NEBOSH Assignment

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TABLE OF CONTENTS

EXECUTIVE SUMMARY...2

1. INTRODUCTION...3

1.1 Aims and Objective...3

1.2 Methodology...4

1.3 Company Description...4

1.4 Legal Environment...6

2. REVIEW OF HEALTH AND SAFETY MANAGEMENT SYSTEM...8

2.1 Description...8

2.2 Gap Analysis of Company Health & Safety Management System...10

3. HAZARD IDENTIFICATION...15

3.1 Physical Hazards...15

3.2 Health Hazards...18

3.4 Selection of Significant Hazard...21

4. RISK ASSESSMENT...21

4.1 The process and methodology of risk assessment...21

4.2 Legal References...23

4.3 Risk Assessment – Work at height - Scaffolding...24

4.4 Risk Assessment – Noise due to Construction Machineries & Equipments...27

5. CONCLUSIONS...29

6. RECOMMENDATIONS...29

7. ACTION PLAN...33

7.1 Management System...33

7.2 Hazards and Risk...36

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EXECUTIVE SUMMARY

Occupational safety and health is beneficial for business as well as being a legal and social obligation. Companies appreciate that preventing people from being harmed or made ill through work, is also an essential part of a successful business. Every company can enjoy significant benefits by investing in health and Safety. Simple improvements can increase competitiveness, profitability and the motivation of employees. The implementation of a health and management system provides an effective framework to prevent or minimize accidents and ill health.

This study was intended to assist in the decision-making, planning and implementation of the construction projects, by minimizing the risks to employees and everyone associated with the activities. Thereby, improving the cost effectiveness, reducing the indirect costs due to business interruptions and improve employee relationship and public faith/ trust. The study was carried out in accordance with the Health & Safety at Work Regulations 1974 and the derived statutes and ACoPs.

The health & safety Management system of the company is modeled on HSG 65 with few elements not considered which could have direct implications on the health and safety programmes. Detailed gap analyses are conducted to identify the drawbacks and are prioritized according to the criticality of the gap. Important gaps are summarized

as:-1. Lack of visible leadership from the top management which could lead to collapse of the whole management system and lack of key person responsible to develop, implement and monitor the management system.

2. Lack of competent persons to handle Health& Safety affairs and Inadequate training and resources to manage risks at site.

All relevant hazards arising from the company activities have been identified. Two most significant hazards has been selected and a detailed risk assessment was carried out to identify residual risks and recommend mitigation measures to conform to the principles of As Low As Reasonably Practicable (ALARP). Recommendations are made by reference to best industry practice, economic, technical and health & Safety considerations. HSE assurance is provided by identifying and managing risks, according to the principles of risk tolerance, risk reduction and continuous performance improvement. The ALARP control principle is achieved when additional measures which could be taken to reduce the residual risk are no longer deemed to be practical or cost-effective – i.e. ensuring that risks that cannot be eliminated are reduced to ALARP. This study is applying the ALARP principle to ensure that risks to life, asset, reputation and the environment are reduced and controlled to optimum levels.

Critical ALARP controls for identified hazards can be summarized

as:-1. Proper design and planning of load bearing scaffolds and selection and provision of training for competent trained scaffolders who should engage in erection, dismantling, modification and inspection of scaffolds.

2. Introducing low noise purchasing policy, re-designing the layout of site, monitoring of noise levels frequently and reduce exposure of persons by proper job rotation and scheduling. 3. Training, instruction and supervision to all affected personnel.

All recommendations are followed with an action plan with assigned responsible persons and target dates to complete. Approximate costing has been projected in the action plan. This action plan will be updated to reflect that all actions are closed and the risks have been reduced to and As Low as Reasonably Practicable (ALARP) principle.

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1. INTRODUCTION

Most people would agree that poor working conditions of any type have the potential to affect worker’s health and safety. It would also be agreed that our aim should be to eliminate or at least minimize the risk of accident or injury; and to protect workers from the ill-health caused by their working conditions.

There is no doubt that construction is one of the most dangerous industries in Europe (1) _{. Every} year dozens of people die on site; several thousands get injured or develop work-related health problems. Construction projects are complex and always unique, where risks can arise from a number of different sources – some controllable, some not. Assessing sources of risk at the earliest opportunity enables controllable risk factors to be allocated to the areas of responsibility so that those responsible can take appropriate measures to eliminate or minimize them. The risk factors and sources can be broadly due to failure in managing the risks and a system not directed and committed to control by inadequate design, planning, coordination, communication and measurement, unrealistic expectations, poorly defined method of work, delay in decision making, not having a common goal, requiring the project to be constructed too quickly and defect free, yet at minimal cost, incompetence of staff and the external factors that influence the site activities and those which were not identified and not in control of. Therefore, improving health and safety on construction sites plays a key role in company’s daily work and is an ongoing process. The employers need to comply with the existing health and safety regulations, and the workers need to know their rights. Every worker also needs to have a good grasp of major workplace dangers so they can contribute to a better protection.

This case study provides an assessment of the company’s health & safety management system including risk management and existing control. This study is a demonstration of how company can achieve health & safety objectives and how the statutes and standards can be met in a methodical and auditable manner. The completed case study provides a primary reference document for improvement on all information relevant to the safety and health of personnel, and resources for the company.

1.1 Aims and Objective

It is important to develop safer working methods that also allow work to be done quicker and with fewer people, reduced rates of accidents, incidents and ill health — with examples of sickness absence being halved, and maximising levels of recruitment, motivation and retention of skilled staff and also achieving significant financial savings for good performers and penalties for poor performers.

Therefore, the primary objective of this Health & Safety case study is to demonstrate to company top management that essential significant measuring of their management system is undertaken and gaps are identified along with the associated risks and ensure that additional controls are identified, in place, or planned to be put in place such that the risks arising from the construction activities are both tolerable and As Low As Reasonably Practicable (ALARP).

(1) The State of Occupational Safety and Health in the European Union — Pilot study, 2000. European Agency for Safety and Health at Work, ISBN 92-828-9272-7.

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1.3 Company Description

The company is a medium sized limited liability contracting company registered in 2006 in Emirates of Abu Dhabi, United Arab Emirates (UAE) as a joint venture between UAE based contracting company and a company of United Kingdom that was established in 2005. Company employs locally 200 manpower expertise in all aspects of contracting including civil engineering, water pipeline construction, mechanical and electrical installations, and services to the electromechanical industry including testing, maintenance and operational work which fully supported by computer aided design facilities computerized project monitoring, accounting, and cost control systems. The clients for the current jobs are leading Real Estate Development Company of UAE. The main projects currently undertaken are as follows.

1. Construction of 10 residential and commercial buildings of up to three levels each in one plot.

2. Water pipeline networks within the area and associated activities. 3. Operation & maintenance of water networks and pumping stations

The company has been certified for conforming to ISO: 9001: 2000 standards and has a HSE Management system developed based on OSHAS 18000 guidelines and HSG 65. The company is headed by a board of directors and the branch is being managed by General Manager- Middle East Operations. The GM, Middle East is functionally responsible for all aspects related to the company’s operations in UAE and reports to the Managing Director based in Dartford (UK) office. The branch company is organized into a Projects department, Tendering department, Quantity surveying, Procurement department and Human resources/ Administration department.

Each project is managed by the Project Manager who has a team of Project Engineers, designers, site engineers, foremen and leader men. One HSE Engineer has been appointed to manage and monitor the implementation of the Health & Safety management system during the company operations. The majorities of labor forces are from India, Pakistan and Bangladesh and mostly are unskilled. Company holds major equipment and earth moving plants like excavators, bull dozers, land scrapers, back hoes, piling rigs etc, lifting equipments like mobile cranes of various capacities and machineries like generators, compressors etc. A typical project is executed in the following

phases:-1. Site mobilization and establishment 2. Surveying, testing and soil investigations 3. Substructure/ Excavations & re-inforcements 4. Piling and foundations

5. Structural steel erection 6. Concrete frame construction 7. Pre-cast floors and panels 8. External claddings and roofing

9. Finishes – Plastering/ screeding & floor finishing 10. Carpentry and joinery

11. Services – plumping and mechanical

The projects are administered from the site offices which are located at the site of construction and have administrative staffs including cleaners, office boys etc. Site office also has office space for the client and consultant representatives. All staffs and workers are of age above 21 years and company does not employ female staff on project sites. The normal working hours for the company is from 0700 hours to 1900 hours and workers are rotated not to exceed more than 8 hours a day, 6 days a week. Night work if required does not exceed beyond 2200 hours.

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The site offices are marked and fenced with proper access controls/ security gates. Electricity and water supply are provided by the utility distribution company. Besides, that the company has a number of generators installed as standby. A workshop is established within the site premises to carry out carpentry, welding, steel fixing/ cutting jobs. A vehicle maintenance area is earmarked away from the construction area within the site premises for cleaning, general servicing etc. There is a canteen managed by a sub contractor which caters for the workers/ staff food. Adequate number of toilets and drinking water facility is established by the company. First aiders and first aid box is available to cater for minor injuries. The nearest hospital and civil defense facilities are 2 kms away from the site location.

1.4 Legal Environment

United Arab Emirates has primarily two key regulation issued as a federal decree, The Ministerial Order 32 (1982) and UAE Ministry of Labor and Social Affairs (Federal Law No. 8/1980), which broadly covers the main responsibilities of employers and employees on health & safety affairs. There are no interpretations or associated ACoPs and guidelines available. Abu Dhabi municipality is the public authority who regulates the health & safety on all development activities in the emirates. Abu Dhabi Municipality Health & Safety guidelines are based on the UK standards and it covers all activities on a construction site. UAE Ministry of Health Regulations regulate all health related affairs in the country.

By the virtue of the company operating as a branch of United Kingdom (UK), the UK regulations are also applicable on all its operations. The Legal system in UAE is similar to UK law and is divided into two branches, the criminal and the civil. A single safety violation could lead both to civil and a criminal law action. In general, the company is also vicariously liable for the damages caused by employees while they are acting in the course of their employment and as a reasonable employee would act. All issues concerned with rights and duties of individuals will be dealt under civil laws. Criminal law characterizes certain kind of wrongdoing as offences against the state, not necessarily violating the rights of individuals, and punishable by the state. Unlike UK there are no separate court systems for Civil and Criminal cases in UAE. The enforcement authority in health and safety matters is the Health and Safety section of UAE Labor department or the local authority i.e., Abu Dhabi Municipality acting on its behalf.

Therefore, the most important piece of legislation covering occupational health and safety in the workplace is the Health and Safety at Work Act 1974 (HSW 1974). It specifies the general duties placed on employers and employees.

Construction (Design and Management) Regulations 2007 (CDM 2007) is the key regulations for the construction sector. The regulations are made under the Health and Safety at Work Act 1974. The Approved Code of Practice (ACoP) Managing health and safety in construction. Construction (Design and Management) Regulations 2007 helps to ensure they follow the CDM 2007. Following the guidance given in the ACoP ensures that the duty holder comply with the minimum accepted standards. The ACoP also includes a copy of the original CDM 2007 regulations.

The other main source of legal rules relating to health and safety in the construction industry are the following regulations and are currently in force:-

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1. The Construction (Head protection) regulations 1989 - is designed to provide protection, so far as is reasonably practicable, against foreseeable risks of injury to the head to which the workers are exposed in a construction atmosphere.

2. The Construction (Health, Safety and Welfare) Regulations 1996- These Regulations impose requirements with respect to the health, safety and welfare of persons at work carrying out "construction work". The arrangements in the regulation cover all activities on a construction site.

3. The Lifting Operations and Lifting Equipment Regulations 1998 (in association with The Provision and Use of Work Equipment Regulations 1998) and associated ACoPs and guidelines: Simple guide to PUWER 98 INDG 291; Safe Use of Ladders & Step Ladders: An employer’s guide. – Applicable to all lifting equipment and operations as well as access equipments and other machineries and tools used during a construction activities.

4. The Working at Heights Regulations 2005 and associated ACoP INDG 401- For all activities where a person could be injuring falling, even if it is at or below ground level. Also includes moving around at a place of work, but not travel to or from a place of work.

5. The Control of Substances Hazardous to Health Regulations 2002- Applicable for activities involving handling hazardous substances like paints, solvents, cement etc during the construction works.

6. The Health and Safety (Consultation with Employees) Regulations 1996. - Consultation with employees who are not represented by safety representatives under the 1977 Regulations. Hence, the company shall consult those employees in good time on matters relating to their health and safety at work and.

7. Employers’ Liability Compulsory Insurance Act 1969 – and associated guidelines, A Guide for Employers HSE 40(rev1) - Company is required by the law to insure against liability for injury or disease to their employees arising out of their employment.

8. Social Security Act (Claims and Payments) Regulations 1979

9. Reporting of Injuries, Diseases and Dangerous Occurrences Regulations 1995 (RIDDOR) - Reporting of fatalities, serious injuries and dangerous occurrences.

In addition, there are a number of relevant regulations that were passed in order to comply with EC directives on type examination certificates of approval and European Union (EU) directives. These include:

1. Construction Plant and Equipment (Harmonisation of Noise Emission Standards) Regulations 1988 (as amended)

2. Falling Object Protective Structure for Construction Plant (EC Requirements) Regulations 1988

3. Roll-over Protective Structures for Construction Plant (EC Requirements) Regulations 1988

4. Construction Sites Directive (92/57/EEC) 5. Working Time Directive (93/104/EEC)

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2. REVIEW OF HEALTH AND SAFETY MANAGEMENT SYSTEM 2.1 Description

The Company operates a HSE Management System in accordance with the United Kingdom Health and Safety Executive guidance document HSG65 “Successful Health and Safety Management” and also embraces the principle of OHSAS 18001“Occupational Health and Safety Management Systems”.

The Health & Safety Management System of the company remains structured in 3 parts. Part 1 the Policy Document/ statement of intent, states how the company top management implement their HS&E Policy and are widely displayed on company notice boards. It gives others an overview of their management system.

Part 2 contains Company Procedures, guidance notes and key standard forms - the ‘how to’ of the system. Supporting documents such as checklists and generic forms are referenced from here. It broadly covers the

following:-1. Organizing

2. Planning and Implementation 3. Performance measurement 4. Audit and review

Part 3 comprises supporting documentation and guidance and includes some generic documentation, toolbox talks, Hazard checklists and safety Standards for common operations and tasks.

The HS&E Management System, (Part 2), contains the following sections:

Section 1: Manual Structure & Information – This introduction also includes useful contacts, abbreviations, and information sources.

Section 2: Health& Safety Responsibilities gives details of specific Health & Safety responsibili-ties for key appointments, various departments & company employees.

Section 3: CDM, Contract start, commissioning & handover gives guidance on the CDM duties of clients, designers, planning supervisors, principal contractors and sub contractors. Guidance is provided for producing the health & safety file and post contract works.

Section 4: Risk Assessment – There is guidance of a general risk assessment and for unusual activities at design phases. It also covers the production and the issue of work permits.

Section 5: Procedures for inspection & audit gives guidance on those inspections that must be carried out as required by the law and by the company. This includes the safety programmes and monthly checks. Guidance on disciplinary procedures is also in this section for use during the projects.

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Section 6: Incident reporting & investigation describes how accidents and incidents are managed and reported. It also gives guidance in accident investigation, compiling information and dealing with insurance claims.

Section 7: Performance indicators – This section provides guidance on active and reactive performance measurements and completing monthly Health & safety reports.

Section 8: Welfare & site establishment details the minimum standards for all welfare facilities whether in a fixed location or site location.

Section 9: Fire & Emergency plans provide guidance on planning for fire and emergency in permanent establishments, temporary accommodations or on site.

Section 10: Occupational health gives guidance on controlling risks to health from many sources in the work place including vibration, COSHH materials.

Section 11: Plant & tools gives guidance on controlling risks through procurement, operator competence, use and maintenance, including statutory inspections.

Section 12: Filing, review and provide guidance in general on continual improvement, learning from experience.

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2.2 Gap Analysis of Company Health & Safety Management System

Management System Section Compliance_(Yes/No) Gap/ Comments

Priority* Written policy/ statement of intent which is signed

dated and communicated to all employees

Part Yes Statement of intent (Policy document) is

not dated and is not communicated to all. P2 Health & Safety of employees considered as an

important business objective by top management Yes Top management committed to continuous

improvement.

Yes A named senior manager is appointed for overall

responsibility for implementing health and safety policy

No No person by name is appointed to take _{overall responsibility for health and safety} affairs.

P1 Policy encourages involvement of employees and

safety representatives in the health & safety effort. Yes Includes a commitment to ensuring that all employees

are competent to do their jobs safely without risks to health

Yes Responsibilities clearly defined to all personnel

including managers, supervisors and team leaders. Part Yes Responsibilities of top management is notdefined P2 All personnel including manager, supervisor and team

leaders accept their responsibilities and have adequate time and resources and competence to fulfill them

No No defined budget has been allocated for

health and safety programmes P3 All personnel including managers, supervisors and

team leaders fully aware of what to do and how they will be held accountable for health & Safety.

Yes Identification of people responsible for particular

health and safety jobs including those requiring

special expertise (e.g. H& S Advisors) No

Adequate Health and safety persons are

not identified/ recruited. P1

Assessment of experience, knowledge and skills needed to carry out all tasks safely

No Employee training requirements are not communicated to the employee and

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Priority* appropriate supervisors

System for ensuring adequate instruction and training for all employees including managers, supervisors and temporary staff.

No No clear training budget/ facility allocated P2 Identification of specific training, skills and experience

assessment system for people doing hazardous work No

No competency based training is

identified (No training matrix developed) P1 Arrangements for gaining access to specialist advice

and help when needed Yes

System for ensuring competence needs and are met while recruiting, promote or transfer people or when people are assigned health & Safety responsibilities (re-organize).

No

Health & Safety competency

assessments are not administered as part of recruitment/ promotion process

P3 Consultation with employees and employee safety

representative on all issues that affect Health & Safety at work.

No Health & Safety committee has not been _{formed and meetings are not held as per} planned.

P2 Active health and safety committee chaired by

director/ senior manager and employees from all divisions are represented.

No Meetings are held seldom and senior managers do not attend

P1 Involvement of workforce in preparing health and

safety improvement plans, reviewing performance, undertaking risk assessments, preparing safety- related rules and procedures, investigating incidents and problem solving.

Part Yes Employee involvement only in incident _{investigations. No system of addressing} employee suggestions available

P1

Arrangements for cooperating and coordinating with contractors and employment agencies whose

employees work at site on health and safety matters. Yes

Sub-contractors are given a copy of company Health & Safety plan and require their plan to be in line with the company requirements.

Including health and safety on the agenda of regular management meetings and briefings.

No Health & Safety is discussed only in safety meetings

P1 Availability of information on hazards, risks and

control measures and safe system of work in place

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Priority* which can be easily accessed in the relevant work

area.

All levels of managements are approachable on health and safety issues and encourage staff to discuss health and safety matters.

Yes Top management, managers and team leaders

communicate their commitment to health and safety through self example.

Yes Part Yes System for Hazard Identification, Risk Assessment

and how to control them and safe system of work.

Part Yes

Only generic hazard assessment has been carried out. Each applicable job has not been evaluated using a risk

assessment system. No hazard registry

P1 Planning and scheduling health and safety

improvement measures and prioritizing their

implementation based on the nature and risk rating.

Yes Arrangements for measurable, realistic and time

bound health and safety targets agreed with managers and supervisors.

No Objectives and targets are not reviewed _{and updated annually and no action plan} is maintained to achieve the targets

P2 Procurement (premises, plant, equipment and raw

materials) and supply procedures take account of health and safety at the appropriate stage before implementation of the activity.

Yes Take account of health and safety during design

processes, equipment procedures, work systems and tasks.

Yes Health and safety rules and procedures (Part 2) in

place covering day to day work activities, foreseeable abnormal situations and maintenance work.

Yes

Emergency response procedures Part Yes

Procedure is in place but no

testing/evaluation of the emergency plan is conducted at correct intervals (at least annually)

P1 Welfare arrangements (living, canteen, toilets, Yes

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Priority* washing/ changing facilities, rest etc) including

medical facilities and health management/ monitoring programme

Introducing KPIs (Key Performance Indicators) to

measure the performance in Health & Safety Yes Arrangement for documenting and communicating the

inspection, monitoring and incident investigation reports.

Yes Arrangement for monitoring performance of health

and safety plan and to measure the targets and objectives set.

Part Yes Targets are not reviewed P3

Availability of pro active monitoring involving testing, inspecting and consultation methods to ensure that controls are working properly and the rules and procedures are followed and all the standards set are met.

Yes

Arrangement for reactive monitoring like investigating accidents, incidents, near misses and hazardous situations

Yes Identifying reasons for substandard performances in

health and safety.

Yes Arrangements for dealing with situations that have

created risk with priority being given where the risks

are greatest. Yes

Arrangements for analyzing the causes of potentially serious events to identify the root causes including shortcomings in safety management system

Yes System for regular audits of safety management

system by competent independent auditors (internal/ external)

Part Yes Inadequate number of trained and competent auditors

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Priority* Use audit reports and inspection reports information

to review the operation of safety management system and safety performance.

Yes Review of objectives set to check if they are met in

the agreed timescales.

No

Objectives not reviewed P2

Analyze audit reports and information used to identify future improvement targets and to identify particular causes of accident, ill health or poor control of risk to target for future risk reduction effort.

No Objectives are not reviewed and new targets are not set

P2 Benchmarking the performance of the safety

management system against other similar business group or self monitor improvement over time.

Yes

* Priorities Justification

P1 - High priority since the non-compliance could lead to an immediate lose or enforcement actions. The action requires to be taken within 1-3 weeks

P2 - No immediate impact, but if not complied health & safety cannot be managed efficiently. The action needs to be taken within 1 month P3 - No immediate impact. Action needs to be taken for an over all effective management & measurement of health & safety management system and avoid non compliances from external auditors and enforcement authorities. Action needs to be closed within 3 months.

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3. HAZARD IDENTIFICATION

S.No Hazards Activity/ Relevance Likely Implications * Priority **

3.1 Physical Hazards

1

Vehicle movement - Struck/ crushed by moving vehicles

Maneuvering vehicles, plant and equipments working in close vicinity to people, visitors/ public. Working near traffic areas and poor ground conditions.

Fatalities, serious personnel injuries,

property damages, productivity loses. P1

2

Excavation collapse- buried/ crushed/ trapped/ suffocation

While carrying out sub structure and foundation works.

Fatalities, asphyxiation and serious

injuries to personnel P2

3

Striking existing underground services

Due to excavations that are done to lay foundations, substructures and services like electrical cables, water connections and drainage connections.

Fire and explosions, electrocution, multiple fatalities and serious injuries, disruption of services, public

discomfort, property damage etc

P3

4 Unstable structures Due to excavations in near vicinity with insufficiently supported sides

Collapse of nearby buildings and structures, serious multiple injuries and fatalities P3 5 Intrusive occurrences - suffocating / drowning

Like groundwater, flooding, sewage, smoke, gas leakage etc while doing excavations

Asphyxiation, serious health effects, death due to suffocation and inhalation of toxic gases, collapse of trenches.

P3

6 Slips trips and falls

Uneven, slippery surfaces, trailing cables from electrical equipment/ temporary electrical

connections, open floors and excavations, use of stairs or contaminated ladders.

Serious injuries leading like cuts, bone fractures and death if affected from a height or onto sharp surfaces.

P1 7 Working at height - exposed to unprotected edges/ scaffolds

Working on fragile roof, ladder, working/ erecting scaffold/ working near unprotected excavation edges. Presence of floor openings. Unprotected hoists, loading/ unloading from trucks, emergency rescues at height etc.

Possible fall of personnel and material leading to fatalities and serious injuries.

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8 Falling objects

Collapse of sides of deep excavations, breaking of edges, inadequate working platforms, lifting equipment failures, unsecured load on scaffold platforms and passenger hoists etc.

Fatalities and serious injuries to personnel especially on head. Equipment damages by falling on/ to the ground

P1

9 Electrocution

Striking existing electrical services during

excavation. Temporary electrical connections. Use of electrical equipments like grinders, lightings etc. Working in damp conditions. Portable electrical equipments like heaters, kettles and ovens might be used in office kitchen.

Multiple fatalities, burns, ventricular fibrillation. Secondary falls leading to death.

P2

10 Fire and explosion

Fire/ explosion could arise from striking existing services, faulty electrics or overloading of joints, bulk storage of easily burnt waste materials and

flammable materials like diesel, solvents/thinners etc, smoking of personnel and arson.

Death multiple fatalities and injuries, serious property damage and environmental damages.

P2

11 Impact, crushing

Lifting, lowering and moving of loads by cranes or machineries (concrete pumps, vibrators etc) or due to materials falling from height and moving plant contacts.

Serious injuries like contusions,

fractures etc. P2

12

Plant and machinery Operations and instability

Presence of heavy lifting cranes, excavators, piling equipment and their movement on the site and possible running into excavations and working on slopes and on a soft standing ground.

Toppling of equipments, falling of loads onto persons causing serious injuries leading to death. Equipment damage

P2

13 Moving objects/ _trapping Placing of steel work. Closure of joints, base plate _{packing etc.} Crushing and trapping of limbs _{causing serious injuries like fractures.} P2 14 Contact with

overhead lines

Movement and working of high boom lifting equipments like crane/ MEWPs.

Electrocution, serious burns and

deaths. P3

15

Contact with rotating parts and static machinery

Use of circular saws and grinders. Gear mechanisms of equipment.

Entanglement of clothes leading to injuries, cuts and bruises, friction burns etc.

P3 16 Collapse of structure

Temporary works and during scaffold erections, overloading of platforms, presence of excavations close to structure.

Falling on/of people leading to multiple injuries and death. Equipment/

property damages.

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Manual handling - MSD (Musculo skeletal disorders)

Movement of components and accessories, unloading materials from vehicles like blocks and bricks, compressed gas cylinders, testing

equipments etc. Also while erecting scaffolds and manual excavations.

Strains, back pains leading to chronic musculoskeletal disorders, load dropping over the feet leading to fractures and personnel injuries.

P1

18 Stepping on nails and sharp objects

Presence of loose used shuttering materials for casting, broken glass pieces and sharp objects on site due to improper housekeeping. Workers not wearing safety shoes.

Injection wounds, punctures, cuts and possible contact with contaminated blood leading to serious health effects like hepatitis and AIDS

P2

19 Hazardous surfaces -Burn, Puncture, stabbing

Presence of hot surfaces, projecting parts of equipment, sharp edges and ends of machineries/ materials. Unguarded protruding bars

Burns, cuts, punctures and wounds P2

20 Mechanical _{equipment-Failure}

Possibility of failure of motors and short circuits in mechanical equipments like circular saws, grinders, cutters, generators, compressors etc.

Electrocution, fire and injuries due to overrun and breaking up of the

equipment/ part of the equipment, eye injuries due to compressors.

P2

21

Use of damaged and improper hand tools and power tools

Breaking/ malfunctioning of hammers, chisels etc and power tools like drillers, jack hammers

Eye injury, injury to hand/ limbs and

body P2

22 Entering confined spaces

Presence of pipe chambers, service holes, manholes, deep excavations etc.

Death due to asphyxiation/

suffocation, MSDs, fire and explosion, serious multiple injuries and property damage. Difficulty in rescue

operations.

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S.No Hazard Activity/ Relevance Likely Implications* Priority ** 3.2 Health Hazards 1 Chemical hazards (Inhalation/ Ingestion/ Contact with hazardous/ harmful substances)

Sparks and inhalation of fumes from welding, paints, cement handling, lime and mortar mixing, chemical grouts and additives. Contact with asbestos is also possible while demolishing some existing buildings or doing modification works. During maintenance works and cleaning and dosing works.

Chemical burns, cement burns, eye injuries, acute dermatitis, chronic asthmas, lungs disorders and can lead to cancer.

P2

2 Dust

During the demolition, grinding, blasting, cutting bricks, wood cutting and during vehicle movement on dry sand.

Lungs disorders, coughing/ choking,

eye injuries and possible cancer. P1 3 Noise Presence of heavy equipment working, vehicle

movement, generators, compressors etc.

Hearing loss, tinnitus, complaints from

neighbors, environment pollution P1 4 Vibration

Use of heavy equipments and hand tools like excavators, loaders, drilling/piling equipment, compactors & pneumatic tools, breakers, compressors , generators, traffic movement.

Vibration induced illnesses (VWF,

HAVS etc) P1

5 Ergonomic- Bad working positions

Inadequate working space. Improper work station design and DSE for office workers and for workers involved in manual handling and repetitive jobs like loading and unloading. Working in confined spaces

Musculoskeletal disorders (MSDs),

Stress, loss of vision, P3

6 Stress or fear

Long hours of work especially at night amidst noise, dust etc. Pressures from supervisors and due to poor health conditions and inadequate welfare arrangements and domestic issues. Lack of job security. Lone working by equipment operators.

Lack of productivity, suicidal

tendencies, possible ignoring hazards and causing serious injuries to self and others. Leads to violent behavior.

P3

7 Temperature - Heat exhaustion

Confined space working especially hot works. Requirements to work in open, humid and hot and dusty conditions

Heat cramps, sun burns, dizziness,

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S.No Hazard Activity/ Relevance Likely Implications* Priority **

8

Hygiene and health - Biological hazards (bacterial, viral, fungal)

Inadequate number of toilets, drinking/ eating

facilities. Toilets not regularly cleaned and eating and resting in presence of waste and decomposing and microbiological materials.

Gastro intestinal disorders, nausea,

diarrhea, legionnaires, weils diseases P3

9 Collecting waste

Lot of demolition debris (could include asbestos); concrete/construction and other wastes from canteen and first aid clinic are prevalent on site.

Health disorders like asbestosis, hepatitis/ AIDS, cut and puncture injuries during collection and segregation of wastes. P2 10 Exposure to Radiation (ionizing/ non-ionizing)

X ray testing of welding and joints of components are held on site (pipe joints for ex). Laser/ infra red and radio frequencies equipment used for level reading and surveying. UV radiation from welding.

Radiation sicknesses and serious damages to body cells and tissues including serious skin and eye injuries.

P2 3.3 Other Hazards

1 Poor lighting/ Visibility

During night working without adequate lightings or due to failure of lightings. Due to poor site layout, high vision obstructing machineries, structures, buildings, people and material movers/vehicles.

Slips, trips and falls leading to serious injuries, stress, overlooking risks, hitting against equipment and vehicles leading to serious injuries and

accidents while driving and operating equipment.

P2

2 Adverse weather conditions

Ropes and equipment becoming unstable tangled or twisted in the wind. Slippery walking surfaces. Possibility of strong winds affecting the lifting activities and high working platforms and work requiring high reaches like use of a MEWP.

Slips and falls, loss of control of lifting equipment, falling of materials causing serious personnel injuries and

damages to equipment and facilities.

P2

3 Unfamiliarity with site risks

Visitors and suppliers could visit the construction site without being properly inducted.

Serious injuries by contacting existing

risks on site. P2

4 Tress passers/ _{children/ Public} Presence of inhabited area, public and road. _{Possibility of trespassing including children}

Serious injuries up to fatality by contacting risks leading to legal litigations. Arson by nuisance makers causing fire and serious property damages.

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S.No Hazard Activity/ Relevance Likely Implications* Priority **

5 Poor communication

Multi lingual workforce not having a common

language. Signals not tied up with the riggers, banks men and the equipment operators like cranes.

Instructions not conveyed correctly, leading to negative impact of

operations causing serious personnel and property damages.

P2

6 First Aid & Welfare

Immediate facility for treatment, cleaning of wound, allergies and dermatitis might be required while working with harmful substances and conditions. Requirement of rest areas required especially during summer.

Not administering acute injury conditions leading to chronic/ aggravating the injury or conditions. Heat exhaustion, dehydration, stress etc due to lack of rest.

P3

7 Violence and threatening behavior

Presence of other contractors and public with differing opinions and requirements and also due to workers under intoxication. Poor management by immediate supervisors.

Serious physical injuries and legal

litigations and affects morale. P3

* Priority and Justifications

P1 The likelihood and severity of this hazard to take effect is very high P2 The likelihood and severity of this hazard to take effect is medium P3 The likelihood and severity of this hazard to take effect is low

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3.4 Selection of Significant Hazard

Physical Hazard: Work at height - Scaffolding

Falls from height/ scaffolding platforms are the most common cause of fatal injury and the second most common cause of major injury to employees in a construction industry. The previous company incident / accident record shows that there have been more cases related to working at height than any other hazards during the construction activity. Working on a scaffolding is undertaken on a daily basis and the likelihood of an incident happening is very high. The control presently company has in place is not adequate and it could further lead to major accidents.

Health Hazard: Noise due to Construction Machineries & Equipments

Noise and vibration are among the most widespread and underestimated of health hazards. Hearing loss caused by exposure to noise at work continues to be a significant occupational disease. There are many noisy tasks in construction. This means that workers may be exposed not only to the noise that their work is making, but also to the ambient, or background, noise of other tasks on site. A construction site is crammed with all kinds of heavy equipments, machineries (static and mobile), construction vehicles in a limited site boundary which emanate a colossal amount of noise. To worsen the scenario workers work in close proximities to these machineries. Besides the machineries, activities like drilling, demolition, breaking, piling etc also release lot of noise which affects the persons in and near the construction area badly. The severity and likelihood of hearing damage is very high in such an atmosphere and the company has not identified noise as a significant hazard and there are inadequate controls and health monitoring in place.

4. RISK ASSESSMENT

4.1 The process and methodology of risk assessment.

To do this risk assessment the guidelines in HSE’s Five Steps to Risk Assessment, HSE INDG 163(rev 2) 06/06 , INDG 362 Noise at work - Guidance for employers on the Control of Noise at Work Regulations 2005 and INDG 401 - The Work at Height Regulations 2005 (as amended) A brief guide, has been followed.

Step 1: Identifying Hazards: by checking for any available documented risk assessments and by walking around the workplace, asking employees and their representatives, manufacturer’s instructions or data sheets, previous health and accident records and visiting HSE website in construction industry area. Referring to applicable legislations like Control of Noise at Work regulations 2005 and The Work at Height Regulations (2005).

Step 2: Who might be harmed and how? : by identifying and noting down the groups of people who would be affected like physically handicapped/ special need workers; temporary workers, contractors, cleaners, visitors, members of the public including children; young workers/ trainees; neighboring contractors and analyzing how the hazard could harm them.

Step 3: (a) Assess the potential severity of any loss based on the hazard realizing its full potential if the hazardous event occurs. Ratings between 1 and 5 are chosen: 1. Fatal / Permanent disability

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2. Serious injury / illness 3. Moderate injury / Illness 4. Minor injury / Illness

5. Slight injury (No lost time). First Aid Case.

(b) Assess the Likelihood of the Hazard realizing its potential if no control measures are put in place using the following ratings:

1. Certain or imminent to happen 2. Very Likely

3. Likely

4. May Happen 5. Unlikely

(c) Risk Rating is done based on the probability of the hazard resulting in loss is given as a numerical figure between 1 and 5. The rating is calculated by multiplying the severity factor with the likelihood factor, giving a value to each on a scale of 1 to 25.

The risk rating is further divided into Low, Medium and high in terms of its loss potential and is divided into low, medium, and high in terms of action time required avoiding the loss.

Likelihood 1 2 3 4 5 S ev er it y 1₂ 1₂ 2₄ 3₆ 4₈ 5₁₀ 3 3 6 9 12 15 4 4 8 12 16 20 5 5 10 15 20 25 20 – 25: Low Risk

Personnel with competency and skills to perform the job have the authority to proceed after verbally discussing the job requirements with anyone performing the work with them. May be acceptable; however, review task to see if risk can be reduced further. 4 – 16: Medium Risk

Job shall only proceed with appropriate authorization after consultation with HS&E personnel and assessment team. Where possible, the job shall be redefined to take account of the hazards involved or the risk shall be reduced further prior starting the job. If applicable, a Permit-to-Work shall be obtained

1– 3: High Risk

The job must not proceed until it has been redefined or further control measures put in place to reduce risk. The controls shall be re-assessed for adequacy prior to starting the job.

Step 4 (a): Checking existing controls and precautions: by listing down the control procedures. They may include method statements, permit systems, training and instruction or use of personal protective equipment etc. to undertake the task safely. Cross referring to the legislations and standards to assess the controls.

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Step 4 (b): Assessing what further controls/ actions needs to be in place to reduce risks to a level of ‘so far as reasonably practicable’. This residual risk is calculated on the reduced Likelihood and Severity ratings, which are a direct consequence of the control measure being put in place.

Step 5: Review - Due to possible addition of new machines, personnel, substances or procedures which could lead to new hazards, the risk assessments would be reviewed and will take account of new hazards. In addition to that, periodically review will be done to ensure that the precautions are still working effectively.

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4.2 Legal References

1. Management of Health and Safety at Work Regulations 1999, Sec 3. 2. Provision and Use of Work Equipment Regulations 1998

3. Construction (Health, Safety and Welfare) Regulations 1996, Schedule 1-5. 4. The Work at Height Regulations (2005), Sec 6-7

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4.3 Risk Assessment – Work at height - Scaffolding

Hazards _(Who/How)Effects _RatingRisk Existing Controls Additional Controls Review

Working at height - Scaffolding- Fall of persons/ materials Workers -at height High

(1) Scaffolds are erected on a firm base with sole plates and base plates. Adequate longitudinal and diagonal bracings are provided and ties are adequately fitted where applicable.

(2) Gangways/ exposed edges are protected by top rails. All working platforms are provided with top rail, mid rail and toe boards. Loose materials to be tied back near leading edge. (3) Ladders/ step ladders/ roof ladders, proper temporary working

platforms/scaffoldings are used for working above ground.

(4) Guardrails and toe-boards are removed for

(1) Construct scaffolds to comply with Construction (Working Places) Regulations and British Standards BS EN 12811.

(2) Design drawings to be produced for load-bearing scaffolds and non-standard structures. Consider any additional plant, equipment, materials or sheeting that could impose additional loadings over and above the standard scaffold design loads.

(3) Where scaffolding is to be installed on footpaths or public areas, consent to be taken from Local Authority (Abu Dhabi Traffic department) or adjacent property owners. Therefore permissions must be sought prior to work commencing.

(4) Use MEWPs (Mobile elevated working platforms) and mobile access platforms for temporary works.

(5) Eliminate protruding edges- if not possible warning signs and banners must be put in place to warn employees.

(6) All scaffold planks and kick-boards to be well secured to scaffold structure to prevent displacement. 12-09-08 or when location is changed and new equipment and persons arrive, whichever is earlier. Workers working

under the area Medium Emergency Rescuers Low Contractors High Inspection/ Maintenance People Medium Cleaners High Public - due to material falling/ structure collapsing Medium

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Hazards Effects (Who/How)

Risk

Rating Existing Controls Additional Controls Review

access and are replaced after access has been gained. Unused ladder gaps have boards fitted to close them off. (5) Suitable signs (Hazard falling objects / Work at height) and barriers are positioned directly below works to warn of overhead operations.

(6) Area underneath the working area is cordoned and marked with safety warning tapes.

(7) Scaffoldings are erected by carpenters and fitters following manufacturer’s

instructions supervised by the line supervisor. (8) Scaffolding inspection is done by the supervisor every month and

inspection record is maintained in the office. (9) Ladders are removed

(7) Use outriggers/ guy ropes to support the scaffold.

(8) Ties removed for any purpose to be replaced or alternative ties fitted, at once.

(9) No access for persons to walk directly under the scaffolding. A flagman to be employed to warn the passers by/ public.

(10) Full edge protection & passive restraint such as nets and airbags. to be provided.

(11)Ladder to extent 1 m or 5 rungs above the landing.

(12) Appoint competent person to inspect all the height access equipment (scaffolds, ladders etc and supervise its erection and approval for work. Use only registered scaffolders under the direction of a Temporary Works Co-coordinator

(13) Traffic movements will be restricted around scaffold bases. Excavations adjacent to scaffold bases will be monitored to ensure the stability of the structure is not affected.

(14) All scaffolding must be inspected before it is first used in that position; Where conditions may cause deterioration of the structure; Within a 7 day period (Minimum weekly inspection) or as specified by the Temporary Work Coordinator or the

designer Trespassers/

Vandals

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Hazards Effects (Who/How)

Risk

or covered to prevent unauthorized access when work is not in progress.

(10) All scaffolds more than 2m height from floor levels is protected against fall of material by closing the edges by the means of toe-boards. (11) Induction training includes the precautions to be taken for working at height.

(12) Weather is forecasted prior to commencing the activity at high and avoid if any advance warning available through meteorological departments.

(13) Safety belts are provided for workers with single lanyard. Hard hats are worn by everyone.

(15) Scafftags to be fixed signed and marked green on a daily basis by the line supervisor using the equipment.

(16) Waste materials to be transferred through material lowering devices/ a waste chute attached to the main standards.

(17) Work will be monitored to ensure that

additional precautions and equipment is taken into use if edge protection is removed and no

unauthorized alterations are made on access equipments.

(18) Training/toolbox talks and instructions to be provided to all operatives and supervisory staff involved in the use of suspension equipment such as lines and harnesses, and how to inspect and assess PPE of this type before use.

(19) Maintain good housekeeping Look for and remove nuts, washers, cords, rope & tools Keep loose parts and pieces in secure containers or non hazardous area. Clean up and properly dispose of left over materials.

(21) Where edge protection is removed for access, or is not reasonably practicable, personal

suspension equipment (safety harness) with two lanyard and provision for securing/ hooking to be used by operatives working at or near the edge.

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4.4 Risk Assessment – Noise due to Construction Machineries & Equipments

Hazards Effects

(Who/How)

Risk

Noise due to Construction machineries/ equipment- Induced hearing loss, tinnitus. Workers using power tools, operating heavy machineries, riggers etc.

High (1) Signpost by adequate hearing protection warning sign (Hearing protection zones) near the noisy work area/ equipment.

(2) Breaker mufflers are fitted on generators and other machineries (3) Proper and regular maintenance of machinery and

equipment to be carried out and results are maintained.

(4) Provision of ear plugs

(1) Establish action and limit value of 85 dB (A)/ peak sound pressure of 140 dB (c) at the ear measured on a daily or weekly basis.

(2) Select and choose less noisy equipment by introducing low- noise purchasing policy for machinery and equipment.

(3) Keep the compressor/ generators and other static machineries covered

(4) Static machineries to be mounted on anti- vibration mounts & erect enclosures around machines to reduce the amount of noise emitted into the workplace or environment

(5) Screen the noise source with a barrier, soil heap or locate behind partly completed buildings. (6) Identify noisy work areas and limit the workers in and around the area by adjusting work

schedules 12-09-2008 or when location is changed and new equipment and persons arrive, whichever is earlier Workers in near vicinity. Medium Site office staffs including expectant mothers. Low Maintenance personnel/ inspectors High Subcontractors/ suppliers Medium Visitors Low

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Hazards _(Who/How)Effects _RatingRisk Existing Controls Additional Controls Review

(7) Provide sound proof rest facilities/ safe havens at the site

(8) Modify the paths of pedestrians so as to avoid passing through the noisy activity areas.

(9) Audiometry test to be conducted on all vulnerable workers/ operators and results to be conveyed and kept as records. Encourage employees to seek medical advice if hearing damage is suspected.

(10) Training to be conducted on the likely noise exposure and risk to hearing; where and how to obtain hearing protectors; how to report defects in hearing protectors and noise control equipment and employee's duties.

(11) Provide ear defenders/ muffs to all personnel who are entering the hearing protection zone.

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5. CONCLUSIONS

This Health & Safety case study provides assurance that drawbacks and gaps in the Health & Safety management system and hazards to personnel and assets have been identified and assessed and controls have been recommended where considered necessary. Also documented is the process of identification of potential risk reduction measures and whether their adoption met ALARP (As Low as Reasonably Practicable) criteria.

The actions and the time frame to close those actions raised during HSE Studies have been included in the action plan. A future update/ close-out to this case have to be documented on the review date.

It is concluded that this case study

demonstrates:-1. The company’s management system broadly covers the requirement of HSG 65 and OSHAS 18000 guidelines.

2. There was evidence of less participation from the top management or a lack of visible leadership in implementing the HSE Programs.

3. Objectives and targets for Health & safety are not being reviewed periodically.

4. Resources are not adequately planned for Health & Safety programmes by the company.

5. Employee consultations in Health & Safety affairs are not visibly practiced by the company.

6. Training and competency of staffs are inadequate.

7. Company does not have suitable arrangements for risk management. 8. Performance measurement and auditing are not being conducted regularly.

9. All the significant hazards and effects & controls have been identified, prioritized, assessed and additional controls have been recommended to manage the residual hazards.

10. The adequacy of controls for most of the hazards has been reviewed to identify whether the risks have been reduced to a level that is tolerable and ALARP and it was found inadequate.

11. The risks associated with working at height and noise has been evaluated and measures taken to reduce them to a level that is As Low as Reasonably Practicable (ALARP).

6. RECOMMENDATIONS

Management System

The significant gaps/ drawbacks in the existing management system has been demonstrated in sec 2.2 (gap analysis) and detailed action plan with target date and responsible person is demonstrated in the action plan.

Main recommendations according to their priorities to improve the existing management systems

are:-1. Review the statement of intent/ Policy with a current date and name of the person signing it. The most tangible way to assess the top management’s attitude towards is

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evident only if the policy statement is effective and covers in brief the intention of the top management and the approach towards health & safety issues. Policy statement is the first document that any person would see and thus benefit by improving the public image.

2. It may not be practically possible at times for the top management to address critical issues that needs quick decisions. Hence, appointing a competent Health & Safety management representative is required, who should be the focal point to address any issues on behalf of the top management besides his normal duties.

3. Some critical activities require specialist who are adequately trained and experienced in that field. Therefore, appointing adequate health & safety advisors or specialist is required who can perform exclusive health & safety jobs.

4. A platform is essential for coordinating or presenting key issues that needs consensus and conveyed to all departments the quickest and easiest way. Therefore, timely and scheduled meetings need to be conducted to discuss safety related issues.

5. Companies that ask employees for their views on health and safety issues can cut down on accidents. By including workers’ ideas and involving them in enforcing health and safety rules, companies can create a positive attitude towards maintaining good practice and make significant improvements collective participation of all in suggestions can yield more improvement options.

6. The best way to identify all hazards and risks is to breaking down all critical jobs and describe the method use to conduct those activities and critically assess the risks involved. This requires a system of method statements and risk assessments for all critical jobs.

7. Health & Safety programmes include provision of adequate training, personal protective equipments, reward programmes etc. Hence, allocating a budget for health & safety on all projects are essential and same must be incorporated while assessing the project values and putting forward bid proposals for new contracts.

8. All health & safety programmes needs to be measured and only by assigning a SMART (Simple, measurable, achievable, realistic and time bound) objective one can measure the performance. Only measuring gets the activity done. Hence, objectives and targets need to be clearly identified and periodically reviewed, in any case not later than yearly. 9. The management system needs to be continuously reviewed and measured so as to incorporate any changes in the company’s organization, equipment or processes. Therefore, internal audits are required to be conducted on an annual basis.

These actions benefits the company by improving the organizational capability in handling health & Safety issues more effectively, reduction of injuries and cost reduction, business interruption protection, reliability and productivity improvement, public image/ trust improvement, improve the employee relations and help the management take pro-active actions to reduce risks pertaining to workers and thus reduction in direct/ indirect costs. This will also avoid business interruption due to injuries, investigations and enforcement actions and also timely rectification of issues to avoid injuries and asset damages helping cost reductions. Some of other noticeable benefits are to win and retain contracts; avoid loss of key staffs; availability and affordability of insurance.

Physical Hazard – Working on Scaffolding

During the course of hazard reviews, all significant hazards have been identified and prioritized based on the criticality of the hazards and the risk ratings i.e. Priority P1 has the highest risk rating which is obtained by multiplying the severity and likelihood of the hazard being affected, P2 is medium risk rating and P3 is low risk rating. The methodology is detailed in section 4.

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Working at height- on scaffolding has been identified as the most significant Physical hazard in the company’s activity due to its risk rating being very high and previous incident records showing high numbers of injuries due to injuries related to scaffold workings. All existing controls were assessed and additional controls are recommended according to the hierarchies of control and level of protection that control gives in avoiding

risk:-1. It is critical to design all load bearing scaffolds properly according to the British construction standards and follow the sequence of erections.

2. Before erecting scaffolds on pathways/ roads or next to property owners, it is essential to seek permission or no objection certificates. This will avoid unnecessary business interruptions due to stoppage of work by local authorities or public.

3. Erection of temporary scaffolds/ ladders costs more time and exposes the workers to hazard during erection, ascending /descending and inspection of the same. Therefore, MEWPs or mobile access platforms should be considered for temporary works not exceeding few hours. Work can be done quicker with fewer people.

4. Most of the injuries from scaffolds occur due to fall of persons and materials. A partial restraint is required to arrest falling from height and reduce the impact of the injuries. 5. Where working at height is not avoidable above pedestrian/vehicle route, it is required

to warn and protect by providing adequate warning signs and appointing flagmen. 6. Most of the falls from ladders occur due to improper positioning of ladder at the landing

level, where the top of the ladder is shorter than the landing level. Therefore, it is required to ensure that ladders are extended at least 1 m or 5 rungs above the landing level.

7. It is necessary to warn workers/ people the worthiness of the access equipment they use. A scafftag system which is signed and inspected regularly should be put on all access equipments/ scaffoldings. Green tag for serviceable and red for unserviceable. This would reduce the incidents of structure collapse, reducing injuries, cost reduction, avoid business interruption etc.

8. A dedicated trained and competent team is required to manage the erection, dismantling, modifying, testing and inspection of all access platforms including scaffoldings and ladders, so that a common best industry standard is followed through out the site. Therefore, appointment of a scaffolding supervisor and trained scaffolders are required. Inspections to be carried out not less than once in 7 days and before its first use.

9. There is a requirement of continuously monitoring the scaffold structures for any unauthorized modifications, removal of critical components etc so as to maintain the integrity of the structure. Adequate number of inspectors must be appointed to carry out this task.

10. Requirement of people and workers be aware of the hazards present at height and the proper use of the personal protection equipment like safety harnesses must be included in the training and tools box talks.

11. It is essential to have a hooking or a securing point while using safety harnesses for which lanyards with adequate strength and provision for securing them need to be considered to ensure that at all point of time the person working at height is securely hooked to a static point. Most importantly while moving on a top working platform.

Health Hazards – Noise due to construction equipments & machineries

Noise has been considered as the most significant health hazard in a construction atmosphere as there are a lot of close interactions between heavy machineries, equipments, plants, vehicles and persons and it is a continuous process. It is practically not possible to isolate or eliminate fully such noisy activities. Taking into consideration of this fact, the following

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improvement actions are recommended based on the hierarchies of controls to reduce the impact of noise

emissions:-1. Establish the maximum exposure limit of 85 dB (A) or peak pressure of 140 dB(C) at the ear for all affected areas so that the measurements can be taken and levels exceeding can be identified and controlled.

2. Technology is advancing and there is a requirement of possibly sourcing suppliers for purchasing less noisy equipments and accordingly revise the purchasing policy and strategies and so that we can control the noise emission at the source itself.

3. In order to identify people vulnerable to induced hearing loss, audiometric tests must be conducted on a regular basis and accordingly classify them for noisy and less noisy jobs. The same needs to be done at the time of recruitment, to assess if the loss of hearing is due to occupational reasons. Likewise, exposure to noise must be limited to persons by proper job rotation, giving breaks and providing soundproof havens.

4. There is a requirement of re-routing the pedestrian walkways to ensure that they are avoiding the noisy activities and equipments so that their exposure to noise can be kept to minimum. Likewise, there is a need to re-design the vehicle routes to ensure that they avoid the public interfaces and buildings so that the noise due to transport and vehicle cause fewer nuisances to public and reduce complaints and enforcement actions. 5. Vibration of air particles and equipments is a prime cause of noise. Hence, there is a

need to mount all static machineries on vibration proof mounts and kept covered or enclosed.

6. All operatives and staffs needs to be aware of symptoms of hearing loss, the hazards of noises and the right use and maintenance of personal protective equipments like ear muffs. Training and tools box talks must include these topics. Ear muffs are better ear defenders than ear plugs. Everyone should be provided with ear muffs while entering ‘Hearing protection zones’.

By ensuring that the above mentioned controls are put in place, the company can reduce the injuries and accidents significantly and thus save on both direct and indirect costs. Improve productivity by avoiding business interruptions, enforcement actions; improve the public image and trust. Improve employee relations and will also help optimization of resources.