Friday, 30 December 2016

DIFFERENT TYPES OF INCIDENT

In order to rate the severity aspect of risk assessment many organisations make a distinction between various types of incident.


Ill-health — hazard with the potential to cause ill-health. Typical examples of ill-health conditions include occupational asthma, asbestosis, hand arm vibration syndrome. 


Injury accident — may be subdivided into fatals, major injuries, over three day injuries and minor injuries. These are safety related events and include cuts, bruises, fractures, amputations etc.

Dangerous occurrence - the precise definition of a dangerous occurrence will vary from country to country and their national accident reporting requirements It is used to cover an undesirable event (as specified by the national government), such as a scaffold collapse which does not result in a reportable injury but could have done so, in slightly different circumstance, 
for example: 

  • Collapse, overturning or failure of lifting machinery. 
  • Collapse of a building or structure, explosion or fire, escape of flammable substances and escape of substances 
Near Miss (or incident) is an unplanned, uncontrolled event that has not led to injury, damage or some other loss this time, but could have in slightly different circumstances. Examples include: articles falling near to people, short-circuits on electrical equipment. It is critical to record and analyse near misses as they are warnings of more serious accidents to come unless corrective action is taken - see Accident Ratios 



Damage only accidents are accidents which only cause damage to plant, materials, and premises. Workplace fires are a good example of such an event, where no one is injured but there is considerable property, materials and equipment damage.


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Monday, 26 December 2016

Common Causes of Fire in Businesses

Open Flames
  • negligence in conducting hot work, such as welding, cutting or grinding; 
  • improper use of candles;
  • improper handling of flammable or combustible liquids or flammable gases in near-to-potential ignition sources; and
  • matches and cigarettes that are improperly disposed of, or left unattended near combustibles.

Electrical
  • damaged electrical conductors, plug wires or extension cords;
  • use of faulty, modified or unapproved electrical equipment;
  • insufficient space or clearance between electrical heating equipment and combustibles;
  • short or overloaded circuits;
  • loose electrical connections; and lighting.
Cooking
  • deep frying in pots or pans on stove tops;
  • unattended cooking appliances; and
  • combustibles located dangerously close to cooking equipment.
Spontaneous Ignition and the Ignition of Waste Materials
  • improper disposal of materials susceptible to spontaneous combustion, such as oily rags from wood finishing or polishing;
  • accumulation of organic materials, such as green hay, grain or woodchips; and
  • accumulation of waste combustible materials near potential sources of ignition.

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Wednesday, 21 December 2016

Possible Sources of Ignition and Potential fuel hazards

Possible Sources of Ignition are:-
  • Defective electrical fittings and defective or misuse of electrical apparatus - light bulbs and fluorescent tubes too close to combustible materials, misuse or defective electrical extension leads and adapters, faulty or damaged wiring.
  • Matches, Lighters, Candles and Smoking materials. 
  • Flame or sparks from a work process such as welding, cutting, grinding or the use of a hot air gun. 
  • Sources of frictional heat.
  • Electrostatic discharges. 
  • Ovens, kilns, open hearths, furnaces or incinerators. 
  • Boilers, engines and other oil burning equipment.
  • Portable heaters.
  • Cooking equipment, including deep fat fryers. 
  • The threat of arson must not be overlooked and the malicious firing of combustible materials. 

The above list is by no means exhaustive and is provided merely as a guide.

Potential fuel hazards:

  • Any combustibles - These can be divided into two main groups; combustible fuels such as paper, wood, cardboard, etc.; and highly combustible fuels such as thinners, solvents, polyurethane foam, etc. 
  • Any unsafe procedures or acts - Persons undertaking unsafe acts such as smoking next to combustible materials.
  • Any unsafe conditions - These are hazards that may assist a fire to spread in your workplace, e.g. if there are large areas of hardboard or polystyrene tiles etc., or open stairs that can cause a fire to spread quickly, trapping people and involving the whole building. 
  • One hazard that is often overlooked is bad housekeeping and is the easiest to correct. It is responsible for many small fires either starting or certainly spreading and involving far more of the premises than was necessary. 

An ideal method of identifying and recording these hazards, is by means of the scaled single line plan. Checklists maybe also be useful.

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Saturday, 17 December 2016

MOBILE ELEVATED WORKING PLATFORMS (MEWPS)

MEWPs divide into two categories;
  • Boom-type Mobile Elevating Work Platforms (cherry pickers), and
  • Scissor lifts
The most common causes of death with MEWPs are falls from height and the second most common cause of serious injuries at work. This guidance is aimed at those who use or control the operations of boom type MEWPs, used across a range of industries including construction. 


The most common accident causes were:

  • Unsuitable ground conditions;
  • Critical parts of the MEWP failing or malfunctioning; or 
  • The MEWP being struck by another vehicle.
Consequently it is critical that these issues are eliminated or properly controlled.

Mobile elevating work platforms can provide excellent safe access to high level work. When using a MEWP make sure that:

  • Whoever is operating it is fully trained and competent; 
  • The work platform is provided with guard rails and toe boards or other suitable barriers; 
  • It is used on firm and level ground. The ground may have to be prepared in advance; 
  • Its tyres are properly inflated; 
  • Any outriggers are extended and chocked as necessary before raising the platform; and 
  • Everyone knows what to do if the machine fails with the platform in the raised position.
Do not:
  • Operate MEWPs close to overhead cables or other dangerous machinery;
  • Allow a knuckle, or elbow, of the arm to protrude into a traffic route when working near vehicles; 
  • Move the equipment with the platform in the raised position unless the equipment is designed to allow this to be done safely (check the manufacturer's instructions). 

Some MEWPs are described as suitable for 'rough terrain'. This usually means that they are safe to use on some uneven or undulating ground - but check their limitations in the manufacturer's handbook before taking them onto unprepared or sloping ground.

Wearing a harness with a fall restraint lanyard attached to the platform can provide extra protection against falls, especially while the platform is in motion.

The selection and use of appropriate personal fall protection equipment used as part of a suitable personal fall protection system. A personal fall protection system is an assembly of individual components. for example, a full body harness and lanyard with or without a shock absorber pack. A variety of equipment is available to prevent a person falling (work restraint) or to save them once they have fallen (fall arrest). 



Fall protection should not be relied upon as the only means of control because if the MEWP is pushed over or falls over being attached to it by a fall protection system is unlikely to prevent you from being injured or killed. For this reason, advice on controlling the risk by ensuring safe site, safe plant and safe operator are an essential part of this guidance.

In the case of scissor lifts fall protection is not normally required, unless a person needs to lean over the guardrail. In this instance, the sections of the guidance that relate to a safe plant, safe site and safe operator is relevant to preventing falls from scissors lifts due to overturning incidents.

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Tuesday, 13 December 2016

NEBOSH

NEBOSH (The National Examination Board in Occupational Safety and Health) was formed in 1979 as an independent examining board and awarding body with charitable status. NEBOSH provides the entire range of globally-recognized, vocational qualifications designed to meet the health, safety, environmental and risk management which are corner stone of every business both the private and public sectors.

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Wednesday, 7 December 2016

Reasons for maintaining Health and Safety at work - Moral Reasons

Moral Reasons

It is a prime motivator manage risks at the work place, the employer to maintain moral code within the society. Without it, employers can treat health and safety as low importance than financial profits.

Employer owe a “duty of care” towards his employees, the employee does not expect to risk his life and limb or ill health as, part of his employment.

Society Expects every employer to demonstrate a correct attitude towards health and safety, it is unacceptable to place an employee in a situation where there is a risk to his life.

The Employer has moral obligation to protect his employees and others health and safety who might be affected by their business undertakings, for instance, visitors, trespassers or public etc., 

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Saturday, 3 December 2016

Reasons for maintaining Health and Safety at work - Legal Reasons

Legal Reasons

The moral reasons have been turned into health and safety Law, UK’s Common Law judgements. The UK;sHealth and Safety at Work, etc, Act 1974(HSWA), and Regulations made under the law, follows a long list of legal requirements that reinforce the “duty of care”.

Many countries have introduced their own legal duties to protect the workers from harm. The following are the strong reasons for employer to manage risk legally:


Preventive –to prevent enforcement notices (improvement or prohibition) from the enforcement agencies.

Punitive - criminal courts impose fines and imprisonment for breaches of legal
duties. These punishments can be given to the company or to individuals within the
company.

Compensatory
 – employees / victim can sue employer in the civil courts for compensation.

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Wednesday, 30 November 2016

Diploma in fire and Safety Engineering

Fire and Safety Engineering Course as a career option is fast catching up with the students in India. Whereas in abroad, Safety is an integral part of most of university programs.


Fire Engineering and Safety Management is getting its underlying foundations quickly as a profession option in India. It is just in nowadays that a large portion of the general population of our nation are getting to know it, though in abroad fire eng. what's more, wellbeing administration is a vital piece of a large portion of college projects.

Job Prospects

  • Fire Officer/Fire Protection Technician/Safety Supervisor,
  • HSE Engineer/ HSE Advisor,
  • Safety Officer / Safety Manager,
  • HSE / EHS Officer/ Manager
  • Fire Men / Officer Safety Steward
  • Safety Assistant / Environmental Engineer

Gulf is the biggest fire prone area in the world, because it has the largest storage of oil. Undoubtedly the highest budget of fire prevention and fire protection spent in the world is in the Gulf. They prevent fire by increasing the safety awareness of the people. That translates into thousands of job openings in the field of Safety as Safety Engineers, officers & Supervisors.

Eligibility Criteria:
+2 Completion / Diploma

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Saturday, 26 November 2016

Nebosh International Diploma In Chennai

NEBOSH Idip is designed to equip candidates with the competence required to initiate their career as a safety and health practitioner, irrespective of wherever they work in the world. It will fulfil the OSH objectives around the world.



Distance Learning

Unit IA: Managing Health and Safety - 3 hrs written exam
Unit IB: Hazardous Agents in the Workplace - 3 hrs written exam
Unit IC: Workplace and Work Equipment - 3 hrs written exam
Unit ID: International application of health and safety theory and practice

Course Content

The NEBOSH International Diploma is divided into four units, each of which is assessed separately:

Unit IA: International management of health and safety
Unit IB: International control of hazardous agents in the workplace
Unit IC: International workplace and work equipment safety
Unit ID: International application of health and safety theory and practice

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Tuesday, 22 November 2016

NEBOSH IGC in Chennai

NEBOSH IGC in Chennai is offered by POSHE Solutions. NEBOSH IGC in Chennai is NEBOSH International General Certificate offered by POSHE Solutions, a certificate in Occupational Health and Safety. POSHE Solutions has trained over hundreds through NEBOSH IGC in Chennai.Professionals and students who wish to undergo Health and Safety courses in Chennai can take up the NEBOSH IGC Training in Chennai.



The NEBOSH IGC course in Chennai by POSHE Solutions is designed for international standards and meets global expectations and standard. NEBOSH IGC is the most preferred course for Health and Safety and POSHE Solutions is the most preferred training partner for NEBOSH IGC course in Chennai.

NEBOSH International General Certificate has 3 units:
Unit IGC 1: Management of International Health and safety
  • Foundation in Health and safety
  • Health and Safety Management Systems
  • -  Policy
    -  Organising
    -  Planning
    -  Measuring, Audit and Review
Unit GC 2: Control of International Workplace Hazards
  • Workplace Hazards and Risk Control
  • Transport Hazards and Risk Control
  • Musculoskeletal Hazards and Risk Control
  • Work Equipment Hazards and Risk Control
  • Electrical Safety
  • Fire Safety
  • Chemical and Biological Health Hazards and Risk control
  • Physical and physiological Health Hazards and Risk control
Unit GC 3: International Health and Safety
Work related Practical Assessment.


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Thursday, 17 November 2016

Nebosh Oil Gas Course In Chennai

NEBOSH International Technical Certificate in Oil and Gas Operational Safety is an exclusive qualification is designed specifically for the experts with safety responsibilities in the oil and gas industry. It is the latest addition to NEBOSH's portfolio of globally-recognised health, safety, environmental and risk management qualifications.



What does the Qualification Covers?

NEBOSH Oil and Gas course covers the principles of process safety management in the oil and gas industries. The syllabus takes a risk management approach based on best practice and international industry standards.


Unit IOG1 : Management of International Oil and Gas Operational Safety
  • Element 1: Health Safety and Environmental Management in Context
  • Element 2: Hydrocarbon Process Safety 1
  • Element 3: Hydrocarbon Process Safety 2
  • Element 4: Fire Protection and Emergency Response
  • Element 5: Logistics and Transport Operations


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Saturday, 12 November 2016

Nebosh hsw Course in Chennai

NEBOSH Health and Safety at work award is a first step towards other higher levels of NEBOSH qualification and provides a potent platform for breakthrough in to NEBOSH IGC.

The NEBOSH Award in Health & Safety at Work qualification is aimed at anyone who needs to understand the principles of health and safety as part of their job to ensure health and safety at workplace.



3 Days of Classroom Training + 1 Day of Examination

What does the course cover?

IOSH Managing safely covers the health and safety management system basics, the responsibilities of a health and safety manager and common workplace hazards and a risk assessment project based on your theory/board game/workplace.


HSW 1 - Workplace Safety Foundation (Theory)
  • Foundations of health & Safety
  • Responsibility for health and safety
  • Health & Safety risk assessment and control
  • Hazards and control associated with work equipment
  • Transport safety
  • Hazards and controls associated with working electricity
  • Fire safety
  • Hazards and controls associated with manual handling and repetitive movement
  • Hazards and controls associated with hazardous substances
  • Hazards and controls associated with working environment
HSW 2 - Workplace Risk Assessment Activity (Practical)

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Tuesday, 8 November 2016

International Diploma in OSH - GRAD IOSH

Gain recognition for health and safety expertise worldwide with BSC IDipOSH. This diploma is suitable for delegates who wish to set their long term career in Health and Safety. The course covers risk management, health and safety culture and Occupational health.

BSC IDIPOSH is recognised by IOSH, on successful completion of BSC IDipOSH, delegates fulfil the requirement to become a Graduate Member of IOSH (Grad IOSH), the first step to become a Chartered Health and Safety Practitioner as a Chartered Member of IOSH (CMIOSH). 



Delegates with level 6 Diploma may also apply for full membership of (International Institute of Risk and Safety Management - IIRSM).

The syllabus comprises of Three Core units:
  • Unit 1: Principles of health and safety Management.
  • Unit 2: Safeguarding People's Health in the Workplace.
  • Unit 3: Promoting a Positive Health and Safety Culture in the Workplace.
Course Modules
  • Unit 1 - Element A: Fundamentals of Health and Safety Management
  • Unit 1 - Element B: Applied Health and Safety Management
  • Unit 2 - Element A: Occupational Health
  • Unit 2 - Element B: Risks to Health at Work
  • Unit 3 - Element A: Developing a Positive Health and Safety Culture
  • Unit 3 - Element B: Developing the Business Case for Health and Safety
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Friday, 4 November 2016

IOSH MS in Chennai - POSHE

Institution of Occupational Health and Safety is a premier organisation for health and safety membership in the world and the only Chartered body for health and safety professionals with more than 45,000 members in 100 countries.

IOSH Managing Safely is designed for managers and supervisors from any domain/organization. It is specifically designed for the managers to accelerate on the ground actions they are held responsible to handle health and safety within the team. The delegates can think about what they are learning - build confidence and energy level within him and put it into practice when they are back to their workplace.




What does the course cover?

IOSH Managing safely covers the health and safety management system basics, the responsibilities of a health and safety manager and common workplace hazards and a risk assessment project based on your theory/board game/workplace.

Managing Safely covers:
Module 1: Introducing Managing Safely
Module 2: Assessing Risks
Module 3: Controlling Risks
Module 4: Understanding your responsibilities
Module 5: Identifying Hazards
Module 6: Investigating Accidents and Incidents
Module 7: Measuring Performance
Module 8: Protecting our Environment

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Saturday, 29 October 2016

Scaffolding

Scaffolding may be erected using traditional tubes and working platform.

The following terms are used to identify the component parts of a traditional tube and fitting scaffold:

  • Standard: upright member.
  • Ledger: horizontal member normally in the direction of the larger dimension of the working scaffold.
  • Transom: horizontal member normally in the direction of the smaller dimensions of the working scaffold
  • Putlog: horizontal member, flattened on one end, spanning from a ledger to sit in the pointing of brickwork.
  • Raker: an inclined load-­bearing member used to support a cantilevered working platform.
  • Façade bracing: bracing parallel to the façade of the building
  • Ledger Bracing: Bracing perpendicular to the face of the building.
  • Eyebolt: means of securing scaffold to the building.
  • Through Tie: means of securing scaffold to the building.
  • Reveal Tie: means of securing scaffold to the building.
  • Base plate: plate used for spreading the load in a standard over a greater area; a base jack is a base plate with a means of vertical adjustment.
  • Sole Board: a timber plank positioned beneath two or more base plates to distribute the scaffold load more evenly over the ground.
  • Coupler: device used to connect two tubes.
  • Platform: one or more platform units in one level within a bay.
  • Bay: the distance between pairs of standards.
  • Lift: a storey.




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Wednesday, 26 October 2016

TYPES OF HOSES - Fire Safety

Hoses are flexible pipe used to convey water from the source to the scene of fire.

TYPES OF HOSE : 

  1. DELIVERY HOSE 
  2. SUCTION HOSE 
  3. HOSE REEL HOSE
1) Delivery Hose

This is connected to the discharge side of the pump. This is subjected to a pressure greater than the atmospheric pressure. These are available in the Fallowing type:

(i) Percolating / Unlined / Canvas hose which are made of vegetable fibers.
(ii) Non percolating hose made up of plastic material forming both lining as well as the outer cover. These are no porous in nature.
(iii) Controlled percolating hose consisting of a jacket woven from vegetable fibers and having rubber / plastic lining.



2) Suction Hose

These are connected to the suction side of the pump. These are subjected to either above or below the atmospheric pressure. These are of following
types:
(i) Partially embedded
(ii) Smooth Bore fully embedded.




3) Hose Reel

These are made of reinforced rubber fitted with a swiveling joint bound over a reel. A squeeze nozzle is provided at one end.


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Saturday, 22 October 2016

METHODS OF EXTINGUISHING FIRES

Method
Aim
Means
Remove Oxygen
Smother the fire.
Introduces a barrier between the fuel and the oxygen, e.g. a lid, mineral fibre blanket, foam, sand or carbon dioxide.
Remove Heat
Reduce the temperature of the fuel (and surroundings) to below the ignition temperature.
Uses water, etc. Some of the heat is transferred to the water and some is used up during the conversion of water to steam.
Remove Fuel
Shut off the supply of flammable gases or liquids.
Uses of valves, etc.


There are two main types of fire extinguishing systems: 
Fixed Installations, e.g. sprinkler, foam spray and gas flood systems; 
Portable Extinguishers, e.g. hand held or on a wheeled trolley.

Tuesday, 18 October 2016

Portable Fire Fighting Equipment

The main types of Portable Fire Fighting Equipment are Fire Extinguishers.

In most countries portable appliances must be coloured red and display a distinguishing coloured label, usually on its collar, to identify the type of extinguishing agent contained. These are as follows:
  • Water : Red
  • Chemical foam : Cream
  • Carbon dioxide : Black
  • Dry powder : Blue
In addition, each appliance has to have the date of its last inspection marked on it.


Water Extinguishers:
Stored - pressure extinguishers must be checked to ensure that the pressure is correct, that the hoses and nozzles are not blocked and there is no corrosion. They should be discharged annually.
Gas - cartridge extinguishers should be opened annually and the working parts and contents checked. The gas cartridge should be weighed to check for losses and the sealing washer examined. They should be discharged every five years.

Foam Extinguishers:
These should be opened annually and checked to ensure that no clogging has occurred and all the working parts are in good order. Gas cartridges should be weighed and losses in excess of 10% will require replacement. 
The Extinguisher, if pre-mixed, should be discharged every two years, or if the compound is kept separate, every four years. All foam extinguishers must be thoroughly washed out after discharging.

Dry Powder Extinguishers:
Examination should be once a year for all the features covered for the other extinguishers. With the gas cartridge type, which can be opened, the powder should be checked to ensure it has not caked. They should be discharged every five years.

Carbon Dioxide Extinguishers:
The contents should be checked by weighing or by gamma ray to ensure there is no loss. The working parts should be examined and the horn checked for freedom of movement. Every 10 years, or when discharged, the cylinder should be hydraulically tested.  After 20 years the test should be every five years.

Vaporising Liquid Extinguishers:
Annual working order checks are required by weighing the contents. The extinguishers should be checked by discharge every five years.

Thursday, 13 October 2016

Accidents in Terms of injury

There are several categories of accidents in terms of injury and these include: 
  • Slips/trips/falls
  • Falls from height 
  • Falling objects 
  • Collision with objects 
  • Trapping/crushing under or between objects
  • Manual handling 
  • Contact with machinery/hand tools 
  • Electricity 
  • Transport 
  • Contact with chemicals 
  • Asphyxiation/drowning
  • Fire and explosion 
  • Animals
  • Violence - either verbal or physical 
Health hazards 

Risk assessment is not only concerned with injuries in the workplace but also possible occupational health problems. Health hazards fall into four categories; 

  • Chemical - paints, solvents, fumes. 
  • Biological- bacteria e.g. leptospirosis, viruses. 
  • Physical - noise, vibration, radiation. 
  • Psychological- occupational stress. 

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Sunday, 9 October 2016

Principles of an Alarm System

Sounding an alarm in the event of fire and fighting the fire arrangement must be made at all the workplaces.

There are many systems for raising an alarm on detecting an outbreak of fire, ranging from simple hand bells (or even just shouting) to sophisticated electronically-­triggered systems. However, whatever system is employed, all staff must know how to raise an alarm on discovering fire and what to do when the fire alarm sounds.

The general principles of an alarm system are shown below.


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Wednesday, 5 October 2016

FIRE TETRAHEDRON

There are basic 3 element need to produce fire.
  • HEAT
  • FUEL
  • OXYGEN
if one of component is not presents the fire will not created.

Beside 3 elements there is forth element which is essential for continuation of fire once ignited.this is known as "CHAIN REACTION".



Once fire occurs the burned substunce produce lots of heat which tends to burn remaining fuel substance.this reaction occurs again and again.which is called "chain reaction"

Fire is OXIDATION process which produce heat its is also called EXOTHERMIC reaction..

OXIDATION = EXOTHERMIC R. = PRODUCE HEAT.
REDUCTION = ENDOTHERMIC R. = ABSORB HEAT.

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Saturday, 1 October 2016

Causes of accidents - Environmental factors

We now have information on what types of accidents happen, but not why they occur.

There are three groups of factors that contribute to accidents:

  • Environmental
  • Human
  • Occupational
Any accident report and investigation should identify which factors were the cause.



Environmental factors
Concerned with the workplace and the conditions of the workplace which affect the employee.

Organisation of the workplace
The layout of the workplace including access, transport, space, overcrowding, cleanliness and waste
disposal, housekeeping, cleaning schedule.

Environmental stressors
Temperature, ventilation, humidity, lighting, noise. These can be associated closely with occupational factors, e.g. physical.

Welfare
Washing facilities, toilets, drinking water, amenity areas, accommodation for clothes, changing rooms, rest and meal facilities.

Structural
Slips, trips and falls, staircases, falls from a height, doors, gates, windows, roads, floors, and traffic routes.

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