This Job Safety Analysis sheet summarizes the key safety steps and hazards for a job involving heat treatment of a pipe spool. The key steps are planning, heat treatment, and windup/housekeeping. Hazards identified include electrical shock, fire, and burns from hot pipes. Precautions specified are obtaining permits, barricading work areas, ensuring proper insulation and dry conditions, monitoring equipment temperatures, and conducting a toolbox talk. The JSA also notes not leaving equipment unattended and prohibiting rapid heating/cooling of pipe segments.
This document provides an overview of lockout/tagout procedures for hazardous energy sources. It defines who needs lockout/tagout training, what hazardous energy is, and the different types of lockout devices. Lockout procedures involve 6 steps - notifying employees, shutting down equipment, isolating energy, attaching lockout devices, releasing stored energy, and verifying lockout before servicing. The document lists examples of hazardous energy sources and injuries that can occur if energy is not properly locked out, and emphasizes the importance of following energy control programs and written lockout procedures.
13 Initial Project Site Office Set-up Risk Assessment Templates
Working adjacent to public areas
Vehicles/Plant Equipment movements
Groundworks / excavations
Excavation in site area
Trial trenches, septic tank excavation etc.
Works at Height
(Office cabin set-up)
Use of Ladders and stepladders
Mobile Crane operation
(Cabin/unit placing)
Temporary electrics - offices
Site generators – offices and site
Establishing exclusion zones • Personnel in area • Unauthorized access to test area;
• Workers struck by flying materials;
• Worker struck by High pressure water release;
Signage to test area • Personnel in area • Unauthorized access to test area;
• Inadequate signage to test area;
Pressure testing • High pressure to pipework; • Uncontrolled Stored Energy release;
• Rupture/failure in Pipe lines during testing;
• Valve/connection failure;
• Instrument failure resulting in system over-pressurization;
• End caps/plugs ejecting under high pressure;
• Weld/seal/fitting failure, flying objects;
• High pressure water/air injection.
Emergency procedures • High pressure to pipework; • Emergency procedures not briefed to task workers;
• Poor response in the event of an emergency;
Re-testing in the event of failure • Re-testing with high pressure • Injury due to uncontrolled testing;
• Worker injury due to working on pressurized system;
• Injury due to failure to ensure adequate pre-checks undertaken;
26 Storage of Substances under CoSHH Risk Assessment Templates.docxDwarika Bhushan Sharma
Project Name: xxx
RA Ref No.: xxx
RA compilation Date: Review date:
Date:
Compiled by:
Reviewed by:
Approved by:
Overall Task Details
Storage of substances classified under CoSHH on project sites, such as paints and associated thinners and cleaners, protective coatings, additives, adhesives and sealants, chemical sprays, fuels and oils, etc. Relevant Applicable MAS:
• 00939 – Storage of Substances Hazardous to Health Additional Training required:
NOC’s Required for task:
RISK SCORE CALCULATOR
Use the Risk Score Calculator to Determine the Level of Risk of each Hazard
What would be the
CONSEQUENCE
of an occurrence be? What is the LIKELIHOOD of an occurrence? Hierarchy of Controls
Frequent/Almost certain (5)
Continuous or will happen frequently Often (4)
6 to 12 times a year Likely (3)
1 to 5 times a year Possible (2)
Once every 5 years Rarely (1)
Less than once every 5 years Can the hazard be Eliminated or removed from the work place?
Catastrophic (5)
Multiple Fatalities High 25 High 20 High 15 Medium 10 Medium 5 Can the product or process be substituted for a less hazardous alternative?
Serious (4)
Class 1 single fatality High 20 High 16 High 12 Medium 8 Low 4 Can the hazard be engineered away with guards or barriers?
Moderate (3)
Class2 (AWI or LTI) or Class 1 Permanently disabling effects High 15 High 12 Medium 9 Medium 6 Low 3 Can Administration Controls be adopted
I.e. procedures, job rotation etc.
Minor (2)
Medical attention needed, no work restrictions. MTI Medium10 Medium 8 Medium 6 Low 4 Low 2 Can Personal Protective Equipment & Clothing be worn to safe guard against hazards?
Insignificant (1)
FAI Medium10 Medium 4 Low 3 Low 2 Low 1
No Specific Task Step
(In sequence of works) Hazard Details Consequence/Risk Initial Risk Rating Control Measures Residual Risks Additional Control Measures RR
L C RR
1 PRIOR TO / AT SITE DELIVERY • Hazardous substances • Poor or incorrect substance storage due to lack of manufacturer’s specification; 3 3 9 MED i. Store operatives to ensure a Hazard Data Sheet is supplied ideally prior to substance delivery, if not supplied when delivered to site; Documentation unavailable for review Substance quarantined until evidence provided Low
2 Storage • Storage of Substance potentially hazardous to worker health or to the environment; • Possible inhalation, absorption of hazardous fumes, vapor and substances hazardous to health;
• Build-up of flammable vapor in confined area;
• Fire;
• Inadequate cooling and ventilation of storage resulting in ill health or combustion;
• Inadequate signage and substance identification;
• Poor controls over distribution of substances/chemicals;
• Excessive quantities issued to work areas;
3 4 12 HIGH i. HLG Workplaces storing hazardous substances/chemicals, using hazardous materials and/or generating hazardous waste shall have a hazardous materials management system;
ii. A plan of the store showing locations of the hazardous materials / wastes
A Job Safety Analysis (JSA) is used to identify hazards and control risks associated with safety-critical tasks. It involves breaking the task down into steps, identifying hazards at each step, assessing risks, and defining controls to reduce risks. Developing a JSA requires identifying those involved in the task, breaking it into steps, identifying hazards and initially assessing risks at each step, defining controls, assessing residual risks, and documenting the analysis. Regular review and update of JSAs is important when conditions change.
This document discusses confined space entry and safety. It defines a confined space as a space large enough for entry, with limited means of entry/exit, not meant for continuous occupancy. Examples include boilers, sewers and bins. Hazards include oxygen deficiency, toxic gases, engulfment and process hazards. Proper entry procedures require isolating, ventilating and testing the atmosphere of the space, using permits and attendants to monitor entrants. Rescue procedures and emergency planning are also vital parts of safe confined space work.
FULL BODY HARNESS INSPECTION RECORD Form # HSEQ - FBHIR Rev 2.docxDwarika Bhushan Sharma
Harness Checklist
Sl. No
………. Sl. No
………. Sl. No
………. Sl. No
………. Sl. No
………. Sl. No
………. Sl. No
………. Sl. No
………. Sl. No
………. Remarks
Shoulder Straps
Chest & Back Straps
Waist Straps
Back D-Ring
Shoulder Adjustment
Legible Label
Shoulder Straps
Chest & Back Straps
Waist Straps
Leg Straps
Cuts
Burns
Holes
Deterioration
Corrosive/ worn out
Color code
Others (Specify)
Project Information
Project Name: Location:
Company name : Date:
Remarks:
Inspector Name: Signature:
Reviewed By HSE Manager / Incharge Signature:
This Job Safety Analysis sheet summarizes the key safety steps and hazards for a job involving heat treatment of a pipe spool. The key steps are planning, heat treatment, and windup/housekeeping. Hazards identified include electrical shock, fire, and burns from hot pipes. Precautions specified are obtaining permits, barricading work areas, ensuring proper insulation and dry conditions, monitoring equipment temperatures, and conducting a toolbox talk. The JSA also notes not leaving equipment unattended and prohibiting rapid heating/cooling of pipe segments.
This document provides an overview of lockout/tagout procedures for hazardous energy sources. It defines who needs lockout/tagout training, what hazardous energy is, and the different types of lockout devices. Lockout procedures involve 6 steps - notifying employees, shutting down equipment, isolating energy, attaching lockout devices, releasing stored energy, and verifying lockout before servicing. The document lists examples of hazardous energy sources and injuries that can occur if energy is not properly locked out, and emphasizes the importance of following energy control programs and written lockout procedures.
13 Initial Project Site Office Set-up Risk Assessment Templates
Working adjacent to public areas
Vehicles/Plant Equipment movements
Groundworks / excavations
Excavation in site area
Trial trenches, septic tank excavation etc.
Works at Height
(Office cabin set-up)
Use of Ladders and stepladders
Mobile Crane operation
(Cabin/unit placing)
Temporary electrics - offices
Site generators – offices and site
Establishing exclusion zones • Personnel in area • Unauthorized access to test area;
• Workers struck by flying materials;
• Worker struck by High pressure water release;
Signage to test area • Personnel in area • Unauthorized access to test area;
• Inadequate signage to test area;
Pressure testing • High pressure to pipework; • Uncontrolled Stored Energy release;
• Rupture/failure in Pipe lines during testing;
• Valve/connection failure;
• Instrument failure resulting in system over-pressurization;
• End caps/plugs ejecting under high pressure;
• Weld/seal/fitting failure, flying objects;
• High pressure water/air injection.
Emergency procedures • High pressure to pipework; • Emergency procedures not briefed to task workers;
• Poor response in the event of an emergency;
Re-testing in the event of failure • Re-testing with high pressure • Injury due to uncontrolled testing;
• Worker injury due to working on pressurized system;
• Injury due to failure to ensure adequate pre-checks undertaken;
26 Storage of Substances under CoSHH Risk Assessment Templates.docxDwarika Bhushan Sharma
Project Name: xxx
RA Ref No.: xxx
RA compilation Date: Review date:
Date:
Compiled by:
Reviewed by:
Approved by:
Overall Task Details
Storage of substances classified under CoSHH on project sites, such as paints and associated thinners and cleaners, protective coatings, additives, adhesives and sealants, chemical sprays, fuels and oils, etc. Relevant Applicable MAS:
• 00939 – Storage of Substances Hazardous to Health Additional Training required:
NOC’s Required for task:
RISK SCORE CALCULATOR
Use the Risk Score Calculator to Determine the Level of Risk of each Hazard
What would be the
CONSEQUENCE
of an occurrence be? What is the LIKELIHOOD of an occurrence? Hierarchy of Controls
Frequent/Almost certain (5)
Continuous or will happen frequently Often (4)
6 to 12 times a year Likely (3)
1 to 5 times a year Possible (2)
Once every 5 years Rarely (1)
Less than once every 5 years Can the hazard be Eliminated or removed from the work place?
Catastrophic (5)
Multiple Fatalities High 25 High 20 High 15 Medium 10 Medium 5 Can the product or process be substituted for a less hazardous alternative?
Serious (4)
Class 1 single fatality High 20 High 16 High 12 Medium 8 Low 4 Can the hazard be engineered away with guards or barriers?
Moderate (3)
Class2 (AWI or LTI) or Class 1 Permanently disabling effects High 15 High 12 Medium 9 Medium 6 Low 3 Can Administration Controls be adopted
I.e. procedures, job rotation etc.
Minor (2)
Medical attention needed, no work restrictions. MTI Medium10 Medium 8 Medium 6 Low 4 Low 2 Can Personal Protective Equipment & Clothing be worn to safe guard against hazards?
Insignificant (1)
FAI Medium10 Medium 4 Low 3 Low 2 Low 1
No Specific Task Step
(In sequence of works) Hazard Details Consequence/Risk Initial Risk Rating Control Measures Residual Risks Additional Control Measures RR
L C RR
1 PRIOR TO / AT SITE DELIVERY • Hazardous substances • Poor or incorrect substance storage due to lack of manufacturer’s specification; 3 3 9 MED i. Store operatives to ensure a Hazard Data Sheet is supplied ideally prior to substance delivery, if not supplied when delivered to site; Documentation unavailable for review Substance quarantined until evidence provided Low
2 Storage • Storage of Substance potentially hazardous to worker health or to the environment; • Possible inhalation, absorption of hazardous fumes, vapor and substances hazardous to health;
• Build-up of flammable vapor in confined area;
• Fire;
• Inadequate cooling and ventilation of storage resulting in ill health or combustion;
• Inadequate signage and substance identification;
• Poor controls over distribution of substances/chemicals;
• Excessive quantities issued to work areas;
3 4 12 HIGH i. HLG Workplaces storing hazardous substances/chemicals, using hazardous materials and/or generating hazardous waste shall have a hazardous materials management system;
ii. A plan of the store showing locations of the hazardous materials / wastes
A Job Safety Analysis (JSA) is used to identify hazards and control risks associated with safety-critical tasks. It involves breaking the task down into steps, identifying hazards at each step, assessing risks, and defining controls to reduce risks. Developing a JSA requires identifying those involved in the task, breaking it into steps, identifying hazards and initially assessing risks at each step, defining controls, assessing residual risks, and documenting the analysis. Regular review and update of JSAs is important when conditions change.
This document discusses confined space entry and safety. It defines a confined space as a space large enough for entry, with limited means of entry/exit, not meant for continuous occupancy. Examples include boilers, sewers and bins. Hazards include oxygen deficiency, toxic gases, engulfment and process hazards. Proper entry procedures require isolating, ventilating and testing the atmosphere of the space, using permits and attendants to monitor entrants. Rescue procedures and emergency planning are also vital parts of safe confined space work.
FULL BODY HARNESS INSPECTION RECORD Form # HSEQ - FBHIR Rev 2.docxDwarika Bhushan Sharma
Harness Checklist
Sl. No
………. Sl. No
………. Sl. No
………. Sl. No
………. Sl. No
………. Sl. No
………. Sl. No
………. Sl. No
………. Sl. No
………. Remarks
Shoulder Straps
Chest & Back Straps
Waist Straps
Back D-Ring
Shoulder Adjustment
Legible Label
Shoulder Straps
Chest & Back Straps
Waist Straps
Leg Straps
Cuts
Burns
Holes
Deterioration
Corrosive/ worn out
Color code
Others (Specify)
Project Information
Project Name: Location:
Company name : Date:
Remarks:
Inspector Name: Signature:
Reviewed By HSE Manager / Incharge Signature:
Project Fire Risk Assessment Report
(Quarterly) By: App: Project Relevant legislation:
• Federal Law No. 8 – Chapter 5 Article 92 ;
• DM Code of Construction Practice – Chapter 5;
• Regulation NO. 5 2009 Railways in the Emirate of Dubai (RED);
• Railway Protection Code of Practice (RWPCOP);
• UAE Fire and Life Safety Code of Practice – Chapter 12 (FLSCOP);
• Abu Dhabi Occupational Safety and Health Center – Code of Practise (OSHAD – CoP)
Issued: Rev.
Area: Assessment Date:
Next Assessment date:
Report compiled by:
Designation:
ASSESSMENT CRITERIA FIRE AND EMERGENCY CONTROL MEASURES AND LEGAL REQUIREMENTS RELEVANT LEGISLATION IMPLEMENTED PROJECT CONTROLS FOR COMPLIANCE COMMENTS FROM LAST FIRE ASSESSMENT
1. Site set up of temporary offices and cabins
Incl. Fire risk assessment; • Fire risk assessment undertaken on site set up and maintained/amended as project progresses;
• A copy of the fire risk assessment is maintained by HSE personnel;
• Separation distances between buildings under construction and construction-related structures, such as temporary offices, trailers, sheds, and other facilities for the storage of tools and materials having combustible construction or contents;
• No offices to be erected within the 70m Metro Protection Zone; FLSCOP Chapter 12 Table 12.1
RWPCOP
Section 4.6.1
DM Chapter 5.4
OSHAD CoP 8.0 & 43.0 •
2. Use of Portable gas heating or cutting equipment.
(all areas) • Ensure equipment is used in accordance with MAS and adequately maintained;
• Ensure suitable extraction is in place in confined areas and equipment is suitably maintained, extractors regularly maintained/cleaned;
• Ensure suitable fire- fighting equipment available nearby;
• Ensure use of Hot Works and Permits to Work as per section 5 and OSHAD CoP 21.0 and CoP 28.0;
• Ensure flashback arrestors fitted, hoses and connections sound and leak proof (as per inspection regime);
• Gas cylinder storage detailed in Section 7 and OSHAD CoP 49.0; FLSCOP Chapter 12 Section 7
DM Chapters 5, 15
OSHAD CoP 21.0, 28.0 & 49.0 •
3. Electrical equipment (portable and fixed installation)
• Portable electrical equipment to be tested every 6 months. Test stickers on appliances for date of last testing;
• Ensure fixed/temporary installations are checked by a competent person monthly and that this check is recorded and registered;
• Ensure that socket/DB outlets are not overloaded and connections are correct to standards;
• Correct rated fuses and breakers to be installed;
• DB’s to be waterproof and mounted on metal frames if on site;
• All site supply cables to be armoured;
• Install overhead cable frames where practicable in congested areas;
• Damaged equipment and cords shall be removed from service and quarantined until repaired or destroyed;
• Temporary lights shall not be suspended by their electrical cords unless such cords and lights have been designed for that purpose; FLSCOP Chapter 12 Section 14
DM Chapters 5.6, 16 & 17
O
CONTENTS:
I. What is a Hot Work ?
II. Training
III. PPE`s
IV. Hot Work Permit
V. Electric Welding
VI. Fire Prevention
VII. Fire Watch
VIII. Generator Sets
IX. Welding Equipment Checks
X. Oxy Cutting Equipment
XI. Fire Safety Precautions
XII. Compressed Gas Cylinders
XIII. Safe Practices
XIV. Heat Stress
The document discusses project S210 to construct elevated stations and associated works at Cyberjaya City Centre and Putrajaya Sentral on the Mass Rapid Transit Line 2 from Sungai Buloh to Serdang to Putrajaya. It includes contract details and discusses safe forklift operation procedures such as pre-operation checks, fueling, loading, unloading, and trailer operations to prevent accidents and injuries.
Safety handbook Saudi Aramco BY Muhammad Fahad Ansari 12IEEM14fahadansari131
The document provides guidance on confined space entry permitting procedures. It defines a confined space and outlines the permit process, which includes preparing the space by isolating it, conducting atmospheric testing, providing ventilation and rescue equipment, and restoring the space after entry. Personnel must obtain a Confined Space Entry Permit to enter any confined space to protect them from hazards therein. The permit ensures the space is properly prepared for safe entry and exit.
Workers were lifting an LED wall screen using an electric winch when the clamp failed to properly fasten to the LED, causing it to fall from a height of around four meters. No injuries occurred but damage is still being assessed. The incident was caused by a lack of supervision ensuring the hooks were properly tightened before lifting. Corrective actions include ensuring workers check hooks are tight and no one stands under a lifted load.
This document outlines requirements and safety procedures for working at heights. It discusses proper fall protection equipment like harnesses and lifelines, as well as safety protocols like hazard identification checklists and permits. Temporary anchor points must be approved and capable of withstanding significant loads. Proper PPE like hard hats is required, and workers must be trained before working alone or using fall arrest vs. restraint systems.
This document provides safety guidelines for pressure testing pipelines and facilities. It outlines roles and responsibilities, hazard assessment procedures, and hazard mitigation measures to protect personnel and property. Key points include developing a site-specific test plan, establishing exclusion zones, using signage and barriers, inspecting equipment, and having procedures to stop work if unsafe conditions arise. Personnel are empowered to halt testing if hazards are identified.
6 Excavations (Temporary Works) Risk Assessment Templates
Planned Excavation in areas where live services may be present including:
• Electrical;
• Water;
• Sewerage;
• Gas;
• Telecoms;
PRIOR TO WORKS
Use of Excavator for excavating and backfilling
Excavation open in site area
Confined space working – deep excavations
Maintenance of Excavations
Worker exposure to direct sun
(as applicable)
The document provides guidelines for health and safety practices on a construction site. It outlines the safety policy, basic rules for safety, emergency response procedures, and safety measures for various equipment and tasks. Personal protective equipment requirements and hygiene practices are also covered. The roles and responsibilities of the safety committee to identify hazards and ensure safety improvements are discussed.
The document summarizes OSHA's Control of Hazardous Energy Lockout/Tagout standard. The standard aims to prevent injuries from unexpected startup of machines or release of stored energy during servicing or maintenance. It requires employers to establish an energy control program including procedures, employee training, and inspections to ensure that energy sources are isolated before work begins. The standard covers servicing and maintenance of all types of energy sources, including electrical, mechanical, hydraulic, and others.
10 Use of Mobile Concrete Pump Risk Assessment Templates
Concrete Pump checks on arrival to site
PRIOR TO SITE ACCESS
Access of mobile pump and delivery trucks to work areas
Siting and setting up of concrete pump
Pumping concrete
(Pump Operator)
Pumping operation supervision
This document provides guidance on hoisting and rigging safety. It emphasizes the importance of training, knowing equipment limitations, inspecting all components for defects, avoiding electrical hazards, using proper sling configurations and rigging hardware, understanding hand signals, and following regulations around tag lines and overhead loads. Safety is ensured by knowing equipment ratings, using defect-free gear, having competent supervision, and taking precautions specific to each lifting situation.
The document outlines Kuwait Drilling Company's Dropped Objects Prevention System (DROPS) for land rigs. The system aims to reduce the risk of dropped objects falling from heights on rigs. It includes various steps like conducting awareness training, creating permanent and temporary equipment inventories, inspection guidelines, and ensuring tools are properly secured. Third party companies working on rigs must also comply with DROPS. Regular inspections, audits, and crew training are emphasized to successfully implement and maintain the DROPS program over the long term.
The document outlines the hazard identification and risk assessment for a billboard installation project at KM4 of the Klang-Shah Alam Highway in Malaysia. It identifies potential hazards at each stage of the project, including mobilization to site, installing the billboard base and panels, and electrical equipment installation. Key hazards addressed are falls from height, unsafe lifting, adverse weather, pinch points, trips and falls, and electrical shock. Control measures recommended include using safety harnesses and mats, permitting for lifting and working at heights, inspections of equipment, use of protective equipment, delineation of work areas and prohibiting phone use while driving. Responsible parties for ensuring control measures are implemented are also identified.
General Safety Presentationupdated 04842993 1debandleigh
The document outlines various workplace safety guidelines and procedures. It discusses the importance of working safely, proper personal protective equipment, emergency evacuation plans, safe operation of equipment like forklifts, identifying and avoiding death zones, lockout/tagout procedures, hazard communication, and medical emergencies. Disciplinary action may result from disregarding safety rules.
Overhead crane, crane safety, lifting operation, EHS, Safety, Testing of Crane, Commissioning of Cranes,
for soft copy please email me at dawoodibrar@hotmail.com
This document provides a rigging plan for lifting a 72 ton steam drum at a power plant. It details the preparation work, safety responsibilities, lifting procedures, and erection sequence. The drum will be lifted by winch between grid supports that are 18,000mm apart, eliminating the need to tilt the drum. Temporary supports will be installed to guide the strands and provide access platforms for operators during the lift. The electric winch will lift a load of 7 tons on the drum, but exert 35 tons of force on the pulley during the lift.
8 Lifting Operations with mobile crane Risk Assessment Templates
Crane checks on arrival to site
PRIOR TO USE
Access of crane to work areas
Siting and setting up of crane
Lifting of equipment and material
(Mobile crane Operator)
Crane supervision
Crane Maintenance
(revised 06-06-2018)
Concrete Pump checks on arrival to site
PRIOR TO SITE ACCESS
Formwork for slab for temporary support
Falsework to provide temporary support to formwork
Rebar to slabs
Access of mobile pump and delivery trucks to work areas
Siting and setting up of concrete pump
Pumping concrete
(Pump Operator)
Pumping operation supervision
Dismantling of form-work
Striking of false-work
Ma 023 change out butter fly valve for bulk systemYousif Fikry
This Job Safety Analysis outlines the steps and potential hazards involved in changing a valve in a bulk tank. The key steps are: reviewing safety procedures, gathering equipment, isolating and locking out the air supply, removing and replacing valves, repairing valves, and reopening the air supply. Potential hazards include trip/slip hazards, pinch points, exposure to high pressure, and caught between hazards. Recommendations are provided to eliminate hazards through proper planning, inspecting equipment and work areas, using fall protection when working above deck, and maintaining safe distances when pressurizing tanks.
This document provides a generic job safety analysis for pipe flushing, hydrotesting, and pneumatic leak testing on two bridges. It outlines 6 main job steps: 1) inspection, 2) flushing, 3) preparation for testing, 4) conducting the test, 5) packing up equipment, and 6) reinstating the lines. For each step, potential hazards are identified such as trips/falls, equipment failure, and impacts from pressurized lines. Required checks are specified to control the hazards, including ensuring proper equipment certification, using personal protective equipment, and having fall protections in place.
Project Fire Risk Assessment Report
(Quarterly) By: App: Project Relevant legislation:
• Federal Law No. 8 – Chapter 5 Article 92 ;
• DM Code of Construction Practice – Chapter 5;
• Regulation NO. 5 2009 Railways in the Emirate of Dubai (RED);
• Railway Protection Code of Practice (RWPCOP);
• UAE Fire and Life Safety Code of Practice – Chapter 12 (FLSCOP);
• Abu Dhabi Occupational Safety and Health Center – Code of Practise (OSHAD – CoP)
Issued: Rev.
Area: Assessment Date:
Next Assessment date:
Report compiled by:
Designation:
ASSESSMENT CRITERIA FIRE AND EMERGENCY CONTROL MEASURES AND LEGAL REQUIREMENTS RELEVANT LEGISLATION IMPLEMENTED PROJECT CONTROLS FOR COMPLIANCE COMMENTS FROM LAST FIRE ASSESSMENT
1. Site set up of temporary offices and cabins
Incl. Fire risk assessment; • Fire risk assessment undertaken on site set up and maintained/amended as project progresses;
• A copy of the fire risk assessment is maintained by HSE personnel;
• Separation distances between buildings under construction and construction-related structures, such as temporary offices, trailers, sheds, and other facilities for the storage of tools and materials having combustible construction or contents;
• No offices to be erected within the 70m Metro Protection Zone; FLSCOP Chapter 12 Table 12.1
RWPCOP
Section 4.6.1
DM Chapter 5.4
OSHAD CoP 8.0 & 43.0 •
2. Use of Portable gas heating or cutting equipment.
(all areas) • Ensure equipment is used in accordance with MAS and adequately maintained;
• Ensure suitable extraction is in place in confined areas and equipment is suitably maintained, extractors regularly maintained/cleaned;
• Ensure suitable fire- fighting equipment available nearby;
• Ensure use of Hot Works and Permits to Work as per section 5 and OSHAD CoP 21.0 and CoP 28.0;
• Ensure flashback arrestors fitted, hoses and connections sound and leak proof (as per inspection regime);
• Gas cylinder storage detailed in Section 7 and OSHAD CoP 49.0; FLSCOP Chapter 12 Section 7
DM Chapters 5, 15
OSHAD CoP 21.0, 28.0 & 49.0 •
3. Electrical equipment (portable and fixed installation)
• Portable electrical equipment to be tested every 6 months. Test stickers on appliances for date of last testing;
• Ensure fixed/temporary installations are checked by a competent person monthly and that this check is recorded and registered;
• Ensure that socket/DB outlets are not overloaded and connections are correct to standards;
• Correct rated fuses and breakers to be installed;
• DB’s to be waterproof and mounted on metal frames if on site;
• All site supply cables to be armoured;
• Install overhead cable frames where practicable in congested areas;
• Damaged equipment and cords shall be removed from service and quarantined until repaired or destroyed;
• Temporary lights shall not be suspended by their electrical cords unless such cords and lights have been designed for that purpose; FLSCOP Chapter 12 Section 14
DM Chapters 5.6, 16 & 17
O
CONTENTS:
I. What is a Hot Work ?
II. Training
III. PPE`s
IV. Hot Work Permit
V. Electric Welding
VI. Fire Prevention
VII. Fire Watch
VIII. Generator Sets
IX. Welding Equipment Checks
X. Oxy Cutting Equipment
XI. Fire Safety Precautions
XII. Compressed Gas Cylinders
XIII. Safe Practices
XIV. Heat Stress
The document discusses project S210 to construct elevated stations and associated works at Cyberjaya City Centre and Putrajaya Sentral on the Mass Rapid Transit Line 2 from Sungai Buloh to Serdang to Putrajaya. It includes contract details and discusses safe forklift operation procedures such as pre-operation checks, fueling, loading, unloading, and trailer operations to prevent accidents and injuries.
Safety handbook Saudi Aramco BY Muhammad Fahad Ansari 12IEEM14fahadansari131
The document provides guidance on confined space entry permitting procedures. It defines a confined space and outlines the permit process, which includes preparing the space by isolating it, conducting atmospheric testing, providing ventilation and rescue equipment, and restoring the space after entry. Personnel must obtain a Confined Space Entry Permit to enter any confined space to protect them from hazards therein. The permit ensures the space is properly prepared for safe entry and exit.
Workers were lifting an LED wall screen using an electric winch when the clamp failed to properly fasten to the LED, causing it to fall from a height of around four meters. No injuries occurred but damage is still being assessed. The incident was caused by a lack of supervision ensuring the hooks were properly tightened before lifting. Corrective actions include ensuring workers check hooks are tight and no one stands under a lifted load.
This document outlines requirements and safety procedures for working at heights. It discusses proper fall protection equipment like harnesses and lifelines, as well as safety protocols like hazard identification checklists and permits. Temporary anchor points must be approved and capable of withstanding significant loads. Proper PPE like hard hats is required, and workers must be trained before working alone or using fall arrest vs. restraint systems.
This document provides safety guidelines for pressure testing pipelines and facilities. It outlines roles and responsibilities, hazard assessment procedures, and hazard mitigation measures to protect personnel and property. Key points include developing a site-specific test plan, establishing exclusion zones, using signage and barriers, inspecting equipment, and having procedures to stop work if unsafe conditions arise. Personnel are empowered to halt testing if hazards are identified.
6 Excavations (Temporary Works) Risk Assessment Templates
Planned Excavation in areas where live services may be present including:
• Electrical;
• Water;
• Sewerage;
• Gas;
• Telecoms;
PRIOR TO WORKS
Use of Excavator for excavating and backfilling
Excavation open in site area
Confined space working – deep excavations
Maintenance of Excavations
Worker exposure to direct sun
(as applicable)
The document provides guidelines for health and safety practices on a construction site. It outlines the safety policy, basic rules for safety, emergency response procedures, and safety measures for various equipment and tasks. Personal protective equipment requirements and hygiene practices are also covered. The roles and responsibilities of the safety committee to identify hazards and ensure safety improvements are discussed.
The document summarizes OSHA's Control of Hazardous Energy Lockout/Tagout standard. The standard aims to prevent injuries from unexpected startup of machines or release of stored energy during servicing or maintenance. It requires employers to establish an energy control program including procedures, employee training, and inspections to ensure that energy sources are isolated before work begins. The standard covers servicing and maintenance of all types of energy sources, including electrical, mechanical, hydraulic, and others.
10 Use of Mobile Concrete Pump Risk Assessment Templates
Concrete Pump checks on arrival to site
PRIOR TO SITE ACCESS
Access of mobile pump and delivery trucks to work areas
Siting and setting up of concrete pump
Pumping concrete
(Pump Operator)
Pumping operation supervision
This document provides guidance on hoisting and rigging safety. It emphasizes the importance of training, knowing equipment limitations, inspecting all components for defects, avoiding electrical hazards, using proper sling configurations and rigging hardware, understanding hand signals, and following regulations around tag lines and overhead loads. Safety is ensured by knowing equipment ratings, using defect-free gear, having competent supervision, and taking precautions specific to each lifting situation.
The document outlines Kuwait Drilling Company's Dropped Objects Prevention System (DROPS) for land rigs. The system aims to reduce the risk of dropped objects falling from heights on rigs. It includes various steps like conducting awareness training, creating permanent and temporary equipment inventories, inspection guidelines, and ensuring tools are properly secured. Third party companies working on rigs must also comply with DROPS. Regular inspections, audits, and crew training are emphasized to successfully implement and maintain the DROPS program over the long term.
The document outlines the hazard identification and risk assessment for a billboard installation project at KM4 of the Klang-Shah Alam Highway in Malaysia. It identifies potential hazards at each stage of the project, including mobilization to site, installing the billboard base and panels, and electrical equipment installation. Key hazards addressed are falls from height, unsafe lifting, adverse weather, pinch points, trips and falls, and electrical shock. Control measures recommended include using safety harnesses and mats, permitting for lifting and working at heights, inspections of equipment, use of protective equipment, delineation of work areas and prohibiting phone use while driving. Responsible parties for ensuring control measures are implemented are also identified.
General Safety Presentationupdated 04842993 1debandleigh
The document outlines various workplace safety guidelines and procedures. It discusses the importance of working safely, proper personal protective equipment, emergency evacuation plans, safe operation of equipment like forklifts, identifying and avoiding death zones, lockout/tagout procedures, hazard communication, and medical emergencies. Disciplinary action may result from disregarding safety rules.
Overhead crane, crane safety, lifting operation, EHS, Safety, Testing of Crane, Commissioning of Cranes,
for soft copy please email me at dawoodibrar@hotmail.com
This document provides a rigging plan for lifting a 72 ton steam drum at a power plant. It details the preparation work, safety responsibilities, lifting procedures, and erection sequence. The drum will be lifted by winch between grid supports that are 18,000mm apart, eliminating the need to tilt the drum. Temporary supports will be installed to guide the strands and provide access platforms for operators during the lift. The electric winch will lift a load of 7 tons on the drum, but exert 35 tons of force on the pulley during the lift.
8 Lifting Operations with mobile crane Risk Assessment Templates
Crane checks on arrival to site
PRIOR TO USE
Access of crane to work areas
Siting and setting up of crane
Lifting of equipment and material
(Mobile crane Operator)
Crane supervision
Crane Maintenance
(revised 06-06-2018)
Concrete Pump checks on arrival to site
PRIOR TO SITE ACCESS
Formwork for slab for temporary support
Falsework to provide temporary support to formwork
Rebar to slabs
Access of mobile pump and delivery trucks to work areas
Siting and setting up of concrete pump
Pumping concrete
(Pump Operator)
Pumping operation supervision
Dismantling of form-work
Striking of false-work
Ma 023 change out butter fly valve for bulk systemYousif Fikry
This Job Safety Analysis outlines the steps and potential hazards involved in changing a valve in a bulk tank. The key steps are: reviewing safety procedures, gathering equipment, isolating and locking out the air supply, removing and replacing valves, repairing valves, and reopening the air supply. Potential hazards include trip/slip hazards, pinch points, exposure to high pressure, and caught between hazards. Recommendations are provided to eliminate hazards through proper planning, inspecting equipment and work areas, using fall protection when working above deck, and maintaining safe distances when pressurizing tanks.
This document provides a generic job safety analysis for pipe flushing, hydrotesting, and pneumatic leak testing on two bridges. It outlines 6 main job steps: 1) inspection, 2) flushing, 3) preparation for testing, 4) conducting the test, 5) packing up equipment, and 6) reinstating the lines. For each step, potential hazards are identified such as trips/falls, equipment failure, and impacts from pressurized lines. Required checks are specified to control the hazards, including ensuring proper equipment certification, using personal protective equipment, and having fall protections in place.
This document provides a safe work method statement for general activities and onsite service and repairs to earthmoving machinery and equipment. It outlines 24 steps for common tasks involved and identifies potential hazards at each step. It then provides controls and safe work procedures to minimize risks. Responsibilities are identified for each step. The purpose is to ensure work is performed safely in accordance with the identified procedures and controls.
Project Name: xxx
RA Ref No.: xxx
RA compilation Date: Review date:
Date:
Compiled by:
Reviewed by:
Approved by:
Overall Task Details
Hydrostatic pressure testing of pipework inside buildings Relevant Applicable MAS:
• Additional Training required:
NOC’s Required for task:
RISK SCORE CALCULATOR
Use the Risk Score Calculator to Determine the Level of Risk of each Hazard
What would be the
CONSEQUENCE
of an occurrence be? What is the LIKELIHOOD of an occurrence? Hierarchy of Controls
Frequent/Almost certain (5)
Continuous or will happen frequently Often (4)
6 to 12 times a year Likely (3)
1 to 5 times a year Possible (2)
Once every 5 years Rarely (1)
Less than once every 5 years Can the hazard be Eliminated or removed from the work place?
Catastrophic (5)
Multiple Fatalities High 25 High 20 High 15 Medium 10 Medium 5 Can the product or process be substituted for a less hazardous alternative?
Serious (4)
Class 1 single fatality High 20 High 16 High 12 Medium 8 Low 4 Can the hazard be engineered away with guards or barriers?
Moderate (3)
Class2 (AWI or LTI) or Class 1 Permanently disabling effects High 15 High 12 Medium 9 Medium 6 Low 3 Can Administration Controls be adopted
I.e. procedures, job rotation etc.
Minor (2)
Medical attention needed, no work restrictions. MTI Medium10 Medium 8 Medium 6 Low 4 Low 2 Can Personal Protective Equipment & Clothing be worn to safe guard against hazards?
Insignificant (1)
FAI Medium10 Medium 4 Low 3 Low 2 Low 1
No Specific Task Step
(In sequence of works) Hazard Details Consequence/Risk Initial Risk Rating Control Measures Residual Risks Additional Control Measures RR
L C RR
1 Pressure testing equipment • Use at high pressure; • Rupture/failure of pump during testing;
• Valve/connection failure;
• Instrument failure resulting in system over-pressurization;
3 3 9 MED i. The supervisor in charge of the test shall ensure that all pressure testing gauges etc. are in good sound condition, undamaged, correctly dated with the current valid calibration and that appropriate calibration certificates are available;
ii. All pumps shall be in sound condition and complete with a valid test certificate. Any vulnerable items such as manometers and pressure switches shall be removed or isolated from the system prior to testing if not required;
iii. The test supervisor shall carry out a thorough inspection of the system before requesting the permit detailed above to ensure that all isolations, blanks and other specified safety devices are in place before testing commences; No test documentation available Quarantine equipment until valid documentation provided Low
2 Permit to work system • Interaction of personnel and high pressure system; • Injury due to uncontrolled testing;
• Injury due to failure to ensure adequate pre-checks undertaken; 3 4 12 HIGH i. All pressure testing operations shall require a Permit to Work to ensure that no pressure testing will be allowed to commence until all,
This risk assessment worksheet evaluates the risks associated with a horizontal directional drilling project for a housing expansion project. It identifies 4 main tasks - site survey, trial pits and entry/exit pits, horizontal directional drilling, and use of HDD equipment. For each task, it lists potential hazards, consequences, existing controls, additional control measures, responsibilities, and residual risks. The document is signed by the general manager of Cross Road Drilling and approved by the client.
This document provides a job hazard analysis for the foundation work of the De-Ethanizer section, which includes various tasks like excavation, formwork assembly, concrete pouring, and surveying. It identifies hazards associated with each task such as slips/trips/falls, pinch points, equipment strikes, and exposures to chemicals, dust, and noise. Control measures are outlined like using proper PPE, barricades, spotters, and ensuring equipment is in good working order. Emergency procedures are also described for injuries or gas releases.
Ma 019 preloads dump valves maintenanceYousif Fikry
This Job Safety Analysis document outlines the steps and potential hazards involved in preloading valve maintenance. The four main steps are: 1) holding a pre-job meeting to review procedures, 2) preparing tools and lighting equipment, ensuring correct voltage and securing tools, 3) entering the tank using fall protection and checking for gas, and maintaining the dump valve, and 4) recovering tools and exiting the tank using fall protection and checking that no tools are left behind. Potential hazards addressed at each step include injury from incorrect procedures, tools falling on people, electric shock, falls, pinch points, and improper lighting. Recommendations are provided to eliminate or reduce hazards such as taking time to understand procedures, securing tools, using fall protection, checking
Confined Space Presentation University of Technology,MauritiusTarun Kumar Cheddy
Presentation for Industrial Toxicology Module
Confined Space Presentation University of Technology,Mauritius
Message me if u want me to send u the power point
This Job Hazard Analysis document summarizes the planned work of executing foundations for new LPG chloride treaters and a de-ethanizer section at an oil and gas facility in Angola. The work involves several steps, including pavement demolition, excavation, formwork assembly, rebar installation, concrete pouring, and backfilling. Hazards identified include pinch points, falling materials, slips and trips, electrical shock, dust and noise exposure. Controls specified are proper PPE, housekeeping, inspections of tools and equipment, fall protection barriers, and designating a first aid responder on site.
Job Safety Analyses For Energization of Substation..docAtif767782
This document outlines safety practices for energizing a substation. It lists 6 key steps of the job: 1) obtaining a work permit, 2) work preparation and planning, 3) arranging and inspecting tools/equipment, 4) conducting a daily toolbox talk, 5) using hand tools, and 6) switching the main control switch. For each step, potential hazards are identified and controls are recommended to minimize risks. Proper personal protective equipment, lockout/tagout procedures, communications, and only allowing certified personnel to perform high-risk tasks are among the numerous controls described to enhance safety when energizing the substation.
This document provides an overview of confined space safety. It defines a confined space and outlines the differences between permitted and non-permitted spaces. Examples of permitted spaces include tanks, vessels, and manholes. The document details entry procedures such as atmospheric testing, permits, emergency response, and assigned roles for entrants, attendants, and supervisors. It emphasizes continuous monitoring and following safety precautions to prevent injuries from hazards like low oxygen levels, engulfment, and toxic gases that can be present in confined spaces.
JSA-Piling or Concreting for Foundations & Building Alvin160771
This document outlines potential hazards and control measures for piling or concreting foundations and building work. It identifies hazards for each stage of work including mobilization, piling with machines, lowering steel cages and concreting piles, and night work. Control measures include using trained staff, certified equipment, proper signaling, barricades, inspections, PPE, lighting, and stopping work during bad weather. The goal is to protect personnel from injury and ensure safe operations at each stage of the piling and concreting work.
SECONDARY PIPE RACK AND PIG LAUNCHER.docxferielvpk
The document describes a task risk assessment for welding and grinding work. It lists 10 major steps of the work and identifies hazards for each step such as falls, injuries, fires, and electrocution. Existing control measures are provided like PPE, training, inspections, and supervisions. Further recommendations to reduce risks are also noted such as limiting the number of workers, taking breaks, using barricades, and conducting equipment checks. Residual risks are calculated after implementing the recommendations. The work involves activities like platform access, welding, cutting, rigging, lifting, and night shifts.
This document provides a job hazard analysis for the job of using and maintaining rock drills. It identifies potential hazards for each step of the job from transporting the drills to operating them. The main hazards identified are injuries from inhalation of silica dust while drilling, muscle strains and repetitive motion injuries from operating the drills, and cuts or scrapes from freshly cut rock. It recommends actions to address each hazard such as using proper protective equipment like respirators, taking frequent breaks while drilling, and exercising caution when handling cut rock.
This document summarizes an occupational health risk assessment for a manual sorting floor. It identifies several potential hazards for sorting operatives including cuts, upper limb disorders, noise exposure, and slips/trips. For each hazard, it lists existing control measures like training, personal protective equipment, safety procedures. It then rates the severity, likelihood, and overall risk of each hazard on a scale of 1-3. Hazards rated 3 or higher may require further action to reduce the risk.
This document is an 8-page risk register for an HSE project that identifies various hazards and risks associated with construction work. It lists hazards such as electrical equipment, chemicals, falling objects, and improper PPE. For each hazard, it provides details on the potential risks, existing control measures, residual risk level, and person responsible for risk assessment. The risk register uses a color coding system to classify risk levels from very low to high. It aims to reduce all residual risks to low or very low levels.
This document discusses confined space hazards and safety. It defines a confined space as a space large enough for entry, with limited entry/exit, and not meant for continuous occupancy. Common confined spaces include tanks, silos, and sewers. Hazards include hazardous atmospheres, engulfment, inwardly converging walls, and electrical/mechanical dangers. Employers must evaluate worksites, develop confined space programs, train employees, and provide proper safety equipment. Permits are required for entry and must specify individual roles and training. Rescue procedures, equipment, and training are also required.
This document provides guidance on creating a method statement for work activities and includes a sample method statement for plumbing work. It recommends that a method statement include: the company responsible for the work, the person responsible for safety, how changes will be authorized, a description and location of the work, environmental factors, protections for others, emergency procedures, worker qualifications, required PPE, equipment used, material handling, the sequence of work steps and associated risks/controls, safety checks, and sign off when complete. An appendix includes a sample plumbing method statement following this format.
Communicating effectively and consistently with students can help them feel at ease during their learning experience and provide the instructor with a communication trail to track the course's progress. This workshop will take you through constructing an engaging course container to facilitate effective communication.
Walmart Business+ and Spark Good for Nonprofits.pdfTechSoup
"Learn about all the ways Walmart supports nonprofit organizations.
You will hear from Liz Willett, the Head of Nonprofits, and hear about what Walmart is doing to help nonprofits, including Walmart Business and Spark Good. Walmart Business+ is a new offer for nonprofits that offers discounts and also streamlines nonprofits order and expense tracking, saving time and money.
The webinar may also give some examples on how nonprofits can best leverage Walmart Business+.
The event will cover the following::
Walmart Business + (https://business.walmart.com/plus) is a new shopping experience for nonprofits, schools, and local business customers that connects an exclusive online shopping experience to stores. Benefits include free delivery and shipping, a 'Spend Analytics” feature, special discounts, deals and tax-exempt shopping.
Special TechSoup offer for a free 180 days membership, and up to $150 in discounts on eligible orders.
Spark Good (walmart.com/sparkgood) is a charitable platform that enables nonprofits to receive donations directly from customers and associates.
Answers about how you can do more with Walmart!"
This document provides an overview of wound healing, its functions, stages, mechanisms, factors affecting it, and complications.
A wound is a break in the integrity of the skin or tissues, which may be associated with disruption of the structure and function.
Healing is the body’s response to injury in an attempt to restore normal structure and functions.
Healing can occur in two ways: Regeneration and Repair
There are 4 phases of wound healing: hemostasis, inflammation, proliferation, and remodeling. This document also describes the mechanism of wound healing. Factors that affect healing include infection, uncontrolled diabetes, poor nutrition, age, anemia, the presence of foreign bodies, etc.
Complications of wound healing like infection, hyperpigmentation of scar, contractures, and keloid formation.
हिंदी वर्णमाला पीपीटी, hindi alphabet PPT presentation, hindi varnamala PPT, Hindi Varnamala pdf, हिंदी स्वर, हिंदी व्यंजन, sikhiye hindi varnmala, dr. mulla adam ali, hindi language and literature, hindi alphabet with drawing, hindi alphabet pdf, hindi varnamala for childrens, hindi language, hindi varnamala practice for kids, https://www.drmullaadamali.com
Philippine Edukasyong Pantahanan at Pangkabuhayan (EPP) CurriculumMJDuyan
(𝐓𝐋𝐄 𝟏𝟎𝟎) (𝐋𝐞𝐬𝐬𝐨𝐧 𝟏)-𝐏𝐫𝐞𝐥𝐢𝐦𝐬
𝐃𝐢𝐬𝐜𝐮𝐬𝐬 𝐭𝐡𝐞 𝐄𝐏𝐏 𝐂𝐮𝐫𝐫𝐢𝐜𝐮𝐥𝐮𝐦 𝐢𝐧 𝐭𝐡𝐞 𝐏𝐡𝐢𝐥𝐢𝐩𝐩𝐢𝐧𝐞𝐬:
- Understand the goals and objectives of the Edukasyong Pantahanan at Pangkabuhayan (EPP) curriculum, recognizing its importance in fostering practical life skills and values among students. Students will also be able to identify the key components and subjects covered, such as agriculture, home economics, industrial arts, and information and communication technology.
𝐄𝐱𝐩𝐥𝐚𝐢𝐧 𝐭𝐡𝐞 𝐍𝐚𝐭𝐮𝐫𝐞 𝐚𝐧𝐝 𝐒𝐜𝐨𝐩𝐞 𝐨𝐟 𝐚𝐧 𝐄𝐧𝐭𝐫𝐞𝐩𝐫𝐞𝐧𝐞𝐮𝐫:
-Define entrepreneurship, distinguishing it from general business activities by emphasizing its focus on innovation, risk-taking, and value creation. Students will describe the characteristics and traits of successful entrepreneurs, including their roles and responsibilities, and discuss the broader economic and social impacts of entrepreneurial activities on both local and global scales.
it describes the bony anatomy including the femoral head , acetabulum, labrum . also discusses the capsule , ligaments . muscle that act on the hip joint and the range of motion are outlined. factors affecting hip joint stability and weight transmission through the joint are summarized.
1. F _____
JOB TITLE / AIM: JSA for Hydrotesting (Utility water, fire water, potable water)
JSA DATE: 19/06/06 JSA NO./ REVISION: 101
SUPERVISOR/ JSA LEADER: M. Ramzan SCRIBE: Hernand Suyom/Abdullah Khan
PARTICIPANTS : Sharif Ullah Khan, Shoaib Farman
LIST ASSOCIATED PROCEDURES/WORK INSTRUCTIONS OR TEMPORARY WIs:
Approved:
Bruce Boxshall 21-June-06
Attach copies of any relevant documentation/ drawings.
Part 2: Job Safety Analysis
Job Steps:
1.Mobilization of Equipment & workers
2. Water Refilling
3. Hydro testing
4. Water Releasing
5.Demobilization
Alternatives Considered: N/A
Now undertake the JSA and record in the table below. Use prompts on JSA Prompt Sheet and Hazard Checklist PA-HSEC-02-040-002-F03.
Part 3: Contingency Plans. Standard PPE,S : First aid kit must be present at the area and the Hse personnel is the first response in case of
emergency
2. Part 4: Review. After the job has been completed, JSA leader should note: any hazards, which were identified in the original JSA? Any practices
that need to be captured in the OMS? List action items, changes, and transfer any changes to the Change Management system.
File: 10.30
JSA No: JOB TITLE:
Step Describe Job Step Potential Hazards Hazard Controls
No (Copy from part 2 of form) (Use Hazard Checklist)
-
1 Mobilization of the following
equipment:
- Hand pump
- Pressure gauge
- Flexible wire hose
Unauthorised equipment/tools brought out to
site
Before mobilizing any equipment/tools make sure
that the E &P Personnel & BHP got inspected the
equipment. Checklist are in equipment
Ensure that gas testing was conducted whenever
bringing the equipment in transition and
Operations areas
Unskilled and uninducted personnel starting
the job
Ensure that all personnel prior to start have been
inducted and oriented about the hazard in the job
site. All persons working in Operations areaa to
be Operaitons inducted. Only trained personnel
shall do the Hydrotesting
Workers starting the job unfit to work All personnel must be undergone fitness for work
assessment thru DEL doctor
Workers starting the job without necessary
controls in place (eg JSA, Permits as required)
JSA must be in place prior to work. Ensure all the
persons take part in the toolbox meeting
discussion. Persons signed at the back of JSA at
each toolbox meeting.
All works undertaken in Operations areas to be
performed under CWP.
Hand Injury Ensure proper hauling of materials/get help if
3. JSA No: JOB TITLE:
Step Describe Job Step Potential Hazards Hazard Controls
No (Copy from part 2 of form) (Use Hazard Checklist)
Back injury
Miscommunication
required/Wear hand gloves.
Ensure proper posture and positioning
Ensure standby radio fully charge are in place at
all times
Ensure that area to be secured and barricaded with
hydrotesting sign board in place
2 Water Refilling & Pressurizing to
15 bar manually using hand pump
Unauthorised person
Miscommunication
Trips/fallls
Poor visibility/lighting
Heat Stress/Exhaustion
Snake bite
Tripping hazards
SIMOPS
Ensure that all workers have been informed when
the Hydrotesting will be conducted properly lit
and barricaded by a barrier. Ensure only 15bars
max. pressure to be conducted for testing.
It is advised that the testing to be conducted at
night or break time hours to minimized the
SIMOPS or personnel interface
Ensure that workers shall not step of the pipe
walking across the pipe
Ensure workers are following the correct
procedure of positioning and lifting. Get help if
required.
Ensure sufficient light are in place.
Ensure that workers are oriented about the job and
no one will be allowed to work alone. Make
buddy system
Ensure potable water/sufficient shelter is available
each area where workers are doing the job. First
aid kit available at site.
Workers will inform and be aware about the
presence at the area. No killing of snakes
Ensure that workers accessing the right walkway
4. JSA No: JOB TITLE:
Step Describe Job Step Potential Hazards Hazard Controls
No (Copy from part 2 of form) (Use Hazard Checklist)
and watch your steps.
Other worker not involve in the job must not
come closer to the area
Ensure workers are accessing the right pathway
and equipment must maintain the speed limit
Ensure banks person are available at the area
Ensure no works shall perform when strong wind
comes
Ensure that whenever heavy equipment on the
area no works shall commence at excavated area
3. Hydro testing High Presssure Burst
Miscommunication
Tripping hazards
Ensure that the equipment was inspected by BHP
and calibrated prior to use. Calibration
certificates to be reviewed prior to use
Ensure that QC conducting the testing are wearing
Full PPE and a standby barrier to secure
themselves from high pressure leak
Ensure that no any person will be on the
Hydrotesting area.
Ensure max. 15bars pressure to be kept during
testing
Ensure sufficient man power will be designated as
watchman to ensure nobody will enter the
Hydrotesting zone
Ensure that workers performing the testing are
trained.
Unauthorized operator should not operate the
tester
Always refer to manufacturers methodology of
testing
Ensure that during Hydrotesting no other workers
touching the pipe
5. JSA No: JOB TITLE:
Step Describe Job Step Potential Hazards Hazard Controls
No (Copy from part 2 of form) (Use Hazard Checklist)
Ensure that the Relief valve was install
Ensure that gas testing was conducted whenever
working in transition zone area
Ensure that workers will not step on the pipe
Whenever strong wind comes the work must be
stop
4. Water Releasing Unauthorised person
Miscommunication
Trips/fallls
Poor visibility/lighting
Heat Stress/Exhaustion
Snake bite
Tripping hazards
SIMOPS
Ensure that all workers have been informed when
the water releasing will be conducted properly
lit and barricaded by a barrier.
It is advised that the testing to be conducted at
night or break time hours to minimized the
SIMOPS or personnel interface
Ensure that workers shall not step of the pipe
walking across the pipe
Ensure workers are following the correct
procedure of positioning and lifting. Get help if
required.
Ensure sufficient light are in place.
Ensure that workers are oriented about the job and
no one will be allowed to work alone. Make
buddy system
Ensure potable water/sufficient shelter is available
each area where workers are doing the job. First
aid kit available at site.
Workers will inform and be aware about the
presence at the area. No killing of snakes
Ensure that workers accessing the right walkway
and watch your steps.
6. JSA No: JOB TITLE:
Step Describe Job Step Potential Hazards Hazard Controls
No (Copy from part 2 of form) (Use Hazard Checklist)
Other worker not involve in the job must not
come closer to the area
Ensure workers are accessing the right pathway
and equipment must maintain the speed limit
Ensure banks person are available at the area
Ensure no works shall perform when strong wind
comes
Ensure that whenever heavy equipment on the
area no works shall commence at excavated area
5. Demobilization Same as item one Same as item one