The document provides information about the criteria for developing a rescue plan for working at heights (WAH) activities, including working on temporary or permanent platforms over 6 meters, constructing or dismantling temporary platforms, or working at the edge of a location with a risk of fall. It also provides definitions for descent rescue, cross haul rescue, and stretcher rescue. The multiple choice questions test knowledge of permit to work (PTW) requirements, hot work classifications, gas testing responsibilities, and confined space entry procedures.
Aerial Work Platform Safety by Pennsylvania Department of Labor & IndustryAtlantic Training, LLC.
This document provides an overview of aerial work platform safety. It discusses operator training requirements, inspection procedures, safety operations, and hazards associated with aerial lifts and scissor lifts. Falls, tip-overs, electrocutions, and being caught or struck were the most common causes of aerial lift deaths. The document emphasizes following inspection, set up, use, and fall protection procedures to prevent accidents when operating aerial lifts.
Overhead and gantry cranes safe operating proceduresytcrane
We supply overhead crane,gantry crane,jib crane,crane parts,port
crane,electric hoist!
Yuantai can make nonstandard crane according to your individual drawing or sample. If you need, we also can offer the installation, test and mechanism debugging, and hand you the installation and testing data report.
skype:
cherry.swallow
Email:
christine@ytcrane.com
Web:
http://www.ytcrane.com
This LOLER lift plan details the steps for installing Mod 9 PA SDV-20253 valves. It involves pre-rigging lifting points and slinging the 3000kg load. The valves will be lifted using 4 air hoists and soft eye wire slings, transferred across structure, and lowered into position. Riggers will follow safety procedures like using harnesses, erecting barriers, and inspecting equipment. The lift requires multiple personnel and will be supervised by a rigging foreman.
This risk assessment document identifies hazards associated with lifting operations using a tower crane on a construction site. It lists 6 specific tasks: 1) access of crane sections, 2) tower crane foundations, 3) siting, setting up and testing, 4) lifting of equipment and material, 5) tower crane supervision, and 6) jumping and dismantling the tower crane. For each task, potential hazards are identified and an initial risk rating is given. Control measures are then provided to reduce the risks, along with any additional measures. Residual risks after controls are also assessed. The goal is to ensure lifting operations are performed safely.
313440656 crane-lifting-calculation-sheetPhạm Thành
This document provides a checklist and calculation form for mobile crane lifts up to 10 tons. The form is to be completed each time the crane is set up in a new location to calculate the maximum planned lift weight and radius. It includes sections to record the crane setup details, total lift weight, crane capacity at the current setup, and sign-off from the crane operator, rigger, and supervisor.
1. Project Information: (To be filled by initiator/originator)
Project Name: Permit No.:
Project Location:
Requesting Contractor/Company
2. Permit Issuance Details: (To be filled by initiator/originator)
THIS PERMIT IS ONLY FOR ONE TEST AND IS NOT EXTENDABLE
Description of Task:
Permit Validity:
Time (from): __________Hrs.
Time (To): __________Hrs.
Date:
Design Pressure of Pipeline: Operating Pressure:
Testing Pressure: Pressure Time:
3. Pressure Testing Details: (To be filled by initiator/originator)
Type of Work Request ☐ Hydrostatic
☐ Pneumatic
☐ Gravity Testing
☐ Other :
Type of Equipment testing: ☐ Pipeline
☐ GRP ☐ AC ☐ others:
☐ Tanks
☐ Hose
☐ Other(s)
Dimensions: Pipeline/Tank/Hose
☐ Diameter:
☐ Thickness:
☐ Length:
☐ Other(s):
Attachment(s): ☐ Plan
☐ Sketch
☐ Drawing (approved)
☐ Method Statement & Risk Assessment
☐ Authority Approvals (NOCs)
☐ Road Traffic Approval (if applicable)
☐ Other(s)
4. Prerequisites: (To be filled by initiator/originator and verified by Evaluator)
Checks Yes-No-NA Checks Yes-No-NA
Is the segment of pipeline under testing isolated from service by closing nearest valves? ☐ ☐ ☐
Risk assessment/ method statement developed, approved and communicated? ☐ ☐ ☐
Is the Liquid/Gas vented/removed from the pipeline? ☐ ☐ ☐
Testing & monitoring of the environment prior to entry? ☐ ☐ ☐
Test Head and End plug/end point are properly sealed/secured/tighten. ☐ ☐ ☐
Emergency response procedure and rescue plan are developed & communicated? ☐ ☐ ☐
Is Air vented completely by pumping and filling the water in the testing segment pipeline without pressurizing? ☐ ☐ ☐
Operatives are trained and competent? ☐ ☐ ☐
Pressure testing equipment in good condition with available safe guards ☐ ☐ ☐
Provision of vigilance supervision? ☐ ☐ ☐
Flexible pipe/hose are in good condition and connections are safely clamped ☐ ☐ ☐
Proper barricade and signage are posted? ☐ ☐ ☐
Pressure testing gauge have valid calibration. ☐ ☐ ☐
Safe means of access/egress provided? ☐ ☐ ☐
Pressure testing gauge/ valve are in safe & accessible place outside restricted/isolated area ☐ ☐ ☐
Means of communication available? ☐ ☐ ☐
Is the testing pipeline/vessel/tank are properly isolated ☐ ☐ ☐
Electrical equipment & connections safe? ☐ ☐ ☐
Is confined space PTW required & obtained? ☐ ☐ ☐
Other(s) ☐ ☐ ☐
5. Acknowledgement by Initiator and Evaluator:
☐ Acknowledge that all above precautions have been taken. These have also been fully explained to the operatives, and I consider them competent to do it safely.
Initiator/Originator Name: Designation:
Signature: Date /Time:
☐ Acknowledge that I have checked above control measures and consider the work area safe to carry out the activity
Evaluator (HSE Team): Designation:
Signature: Date /Time
Comments (if any):
6. Authorization (PM/CM):
Name: Designation:
Signature: Date /Time:
The document provides information about the criteria for developing a rescue plan for working at heights (WAH) activities, including working on temporary or permanent platforms over 6 meters, constructing or dismantling temporary platforms, or working at the edge of a location with a risk of fall. It also provides definitions for descent rescue, cross haul rescue, and stretcher rescue. The multiple choice questions test knowledge of permit to work (PTW) requirements, hot work classifications, gas testing responsibilities, and confined space entry procedures.
Aerial Work Platform Safety by Pennsylvania Department of Labor & IndustryAtlantic Training, LLC.
This document provides an overview of aerial work platform safety. It discusses operator training requirements, inspection procedures, safety operations, and hazards associated with aerial lifts and scissor lifts. Falls, tip-overs, electrocutions, and being caught or struck were the most common causes of aerial lift deaths. The document emphasizes following inspection, set up, use, and fall protection procedures to prevent accidents when operating aerial lifts.
Overhead and gantry cranes safe operating proceduresytcrane
We supply overhead crane,gantry crane,jib crane,crane parts,port
crane,electric hoist!
Yuantai can make nonstandard crane according to your individual drawing or sample. If you need, we also can offer the installation, test and mechanism debugging, and hand you the installation and testing data report.
skype:
cherry.swallow
Email:
christine@ytcrane.com
Web:
http://www.ytcrane.com
This LOLER lift plan details the steps for installing Mod 9 PA SDV-20253 valves. It involves pre-rigging lifting points and slinging the 3000kg load. The valves will be lifted using 4 air hoists and soft eye wire slings, transferred across structure, and lowered into position. Riggers will follow safety procedures like using harnesses, erecting barriers, and inspecting equipment. The lift requires multiple personnel and will be supervised by a rigging foreman.
This risk assessment document identifies hazards associated with lifting operations using a tower crane on a construction site. It lists 6 specific tasks: 1) access of crane sections, 2) tower crane foundations, 3) siting, setting up and testing, 4) lifting of equipment and material, 5) tower crane supervision, and 6) jumping and dismantling the tower crane. For each task, potential hazards are identified and an initial risk rating is given. Control measures are then provided to reduce the risks, along with any additional measures. Residual risks after controls are also assessed. The goal is to ensure lifting operations are performed safely.
313440656 crane-lifting-calculation-sheetPhạm Thành
This document provides a checklist and calculation form for mobile crane lifts up to 10 tons. The form is to be completed each time the crane is set up in a new location to calculate the maximum planned lift weight and radius. It includes sections to record the crane setup details, total lift weight, crane capacity at the current setup, and sign-off from the crane operator, rigger, and supervisor.
1. Project Information: (To be filled by initiator/originator)
Project Name: Permit No.:
Project Location:
Requesting Contractor/Company
2. Permit Issuance Details: (To be filled by initiator/originator)
THIS PERMIT IS ONLY FOR ONE TEST AND IS NOT EXTENDABLE
Description of Task:
Permit Validity:
Time (from): __________Hrs.
Time (To): __________Hrs.
Date:
Design Pressure of Pipeline: Operating Pressure:
Testing Pressure: Pressure Time:
3. Pressure Testing Details: (To be filled by initiator/originator)
Type of Work Request ☐ Hydrostatic
☐ Pneumatic
☐ Gravity Testing
☐ Other :
Type of Equipment testing: ☐ Pipeline
☐ GRP ☐ AC ☐ others:
☐ Tanks
☐ Hose
☐ Other(s)
Dimensions: Pipeline/Tank/Hose
☐ Diameter:
☐ Thickness:
☐ Length:
☐ Other(s):
Attachment(s): ☐ Plan
☐ Sketch
☐ Drawing (approved)
☐ Method Statement & Risk Assessment
☐ Authority Approvals (NOCs)
☐ Road Traffic Approval (if applicable)
☐ Other(s)
4. Prerequisites: (To be filled by initiator/originator and verified by Evaluator)
Checks Yes-No-NA Checks Yes-No-NA
Is the segment of pipeline under testing isolated from service by closing nearest valves? ☐ ☐ ☐
Risk assessment/ method statement developed, approved and communicated? ☐ ☐ ☐
Is the Liquid/Gas vented/removed from the pipeline? ☐ ☐ ☐
Testing & monitoring of the environment prior to entry? ☐ ☐ ☐
Test Head and End plug/end point are properly sealed/secured/tighten. ☐ ☐ ☐
Emergency response procedure and rescue plan are developed & communicated? ☐ ☐ ☐
Is Air vented completely by pumping and filling the water in the testing segment pipeline without pressurizing? ☐ ☐ ☐
Operatives are trained and competent? ☐ ☐ ☐
Pressure testing equipment in good condition with available safe guards ☐ ☐ ☐
Provision of vigilance supervision? ☐ ☐ ☐
Flexible pipe/hose are in good condition and connections are safely clamped ☐ ☐ ☐
Proper barricade and signage are posted? ☐ ☐ ☐
Pressure testing gauge have valid calibration. ☐ ☐ ☐
Safe means of access/egress provided? ☐ ☐ ☐
Pressure testing gauge/ valve are in safe & accessible place outside restricted/isolated area ☐ ☐ ☐
Means of communication available? ☐ ☐ ☐
Is the testing pipeline/vessel/tank are properly isolated ☐ ☐ ☐
Electrical equipment & connections safe? ☐ ☐ ☐
Is confined space PTW required & obtained? ☐ ☐ ☐
Other(s) ☐ ☐ ☐
5. Acknowledgement by Initiator and Evaluator:
☐ Acknowledge that all above precautions have been taken. These have also been fully explained to the operatives, and I consider them competent to do it safely.
Initiator/Originator Name: Designation:
Signature: Date /Time:
☐ Acknowledge that I have checked above control measures and consider the work area safe to carry out the activity
Evaluator (HSE Team): Designation:
Signature: Date /Time
Comments (if any):
6. Authorization (PM/CM):
Name: Designation:
Signature: Date /Time:
This document provides Petroleum Development Oman's procedure for lift planning and execution. It outlines roles and responsibilities for those involved in lifting operations, including project managers, contractors, crane operators, riggers, and a lifting engineer. The procedure describes defining the lift, planning, execution, reacting to changing conditions, and learning from lifts. Planning includes assessing risks, preparing a lift plan, and getting approval. Execution involves following the approved plan, communicating, and inspecting equipment. Lessons learned are recorded to improve future lifts.
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)
Project Name: xxx
RA Ref No.: xxx
RA compilation Date: Review date:
Date:
Compiled by:
Reviewed by:
Approved by:
Overall Task Details
Temporary Lighting standards to areas of limited daylight, night time working, basements, below ground car parks, sealed rooms, etc. Relevant Applicable MAS:
• 00234 – Hole protection risers and penetrations;
• 00233 – Lift shafts; 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 Temporary electric supply for temporary lighting • Correct installation of lighting; • Electric shock or electrocution from incorrect installation;
• Work undertaken by incompetent workers;
• Burns from halogen lights;
• Injury from broken glass from halogen lights;
4 4 16 HIGH i. All electrical temporary lighting shall be undertaken by a competent electrician;
ii. Correct fittings and connections shall be used, taped connections, spliced joints are not permitted at any time;
iii. Cables shall be fixed or hung to suitable structures, and not allowed to trail on the floor;
iv. Covered lighting only to be installed, florescent tubes to be fitted with correct protection lens and covers. Exposed lights or tubes shall not be used;
v. Halogen lighting shall be avoided, due to risk of burns from the lens or breaking of glass;
vi. Connections to temporary supplies, such as DB’s to be to standards with shrouds, earthing and glands;
Cable damaged
Power cut off until cable repaired correctly, no taped connections
Low
2 Works undertaken in areas of low light or night works • Work in areas of low light levels;
• Slips and Trips;
• Incident due to insufficient lighti
Roles, Duties and Responsibilities of Standby ManEMMANUEL ESSEN
This document outlines the roles, duties, and responsibilities of a standby person for confined space work. It defines a standby person as a competent worker assigned to remain outside but close to a confined space, maintain communication with those inside, monitor equipment, and initiate emergency procedures if needed. The document discusses confined space hazards and provides examples. It also describes the standby person's duties to communicate with and monitor entrants, summon help if needed, perform non-entry rescues, and order evacuations when hazards are detected. The goal is for the standby person to ensure the safety of those working in the confined space.
This risk assessment document summarizes the hazards, risks, control measures, and residual risks associated with conducting trial trench excavations by hand to locate underground utilities at a construction site. Key steps include planning excavations based on utility drawings, scanning the work area to locate services, clearly marking identified and unidentified utilities, implementing traffic management plans if near roads, and using hand digging and excavators with spotters to expose utilities. Control measures such as permits, competent machine operators, exclusion zones around utilities, fall protection in trenches, illumination and signage are required. Residual risks include damage to undetected utilities and machine breakdown.
This document outlines the roles, duties, and responsibilities of a standby man for confined space work. It defines a standby man as a competent person assigned to remain outside a confined space to monitor workers inside, communicate with them, operate safety equipment, and initiate emergency procedures if needed. The document discusses confined space hazards and provides examples. It also describes the standby man's responsibilities to continuously monitor workers, order evacuations if needed, summon rescue services in emergencies, and perform non-entry rescues according to procedure. Maintaining effective communication and emergency response capabilities are emphasized as key duties of the standby man position.
NEW HOLLAND D180 TIER 3 CRAWLER DOZER Service Repair Manualjkmsyskmdm
This is the Highly Detailed factory service repair manual for theNEW HOLLAND D180 TIER 3 CRAWLER DOZER, this Service Manual has detailed illustrations as well as step by step instructions,It is 100 percents complete and intact. they are specifically written for the do-it-yourself-er as well as the experienced mechanic.NEW HOLLAND D180 TIER 3 CRAWLER DOZER Service Repair Workshop Manual provides step-by-step instructions based on the complete dis-assembly of the machine. It is this level of detail, along with hundreds of photos and illustrations, that guide the reader through each service and repair procedure. Complete download comes in pdf format which can work under all PC based windows operating system and Mac also, All pages are printable. Using this repair manual is an inexpensive way to keep your vehicle working properly.
Service Repair Manual Covers:
Generalities
Engine
Transmission
Final Drives
Brakes and Steering Differential – D180 Power Steering
Brakes and Steering Clutches – D180 Steering Clutches
Undercarriage
Dozing Equipment – Hydraulic System D180 PS
Dozing Equipment – Hydraulic System D180 SC
Electrical System
Air Conditioning Unit
File Format: PDF
Compatible: All Versions of Windows & Mac
Language: English
Requirements: Adobe PDF Reader
NO waiting, Buy from responsible seller and get INSTANT DOWNLOAD, Without wasting your hard-owned money on uncertainty or surprise! All pages are is great to haveNEW HOLLAND D180 TIER 3 CRAWLER DOZER Service Repair Workshop Manual.
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8
RA for Hot works at MOE-Ghim Moh (Ceiling support works).pdfMohPhoolay
This document is an activity-based risk assessment form for hot works (ceiling support works) being conducted at the MOE at Ghim Moh project by Create Logic Pte Ltd. It identifies 5 major hazards - improper manual handling, hot works causing fires/explosions, arc welding electrocutions and fires, gas cutting and arc welding fires, and trip and fall hazards from gas hoses and cables. For each hazard, it evaluates the existing and additional risk controls and assigns risk probability numbers. It also provides a risk level matrix to define acceptable risk levels and recommended actions.
Forklift trucks are an indispensable part of industry and commerce. When used safely they are a powerful tool.
When unsafe behavior, poor maintenance and carelessness come into play. Things can and will go very wrong
Forklifts are controlled entirely by the driver, therefor, human error is utterly possible and accidents can, and do happen. Quite often in fact. Forklift accidents are the second leading cause of warehouse accidents, so it is important to know what contributes to these mishaps and how we can prevent them.
This document provides a method statement for mobilizing and demobilizing office containers and equipment, as well as general unloading and lifting operations of construction materials and equipment for the Evonik Utility Supply project. It outlines the responsibilities of various roles including the project manager, engineers, safety coordinator, foremen, lifting supervisors, crane operators, riggers, and signalmen. It also describes the required qualifications for personnel and provides an organization chart. The methodology section covers preparatory work, equipment and tools needed, and lifting plans and sequences.
MOBILE ELEVATED WORK PLATFORMS CHECKLIST Form # HSEQ - MEWP Rev 1 - M.docxDwarika Bhushan Sharma
1. This document provides a checklist for inspecting mobile elevated work platforms (MEWPs) on a weekly basis.
2. The checklist includes over 20 inspection items to check the equipment, controls, safety devices, maintenance records, and conditions of the work area.
3. Inspectors from both HSE and plant sign off after inspecting to indicate if the MEWP passed, requires maintenance, or failed inspection and must be removed from the project.
19 use of mobile elevated work platforms risk assessment templatesDwarika Bhushan Sharma
19 Use of Mobile Elevated Work Platforms Risk Assessment Templates
MEWP checks on arrival to site
PRIOR TO SITE ACCESS • Use of Access plant • Unauthorized operation of the plant resulting in incident;
• Failure due to use of un-certificated plant;
MEWP operation
(Operator) • Operator competency;
• Plant / pedestrian interaction;
• Work at Height; • Incident due to use of defective plant or associated equipment;
• MEWP overturning;
• Plant reversing – risk of serious injury to pedestrians;
• Unauthorized use of MEWP by untrained personnel;
• Operators climbing onto hand rails;
• Collision with other plant and live traffic within site boundary;
• Workers struck by working MEWP, very high risk of fatality;
• Falling materials;
MEWP operation (supervision) • MEWP operations around workers;
• Workers in MEWP operating radius;
• Reversing vehicles; • Worker struck by vehicle;•
The document provides guidance on safely operating boom lifts. It outlines various OSHA requirements including fall protection, preoperational inspections of the lift, controls and their functions, safety hazards like pinch points and tip over risks. Operators must follow procedures like lowering and retracting the boom before driving, maintaining distance from power lines, and having a fire extinguisher. Practical training with an instructor is required before operating a boom lift independently.
This maintenance guide checklist provides guidance for owners of cargo vessels classed by Lloyd's Register to supplement their own maintenance procedures. It includes checklists for certification and documentation, log book entries, ISM and ISPS compliance, manning, and crew accommodation. The document notes that the checklist is not ship-specific and does not replace Lloyd's Register classification services, and the Lloyd's Register Group assumes no liability for its use.
Lifting plans for non-crane lifts on small construction sitesSimon Faulkner-Duke
This document discusses lifting plans for non-crane lifts on small construction sites. It outlines the types of equipment used such as lorry loaders, excavators, telescopic handlers, and forklifts. It discusses the legal requirements to properly plan lifting operations involving lifting equipment. A basic lifting plan must include a risk assessment, method statement, and lifting team consisting of a competent person, slinger/signaller, and operator. For more complex lifts, separate roles are required such as a crane supervisor, additional slinger/signaller, and traffic management operative. Main issues that can occur during lifts include lack of planning, not accounting for all weights, using excavators improperly as cranes, wind speed, and not
This document discusses permit to work (PTW) and lock out tag out (LOTO) training. It includes questions about energy sources, energy isolation, lock out devices, tag out devices, and the potential consequences of not following LOTO procedures. It also discusses the roles and responsibilities in a PTW system including the permit issuer, originator, acceptor, user, area authority, and site checker. Key steps in developing a LOTO program and performing energy isolation are also outlined.
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)
This document provides an overview of a PETRONAS CARIGALI PTW (permit to work) system training. It introduces the trainer and asks attendees to provide their name and company. It then covers definitions related to PTW systems like area classification, hot work, cold work and confined spaces. It describes the purpose of a PTW system is to protect personnel, environment, assets and company reputation. It outlines when a PTW is applicable, the roles and responsibilities of PTW signatories, and the responsibilities of a permit applicant.
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 provides Petroleum Development Oman's procedure for lift planning and execution. It outlines roles and responsibilities for those involved in lifting operations, including project managers, contractors, crane operators, riggers, and a lifting engineer. The procedure describes defining the lift, planning, execution, reacting to changing conditions, and learning from lifts. Planning includes assessing risks, preparing a lift plan, and getting approval. Execution involves following the approved plan, communicating, and inspecting equipment. Lessons learned are recorded to improve future lifts.
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)
Project Name: xxx
RA Ref No.: xxx
RA compilation Date: Review date:
Date:
Compiled by:
Reviewed by:
Approved by:
Overall Task Details
Temporary Lighting standards to areas of limited daylight, night time working, basements, below ground car parks, sealed rooms, etc. Relevant Applicable MAS:
• 00234 – Hole protection risers and penetrations;
• 00233 – Lift shafts; 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 Temporary electric supply for temporary lighting • Correct installation of lighting; • Electric shock or electrocution from incorrect installation;
• Work undertaken by incompetent workers;
• Burns from halogen lights;
• Injury from broken glass from halogen lights;
4 4 16 HIGH i. All electrical temporary lighting shall be undertaken by a competent electrician;
ii. Correct fittings and connections shall be used, taped connections, spliced joints are not permitted at any time;
iii. Cables shall be fixed or hung to suitable structures, and not allowed to trail on the floor;
iv. Covered lighting only to be installed, florescent tubes to be fitted with correct protection lens and covers. Exposed lights or tubes shall not be used;
v. Halogen lighting shall be avoided, due to risk of burns from the lens or breaking of glass;
vi. Connections to temporary supplies, such as DB’s to be to standards with shrouds, earthing and glands;
Cable damaged
Power cut off until cable repaired correctly, no taped connections
Low
2 Works undertaken in areas of low light or night works • Work in areas of low light levels;
• Slips and Trips;
• Incident due to insufficient lighti
Roles, Duties and Responsibilities of Standby ManEMMANUEL ESSEN
This document outlines the roles, duties, and responsibilities of a standby person for confined space work. It defines a standby person as a competent worker assigned to remain outside but close to a confined space, maintain communication with those inside, monitor equipment, and initiate emergency procedures if needed. The document discusses confined space hazards and provides examples. It also describes the standby person's duties to communicate with and monitor entrants, summon help if needed, perform non-entry rescues, and order evacuations when hazards are detected. The goal is for the standby person to ensure the safety of those working in the confined space.
This risk assessment document summarizes the hazards, risks, control measures, and residual risks associated with conducting trial trench excavations by hand to locate underground utilities at a construction site. Key steps include planning excavations based on utility drawings, scanning the work area to locate services, clearly marking identified and unidentified utilities, implementing traffic management plans if near roads, and using hand digging and excavators with spotters to expose utilities. Control measures such as permits, competent machine operators, exclusion zones around utilities, fall protection in trenches, illumination and signage are required. Residual risks include damage to undetected utilities and machine breakdown.
This document outlines the roles, duties, and responsibilities of a standby man for confined space work. It defines a standby man as a competent person assigned to remain outside a confined space to monitor workers inside, communicate with them, operate safety equipment, and initiate emergency procedures if needed. The document discusses confined space hazards and provides examples. It also describes the standby man's responsibilities to continuously monitor workers, order evacuations if needed, summon rescue services in emergencies, and perform non-entry rescues according to procedure. Maintaining effective communication and emergency response capabilities are emphasized as key duties of the standby man position.
NEW HOLLAND D180 TIER 3 CRAWLER DOZER Service Repair Manualjkmsyskmdm
This is the Highly Detailed factory service repair manual for theNEW HOLLAND D180 TIER 3 CRAWLER DOZER, this Service Manual has detailed illustrations as well as step by step instructions,It is 100 percents complete and intact. they are specifically written for the do-it-yourself-er as well as the experienced mechanic.NEW HOLLAND D180 TIER 3 CRAWLER DOZER Service Repair Workshop Manual provides step-by-step instructions based on the complete dis-assembly of the machine. It is this level of detail, along with hundreds of photos and illustrations, that guide the reader through each service and repair procedure. Complete download comes in pdf format which can work under all PC based windows operating system and Mac also, All pages are printable. Using this repair manual is an inexpensive way to keep your vehicle working properly.
Service Repair Manual Covers:
Generalities
Engine
Transmission
Final Drives
Brakes and Steering Differential – D180 Power Steering
Brakes and Steering Clutches – D180 Steering Clutches
Undercarriage
Dozing Equipment – Hydraulic System D180 PS
Dozing Equipment – Hydraulic System D180 SC
Electrical System
Air Conditioning Unit
File Format: PDF
Compatible: All Versions of Windows & Mac
Language: English
Requirements: Adobe PDF Reader
NO waiting, Buy from responsible seller and get INSTANT DOWNLOAD, Without wasting your hard-owned money on uncertainty or surprise! All pages are is great to haveNEW HOLLAND D180 TIER 3 CRAWLER DOZER Service Repair Workshop Manual.
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RA for Hot works at MOE-Ghim Moh (Ceiling support works).pdfMohPhoolay
This document is an activity-based risk assessment form for hot works (ceiling support works) being conducted at the MOE at Ghim Moh project by Create Logic Pte Ltd. It identifies 5 major hazards - improper manual handling, hot works causing fires/explosions, arc welding electrocutions and fires, gas cutting and arc welding fires, and trip and fall hazards from gas hoses and cables. For each hazard, it evaluates the existing and additional risk controls and assigns risk probability numbers. It also provides a risk level matrix to define acceptable risk levels and recommended actions.
Forklift trucks are an indispensable part of industry and commerce. When used safely they are a powerful tool.
When unsafe behavior, poor maintenance and carelessness come into play. Things can and will go very wrong
Forklifts are controlled entirely by the driver, therefor, human error is utterly possible and accidents can, and do happen. Quite often in fact. Forklift accidents are the second leading cause of warehouse accidents, so it is important to know what contributes to these mishaps and how we can prevent them.
This document provides a method statement for mobilizing and demobilizing office containers and equipment, as well as general unloading and lifting operations of construction materials and equipment for the Evonik Utility Supply project. It outlines the responsibilities of various roles including the project manager, engineers, safety coordinator, foremen, lifting supervisors, crane operators, riggers, and signalmen. It also describes the required qualifications for personnel and provides an organization chart. The methodology section covers preparatory work, equipment and tools needed, and lifting plans and sequences.
MOBILE ELEVATED WORK PLATFORMS CHECKLIST Form # HSEQ - MEWP Rev 1 - M.docxDwarika Bhushan Sharma
1. This document provides a checklist for inspecting mobile elevated work platforms (MEWPs) on a weekly basis.
2. The checklist includes over 20 inspection items to check the equipment, controls, safety devices, maintenance records, and conditions of the work area.
3. Inspectors from both HSE and plant sign off after inspecting to indicate if the MEWP passed, requires maintenance, or failed inspection and must be removed from the project.
19 use of mobile elevated work platforms risk assessment templatesDwarika Bhushan Sharma
19 Use of Mobile Elevated Work Platforms Risk Assessment Templates
MEWP checks on arrival to site
PRIOR TO SITE ACCESS • Use of Access plant • Unauthorized operation of the plant resulting in incident;
• Failure due to use of un-certificated plant;
MEWP operation
(Operator) • Operator competency;
• Plant / pedestrian interaction;
• Work at Height; • Incident due to use of defective plant or associated equipment;
• MEWP overturning;
• Plant reversing – risk of serious injury to pedestrians;
• Unauthorized use of MEWP by untrained personnel;
• Operators climbing onto hand rails;
• Collision with other plant and live traffic within site boundary;
• Workers struck by working MEWP, very high risk of fatality;
• Falling materials;
MEWP operation (supervision) • MEWP operations around workers;
• Workers in MEWP operating radius;
• Reversing vehicles; • Worker struck by vehicle;•
The document provides guidance on safely operating boom lifts. It outlines various OSHA requirements including fall protection, preoperational inspections of the lift, controls and their functions, safety hazards like pinch points and tip over risks. Operators must follow procedures like lowering and retracting the boom before driving, maintaining distance from power lines, and having a fire extinguisher. Practical training with an instructor is required before operating a boom lift independently.
This maintenance guide checklist provides guidance for owners of cargo vessels classed by Lloyd's Register to supplement their own maintenance procedures. It includes checklists for certification and documentation, log book entries, ISM and ISPS compliance, manning, and crew accommodation. The document notes that the checklist is not ship-specific and does not replace Lloyd's Register classification services, and the Lloyd's Register Group assumes no liability for its use.
Lifting plans for non-crane lifts on small construction sitesSimon Faulkner-Duke
This document discusses lifting plans for non-crane lifts on small construction sites. It outlines the types of equipment used such as lorry loaders, excavators, telescopic handlers, and forklifts. It discusses the legal requirements to properly plan lifting operations involving lifting equipment. A basic lifting plan must include a risk assessment, method statement, and lifting team consisting of a competent person, slinger/signaller, and operator. For more complex lifts, separate roles are required such as a crane supervisor, additional slinger/signaller, and traffic management operative. Main issues that can occur during lifts include lack of planning, not accounting for all weights, using excavators improperly as cranes, wind speed, and not
This document discusses permit to work (PTW) and lock out tag out (LOTO) training. It includes questions about energy sources, energy isolation, lock out devices, tag out devices, and the potential consequences of not following LOTO procedures. It also discusses the roles and responsibilities in a PTW system including the permit issuer, originator, acceptor, user, area authority, and site checker. Key steps in developing a LOTO program and performing energy isolation are also outlined.
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)
This document provides an overview of a PETRONAS CARIGALI PTW (permit to work) system training. It introduces the trainer and asks attendees to provide their name and company. It then covers definitions related to PTW systems like area classification, hot work, cold work and confined spaces. It describes the purpose of a PTW system is to protect personnel, environment, assets and company reputation. It outlines when a PTW is applicable, the roles and responsibilities of PTW signatories, and the responsibilities of a permit applicant.
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.