedures understood;
– the vessel has a satisfactory station keeping capability;
– the deck crew have been fully briefed;
– the people to be transferred have been adequately briefed and are fit to be transferred.
Responsibilities of personnel basket transfer
The crane operator should establish that: – the crane is fully operational; – the wind speed is satisfactory for safe
operation; – the requirements and procedures have been
understood; – the banks man has an unobstructed view and
the transfer areas are clear; – adequate communications have been
established with the vessel Master and banks man.
Responsibilities of personnel basket transfer
The Banks man and Deck Supervisor should ensure that:
– the transfer procedure is understood; – they can be clearly identified as banks man and deck
supervisor; – the personnel basket is correctly used; – the individuals are fit to transfer and have understood
the procedures; – proper communications have been established;
– they each have a full view of the transfer area.
ON THE PLATFORM On arrival at the platform, site personnel shall report immediately to
platform manager and / or HSE manager who will carry out the following :
a. Conduct each person to his accommodation. b. Instruct the arriving site personnel on the emergency procedures and
direct them to their life raft/muster station. c. Familiarize everyone with the escape routes and the location of the
first aid room. All site personnel shall sign the log book which will show their
presence on the platform and that they have received HSE induction. On leaving the platform, all site personnel shall sign off in the logbook.
This is of the utmost importance since, in the event of an emergency, rescue services must know how many persons were on the platform, how many have been accounted for and how many are still on the platform.
LIVES MAY BE LOST SEARCHING FOR SOMEONE WHO HAS GONE ONSHORE BUT WHO DID NOT SIGN OFF IN THE LOGBOOK.
Mandatory Instructions On The Platform The adherence to the following instructions is mandatory and
there shall be no relaxation of these requirements by anyone at any time.
All persons whilst on the platform shall wear as a minimum: Hard hat, safety goggles and safety boots. Other personal safety equipment such as ear protection, safety harness shall be worn as and when required.
All persons working over the side of the platform, under Cellar decks, under the bridge or on the flare boom or other exposed areas shall only do so in pairs, i.e. one man is on look out in case of accidents or incidents . Whilst working in these positions they shall wear a safety harness securely fixed to a non movable part of the structure and shall wear a life vest.
Where men are working at a height without proper scaffolding they shall wear a safety harness secured to a non-movable part of the structure. These men shall also work in pairs or have someone standing by in case of accidents.
Mandatory Instructions On The Platform
During crane operations the operator shall be directed at all times by the rigging foreman or a person designated by him. For greater safety radio communication shall be set up between the crane operator and rigger in charge.
All items, loads etc. being moved by crane shall have a "tailing" rope attached to control the swing and orientation of the load. This includes the personnel basket.
Transfer of persons to and from a supply vessel and the platform shall be by personnel basket only. RIDING WITH A LOAD IS FORBIDDEN.
If a load must be lifted over the head of other persons at workstations then the rigger in charge must warn those persons before lifting the load.
Mandatory Instructions On The Platform
Smoking is not permitted on a live platform except in specific areas such as within the accommodation module.
No matches, cigarette lighters, or smoking requisites are permitted out with the smoking areas. Any person found in possession of any of these within a no smoking area shall be immediately removed from the platform and recommendation for his dismissal made to higher management.
In any event he will not be permitted to return to the platform.
Work is not permitted on a live platform without the relevant hot or cold work permit being in force.
Gamma Ray sources may not remain permanently on the platform. It must be removed as soon as possible after use.
Offshore Cranes With guidance from the crane manufacturer or a
competent person, duty holders should; review the design of their cranes to ensure they
have identified whether any single line components exist in hoisting and braking systems. Techniques such as 'failure mode effects analysis' should be employed;
where such components are identified, ensure that the maintenance and inspection activities undertaken on these components are sufficient
verify that the 'competent person' who undertakes the 'thorough examination' of the crane thoroughly examines the hoisting and braking systems
Offshore Cranes
Verify that the 'competent person' who undertakes the 'thorough examination' of the crane thoroughly examines the hoisting and braking systems
ensure the scope of the thorough examination, the scope of the inspection scheme and the maintenance activities relating to all hoisting and braking systems (e.g testing, inspection, component replacement intervals etc)
Offshore Helidecks The net needs to be strong enough to support the
weight of any person who may inadvertently stand on it;
The offshore standards ( CAP) increased the drop test weight from 75 kg to 100 kg (dropped from a height of 1 m);
the adequacy of examination and test procedures to identify possible corrosion and deterioration of the whole of the net, its attachments and supports due to wear and tear, weathering, ageing etc (BS EN ISO 9554:2005 provides guidance on discard criteria);
ensure a suitable net replacement schedule is in place.
EMERGENCIESClassification Of Emergencies
Minor fire Major fire Minor gas leak ( Combustible or Toxic ) Major gas leak ( Combustible or Toxic ) Minor oil leak ( Hydrocarbons ) Major oil leak ( Hydrocarbons ) Chlorine gas leak Man Over Board Marine Vessel Collision
EMERGENCIES
Main Concerns during major accidents Pool fires BLEVE ( Shutdown , Isolation , Activation of
fire cooling and extinguishing systems and evacuation )
Jet fires Un-Ignited gas release or H2S Gas cloud
EMERGENCIES Emergencies come under the following headings
and descriptions. LOCAL EMERGENCIES ( Level 0 ) A local emergency can be a small fire that does
not threaten life or damage to the platform but people must be alerted to stay out of that area till the emergency is over.
GENERAL EMERGENCY ( Level 1 & 2 ) A general emergency is a situation where there is
a possibility of danger to lives but not to such a degree that evacuation may be required.
However, this may call for the crew to standby at their muster station and await instructions. Everyone must wear a life jacket
EMERGENCIESEMERGENCY EVACUATION ( Level 3 )
An emergency evacuation is a situation where there is imminent danger to life and damage to the platform. This could be caused by a fire getting out of control, an explosion or a wellhead blow out where everyone must evacuate the platform as quickly as possible.
However, this must be done in an orderly manner to avoid panic and injury to personnel.
Where there is time and the loudspeaker system is operating and manned then the following instructions will be given in Arabic and English.
a.Go to your muster station. b.Launch life rafts. c.Take to the rafts.
EMERGENCIES There must be a responsible person nominated to be in
charge of each life raft who shall activate these instructions. He will be in command of the raft and personnel until rescued.
Where the loudspeaker system is not operational and only the abandon ship signal is given everyone will go to their muster station and the person in charge of the life raft will be responsible for getting his crew off the platform.
When everyone is on board the life raft the rope attaching it to the platform must be cut to allow the raft to drift free.
Once the raft is clear of danger from the platform the sea anchor that must be launched, which will keep the raft on station till help arrives.
There is other SOLAS (Safety of Life at Sea) equipment in the raft and the person in charge must ensure that these are used properly
Man Over Board ( MOB )
A major concern of maritime A major concern of maritime operations is recovering operations is recovering personnel who have fallen personnel who have fallen overboard and safely overboard and safely transferring them from the transferring them from the water to the deck of a boat or water to the deck of a boat or hatch of a lifeboat. Several hatch of a lifeboat. Several recovery systems are recovery systems are demonstrated.demonstrated.
Recovery should not exceed 6 Recovery should not exceed 6 to 8 minutesto 8 minutes
Man Over Board
If you observe Man Over Board
- Throw out the nearest lifebuoy - Shout “ Man Over Board “- Dial the emergency number or call by radio
control room operator - Describe the situation- Keep eye contact with the person
BOUTAKOV (WILLIAMSON) MANOEUVREBOUTAKOV (WILLIAMSON) MANOEUVRE
EXPANDING SQUARE SEARCH ( ESS )EXPANDING SQUARE SEARCH ( ESS )
Emergency Control Team
Emergency Manager ( Operation Manager ) Emergency Coordinator ( HSE Manager ) Incident Post Commander ( Senior Operation
Supervisor ) Assistance Services Manager Fire Chief ,fire fighting and rescue team Medical and first aid team Maintenance team Security Manager Control Room Operator
Hazard Detection System
Smoke detection and alarm systems Heat detection and alarm systems Gas detection and alarm systems H2S detectors Hydrocarbon detectors Chlorine gas detectors Fire / Flame detectors and alarm systems Manual alarm call point ( MACs)
Fire Fighting System and Equipment
CO2 ,FM200 Extinguishing system Fire water system ( Deluge system ,
Monitors , Hydrants ) Foam system Fire fighting boats Portable and wheeled fire fighting
equipment
Escape and Evacuation Equipment
Life Boat -Totally Enclosed Motor Propelled Survival Craft ( TEMPSC)
Inflatable Life Rafts
Inflatable Life Jackets
Life buoys
Platform Safe Operation Procedure ( SOP )
The following are safe operation procedure requirements
1.0 Steps for each operating phase Initial startup , normal operations ,temporary
operation , emergency shutdown , emergency operations , normal shutdown .
2.0 Operating Limits - Operation deviations and consequences - Steps to correct or avoid the deviations 3.0 Safety and health considerations Hazards presented by material involved in the
process Precautions to prevent exposure
Permits-to-WorkPermits-to-Work
Part of a safe system of workPart of a safe system of work
The objective of the permit to work system The objective of the permit to work system is to ensure that written permission and is to ensure that written permission and authorization is given to carry out a defined authorization is given to carry out a defined work which is potentially hazardous and work which is potentially hazardous and that all possible measures are taken to that all possible measures are taken to maintain the safety of personnel , maintain the safety of personnel , equipment and environment I all areas of equipment and environment I all areas of operation operation
Permits-to-WorkPermits-to-Work Area Authority (AO) The area authority shall be person
delegated by site manager and competent in process isolation and de-isolation within his area of responsibility ( Operation team leaders )
A list of area authorities shall be posted and updated in the control room , except drilling rigs ( By drilling Mgr ) and Barges ( By senior barge engineer )
HSE Manager shall ensure that those persons receive the necessary training .
Area Authority Responsibilities Identifying the hazards and specifying
precautions Ensuring that work site inspections are
undertaken before , during and after the performance of every task
Issuing permits and related isolation certificates
Ensuring handover take place at shift change
Maintaining a display of all permits and certificates in use in the area
Permits-to-WorkPermits-to-WorkPerforming Authority ( PO ) - Supervisor or foreman in charge of the
work .The performing authority shall be trained and hold a performing authority card for the type of work being conducted
- The performing authority will normally be expected to remain on site but if he has to leave the work location , he must designate another authorized person as a performing authority
- All permits must be displayed at work site
Performing Authority Responsibilities Compliance with the conditions and precautions specified
on the permits Adequately briefing his team on the conditions and
precautions . Ensuring that no other activities are performed except that
included in the work permit Immediately informing the area authority of any event
which might impact on the safe performance of the task Ensuring adequate hand over take place at shift change On completion or suspension of the task , ensuring that the
work team have been withdrawn and the work site left in a safe and clean condition
Conducting regular inspection of the work areas to ensure compliance of the permit
Permits-to-WorkPermits-to-Work
Isolation Authority ( IO )He shall be responsible for isolation and de-
isolation in accordance with company isolation procedures and that the isolation confirmation certificates ( ICC ) is issued .
Immediately informing the area authority of any event which might impact the security of isolation
Permits-to-WorkPermits-to-Work
Control Room operator ( CRO )
Inhibition and re-instatement of the detection and protection system in accordance of requests made by AO on the permit
Immediately inform the AO of any event which might impact on the safe performance of the task or on the associated procedure .Maintaining up PTW and Certificates register .
Permits-to-WorkPermits-to-WorkField Safety EngineerField Safety Engineer He has no formal signing role on the PTW .He has no formal signing role on the PTW . He will be available to advise , inspect and He will be available to advise , inspect and
audit audit At the permit planning meeting he can advice At the permit planning meeting he can advice
on procedures and precautions to be followed on procedures and precautions to be followed for tasks to be carried safely for tasks to be carried safely
While work proceeds he can inspect equipment While work proceeds he can inspect equipment and procedures to ensure that a safe system of and procedures to ensure that a safe system of work is being implemented .work is being implemented .
Types of Work Permits
Hot work permit
Cold work permit
Confined space entry permit
Radiography work permit
Activities Covered & No permit Required
Routine production operations Routine drilling operations Production and flow testing operations Wireline operations Routine material handling Routine heli-deck operations ( refueling ) Routine domestic activities ( Catering , etc.) Cold works inside workshops
Equipment required ICC
The equipment which may require an isolation confirmation certificate are :
Process fluids and pressure Mechanical drive Control systems Source of electricity
Permits-to-WorkPermits-to-WorkA work permit becomes invalid if : Plant , well or condition of process changes at
any time The permit is cancelled for any reasons by AO The method of isolation is disturbed The special instruction written on the permit are
not observed A warning of an emergency is given Work is stopped for unforeseen circumstances
( Acts of God ) Any change in the specified work requirements
occurs Period of validity expires
Work Permit Distribution
Original - Performing Authority
First copy – To be posted in the Control room
Second copy – Area Authority
Third copy – Person responsible for the work
Isolation Methods
Positive Isolation , such as Spool removal ,spade isolation ( Is required for hot work , long duration isolation more than one week )
Double Block and Bleed ( DBB ) Consists of closure of two block valves in
series with an intermediate bleed valves Single Valve Isolation ( SVI ) Consists of closure of a single block valve ,
additional closing several valves can improve the security of isolation
LOCKOUT AND TAGOUT PROCEDURESLOCKOUT AND TAGOUT PROCEDURES
Step 1Step 1: : Preparation and notificationPreparation and notification Before servicing or installing equipment , you must be able to answer Before servicing or installing equipment , you must be able to answer
the followingthe following questions :questions : -- What is the type of energy source on the equipment ?What is the type of energy source on the equipment ? -- What are the potential hazards related to the energy source?What are the potential hazards related to the energy source? -- What steps are necessary to control the energy source?What steps are necessary to control the energy source? -- Who needs to be notified that the equipment will be shutdown Who needs to be notified that the equipment will be shutdown
for service?for service? Once these questions have been answered notify all affected Once these questions have been answered notify all affected
employees that a lockout procedure is about to being (and that the employees that a lockout procedure is about to being (and that the equipment will be) shutdown for service.equipment will be) shutdown for service.
LOCKOUT AND TAGOUT PROCEDURESLOCKOUT AND TAGOUT PROCEDURES
Step 2: Shutdown the equipment : Follow work procedure and/or
manufacturer's instruction for shutdown. be aware that some equipment has special shutdown procedures (e.g. computer controlled equipment) make sure all energy sources have been located and shutdown (some machines have more than one power source all must be shut down).
LOCKOUT AND TAGOUT PROCEDURESLOCKOUT AND TAGOUT PROCEDURES
Step 3: ISOLATE THE EQUIPMENT Equipment should be isolated by : Shutting of the main breaker or control switch . Closing valves Disconnecting process lines Pulling plugs
Note : for complex machines or equipment , refer to manufacturer's control diagram
detailing the locations of all isolation points , including breaker panels , switches , valves, ..etc.
LOCKOUT AND TAGOUT PROCEDURESLOCKOUT AND TAGOUT PROCEDURES
Step 4: Attach the lock and tag
Each authorized employee who is performing maintenance is responsible to inform lockout and tag out authority for locking and tagging the equipment.
Each employee whose duties require them to work on equipment must provided with their own lock and key. If more than one employee is involved in maintenance, multiple locking devices must be used to allow each maintenance employee to lock and tag. This prevents one employee from accidentally starting up the equipment while another employee is still working.
LOCKOUT AND TAGOUT PROCEDURESLOCKOUT AND TAGOUT PROCEDURES
Step 5: Release any stored energy
After locking and tagging equipment, you must make sure that any stored energy on the equipment is released this is done by :
Inspecting equipment to make sure all parts have stopped moving. Bleeding electrical capacitance (stored charge).
Venting or isolating pressure or hydraulic lines from the work area, leaving vent valves open.
Draining tanks and valves.
LOCKOUT AND TAGOUT PROCEDURESLOCKOUT AND TAGOUT PROCEDURESStep 6 : Test equipment to verify that all energy has been
released and controlled:
To make sure that all kinetic and stored energy has been released or controlled , you must :
Clear personnel from danger area. Test the start switches on the equipment to confirm that all
power sources have been shutdown and switches can't be moved to the "on " or " start" position.
Secure all blocks, clamps, chains and cribs. Secure blanks and make sure they are not leaking. Check electrical circuits to make sure that voltage is at
zero. Once you have confirmed that all energy sources have
been controlled and locks and tags are in place, it is safe to begin the maintenance work.
LOTO Video
SAFE START-UP PROCEDURESSAFE START-UP PROCEDURES
Once the maintenance or installation is completed , the equipment can be re-started , these are the procedures to follow for safe start-up.
STEP 1, PREPARING FOR START-UP You must sure that the area is safe for restart by Making sure all equipment components are fully
assembled and operational. Removing all tools from equipment and the work
area. Reconnecting all pressure tubing , pipes and hoses
and closing all valves . Clearing the work area from all personnel
SAFE START-UP PROCEDURESSAFE START-UP PROCEDURES
STEP 2: REMOVE LOCKOUT DEVICES AND TAGS Each lockout device and tag must be removed by
employee who put it on except in emergencies.
STEP 3: NOTIFY AFFECTED EMPLOYEES Notify all personnel in the area that maintenance,
servicing or installation activities is complete, lockout and tag out has been removed and the machine and equipment is ready to be restarted.
Once all the above mentioned three steps are completed , it is safe to start-up the equipment.
SIMOPSSIMOPS
Description of Restrictions on ActivitiesDescription of Restrictions on ActivitiesR1C3R3C1Hot work not permitted on vessel or pipe work connected to vessel due to potential
welding fumes
R1C7R7C1If firewater / F&G systems not available
R3C7R7C3Availability of breathing air supply to be considered
R1C8R8C1Potential fire risk
R2C10R10C2R3C10R10C3Work not permitted on, or adjacent to system under pressure
R4C10R10C4R5C10R10C5
R6C10R10C6R8C10R10C8
R4C11R11C4R5C11R11C5
R6C11R11C6R8C11R11C8
R9C11R11C9R11C12R12C11Radio channels may be reserved for these activities
R9C12R12C9
R10C11R11C10Restrictions if systems are adjacent
R10C12R12C10System under test to be segregated from operational system
R1C13R13C1R2C13R13C2Access to worksite restricted to permitted personnel
R3C13R13C3R4C13R13C4
R5C13R13C5R6C13R13C6
R7C13R13C7R8C13R13C8
R9C13R13C9R10C13R13C10
R11C13R13C11R12C13R13C12
R2C12R12C2R4C12R12C4All activities in operational area subject to operational PTW system
R5C12R12C5R6C12R12C6
R8C12R12C8R10C12R12C10
Fire TriangleFire Triangle
Explosive lim
it
LEL HEL
Gas concentration
s diluted
Concentration
Explosion mixture
Explosion mixture diagram
Hot Tapping - General considerations
Hot-tapping is potentially hazardous a decision on whether hot-tapping is to be applied shall be based on careful considerations including at least the following aspects:
- safety;- condition of the pipe/equipment under consideration;- configuration of the connection;- code/statutory requirements;- operating conditions;- technical capabilities of the drilling equipment under the
operating conditions (pressure, temperature, nature of product);
- Related welding problems;- environmental/pollution aspects.
Hot Tapping Work Procedure
Procedures shall be prepared for all aspects of the physical work, including items such as:
- site preparation;- pipe preparation;- welding;- NDT;- hydro-testing;- drilling/perforation;- reinstatement.
Hot Tapping – Safety considerations
- access to and around the hot-tap location for personnel and the welding and hot-tapping equipment, including requirements for scaffolding;
- roles of dedicated personnel and their responsibilities on site;
- monitoring of operating conditions (flow rate, pressure, welding temperature) and gas levels;
- foreseeable hazards and contingency actions;- communications on site;- warning system and emergency shutdown;- means of escape;- fire fighting equipment and personnel;- safety equipment and services;- first-aid facilities.Emergency procedures shall also be specifically addressed .
H2S & Toxic Gases SafetyH2S & Toxic Gases Safety
Ceiling Limit )TLV – C(
Short – Term Exposure Limit
)TLV – STEL(
Time Weighted Average
)TLV – TWA(
Threshold Limit ValueTLV
Hydrogen Sulfide HHydrogen Sulfide H22S ( Toxic Gas )S ( Toxic Gas )
Hydrogen Sulphide Characteristics:
Hydrogen Sulfide (H2S) is a colorless gas that smells like rotten eggs.
Hydrogen sulphide is called ” sewer gas”
hydrogen sulfide is highly poisonous.
It is found in petroleum and natural gas and sometimes present in ground water.
Hydrogen Sulfide H2S ( Toxic Gas )Hydrogen Sulfide H2S ( Toxic Gas )
LEL UEL
AT the LEL point, 100% will show on the gas monitor. This tells you that you are in the explosive range of the gas. The range of methane gas is from 5% to 15%. H2S gas has a range of 4.3% to 44%. If the concentration is below the LEL the mixture is to lean to burn, if it is above the UEL it is to rich to burn.
H2S
Methane
UEL
20
Respiratory Protective Equipment
SCBA - 30 minute, Self Contained Breathing Apparatus
SABA – Supplied Air Breathing Apparatus
10 Minute Escape Packs
Compressed Airline Breathing Apparatus – cascade system used with wireline and well servicing operations.
Note: It is your responsibility to familiarize yourself with the SCBA at your location.
23
Health Effects:
Hydrogen Sulphide is a potent chemical asphyxiant,
combining with hemoglobin and thus rapidly stopping
oxygen from access to cellular metabolism (just like gases
such as carbon monoxide and hydrogen cyanide). Indeed
H2S is arguably as toxic as Hydrogen Cyanide HCN.
Hydrogen Sulphide very foul smells but very quickly
paralyses the sense of smell, and can go on to overcome
the victim and eventually cause death
Hydrogen Sulphide is also an irritant of mucous
membranes including the eyes and respiratory tract
Hydrogen Sulfide H2S ( Toxic Gas )Hydrogen Sulfide H2S ( Toxic Gas )
How Hydrogen Sulphide is Formed? Hydrogen sulphide is formed as a result of decomposing animal
manure.
Properties of Hydrogen Sulphide:
• Colorless gas
• “Rotten-egg” odor (low concentration less than 1 ppm).
• Approximately 20 % percent heavier than air, with a specific
gravity of 1.19.
• In concentrations of 150 ppm or greater ,the ability to smell the
gas is lost instantaneously and relying on sense of smell is
very dangerous.
Hydrogen Sulfide H2S ( Toxic Gas )Hydrogen Sulfide H2S ( Toxic Gas )
Chemical and Physical Information:
Chemical Identity:
• Chemical Formula H2S(hydrogen sulphide)
• Odour Rotten Egg (low concentration)
• Boiling Point 600 C
• TLV- TWA 10 PPM
• TLV- STEL 15 PPM
• Ceiling 20 PPM
• Specific Gravity 1.19
• CAS registry 7783-06-4
• Hydrogen Sulfide H2S ( Toxic Gas )Hydrogen Sulfide H2S ( Toxic Gas )
Physiological Response of Adult Humans to Hydrogen Sulphide: Effect of H2S (10,000 parts per million = 1 percent)
1 ppm - - - Can be smelled. 10 ppm - - - Occupational Exposure Limit ( TLV ) for 8 hours 15 ppm - - - STEL , allowable for 15 minutes of exposure. 20 ppm - - - Ceiling . At this level workers must wear appropriate
breathing apparatus. 100 ppm - - - Loss of sense of smell in 2 to 15 minutes. Possible
headache, nausea, throat irritation. 200 ppm - - - Sense of smell lost rapidly. Burns eyes and throat. 300 ppm - - - Immediately Dangerous to Life and Health (IDLH) level.
Positive pressure breathing apparatus required. 500 ppm - - - Loss of reasoning and balance. Respiratory disturbances in
2 to 15 minutes. 700 ppm - - - Immediate unconsciousness. Death will result if not
rescued promptly. 1000 ppm - - - Causes immediate unconsciousness. Causes loss of
control of bowel and bladder. Breathing will stop and death will result if not rescued promptly. Immediate resuscitation needed.
• Hydrogen Sulfide H2S ( Toxic Gas )Hydrogen Sulfide H2S ( Toxic Gas )
Radiation HazardsRadiation Hazards
Gamma ray isotopes Gamma ray isotopes
( Exposure Hazards )( Exposure Hazards )
X-ray Machines X-ray Machines
( Exposure Hazards )( Exposure Hazards )
Naturally Occurred Radioactive Material Naturally Occurred Radioactive Material
( NORM )( NORM )
( Exposure & Contamination Hazards )( Exposure & Contamination Hazards )
Radar Video Surveillance (RVS) Radar Video Surveillance (RVS) is a key element in
guarding against potential attacks
RVS provides 24/7 vigilance that is not dependent on humans, while enabling early detection and advance warning of approaching vessels within the Area Of Interest (AOI). This allows personnel to implement countermeasures such as:
Sound alarms on the platform Alert the company and other counter-threat support (on-
shore, Coast Guard, etc.) Illuminate the platform and the suspected craft Initiate other response procedures
Security CCTV cameras for platform monitoring
Security CCTV cameras have two important roles in an overall security plan for an offshore platform. The first role is assessing any detected alarm and validating the root cause of that alarm. The second role is that surveillance.
Platform owners/operators should consider providing CCTV camera coverage for the following areas:
Main accesses to the platform structure Vulnerable and critical areas not under direct supervision Radio room IT main server room Main electrical room Access points between decks
Hazards Of Pressure TestingHazards Of Pressure Testing
Hazards Of Pressure TestingHazards Of Pressure Testing
Hot BoltingHot bolting is defined as the sequential removal and
replacement of flange bolts and nuts, one at a time, on piping or process systems containing pressurized fluids (i.e., oil, water, gas, air, etc.).
Precautions: Make sure the following conditions are met (or are not
applicable) before proceeding: The flange to be “hot bolted” must have a minimum of
eight (8) bolts. The operating pressure must be less that 75% of the
maximum allowable working pressure (MAWP) of the piping or process system to be hot bolted. For example, if the MAWP is 1440 PSI, the operating pressure must be less than 1080 PSI (1440 x .75).
The process temperature must be between 0F and 160F.
Hot Bolting
Hot Bolting- Precautions All flanges and associated system equipment must be
adequately supported and not subject to excessive vibration, pulsation, or shock/impact loading.
The gasket area must not show signs of leakage and the piping, flanges, and bolts and nuts must not be significantly corroded (i.e., to the point of affecting the integrity of the metal).
Existing flange bolts/nuts must be the correct size and grade and must be tight.
No simultaneous hot work operations are being conducted in the near vicinity; a leak may develop during hot bolting.
The proper tools and materials needed to complete the work are available and in good condition: properly-sized hammer wrenches and hammer; properly-sized bolts and nuts.
Hot Bolting - Precautions
Use gas detector to sniff our area to ensure gas-free before hammer-striking wrenches.
Know that hammer-striking may result in flying fragments. Know that all personnel must be aware of and stay alert to hammer-
swinging. If air saws required for procedure, complete “non-welding hot work
permit”. If possible for someone to walk under work site, install caution tape
to prevent entry. Place pollution protection under work site; leaks may occur from
flange. Communicate with other contract personnel; communicate what you
are doing and identify what they are doing. If applicable, check fuel and oil in air compressor to ensure it will not
stop or be damaged during procedure. Ensure air hoses are out of walkways and work areas; use pins and
whip checks if needed.
Hot Bolting Procedure
Procedure:1.0 Verify ALL conditions identified in “Precautions”
section are met (or are not applicable); if ANY not met, STOP and add necessary steps to JSA to make process safe.
CAUTION : Wipe hammer handle if wet or contains foreign material. If possible, use mechanical device to hold wrench when striking with hammer. Keep fingers and hands out of the way. Wear gloves, safety glasses at all times.
Hot Bolting Procedure
2.0 Using proper sequence from diagram below, – carefully and safely loosen one nut on first bolt using
hammers and hammer wrenches, – use impact wrench to complete removal of nuts, – use hammer to beat bolt out; if necessary, use cold
cut saw to cut bolt to complete removal, and– replace new bolt and nuts and carefully and safely
tighten nuts using impact wrench and/or hammers and hammer wrenches.
Hot Bolting Procedure
3.0 Carefully and safely repeat step #2 until all old bolts/nuts are replaced with new ones.
CAUTION Maintain communications with the customer representative regarding “precautions”; if a significant change occurs or leaks are detected, STOP the “hot bolting” process; correct all unsafe conditions before continuing.
4.0 Once all bolts and nuts are replaced, conduct final tightening following same number sequence.
NOTE If leak develops and absorbent pads are used to collect liquids, properly dispose in DOT drums. Place all scrap iron into scrap iron basket and all paper and plastic waste in trash dumpster.
5.0 Pick up the tools and materials and return them to their proper storage locations. Leave the work area cleaner than you found it.
The basic elements of an effective The basic elements of an effective management of change systemmanagement of change system
1.0 Responsibilities .1.0 Responsibilities .2.0 Written procedures.2.0 Written procedures.
2.1 Initiation of change .2.1 Initiation of change .2.2 Review and approval .2.2 Review and approval .2.3 Interface with document control system , training and 2.3 Interface with document control system , training and physicalphysical modificationmodification
2.4 Pre2.4 Pre-- startup safety review and approval.startup safety review and approval.2.5 Commission of change.2.5 Commission of change.2.6 Close out .2.6 Close out .
3.0 Training .3.0 Training .4.0 Document Control.4.0 Document Control.5.0 Assessment .5.0 Assessment .6.0 Corrective action6.0 Corrective action7.0 Records.7.0 Records.
E-mail : [email protected] : [email protected]
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