PROJECT LIFTING PLAN FOR TOWER CRANE

In the world of construction safety, a well-structured project lifting plan is crucial for ensuring the protection of personnel, equipment, and assets during tower crane operations. At hsedocuments.com, we provide comprehensive HSE resources to help professionals implement safe lifting procedures effectively. This article breaks down a sample tower crane lifting plan (Document Code: TC-LP-00), highlighting key elements such as manpower requirements, responsibilities, equipment checks, and crane load calculations. Whether you're a site engineer, lifting supervisor, or HSE representative, understanding these guidelines can prevent accidents and promote compliance with industry standards.

Objective

To ensure the safety of the personnel/ equipment/assets involved in lifting activities

Manpower

Deploy individuals with valid certifications (Crane operator, lifting supervisor & riggers)

A designated lifting supervisor (person in charge of PIC and banks man)

Responsibilities

Banks man / Signaler: Co-ordinate the lifting movements and maintains radio- and/or visual communication with crane operator and persons close to the load

Slinger / Rigger: Inspect the rigging, select rigging to suit the load, install the accessories and connect/disconnect the load

Lifting supervisor (PIC): Co-ordinate and control all aspects of lifting operations on site. (Banks man can be the lifting supervisor if he is competent)

Crane Operator: Pre-use inspection of crane and rig up of the crane; operating the crane and perform the lift in a safe manner taking the signals from the Banks man / Signaler only, unless in an emergency.

Lifting Equipment

Lifting Appliances and lifting accessories that carries out the actual lifting function and shall have a valid third-party certification.

Position the crane as close as possible to the load.

Barricade the location.

Verify the load chart and ensure that the distance between load and crane are in the safe limit.

Fix the load to the crane hook using the correct method of rigging depending on the shape of the load.

Gradually lift and hold for a while to ensure the stability of load and crane.

If stable execute the lifting operation.

Ensure that a single banks man is communicating with the operator.

Ensure that the hook is disengaged only after the load is positioned and secured properly.

Questions for a Safe Lift

Has everyone attended the toolbox talk?

Has a pre-use inspection of the Lifting Equipment been carried out and are the Lifting Accessories tagged or marked with: 

• A unique identification numbers 

• A valid certification date

Are all safety devices working?

Does everyone know the lifting supervisor of the lift?

Is everyone competent and aware of his or her tasks?

Is there a current Lift Plan and risk assessment and does everybody understand the job and precautions?

Is everyone aware of environmental limits (e.g. maximum permissible wind speed) for the lift?

Is the lift area controlled and is the lifting path clear?

Are signaling methods and communication agreed and understood?

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Report accidents and incidents to: HSE Manager, HSE Deputy Manager, HSE Supervisor

What is Hot Work?

Work performed with an open flame, welding arc, non-explosion proof electrical tools, or equipment capable of causing an ignition.

Training

Management and Supervisors must ensure that all employees engaged in hot work activities are trained.

Supervisor, Fitters, Welders and Helpers must be competent.

Personal Protective Equipment

Equipment is selected based on its intended use.

Employees are trained in its use.

Equipment is properly tested, maintained and worn.

The best protection comes from an interested management and work force committed to sound and safe work practices.

Protective Clothing

Required clothing varies with the size, nature and location of the work.

Only fire resistant clothing must be worn.

All welders shall use flameproof gloves.

Clothes should be free from oil and grease.

Flameproof leather (or similar material) aprons should be considered for long-term exposure to radiant heat or sparks.

PPE Components

Hardhat

Hood or Face Shield with the correct filter shade lens

Leather flame-resistant jacket

Leather spats

Respirator mask (for inadequate ventilation)

Leather, flame-resistant gloves

Leather safety boots with rubber soles and steel toe caps

Leather apron

Fire Prevention

Hot Work Permit

Required for all hot work in gas hazardous areas or near flammable/explosive materials.

Prepared by the Supervisor or Foreman involved in the work.

Should be accompanied by a risk assessment.

Clearing Combustibles

Clear the area of all combustible materials such as:

Wood

Textiles

Oils

Liquid Fuels

Grease

Fuel Safety

Fuel containers must be metal and equipped with an air-vent.

Fuel trucks must be properly grounded when refueling equipment.

Equipment must be switched off during refueling.

Fire Safety Precautions

Ensure a suitable fire extinguisher is present.

Cover immovable combustible materials with a fire blanket.

Observe all safety precautions on the Hot Work Permit.

Appoint a “Fire Watch” person.

Generator Sets

Position the Gen Set so it doesn't block work activities.

Gen sets must be securely connected to a copper grounding rod.

Direct exhaust away from workers, shelters, and confined space entrances.

A Fire Extinguisher must be placed near the Generator.

Cords, Leads and Hoses must not be a tripping hazard.

Inspect all leads, grounds, clamps, hoses, gauges, and torches daily before use.

Welding, Heating & Cutting

Welding Equipment Checks

Check for:

Loose cable connections

Loose screws

Burns or cracks in the insulation

Burned or split insulation

Damaged or dirty connection points

Electric Welding

All work must have an adequate ground / earth.

Do not leave welding rods in the electric holder when not in use.

All arcs must be shielded in all construction areas.

Never perform electric welding from ladders.

Using Welding Equipment

Perform daily inspections prior to use.

Never touch an exposed electrode with any unprotected part of your body.

Never dip an overheating electrode holder in water to cool it.

Use an insulating mat if kneeling on the work piece.

Dispose of electrode stubs into metal bins.

Place electrode holders on insulation material when not in use.

Switch off the Generator if work is stopped for an extended period.

Safety Related to the Use of Gas Cylinders

Compressed Gas Cylinder Colour Coding

Oxygen (Blue)

Acetylene (White)

Argon (Grey)

CO2 (Black)

Safety Signs for Storage

Cylinder storage areas must be signposted with Danger Warning signs.

Signs must identify each hazard in the area.

Securing Compressed Gas Cylinders

Always store cylinders:

In racks

In the upright position

Secured with steel chains or clamps

With the cylinder valve fully closed

Store full and empty cylinders separately by gas type.

Areas Where Cylinders Must Not Be Stored

Never store cylinders near:

Excessive heat sources (pipes, boilers, radiators, furnaces)

Flammable liquid storage containers

Emergency evacuation routes (doorways, exits, stairwells)

Areas where they can be knocked over by vehicles

Confined spaces or near their entry/exit/ventilation points

Manual Handling of Cylinders

Hands should be free of grit, grease, and oil.

Move cylinders in bottle carts or specially designed carriages.

If a cylinder falls, do not move it for 30-40 minutes.

Transporting Cylinders in a Vehicle

Transport upright in specially designed, certified vehicles.

Secure with steel clamps or chains.

Never transport in the vehicle cab.

Never allow any part to overhang the vehicle.

Raising and Lowering with a Crane

Must use cages.

Secure cylinders in the cage at all times.

Never lift by attaching chains or slings directly around the cylinder.

Positioning Cylinders and Hoses

Position hoses so they will not be:

Burned by sparks

Cut by sharp objects

Crushed by vehicles

A trip hazard

Checking Hoses

Hoses must be free of cuts, cracks, burns, or worn patches.

Never use the wrong coloured hose for the gas type.

Replace leaking hoses immediately.

Never use tape to repair leaks.

Use soapy water to check for leaks.

Shut off the cylinder valve and vent equipment before tightening connections.

Checking the Handpiece

Select the proper tip for the job.

Ensure the tip is clean and not blocked.

Always shut the gas OFF at the regulators when changing tips.

Never shut off gas by crimping the hose.

Check valves must be fitted between the handpiece and the hoses.

Checking Pressure Regulators

Open the cylinder valve slowly.

Open the pressure adjusting screw first.

Never drop or hit regulators.

Maintain a uniform gas supply.

Reduce gas pressure to the working pressure.

If a regulator leaks: close the cylinder valve, remove and tag it for repair.

Never allow oil, grease, etc., to contact an Oxygen regulator.

Flash Arrester / Safe Practices

Anti-flashback arrestors shall be installed on hoses.

Before connecting regulators, open the cylinder valve slightly to blow out particles.

Stand to one side when opening the cylinder valve after regulator connection.

Open the cylinder valve slowly.

Ensure the second stage of the regulator is closed before opening the cylinder valve.

PPE for Gas Cutting and Welding

Always wear the correct filter shade (#10 for welding, #4 for gas cutting).

Use a face shield.

Respiratory Protection

Provide ventilation and/or respiratory protection for hazardous fumes.

Respiratory protection is mandatory for cadmium alloys or coated materials.

Hot work on exotic metals/paints inside confined space requires Project Manager approval.

Any confined space work requires a PTW (Permit to Work).

Welding Gases, Fumes and Radiation

Toxic gases: Ozone, Nitrogen Oxides, CO2

Toxic fumes: Cadmium Oxide, Chromic acid, Copper, Nickel, Vanadium, Zinc Oxide

Radiation: Infra-red, Ultra-violet

Starting Up the Equipment

Always open the pressure adjusting screw before opening the cylinder valve.

Open the cylinder valve slowly with the standard key.

Never extend the key with a spanner or pipe.

Welding on Tanks

Requires Area Supervisor inspection to decide on precautions.

Tanks must be free from flammable gases/vapors and cleaned, or filled with an inert medium.

Test holes must be drilled and gas tests taken before cutting tank bottom plates.

Safe Practices (Gas)

Open fuel gas cylinder valves a quarter turn only.

Open oxygen cylinder valves completely.

Keep the valve wrench in place during use.

Do not exceed 15 psi on the torch side for acetylene.

Use a friction flint lighter to light a handpiece; point the tip away from people.

Never use matches, lighters, or cigarettes to light handpieces.

Never use oxygen to pressurize tools, blow out lines, or clean clothing/areas.

Shutting Down the Equipment

Always close the fuel gas first, then the oxygen.

Never put a torch down until gases are completely shut off.

Remove torch, roll up hose, remove regulators, and attach cylinder protective caps.

Use handpiece valves for short shutdowns.

For overnight: Close cylinder valves, open torch valves to vent, close torch valves, and cap cylinders.

Heat Stress

Supervisors should monitor personnel for signs of heat stress.

Provide adequate fluids to replace water and minerals.

Encourage water drinking and train on recognizing symptoms.

Normal body temperature is 98.6°F / 36.6°C.

Safety Related to the Use of Grinders

Selecting Grinding Wheels

Use reinforced organic bonded wheels.

Use soft grade wheels on hard materials.

Use hard graded wheels on soft materials.

Never use cutting wheels for grinding.

Ensure operating speeds of the wheel and grinder match.

Never exceed the rated speed of the wheel.

Never use discs after their expiry date.

Reasons for Angle Grinder Injuries

Using the wrong type of wheel.

Using an unbalanced wheel.

Exceeding the rated speed.

Using a cracked, chipped, or broken wheel.

Using a cutting wheel to grind.

Taking too deep a cut.

Incorrectly securing the work.

Failure to wear correct PPE.

Not securing the wheel tightly enough.

Over-tightening the wheel.

Testing the Wheel

Tap the wheel 45 degrees from the centre line and 25mm in from the edge.

A sharp "ping" sound is good; a dull sound means the wheel is damaged.

Checking the Grinder

No cracks in the casing.

Functional "Deadman" switch.

Secure grip handle.

Intact casing screws.

Secure guard.

No more than 150-degree exposure of the wheel.

Personal Protective Equipment (Grinding)

Face shield and safety glasses

Ear muffs

Overalls or close-fitting clothing

Close-fitting canvas or leather gloves

Safety boots

Operating the Grinder

Remove flammables.

Secure the work piece in a vice or clamp (never use your foot).

Keep work piece at waist height if possible.

Adopt a comfortable stance.

Keep both hands on the grinder.

Run the grinder up to speed before use.

Apply minimal pressure.

Avoid excessive force.

Fully position the guard between you and the work.

Position the wheel between 15 to 30 degrees.

Take frequent breaks.

Never put the grinder down until the wheel stops.

Don't drop grinders.

Unplug the power cord when not in use.

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BOBCAT DAILY INSPECTION CHECKLIST

BOBCAT Daily Inspection Checklist – A practical tool by HSE Documents to ensure the safety and reliability of BOBCAT machinery. This checklist helps operators identify mechanical issues, check fluid levels, and verify safety features before use—promoting accident prevention, equipment longevity, and compliance with workplace safety standards.

Don’t Operate the machine if any of bellow checks are not compliant

1. No danger or caution tags are attached to the isolation points

2. Check wheel, Bolt, Tire/track condition, damage and leaks

3. Check engine bay for leak and loose belts

4. Check engine oil and hydraulic oil level

5. Check all grease points are greased

6. Check seat safety bar isolate controls

7. Sound Horn, start engine and check hydraulic operation

8. Check seat function and seat belt

9. Check bobcat frame and attachments

10. Check all gauges, warning lights and reverse alarm is working properly

11. Check engine bay oil leaks and buildup of debris

12. Check coolant level

13. Check fuel level

14. Check the foot break and accelerator pedal operation Check all pressure gauges are operating in normal range with running engine

15. Check loader frame and bushes for movement

16. Check for smooth operation of controls

17. Check condition of bucket

18. Check condition of locking mechanism

19. Check all lights are in good working condition

20. Check all hydraulic hoses for damage and leaks

21. Check all guards, handrails, steps & Covers

Sight obstruction in the operator cabin (Curtain, Carton, etc.)

1. Check cabin for housekeeping Check Fire Extinguisher & First aid Kit

2. Operator certificate & License

3. Third Party Inspection Certificate, Company Monthly Color-coding Inspection Sticker and Project Client Equipment Sticker.

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RISK ASSESSMENT FOR THE PAINT WORK OF TANK

This risk assessment focuses on identifying hazards, evaluating risks, and implementing control measures during the paint work of tanks, including confined space entry, working at height, flammable materials, and exposure to toxic fumes. It ensures worker safety through proper PPE, ventilation, and permit-to-work systems. Uploaded by HSE Documents, a free global resource for HSE professionals, this assessment is an essential reference for industrial safety, paint job risk control, and tank maintenance HSE compliance. Ideal for those seeking reliable health and safety documentation for hazardous tasks.

1.0. Activity

1.1. Shifting of tools and Materials at site.

1.2. Preparation & Application for the Paint Activity

1.3. Work at Height

1.4. Night working

1.5. Housekeeping

2.0. Possible Hazard

2.1. Unaware of site condition.

2.2. Improper Manual handling

2.3. Uninspected tools

2.4. Flammable material, Source of ignition, Health Issues

2.5. Uninspected scaffolding platform. 

2.6. Fall of Person

2.7. Falling Object

2.8. Slip, trips, and fall

2.9. Slippery Surface

2.10. Hand injury

3.0. Effect of the hazard

3.1. Injury

3.2. Bone injury

3.3. Equipment damage

3.4. Property damage

3.5. Health Issues

3.6. Fall of load, Fall of Person

4.0. Control Measures

4.1. Heavy load to be lifted mechanically.

4.2. Proper manual handling Training & TBT shall be conducted.

4.3. Manual handling to be avoided for weights exceeding then (20 kg) load limits of individuals.

4.4. Load to be divided.

4.5. Avoid awkward posturing while lifting loads manually. 

4.6. LITE (Load, Individual, Task, Environment) to consider and proper manual handling techniques shall be adopted.

4.7. Overloading should be avoided.

4.8. Inspected tool shall be used.

4.9. Access must be clear from any obstruction.

4.10. Dip trays shall be used to avoid any leakage of paint.

4.11. Minimum quantity of the paint shall be stored at the site.

4.12. All painting material shall be stored at well ventilated   areas.

4.13. Mixture compound must be away from the hot work activity. 

4.14. Do not implement electricity work near paint work activity.

4.15. Mandatory PPE must be worn during the activity because it causes potential harm through inhaling, lungs issues, breathing issues, skin disease etc.

4.16. Fire extinguisher must be available at site.

4.17. Temporary working plat forms must be inspected and tagged by 3rd party certified scaffolding inspector. 

4.18. Only yellow tagged scaffolding platform is allow to be used.

4.19. Ladders for access will be provided and planks must be secured with binding wire.

4.20. 3rd party certified full body harness 100% tie-off  must be use, when height is 1.8 meters and above.  

4.21. Workers having height phobia will not be assigned to Work at height.                                    

4.22. Tool transportation (Pull ups. Pull downs) will be done with rope.                                           

4.23. Work at height area will be cordoned off for preventing un-authorized entry and Safety signs and safety instructions will be provided to keep nearby workers alert and safe.      

4.24. Work at height will be suspended in case of adverse weather.  

4.25. Material is not allowed to store on platform. 

4.26. Sitting and moving on the pipelines and structure is strictly prohibited and zero tolerance on it.      

4.27. Proper arrangement of lights shall be made.

4.28. All workers shall use mandatory PPEs and high visibility west during night working.

4.29. A safety officer shall be present at site while night working.

4.30. Ensure regular visual inspection and maintenance of lighting equipment’s.

4.31. Unwanted materials must be removed from working site 

4.32. Good housekeeping to be maintained 

4.33. Proper stacking of material should be done and shall be barricaded.

4.34. Material segregation to be maintained.

4.35. Proper housekeeping shall be ensured.

4.36. Snake catcher must be available at site during night working.

4.37. Ensure proper housekeeping of the area all the time

4.38. Remove unwanted material from the site.

4.39. Usable material keeps in a temporary material storage area with a hard barricade and signage.

4.40. Proper stacking of material must be done to avoid the line of fire.

4.41. Keep access way always clear from any obstructions

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HSE Communication Register

The HSE Communication Register is a vital tool from HSE Documents, offering a free, globally accessible download for HSE professionals. It enables systematic documentation and tracking of all internal and external health, safety, and environmental communications. Ideal for ensuring clarity of responsibilities, maintaining compliance, and enhancing engagement, this register supports effective HSE coordination across teams and stakeholders.

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RISK ASSESSMENT FOR DRIVING – FATIGUE

An interesting resource on fatigue for HSE personnel internationally, yet also a free download for the practitioner to utilize during their assessment of work-related driving hazards associated with fatigue. Those areas of hazard identification include assessments of fatigue factors relating to driver, vehicle, and journey and techniques to control the identified factors, from roster planning to breaks and training, into this essential resource for legal compliance and safety operations. to download more HSE free content, visit HSE Documents.

1.0. Hazards

1.1. Prolonged driving hours – driving continuously for several hours especially over 17+ hours awake.

1.2. Night driving/circadian lows – driving during natural drowsy periods (e.g. early morning post-lunch).

1.3. Monotonous routes/environment – long unchanging motorway stretches.

1.4. Sleep disorders or poor sleep quality – conditions like sleep apnea shift-work sleep deprivation.

1.5. Use of medications or substances – prescription/OTC drugs alcohol that cause drowsiness.

2.0. Risks

2.1. Microsleeps – brief lapses in consciousness lasting up to 2 seconds, enough to travel ~50 m at speed.

2.2. Delayed reaction time – slowing down reflexes similar to being over the legal alcohol limit after 17 hours awake.

2.3. Poor decision-making/judgment – fatigue impairs lane-keeping, braking, overtaking.

2.4. Drowsy-driving crashes – fatigue-related collisions twice as likely to be severe or fatal.

2.5. High-risk groups – night-shift workers, commercial drivers, younger males, sleep disorders sufferers

3.0. Risk Control Measures

3.1. Limit hours, enforce rest periods, FRMS

3.2. Schedule to avoid high-risk times, shift design

3.3. Use fatigue-detection tech, anti-fatigue zones

3.4. Health screening, medical follow-ups

3.5. Medication review, self-reporting requirement

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RISK ASSESSMENT FOR RADIOGRAPHY

For regulatory compliance and safety during Radiography work, this Risk Assessment uploaded by HSE Documents is to be considered. Here one can find comprehensive procedures of radiation safety, occupational controls on radiation exposure, and ALARA implementation. The study and analysis of hazards comprising ionizing radiation hazards, hazards to radiographic equipment, and analysis of control measures constitute a major feature of this book. The study also emphasizes the application of landmark HSE standards such as OSHA, IAEA, and NRC in radiation protection techniques, use of PPE, and radiation monitoring instruments. This further guides you through steps to ensure workplace safety concerning radiographic testing safety, emergency preparedness, and training of human resources. It.is ideal for radiographers, safety officers, and facility managers who aspire to reduce health hazards, abide the Health & Safety Standards, and create a living environment for all. Download this Handbook now to gain insights on radiography safeguards and workplace safety best practices.

1.0. Activities 

1.1. Mobilization of crew and Transportation of Radioactive isotope

1.2. Setup of Equipment (Isotope equipment & accessories)

1.3. Radiographic Testing (Use of Radiographic Source)

1.4. Radiography

1.5. Working at Night (Subject To client Approval.)

1.6. Driving at Night

2.0. Hazards

2.1. Personnel being run over or struck by moving

2.2. Vehicles 

2.3. Collision with existing facilities and assets

2.4. Run away vehicle

2.5. Isotope source

2.6. Falling of Equipment

2.7. Slip & Trip

2.8. Isotope source

2.9. Exposure to ionizing radiation

2.10. Slip & Trip

2.11. Exposure to Ionizing

2.12. Radiation

2.13. Night work/ driving.

2.14. Visibility low due to darkness

2.15. Less Traffic on the road for help and support.

2.16. Possibility of fog/poor visibility.

3.0. Causes

3.1. Uncontrolled

3.2. Vehicle movement

3.3. Using unauthorized route

3.4. Mechanical failure.

3.5. Incompetent Driver

3.6. Damage source protection

3.7. Improper Handling 

3.8. Poor house keeping

3.9. Materials on walk ways

3.10. Uneven ground

3.11. Incompetent technicians

3.12. Unauthorized entry

3.13. Poor housekeeping

3.14. Unauthorized entry.

3.15. Incompetent technicians

3.16. Poor Lighting.

3.17. Poor visibility

3.18. Sand Storm

3.19. Fog

3.20. Extreme high

3.21. Temperature & humidity

4.0. Existing Barrier/Control 

4.1. Follow Radiation

4.2. Transportation Procedure road safety requirements

4.3. Approved vehicles to be used.

4.4. Flasher warning lights and isotope cards to be displayed in rear & both side of the vehicle when carrying radiation source.

4.5. TBT to be conducted prior to the beginning of each shift.

4.6. Proper manual handling procedure to be followed.

4.7. Check equipment is in good working order

4.8. Use necessary PPE (Hand gloves, safety shoes, etc.)

4.9. Only authorized personnel shall be allowed to handle & setup the equipment

4.10. Permits

4.11. Daily personnel dose log to be maintained and closely monitored

4.12. Radiation area shall be checked to avoid any activities

4.13. The area around the radiography activity must be barricaded according to the calculated distance.

4.14. Warning signs shall be provided on all sides.

4.15. All technicians in the crew shall wear their personal TLD badges and dosimeters.

4.16. Permits if any to be obtained Display sign boards & flickering lamps.

4.17. Provide safe access Radiography to be confined in the barricaded area.

4.18. Use full PPE.

4.19. Road safety requirement. Radiation area shall be checked to avoid any adjacent activities.

4.20. Provide sufficient light. Work area to be barricaded properly.

4.21. Provide flashing lights for road access.

4.22. Approved communication system to be used in Road safety requirement.

4.23. Provide flashing lights for road access.

5.0. Risk Control Measures

5.1. Approved Emergency

5.2. Procedures in place

5.3. Engage Hand brakes while parking.

5.4. Ensure vehicles and equipment will remain at safe working distance from live pipelines.

5.5. Approved mandatory

5.6. PPE should be worn by all crew members.

5.7. Approved Emergency Procedure

5.8. Provide good house keeping

5.9. Maintain proper communication

5.10. Before starting the work, level the working area.

5.11. Emergency equipment must be available at site

5.12. Emergency Contact numbers must be available at site ensure that no other work is being carried out within the affected radiation zone.

5.13. Flashing lights are displayed at all sides.

5.14. Emergency equipment must be available at site

5.15. Emergency contact numbers must be available at site.

5.16. Ensure no other work being carried out within the affected zone.

5.17. Engage hand breaks while parking.

5.18. Break time provided. Keep safe distance as per the curie used.

5.19. Drive at reduce speed. Driver had enough rest.

5.20. Driver is familiar with the road.

5.21. Vehicle should be suitable for the journey.

5.22. No deviation from the approved road.

5.23. Speed limit shall be followed. Slow down when approaching pipeline crossings, Communication Means Sufficient drinking water for crews

5.24. Extra care is to take whilst driving on the road during inclement weather conditions.

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HSE DOCUMENTS-METHOD STATEMENT FOR ROAD WORKS

1.0 Purpose

This method statement clearly sets out guidelines for the working procedure of asphalt road laying at ABC Facilities Project, ensuring adherence to project specifications, HSE standards, and quality control requirements. In alignment with HSE Documents uploaded guidelines, the document incorporates the best SEO tools for optimum readability and searchability.

2.0 Scope of Work

The present method statement covers the construction of asphalt roads as set out in the approved drawings and project specifications. It ensures that all activities comply with the HSEQ-(Health, Safety, Environment, and Quality) standards and employ SEO-optimized keywords for documentation management. The very basic key steps are: 

Site preparation

Base and sub-base laying

Asphalt mixing and paving

Compaction and finishing

Quality inspections

To download the comple file, click below link:

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HSE DOCUMENTS-HSE INDUCTION AGENDA FOR NEW JOINERS

An appropriate HSE induction agenda is integral to the compliance of a workplace with safety measures. It ensures that newly recruited employees know occupational hazards, emergency procedures in annex usage, personnel protective equipment requirements, and the company's safety policies. Topics would include risk assessment, fire safety, first aid, and incident reporting.

It also emphasizes that an effective HSE induction will enable an organization to reduce accidents, promote safety awareness, and comply with regulations. The training would include interactive programs and safety practices such as drills and review documentation.

HSE management systems will optimize clearer agendas: employee safety, OSHA alignment, and hazards prevention. Also, ensure workplace safety training becomes a priority to create a zero-harm culture. 

1.0. HSE Introduction 

1.1. Importance of HSE in facility management and FLS services. 

1.2. Company HSE policy, objectives, and culture. 

1.3. Employee roles and responsibilities under IOSH//OSHA/ADOSH. 

2.0. Legal and regulatory requirements

2.1. General idea on IOSH//OSHA/UAE ADOSH regulations and other international standards (for example ISO 45001). 

2.2. Principles on "Working Safely" of IOSH. 

2.3. Non-compliance leads to punishment (fines, incidents, reputational damage). 

3.0. Workplace hazards in facility management 

3.1. Common hazards-Slips/trips/falls, electrical risks, working at height, confined spaces, moving machinery, chemical exposure (cleaning agents). 

3.2. FLS-specific risks-Fire system maintenance, hot work permits, gas safety, and emergency lighting checks. 

3.3. Hazard identification and reporting protocols. 

4.0. Fire safety & emergency handling 

4.1. Fire prevention (storage, ignition sources). 

4.2. Using extinguishers and suppression systems done practically by video. 

4.3. Evacuation routes, assembly points, and responsibilities during drills. 

4.4. ADOSH-related rules for fire safety in facilities. 

5.0. Safe work practice 

5.1. Permit-to-work (PTW) s: Lockout/tagout (LOTO), confined space entry, hot work. 

5.2. Manual handling: Safe lifting are techniques for equipment/loads. 

5.3. PPE: Types (gloves, helmets, safety shoes, harnesses) and their correct usage. 

5.4. Toolbox talks and daily risk assessments.

6.0. Incident Reporting and Investigation 

6.1. Incident/near-miss reporting procedures (company-specific forms/software).

6.2. ADOSH timetable for incident reporting.

6.3. Report near misses to avert similar accidents in the future. 

7.0. Environmental Management 

7.1. Waste segregation (e.g. hazardous waste from maintenance activities).

7.2. Energy/water conservation in the operation of the facility.

7.3. Control of spill and prevention of pollution. 

8.0. Health & Wellbeing 

8.1. Heat stress prevention (very critical for UAE/or as per your State/country’s outdoor work).

8.2. Ergonomics in desk-based and manual roles.

8.3. Awareness of mental health and supportive resources. 

9.0. Company-Specific Protocols 

9.1. Site-specific risks client facilities, high-rise buildings).

9.2. Client HSE requirements (if any).

9.3. Contact information for HSE officers and first aiders. 

10.0. Assessment & Q&A 

10.1. A quick quiz to double-check understanding (e.g. fire extinguisher types, hazard reporting).

10.2. Open Forum for questions.

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HSE DOCUMENTS-RISK ASSESSMENT FOR SITE DUMPERS

The "Risk Assessment for Site Dumpers" by HSE DOCUMENTS identifies potential hazards associated with operating site dumpers, such as overturning, collisions, and manual handling risks. It evaluates the likelihood and severity of incidents, providing control measures to mitigate risks. The assessment ensures compliance with safety regulations, promotes operator training, and emphasizes regular maintenance to enhance workplace safety and prevent accidents during dumper operations.

1.0. Hazards 

1.1. Faulty equipment.

1.2. Failure of hydraulic systems or mechanical components.

1.3. Risk to the driver during the movement of materials.

1.4. Dumpers reversing into ditches or excavations or overturning on severe inclines.

1.5. The risk of a dumper overturning may increase depending on soil content, ground type, or weather conditions.

1.6. Risk of the driver being flung from the vehicle or crushed.

1.7. General misuse of dumpers.

1.8. Unauthorized access to or start-up of vehicles.

2.0. Risks

2.1. Equipment malfunction can lead to accidents or injury, such as crushing, falling materials, or exposure to hazardous energy.

2.2. Increased likelihood of fire, electrical shock, or electrocution.

2.3. Downtime, leading to operational delays or reduced productivity.

2.4. Damage to materials or property.

2.5. Sudden failure can cause loss of control of equipment, leading to accidents such as crushing or entrapment.

2.6. Hydraulic fluid leakage can cause fire hazards, contamination of the environment, or exposure to toxic materials.

2.7. Injury to workers due to high-pressure releases or moving parts.

2.8. Disruption of operations and costly repairs.

2.9. Accidents involving collisions with other vehicles, workers, or stationary objects.

2.10. Risk of overturning or tipping over due to improper loading or poor handling of materials.

2.11. Exposure to hazardous materials, such as dust or chemical spills.

2.12. Strains and injuries from improper lifting or positioning of materials.

2.13. Fatigue or distraction causes poor decision-making.

3.0. Risk Control Measures

3.1. The Provision and Use of Work Equipment Regulations 1998 require work equipment to be subject to formal, recorded inspection performed at suitable intervals.

3.2. Dumpers should be subject to recorded weekly and daily user inspection.

3.3. Implement regular maintenance and inspection schedules to detect faults early.

3.4. Ensure all equipment is tested and certified by competent personnel.

3.5. Provide training to operators on proper equipment usage and fault detection.

3.6. Establish a procedure for reporting and replacing faulty equipment immediately.

3.7. Use equipment with built-in safety features, such as emergency stops or overload protection.

3.8. Maintain a clear tagging system for non-operational equipment to prevent accidental use.

3.9. The project risk assessment should determine the necessity of fixing suitable barriers or anchored stopblocks around excavations or within inclines to prevent excavation edges from failing or vehicles slipping on slopes.

3.10. The Project risk assessment must be reviewed regularly to take into account weather and ground conditions, particularly on inclines.

3.11. Excavations not currently being worked upon must be adequately signposted and all operators must be informed of the hazard.

3.12. Where necessary, traffic routes should be identified and suitable barriers installed at a safe distance from an excavation.

3.13. The safe distance for barriers should take into account ground and weather conditions and the type of excavation support in use.

3.14. The Provision and Use of Work Equipment Regulations 1998 require plant equipment to be fitted with restraining seat belts, and, where there is a foreseeable risk of the vehicle overturning, drivers must wear the seat belt.

3.15. The requirement for dumper operators to wear seat belts, and if so, in which location should be stipulated within the project risk assessment.

3.16. Where a project risk assessment does not take place, dumper operators must be instructed that the wearing of seat belts is mandatory.

3.17. Conduct regular inspections and testing of hydraulic systems and mechanical components, especially pressure lines, pumps, valves, and seals.

3.18. Ensure all hydraulic components are fitted with appropriate pressure relief valves to prevent over-pressurization.

3.19. Train operators in identifying early warning signs of system failure, such as unusual noises or leaks.

3.20. Install safety barriers and guards around mechanical parts and moving components.

3.21. Use proper locking and tagging systems during maintenance or repair activities.

3.22. Develop and implement a fail-safe mechanism to safely shut down the system in case of a malfunction.

3.23. Dumpers must be operated by competent, certificated drivers only.

3.24. The project risk assessment should identify particular areas or work tasks that should not be accessed or undertaken by inexperienced dumper operators.

3.25. These may include:

3.26. Working adjacent to waterways

3.27. Working adjacent to deep excavations

3.28. Working on specified inclines

3.29. Working where there is heavy site traffic present

3.30. Travelling on the public highway

3.31. Moving large or bulky loads which may obscure visibility

3.32. Ensure the vehicle is equipped with proper safety features, such as seat belts, roll-over protection, and mirrors.

3.33. Establish clear and safe routes for material movement to avoid pedestrian areas.

3.34. Provide training to drivers on safe material handling, load securing, and operating procedures.

3.35. Regularly inspect and maintain vehicles and material handling equipment to ensure they are in safe working condition.

3.36. Use spotters or assistants when driving in congested or high-traffic areas.

3.37. Implement a system for regular breaks to prevent driver fatigue, and discourage distractions while driving.

3.38. Conduct safety audits and risk assessments of routes, materials, and equipment regularly.

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