Thursday 27 September 2012

Work at height, rescue and suspension trauma

Introduction and Legislation

Lots of work at height can be, and is, carried out safely. In many other cases, such work is not carried out safely, but people get away with it and come to no harm. However, when things do go wrong with work at height, the consequences are often severe and are sometimes fatal.

The legislative approach to work at height is relatively simple and straightforward and, unsurprisingly, is based on risk assessment. The Work at Height Regulations 2005 are concerned with working safely at heights by:

·         avoiding work at height, where it is reasonably practicable to be do so

·         preventing falls from height, where it is reasonably practicable to be do so

·         mitigating the effects of falls from height, where it is reasonably practicable to be do so

Regulation 4 of the Work at Height Regulations 2005 deals with organisation and planning:  Regulation 4(1) states that: every employer shall ensure that work at height is - 

(a) properly planned;

(b) appropriately supervised; and

(c) carried out in a manner which is so far as is reasonably practicable safe, and that its planning includes the selection of work equipment in accordance with regulation 7

Regulation 4(2) states that: Reference in paragraph (1) to planning of work includes planning for emergencies and rescue.

Avoiding and minimising the risks from work at height


Regulation 6(1) requires the employer to carry out a suitable and sufficient assessment of the risks arising from any work at heights:

“In identifying the measures required by this regulation, every employer shall take account of a risk assessment under regulation 3 of the Management Regulations.”

There will be no need for a specific risk assessment dealing with working at height if this subject has been dealt with fully and satisfactorily in the risk assessments already completed for compliance with Regulation 3 of the Management of Health and Safety at Work Regulations 1999.  For many employers, it will be necessary to revisit these assessments or to complete new “working at height” risk assessments to ensure compliance with the new regulations.

Regulation 6(2) places a duty on the employer to avoid the need for working at a height where it is reasonably practicable to do so:

“Every employer shall ensure that work is not carried out at height where it is reasonably practicable to carry out the work safely otherwise than at height.”

Work must be carried out in a manner such employees are not placed at risks of injury from falling from a height if this is reasonably practicable.  Where reasonably practicable, work should be carried out at ground level rather than at a height.  This applies to maintenance activities as well as to assembly and production activities.

The requirement for prevention of employees working at a height from falling is introduced in Regulation 6(3):

“Where work is carried out at height, every employer shall take suitable and sufficient measures to prevent, so far as is reasonably practicable, any person falling a distance liable to cause personal injury.”

Where work involves access to areas from where a person may fall, access to that area must be prevented in some way.  This may involve several solutions, such as:

  • the use of suitable scaffolding systems,
  • the use of mobile elevated work platforms and similar equipment,
  • the construction of suitable walls or guard-rails (including intermediary guard-rails and toe-boards),
  • the use of a harness and anchored lanyard that stops the person reaching the point from which they may fall (such as a 2m lanyard anchored 2.5 m from a fall, i.e. it is too short all allow the person wearing it to reach the edge over which they may fall).
Regulation 6(5) places the employer under a duty to mitigate the effects of falling from a height where it is not reasonably practicable to eliminate the risks of the employee falling.

 “Where the measures taken under paragraph (4) do not eliminate the risk of a fall occurring, every employer shall take—

(a) suitable and sufficient measures, including the provision of work equipment, to minimise—

(i) the distance and consequences; or

(ii) where it is not reasonably practicable to minimise the distance, the consequences, of a fall; and

(b) without prejudice to the generality of paragraph (3), such additional training and instruction or other additional suitable and sufficient measures to prevent, so far as is reasonably practicable, any person falling a distance liable to cause personal injury

There are several ways of mitigating the effects of a fall from a height, these include:

  • the use of a suitable fall arrest system,
  • the use of suitably positioned and secured safety nets
  • the use of rail lock systems on vertical ladders
  • the use of suitably sited, specially designed airbags
  • etc.
The specific requirements relating to suitable fall arrest systems are outlined in Schedule 5 to the Working at Height Regulations.

Where a risk on a person being injured by a fall exists, the regulations require the use of suitable falls prevention measures and fall mitigation measures.  This is a case of both, not either/or.

Planning for Rescue

Employers involved in work at height operations need to make provision for rescue arrangements it is a requirement of the Work at Height Regulations 2005. Further to this, the casualty needs to be attended to and recovered promptly. This is the employer’s responsibility - not the responsibility of the emergency rescue services.  In the event of a problem developing for a worker working at height, help must be available promptly. As can be seen below (suspension trauma), the survival of an injured person may well depend on the speed of recovery and the level of suitable first aid provision.  As discussed later in this article, being suspended for any length of time may be fatal, owing to the effects of suspension trauma. It follows, therefore that it is important that there is a specific rescue plan in place and that suitable and sufficient resources are provided for each workplace where work at height is carried out. The rescue plan should be regularly reviewed and should be revised as necessary.

As well as physical resources, there should be a provision of trained rescuers on site that are familiar with the procedures, the equipment and the site.

Rescue planning must not be left to the last moment, but should form part of the risk assessment for the work at height. Rescue planning and rescue operations should give consideration to the following issues:

  • the safety of the persons carrying out, or assisting with, the rescue
  • the anchor points that are to be used for the rescue equipment
  • the suitability of the equipment (anchor points, harnesses, attachments and connectors) that has already arrested the fall of the casualty for use during the rescue
  • the method that will be used to attach the casualty to the rescue system
  • the direction that the casualty needs to be moved to get them to the point of safety, i.e. up, down or sideways
  • the first aid needs of the casualty (with respect to injury and also to suspension trauma)
  • the possible needs of the casualty following the rescue
Checklist for rescue planning

The following is a simple checklist that employers may work through to ensure that they have considered the important elements of their rescue planning. As with a fire evacuation plan, there is no need to wait for a fire in order to find out if your procedures work – practice opf the procedures (in this case the rescue plan) will identify failings before they can havea serious effect on people.

  • How will people be made aware of when someone has fallen?
  • How will the suspended worker summon assistance?
  • What communication systems will be used between the suspended worker and the rescue team?
  • Is there an emergency contact list and other useful information for supervisory staff? 
  • Is suitable rescue equipment provided on site and is it readily accessible?
  • Have a sufficient number of operatives been trained in the rescue plan and in the use of rescue equipment?
  • Has training been kept up to date and does it deal with the rescue equipment provided?
  • Have assessments been made of anchor points to which rescue equipment will be attached?
  • Has consideration been given to attaching rescue equipment to the suspended worker?
  • Have the means of access to the suspended worker been considered?
  • Will the rescue arrangements ensure that the suspended worker is recovered in less than five to ten minutes (to prevent suspension trauma)?
  • Does the rescue plan take into account an injured (or unconscious) suspended worker?
  • Are first aid personnel aware of how to treat casualties with (suspected) suspension trauma?
  • Are there suitable arrangements for summoning aid from the emergency services and for liaising with them after arrival on site?
  • Have the rescue operatives practiced the removal of suspended casualties using the equipment that you have provided?
Be aware of edges

The potential for a suspended worker (casualty) to be located over an edge must be considered. The rescue will be complicated in instances where edges and obstructions are involved. Recovery that involves working over an edge will:

  • increase the effective load in raising operations due to additional friction
  • create risks of cutting or abrasion of the anchor line
  • put extra shock loading on the anchor line if (sections of) the edge collapse during the rescue
  • interfere with the operation of rescue equipment
Rescue equipment that will work with, and will tolerate, the extra issues associated with edges should be selected if edges have the potential to feature in rescue operations.

Four types of rescue

 Although the immediate aim is to recover the suspended worker (or casualty) to the nearest point of safety, there are basically four options for dealing with an emergency rescue that involves an injured or incapacitated worker being recovered to safety. In order of preference these are:

  • lowering a remote casualty
  • raising a remote casualty
  • self evacuation by descent
  • rescuing another in descent
The above order is based on the premise that it is preferable that the rescuer is not involved in the descent or the suspension. When rescuing a third party, the first two options are preferable to the forth one. Generally, the first option is preferable to the second one because of the simple expedience that it is more straightforward and physically easier to lower a load than it is to raise one.

General considerations for rescue operations

The rescue system will be under tension and, as such, will be at greater risks of damage from abrasion and cutting. Consider of rescue scenarios (in the form of risk assessments) may indicate the need to use rescue equipment that is capable of coping with these situation, or it may indicate that an additional (backup) safety line may be required. The rescue plan must allow for rescue when the casualty is unconscious.  In order to reduce shock loading and jarring of the suspended worker (casualty) it is important that control is maintained at all times while operating rescue equipment.

The anchor for the rescue equipment should be in a position where the equipment can be operated easily and safely. This may mean that it is appropriate to site the equipment away from the edge to allow for its safety operation. In this situation it may be necessary to use additional equipment to redirect or align the rescue system correctly.  The potential for abrasion and cut-through means that ropes should not be run over edges which also may collapse leading to additional shock-loading of the system). If the system needs to run over an edge, then the rope and edge must be protected from each other and it should be determined that the edge can support the imposed loads.

Raising and lowering operations should be carried out in a controlled manner. The path for raising and lowering should be calculated and checked to ensure that obstacles are not encountered. The potential for some rescue equipment to operate in one direction only must also be considered so that the suspended worker is not moved into a position from which they cannot be recovered.

The general procedure for recovery of the suspended worker should give consideration to the following:

  • an assessment of the rescue situation before starting the rescue operation
  • arranging for the provision of appropriate medical assistance (such as by summoning the emergency services)
  • determination of the appropriate position to carry out the rescue operation from
  • determination of the appropriate anchor points for the rescue equipment
  • identification of a suitable location (or point of safety) to move the suspended worker (casualty) to
  • ensuring that all those involved in the rescue operation are aware of the procedure to be carried out and of their role within this procedure
  • ensuring that all relevant employees that have been trained in the rescue procedures are competent to carry out their role
  • carrying out the rescue operation in a steady and controlled manner
  • ensuring that a suitable means of communication is maintained at all times during the rescue operation
  • arranging a suitable process to monitor the suspended worker’s condition at all times during the rescue operation and arranging appropriate first aid and/or medical provision
  • reviewing the whole operation in order to determine the lessons that can be learned to make improvements for future rescue operations
Suspension Trauma

One of the reasons why planning for rescue in work at height situations is important is suspension trauma (a special case of orthostatic intolerance and sometimes known as harness hang syndrome).  Orthostatic intolerance is a normal and natural reaction to being upright and immobile.  In such cases, a complex combination of blood pooling in the legs and cardiorespiratory restriction leads to unconsciousness. Orthostatic intolerance can occur in several sets of circumstances, such as:

  • being suspended in a harness
  • being trapped upright within a confined space
  • being secured to a vertical stretcher or litter (such as in mountain rescue)
  • many situations where people are forced to remain standing without the ability or room to move

A classic manifestation of acute orthostatic intolerance is a soldier who faints after standing rigidly at attention for an extended period of time.  Suspension trauma presents an immediate threat of death to anyone immobilised in a vertical position.

Causes of suspension trauma

When people stand upright, the heart alone cannot cope with pumping the blood around the body. In particular, it can't draw blood back up, against the force of gravity, from the legs and feet.  To aid the heart, our veins (the blood vessels that return blood to the heart) are very elastic and have a series of (non-return) valves at regular intervals. As people move around, the veins are squeezed by the muscles around them, a process that is important for helping to push blood back up towards the heart.  If people are in an upright position for a while without working their leg muscles, then the blood doesn't get pumped back up from the lower body. Instead it collects in the veins of the lower body (venous pooling), and so reduces the amount of blood available for circulation. This reduces the quantity and the quality of blood available to the brain, which can result in loss of consciousness. This loss of consciousness is an important survival mechanism in these circumstances as when people faint, they fall over.  Once they are lying down, the heart can circulate their blood quite satisfactorily, returning oxygen to the brain with no harm done.

Suspension trauma is the name given to the situation that occurs when people faint but cannot fall over, causing the body to remain upright. This is a serious problem, because if the body stays upright after losing consciousness, then the blood flow is not restored. In such circumstances, the suspended person is at serious risk as the reduced blood flow can lead to serious brain and/or kidney damage, and ultimately to death. If it is allowed to develop unchecked, it can be fatal in a very short time (a matter of minutes).

 Suspension trauma does not take long to develop

In averages cases, it takes somewhere between five and twenty minutes for the first signs of shock to be felt by the casually.  If their legs are held perfectly still (such as if they are unconscious) then the first signs of shock may be apparent after about three minutes.  If they are not rescued, a few minutes after this they the casualty will faint and shortly after this they will die.  If a suspended person is to be rescued, then the rescue must be carried out quickly, preferably within ten minutes of the start of suspension.

By their nature, rescue operations are carried out under extreme pressure.  Consideration should be given to all aspects of the rescue process. Elements to consider would include the type of equipment required, the demands placed upon the rescuer, the training the rescuer will require to carry out the rescue and how the effectiveness of the rescue system as a whole can be maintained  Following a fall and a person being suspended in a harness, it is clear that even if they are uninjured by the fall there is a relatively short time available during which to rescue them.  Following the fall, there is only a short time before the onset of shock and suspension trauma is life threatening.  It is essential, therefore, that the means of rescuing them fallen person has been planned before the event.

Even is the casualty cannot be released form suspension immediately, they can be aided by others if they can be reached safely or if they are still conscious.  If possible, lift their knees into a sitting position using a rope, sling, or other items.  If the casualty is hanging in a harness and is unable to escape, there are some things that they can do to prevent the onset of suspension trauma.  In particular, they cam wiggle their toes and move their legs. This will move the muscles in the legs and will help to squeeze the blood back up towards the heart.  This may be enough to prevent the onset suspension trauma.

First Aid for people with (suspected) suspension trauma

When somebody has been rescued from suspension, do not let them lie down and do not lay them down.  The first action of the first aider on site when the casualty is released from suspension should be to place them in a sitting position with their body upright and their legs flat, or bent at the knees. The exact angle of the knees is not critical, the important issue is that their body is upright, and the legs are no longer dangling. This posture will reduce the pooling effect of gravity, but will keep most of the pooled blood in the legs, preventing reflow and splinting (see below). The casualty should be kept in this position for at least 45 minutes.  The casualty must not be allowed to stand up, exercise, drink or eat. They should be kept calm and relaxed as this will help to reduce the effects of stress on the heart rate. The casualty should be sent to hospital, even if they are not experiencing any ill health.  The first aider must also be mindful of other injuries that have been sustained, such as spinal injuries, choking, etc.

Casualties who have developed suspension trauma may be at risk from reflow syndrome.  This is the name given to the potentially fatal situation caused when the pooled that has blood in the veins in the legs is allowed to flow back into their body.  The blood that has pooled in the veins in the legs will have the nutrients and the oxygen in it used up by the leg muscles.  Once this has been used up the leg muscles will respire anaerobically and the blood will accumulate the toxic breakdown products of this anaerobic metabolism

Another of the problems with treating suspension trauma casualties is overloading or splinting of the heart muscle. Lying the casualty down will cause about 60% of blood volume to return very quickly to the heart and may fill it with blood such that the pumping action is not possible. This overloading of the heart muscle can cause immediate death. During and after rescue, it is important that the casualty is not carried or laid horizontally or allowed to lie down.

Suspension trauma is a potential cause of death in all cases of vertical suspension.  It may result in the death of a person who has fallen and whose fall has been arrested by their fall arrest equipment and who is otherwise unhurt.  In order to prevent fatalities from suspension trauma, employers need to ensure that casualties can be rescued promptly (within ten minutes) and that the first aiders known how to deal with (suspected) suspension trauma cases.

Summary

Plan work at height carefully through a risk assessment based approach and avoid the need for work at height where this is reasonably practicable. In cases where work at height is required, prevent falls from height where reasonable practicable and mitigate the effects of any falls. As part of the planning for work at height work, plans must also be thought through (and practised) on how to conduct a rescue of a worker how falls, but whose fall is arrested and who is left suspended. Speed of the rescue is critical to the survival of the casualty, as is the training of the first aid response to workers who may have suspension trauma.

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Health and Safety: Access and Egress

Access to, and egress from, the workplace are fundamental aspects to the safe working conditions that should prevail within any workplace.  In shared accommodation, the landlord (or the building or facilities manager) is responsible for the premises as a whole, but also has special responsibility for the common areas of the premises.  These can be thought of the parts of the premises not demised to (or directly under the control of) individual tenants.  With respect to access and egress, these may typically include: car parking areas, external areas (roads, paths, lighting, refuse storage areas, etc), entrance doors, reception areas, corridors, staircases and lifts.

It is a basis requirement of the Health and Safety at Work Etc Act 1974 that employers and those in control, of premises provide and maintain a place of work that is safe and without risks to health, and provide and maintain means of access to, and egress from, it that are also safe and without risks to health.  Access and egress means the route through or means of entry to (or exit from) a workplace.  Egress routes also include means of emergency exit from workplaces.  Routes of access and egress can include: corridors, footpaths, pedestrian walkways, doorways, ladders, steps, etc.  The Workplace (Health, Safety and Welfare) Regulations 1992 do not specifically mention access or egress from workplaces, although many of the provisions relate to the layout, construction and maintenance of the workplace fabric. The safety of access and egress routes is therefore implicit.

All roadways, paths, stairs, steps, etc. must be maintained in good condition and must not subject employees to risks to their health or safety.  They must be free from slipping and tripping hazards and suitable arrangements must be in place to prevent falls.  Further to this, the access and egress routes must be suitable illuminated and adequate arrangements made for emergency lighting.

Poor access/egress may lead to workplace accidents

It should be noted that about a third of all workplace accidents arise from slips, trips and falls.  Many of these accidents are due to poor housekeeping, but others arise from poor conditions, such as defects in the floor, poor lighting and spillages.  The Workplace, (Health, Safety and Welfare) Regulations 1992, require that every floor in a workplace shall be of a construction such that the floor is suitable for the purpose for which it is used.  They must also be of sound construction and should have adequate strength and stability taking account of the loads placed on them and the traffic passing over them. The surfaces of floors routes should be free from any hole, slope or uneven or slippery surface that could cause a person to slip, trip or fall or cause them to drop or lose control of anything being lifted or carried.  It follows then, that any holes, bumps or uneven areas resulting from damage or wear and tear, should be made good.

It is recommended that the condition of all walkways, roadways, staircases, steps, etc. is checked regularly, with suitable records kept.  Such checks should form part of the active monitoring regime of the occupier of the premises.  Checks should include visual examination of the ground for defects, wear and slipping and tripping hazards as well as checks on the operation and adequacy of the lighting and the condition of handrails, warning notices, etc.  All defects must be report and effective repairs undertaken by a competent person.

Main Entrances

The main routes into and out of the premises may take many forms, such as: ordinary swing doors, powered revolving doors, push revolving doors, automatic opening doors, etc. Where revolving or automatic doors are provided, alternatives means of access and egress should also be considered (for use in emergencies and in cases when these doors are out of service. Such doors are often accompanied by (lockable) ordinary doors, often along side the revolving or other door.

Doors

Doors and gates must be suitably constructed, and where necessary fitted with appropriate safety devices. In particular, sliding doors and gates must be fitted with devices to prevent them from leaving their tracks, upward opening doors and gates must be fitted with devices to prevent them from falling back, powered doors and gates must have suitable and effective means to prevent trapping type injuries and must be able to be operated manually unless they open automatically during a power failure, and doors and gates which are capable of being opened from either direction (swing doors, etc) must provide a clear view of both sides when closed.

Staircases, landings and corridors

Staircases should be in good condition, ideally with handrails on both sides of the staircase. The staircases, landings and corridors should be well lit, free from obstructions and slipping and tripping hazards. These areas should be checked regularly to ensure that they remain in good condition.

Where there are holes in the floor, suitable arrangements must be made taken against accidents (to prevent people from being injured as a consequence of the holes) until such time as they can be made good.  This may require the use of suitable barriers or of conspicuous markings and warning signs, or may be satisfied by the use of a temporary flooring, such as checker plate, laid over the defective section of flooring and adequately secured into position. 

Ramped pedestrian access

Ramped pedestrian access (especially when provided for disabled persons) should provide safe and secure access and egress. The ramp should not be too steep and consideration should be given to the provision of a handrail and to edge protection to stop users from falling off.

Lifts Health and Safety access and egress
Lifts and lift motor rooms

Passenger lifts should be tested and inspected by a competent person at least once every six months although this frequency may be reduced to once in every twelve months for goods lifts that are not used to transport people (i.e. if their use is restricted to goods only), as required under the Lifting Operations Lifting Equipment Regulations 1998 (LOLER).

Suitable arrangements should be made for the servicing and maintenance of lifts and for the rescue of people trapped due to lift failure.  Lifts should be fitted with a suitable means of raising the alarm in the event of somebody being trapped. The alarm system should be tested regularly. Lift motor rooms should be clearly identified and should be kept locked and should only be accessed by competent persons (such as lift engineers). Hydraulic lifts should be bunded to contain any leakages of hydraulic oil and all lift motor equipment must be suitably guarded.

Spillages and leaks

Where a leak or spillage is likely to be a slipping hazard, immediate steps must be taken to fence it off, mop it up, or cover it with absorbent granules.  Warning signs should be displayed while the work is in progress and should be left in place until the floor area has dried and is no longer slippery.  In cases where spillages are foreseeable in the workplace, suitable arrangements must be made for clearing them up.  In most cases, this will involve some form of spillage response kit (stocked with suitable absorbent materials, appropriate PPE – such as gloves – warning signs, etc.)

Fixed vertical ladders, etc

Fixed vertical ladders are not usually acceptable as a means of access to a work area, although there are several obvious exceptions, including vertical ladders to elevated work platforms such as to tops of silos and access into vehicle inspection pits, etc.  In most cases, access is not required on a regular basis.

Fixed ladders should not be provided as a means of access in circumstances where it would be practical to install a staircase.  Access between floors should not normally be by way of ladders (or steep stairs), although these may be used where a conventional staircase cannot be accommodated, provided: they are only used by people who are capable of using them safely and any loads to be carried can be safely carried.  It should be noted that stairs are much safer than ladders; especially when loads are to be carried.

Where work areas are accessed via a fixed vertical ladder, it is recommended that a suitable self-closing gate is fitted at the top of the ladder to prevent people from accidentally falling down it. Fixed vertical ladders should also be subject to regular inspection and checks by a competent person.

Segregation of pedestrians from moving vehicles

All reasonably practicable steps should be taken to prevent pedestrians being injured by moving vehicles.  All access routes that are used by both pedestrians and vehicles should be wide enough to enable any vehicle likely to use the route to pass pedestrians safely.   Within buildings, lines should be drawn on the floor to indicate routes followed by vehicles (such as lift trucks).  In areas where routes naturally become narrower and/or more congested (such as doorways, gates, tunnels, bridges and other enclosed routes) the vehicles should be separated from the pedestrians by a suitable kerb or barrier. In factory and warehouse situations, it I recommended that separate routes through should be provided and that pedestrians should be guided to use the correct route by clear marking (and encouraged by active management). Such pedestrian routes should be kept unobstructed.

At points where pedestrian and vehicle routes cross, appropriate crossing points should be provided and should be used by the pedestrians.  Barriers or rails should be provided to prevent pedestrians crossing at particularly dangerous points and to guide them to designated safe crossing places.  At particularly dangerous crossing places, or where the volumes of traffic are particularly heavy, consideration should be given to the provision of suitable bridges or subways.

External areas and building façade

The external areas of the premises should be inspected regularly, including checks on the condition of the building façade and all structure attached to the building, such as lights, aerials, CCTV cameras, flagpoles, etc. Similarly, checks should be carried out for all external areas, including car parking areas, roads and footpaths, fencing, lighting, etc. Any defects should be addressed and made safe.

Fire escape routes

Fire escape routes must be kept clear and in a good state of repair. In some instances, these may include external metal staircases and even over the roof escape routes that pass into or through other premises. Such routes should be physically inspected on a regular basis to ensure that they have not been compromised.

Active monitoring of premises

It is recommended that the premises are monitored regularly to ensure that all access routes and equipment are in good condition and are free from obstructions and tripping hazards. This is best achieved by a physical tour of the premises addressing issues at the time (where possible) and feeding requesting and information back to tenants and other occupiers as appropriate. Appropriate steps must be taken to resolve issues that could not be put right during the inspection of the premises. 

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Wednesday 26 September 2012

A case for Active Monitoring of Health & Safety

In common with other important aspects of running a business (e.g. sales, production, finance, quality, etc.) companies need to measure their health and safety performance to find out if they are being successful. Monitoring may be split into two distinct areas: Active Monitoring and Reactive Monitoring.  Most people are familiar with, and comfortable with the concept of reactive monitoring.  This is the process of investigation into things that have gone wrong (such as accident investigation) and involves learning from mistakes.  These mistakes may have resulted in injuries and illness, property damage or near misses.

Active monitoring is an important aspect of modern safety management that appears to be very difficult for some companies to accept and to buy into.  It is the things that we do that generally keep employees (and other persons) from harm; but it is the records and documents that we keep (and complete) that help to protect the Company.  
 
A Scottish case from a few years ago helps to put this into context:
M (a Scottish tyre-fitting firm) was fined £10,000 for failing (in the words of the Procurator Fiscal) to “give effect to arrangements that were appropriate for monitoring and reviewing its health and safety policy. It didn’t check that people were actually following it.”  Regulation 5 of the Management of Health and Safety Work Regulations 1999 places a duty on employers to ensure effective planning, control, monitoring and review of the preventive and protective measures within their health and safety arrangements.  This point is expanded with the Approved Code of Practice that supports the Regulations where the point is made that “Active monitoring reveals how effectively the health and safety management system is functioning”
Events

The case followed a traffic incident in which one of T’s employees and the driver of a broken-down (client) lorry were killed at the road side.  One of M’s tyre fitters attended an early morning breakdown on the A90 Dundee-Aberdeen road.  The broken-down vehicle had stopped in the nearside lane (no hard shoulder available on this stretch) and the hazard warning lights had been switched on.  The section of the road in that area was unlit and, according to witnesses on the road at the time of the crash, the two drivers could barely be seen.  This indicates that they were not wearing high-visibility jackets.  Unfortunately, the driver of a third vehicle failed to spot the breakdown in time and collided with the broken down truck, shunting it into the recovery vehicle, which had been parked in front and killed the two men on the scene.  The driver of this third vehicle pleaded guilty to a charge of reckless driving. 

Findings

During the investigation into the incident, the HSE discovered that M had a good, up to date, written Health and Safety Policy that addressed issues such as the wearing of Hi-visibility fluorescent jackets, the placing of traffic cones at the site of the breakdown and parking the recovery vehicle between the broken down vehicle and the oncoming traffic.  It also discovered, however, that none of these measures had been implemented in practice. The court heard that M’s driver had seen the policy and had signed it to acknowledge that he had read it.  It also heard that the Company had carried out a vehicle check about a month before the accident. According to Procurator Fiscal, the failing of M was in not putting into practice what it had put down on paper.  The Company could not demonstrate that it monitored the use and effectiveness of policies and procedures or the control measures arising from its risk assessments.  It did not take enough steps to ensure that its employees were working to the Company’s procedures.

Summary

This case highlights the fact that it is not enough to have a health and safety policy and expect everyone within the organization to understand it and to work to that policy.  People must receive suitable and sufficient training in the policy and then the effectiveness of the policy must be established.  Active Monitoring of Health & Safety is important for protecting employees and organisations.
 
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DSEAR - Dangerous Substances and Explosive Atmosphere Regulations 2002


I have resurrected an older Q&A article about the Dangerous Substances and Explosive Atmosphere Regulations 2002 (DSEAR). I trust that thye rteader will find the information useful.
 
What are the aims of the Dangerous Substances and Explosive Atmosphere Regulations 2002 (DSEAR)?

DSEAR enacted into UK law the European Directive ATEX 137 and the safety aspects of the Chemical Agents Directive.  It applies to all dangerous substances at nearly every business in the UK.  DSEAR sets minimum requirements for the protection of workers from fire and explosion risks arising from dangerous substances and potentially explosive atmospheres.  As with other similar legislation, such as COSHH, it complements the requirement to manage risks under the Management of Health and Safety at Work Regulations 1999.  To comply with the requirements of DSEAR, employers must:

  • Carry out a risk assessment of any work activities involving dangerous substances;
  • Provide technical and organisational measures to eliminate or reduce as far as is reasonably practicable the identified risks;
  • Provide equipment and procedures to deal with accident and emergencies;
  • Provide information and training to employees;
  • Classify places where explosive atmospheres may occur into zones, and mark the zones where necessary.
Can I integrate the DSEAR Risk Assessment with other risk assessments?

As with all modern safety legislations, risk assessment is at the very heart of the Dangerous Substances and Explosive Atmospheres Regulations 2005 (DSEAR).  This does not mean, however, that distinct DSEAR risk assessments are required.  In the event that your current risk assessments (such as those that are required under the Management of Health and Safety at Work Regulations 1999) address adequately all of the issues required under DSEAR, then there is no need to produce new risk assessments to comply with the requirements of DSEAR.  As with all other risk assessments, DSEAR risk assessments must be kept up to date and reviewed in the event of any significant change or if thought to be out of date for any reason.

In the same way, DSEAR assessments may be integrated with COSHH assessments.  It is possible to have one assessment dealing the use, handling and storage of a substance (or range of substances) that addresses the fire and explosion risks as well as the health effects.  In some circumstances, this may be the most appropriate way to proceed as it will have the advantage of reducing the total number of risk assessments and should not compromise health or safety.  Typical examples of where such an approach could work well are in the areas of paint mixing and painting, fuel handling/dispensing, etc.

Are there any special areas that I should consider?

All areas within the workplace where explosive atmospheres may collect must be considered as part of the (DSEAR) risk assessment.  Special consideration should be given to areas where explosive atmospheres may develop due to the collection of solvent vapours, but are not the immediate areas where these substances are used, handled or stored.  Such areas need not be the main work area, but may be adjacent to the work areas and include cellars and vehicle inspection pits, etc.  Similarly, duct work that is used to transport dangerous substances away from the work area (such as local exhaust ventilation systems) may be areas where an explosive atmosphere may form and should be considered as part of the DSEAR risk assessment.  Other areas that should be considered are those in the vicinity of pipe work (especially joins) and pumps used for the transfer of dangerous substances.

Are there any particular training requirements associated with DSEAR?

Training is an essential part of DSEAR risk assessment process and the control measures that are introduced following the risk assessment.  Employees at different levels within the Company will have different training needs.  Those involved in the DSEAR risk assessment and the implementation of the control measures arising from the assessment will require the most detailed training.  There is a requirement to provide suitable and sufficient instruction, information and training to all employees that may be exposed to the risks associated with dangerous substances.  Typically, the information provided to employees should include:

  • the identities and locations of dangerous substances;
  • associated hazards;
  • sources of ignition, including smoking;
  • access to copies of any relevant safety data sheets;
  • risk assessment factors resulting from relevant risk assessments;
  • the control and/or mitigation measures to be used, including safe system of work;
  • reporting, accident, evacuation and emergency procedures
Training and instruction should include elements of theory as well as practice. Training in the use and application of control measures and equipment should be carried out taking into account recommendations and instructions supplied by the manufacturer.  The employer should consider how the training, information and instruction are to be delivered in order to deliver that which is the appropriate to their own circumstances.  In most workplaces, options could include: classroom style training sessions; individual training sessions or toolbox talks.

Do I need to provide employees with antistatic overalls and footwear? 

As with many questions, the answer is: it depends.  It depends on the findings of the (DSEAR) risk assessment and the control measures that are required to reduce the risks down to as low a level as is reasonably practicable.  If the risk assessment indicates that anti static personal protective clothing is required to control the risks of ignition of an explosive atmosphere from a static discharge then the employer must provide the employees with suitable antistatic personal protective clothing (such as overalls and footwear).  As with all PPE issued for the purposes of health and safety at work, this equipment must be provided to the employee free of charge.

It should be noted, however, that the effectiveness of antistatic footwear can be reduced, or even nullified, in several ways.  If the footwear is not cleaned on a regular basis, build up of insulating materials (such as resins, paints, etc) will decrease their effectiveness.  Similarly, the floor can become an insulating barrier if it is not kept clean (or is made from an insulating material, such as wood or some resin finishes).  The antistatic properties of footwear may be checked regularly if a suitable instrument is provided, such as a simple, wall mounted conduction to ground monitor.

What has happened to the old Petroleum License?

The Government is modernising petroleum legislation, and part of that process has been brought about by DSEAR.  Historically, petroleum spirits were controlled by licenses issued under the Petroleum (Consolidation) Act 1928, but this requirement have been removed by DSEAR.  Except in cases where petroleum spirit that is being kept for dispensing into vehicles (retail and non-retail), DSEAR has replaced the externally (often local authority) checked and issued Petroleum License with a new internal risk assessment requirement.

What sort of arrangements do I need to make to deal with accidents, incidents and emergencies

The arrangements under DSEAR for dealing with accidents, incidents and emergencies build on those that should already be in place for fire safety and as required under Regulation 8 of the Management of Health and Safety at Work Regulations 1999.  DSEAR requires that the employer makes suitable arrangements to protect employees (and others) in the event of an accident or incident.  Typically, those arrangements should include:

  • Suitable warning and communication systems (which may include visual and/or audible alarms);  
  • Suitable escape facilities (the need for which will be identified by the risk assessment);
  • Emergency procedures to be followed in the event of an incident;
  • Provision of information and training on the emergency procedures to employees;
  • Equipment and clothing for essential personnel dealing with the incident
  • Simulated emergencies and practice drills
  • Where appropriate, liaison with the emergency services to advise them that information on emergency procedures is available (and providing them with any information they consider necessary).
The exact scale and nature of the arrangements for dealing with accidents, incidents and emergencies should be proportionate to the risks and, hence, should be determined by the risk assessment. 

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