1.0. OBJECTIVE

The objective of this procedure is to provide directives and assistance so that crisis situations can be dealt with effectively, by ensuring prompt mobilization, and control of facilities and people and also keep personnel prepared for such occurrences to protect lives and minimize damage to assets.

2.0. INTRODUCTION

In case of emergency, as defined in these procedures, the Contractor’s HSE Manager becomes the person in charge (PIC) of the response and of the application of the emergency response plan. He remains in charge unless relieved by the Site Project manager.

The Site HSE manager has been designated as the person in charge of activating the emergency plan because this is part of his responsibility at the site.

Depending on the type of emergency and as the plan is activated this responsibility may be passed on to other individuals, but it is essential that one person is responsible for the activation of the plan.

If the Site HSE manager is unable to respond to the emergency due to injury or other circumstances, the Project manager takes charge of the response until relieved by a Responsible person.

3.0. INCIDENCES ADDRESSED

This emergency response plan will be used to address incidents that may occur during Commissioning. The following incidents are examples of situations that would activate an emergency response:

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This document, provided by QHSE Documents, offers a detailed risk assessment for the safe installation of conduit and trunking systems. It identifies potential hazards such as electrical risks, manual handling injuries, and working at height, while outlining effective control measures to ensure safety. This free resource is ideal for promoting compliance with health and safety regulations in construction and electrical work.

1.0. HAZARDS 

Handling and working with conduit, trunking, or containment system

2.0. RISKS AND CONSEQUENCES 

2.1. Manual Handling Injuries

2.2. Lifting, carrying, or positioning heavy or awkward conduit and trunking materials.

2.3. Musculoskeletal injuries, such as back strain or shoulder pain.

2.4. Risk: Slips, Trips, and Falls

2.5. Loose tools, materials, or cables left on the floor during installation.

2.6. Minor to severe injuries such as sprains, fractures, or head trauma.

2.7. Cuts and Abrasions

2.8. Handling sharp edges of metal trunking or improperly deburred conduit ends.

2.9. Lacerations to hands or fingers, requiring first aid or medical treatment.

2.10. Electrical Contact

2.11. Accidental contact with live electrical wires during installation in active systems.

2.12. Electric shock or burns, potentially leading to severe injuries or fatalities.

2.13. Falling from Heights

2.14. Working on ladders or elevated platforms to fix or install trunking and conduit.

2.15. Serious injuries such as broken bones, head injuries, or fatal falls.

3.0. EXISTING RISK CONTROL MEASURES 

3.1. Edges to be smooth at ground level prior to installation of conduit, trunking, or containment system.

3.2. Edges checked by operatives prior to pulling of cables

3.3. PVC cement is to be used in a well-ventilated environment in small amounts.

3.4. Canister to have top fitted once used to reduce risk of spillage and contact with ignition source. Product to be kept away from heat, sparks, flames, and all other sources of ignition.

3.5. Prior to the installation of a conduit / trunking system, proper consideration of the products to be installed and associated installation practices to be incorporated. Planning to be performed based upon this information.

4.0. ADDITIONAL RISK CONTROLS 

4.1. Provide proper manual handling training and use equipment like trolleys or lifts.

4.2. Maintain a clean and organized worksite to minimize slip and trip hazards.

4.3. Wear appropriate personal protective equipment (PPE), such as gloves and safety shoes.

4.4. De-energize circuits before commencing work and use insulated tools.

4.5. Use properly secured ladders or scaffolding and ensure workers are trained in working at height.

4.6. Operatives are to be trained and instructed in the safe use of products.

4.7. [COMPANY] Management/Supervisor to plan and monitor safe installation routes

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HSE DOCUMENTS-DRILLING RIG INSPECTION CHECKLIST

A "Drilling Rig Inspection Checklist" by HSE Documents ensures safety and operational efficiency in drilling activities. It covers critical areas like equipment integrity, emergency systems, fire protection, PPE compliance, and environmental controls. This tool aids in identifying hazards, verifying standards adherence, minimizing risks, and fostering a safe and compliant work environment in the oil and gas sector.

A. FUEL/WATER TANKS

1. No leaks.

2. Pumps guarded.

3. Signs:

⦁ No Smoking Signposted

⦁ All tank ID’s

⦁ A dangerous goods placard was posted (needed for transportation).

B. BOILER HOUSE

4. No clothing, etc. 

5. Sight glass guarded.

6. Pump guarded.

7. Fire extinguisher.

8. 1 year certification.

9. Boiler 25m from wellhead.

10. Housekeeping.

11. Flammables removed from around the boiler.

12. Manitoba Boiler Registration sticker

13. Blow down line – location, and installation of steam deflector.

14. Fuel/water and steam line leaks.

15. Chemical addition vessel (pot) at boiler properly labeled (WHMIS).

C. GENERATOR BUILDING

16. Generator/motor control center –condition.

17. Receptacles/circuit breakers identified.

18. Properly grounded (2 grd. Rods 3m apart).

19. Wiring guarded or off the ground and properly secured.

20. No clothing/storage.

21. Fans and belts guarded.

22. No fuel/oil leaks.

23. Compressor belts guarded.

24. Fire extinguisher.

25. All lights protected.

26. Housekeeping.

27. Signs

⦁ Auto Start signposted.

⦁ Hearing Protection Sign posted.

⦁ Electrical/High Voltage signs posted.

⦁ Water Hose Caution signposted.

⦁ Lockout and Procedures.

28. Wiring/electrical fixtures – condition.

D. ACCUMULATOR BUILDING

29. No leaks/spillage.

30. N2 bottles (12500 kPa / 1800 psi).

31. Housekeeping.

32. Storage of compressed gas cylinders secured.

33. Controls identified / accessible.

34. Safety device blind/shear ram controls.

35. Fire extinguisher.

36. Compressor guarded.

37. Signs

⦁ Auto Start signs–compressor/Accomm., pump

⦁ Dangerous Goods placard.

38. Accumulator reservoir vented outside of building/enclosure.

E. TOOL SHED

39. No leaks/spillage.

40. Housekeeping.

41. Fire extinguisher.

42. Grinder tool rest.

43. Eye protection available.

44. Eye Protection signposted.

F. MUD PUMP AREA

45. Pop valve (direction/pin/cover – flop over or hand tight).

46. Pop/bleed-off lines secured and drained.

47. Hoses safely chained.

48. Fire extinguisher.

49. Housekeeping.

50. Piping, valves & unions meet pressure rating.

51. Pulsation dampers.

52. Eyewash facility.

53. Signs

⦁ Lockout procedure posted.

⦁ Auto Start signposted.

⦁ Hearing Protection signposted.

⦁ No Smoking sign posted.

54. Wiring/electrical fixtures – condition.

G. MUD TANK AREA

55. Mud degasser(s) (size and placement).

56. Shale shaker belts guarded (if exposed).

57. Handrails, walkways.

58. Adequate ventilation.

59. Adequate lighting.

60. Personal protective equipment – eye protection, dust masks, rubber gloves/apron.

61. Housekeeping.

62. Tank level indicators operative.

63. Trip tank level indicator tank location.

64. Centrifuge (grounding/elect, handrails, etc)

65. Mud van, stairs, and lighting.

66. Eyewash facility (one must meet MB stds)

67. Signs

⦁ Eye Protection signs at hoppers

⦁ No Smoking signposted

⦁ Applicable WHMIS labeling

68. Wiring / electrical fixtures – condition.

H. SUBSTRUCTURE

69. General condition.

70. Matting condition.

71. All pins are installed, including c/w safety pins.

72. Spreaders in place.

73. Ventilation

74. Illumination

75. Winterization condition

76. Hydraulic control lines – condition fire-guarded hoses (if not labeled, speak to push).

77. Flow nipple split.

78. Scaffolding / ladder(s) condition.

79. Cellar area drained.

80. Wiring / electrical fixtures – condition.

81. Housekeeping (oil leaks, etc.)

I. BOPs

82. BOP secured properly (secured to sub).

83. BOP and rig equipment conform to government regulations.

84. Non-steel hydraulic lines fire sheathed.

85. BOP pressure tests recorded and test procedures satisfactory.

86. Adequate heating.

87. Manual ram locking wheels available. Location

J. DOGHOUSE

88. Potential H2S level posted

89. Adequate exits (min. 2).

90. Housekeeping

91. Fire extinguisher

92. Eye and hearing protection available.

93. Manitoba Standard Eyewash is available

94. First Aid kit stocked and clean (MB #2)

95. Safety belts CSA approved

96. Condition of available hand tools.

97. BOP controls, electrical, manual, air

98. Drilling License posted (super’s shack is adequate).

99. Manitoba emergency phone numbers posted.

100. Signs

⦁ Hard Hat signposted.

⦁ Hearing Protection signposted.

⦁ No Smoking sign posted.

⦁ MACP posted.

⦁ The blowout procedure is posted and readable.

⦁ MSDS’ available

101. Wiring / electrical fixtures – condition.

K. RIG FLOOR

102. Visibility of derrickhand from driller’s station.

103. Mechanical lockouts on draw works.

104. Drawworks are  guarded (no-go zone)

105. Crown saver (check).

106. Spinning chain/wench lines.

107. Headache post.

108. Kelly's cock condition.

109. Kelly hose condition.

110. Kelly hose safety line – both ends.

111. Line spooler/safety line.

112. Backup posts condition.

113. Tongs – condition.

114. Tong line and tong line clamps.

115. Slips – condition.

116. Dog collar – condition.

117. Stabbing valve and handle & X/O subs.

118. All machine guarding in place

119. Mud can condition.

120. All controls are identified.

121. Brake handle hold-down cable/chain.

122. Non-skid material around the rotary.

123. Lighting operational, floor & motor area.

124. Motors

⦁ Fans and belts guarded

⦁ No fuel/oil leaks

⦁ Motor shutoff

⦁ Fire extinguisher

⦁ Exhaust system

125. Stairs (min. 3 exits) from the rig floor

126. Warning horn working

127. Mobile boom/crane less than 7300 kg

128. Brakes satisfactory

129. Tugger line condition, guards

130. V-door opening safety chained.

131. Wiring / electrical fixtures condition.

132. Block hanging line

L. DERRICK

133. Bumper blocks secured.

134. Fingers straight.

135. Fingers chained/cabled

136. Wind board installed.

137. Ladder condition.

138. Escape line installed—no blockage of the line (i.e. tank or vehicle).

139. Escape buggy installed and accessible.

140. Climbing device/cages. CSA approved

141. Derrick’s hand harness CSA & condition

142. Guy lines/outrigger.

143. No loose tools – equipment cabled on derrick.

144. All safety pins are in place, and secure.

145. Lighting operational and safety cables/chains attached.

146. Condition of tong counterweight assembly.

147. Wiring / electrical fixtures – condition.

148. Logbook (digital info) Current

M. TRAVELLING ASSEMBLY

149. Bails / links.

150. Blocks or top drive

151. Elevators/latches.

152. Weight indicator assembly.

153. Weight indicator safety line.

154. Automatic driller.

155. Drilling line condition (slip/cut program).

156. Deadline anchor condition.

N. PIPE RACK AREA

157. Racks butt firmly to each other and catwalk.

158. The catwalk is in good condition.

159. Stairs – condition.

160. Pipe racks level/ Hydraulic stops in place.

161. The pipe rack ends are properly pinned.

162. The spacer between racks is sturdy and secure.

163. Derrick stands in good condition.

164. Housekeeping.

165. V-door ramp in good condition.

166. Catwalk, tugger, or skate, guarded.

167. Lay down line and block condition.

168. Layers of drill pipe or casing properly chocked.

169. Adequate lighting.

170. Pipe rack matting size and condition (sinking)

O. MANIFOLD HOUSE

171. Valve handles installed.

172. Heated

173. Proper gauges were installed and positioned.

174. Drill pipe pressure gauge installed.

175. Unobstructed view to the rig floor.

176. Housekeeping.

177. Manifold design meets Gov. Requirements.

178. Flare lines properly secured.

179. Lighting operational.

180. Choke/valves open to degasser.

181. Signs

⦁ MACP notice posted.

⦁ No Smoking sign posted.

182. Choke and degasser lines and manifold prepared for winter operation (if applicable).

183. Number of packs available (min. of 2)

P. BREATHING APPARATUS INSPECTION

184. Location of Air Packs

185. The general condition of apparatus and case.

186. Condition of the face piece.

187. Condition of nose cup.

188. Cylinder pressure.

189. Low-pressure alarm operational.

190. Cleanliness and storage.

191. Positive pressure capability.

192. Number/condition of spare cylinders (min 2)

193. Spare cylinders are properly stored.

194. SCBA cylinders hydrostatic test dates are current.

195. Other

Q. LEASE AREA

196. The lease is clean and neat.

197. Distances

⦁ Well to flare pit/flare tank

⦁ Well to incinerator

⦁ Well to crude oil storage tank

⦁ Oil storage tank to pit

⦁ Incinerator to flare pit/flare tank

198. Incinerator/garbage bin

199. Adequate ditching and drainage

200. Sump fluids properly contained.

201. Lease properly diked (if applicable)

202. Overhead lines flagged

203. H2S Warning signs, if applicable

R. TICKETS / DOCUMENTS

204. BOP function tests daily, recorded

205. BOP drill with records and signed by Rig Manager and Foreman

206. Motor skills weekly with records.

207. BOP tickets

⦁ Rig Manager

⦁ Foreman

⦁ Drillers

208. First Aid certificate (one per crew)

209. H2S training (all crew members)

210. WHMIS training (all crew members)

211. Slip and cut program recorded.

212. New employee orientation training.

S. SAFETY / GENERAL

213. Rig site trailers – distance from the well center.

214. Condition of electric tools.

215. Personal safety equipment is being used.

216. Toxic gas equipment (detector and tubes)

217. Adequate emergency vehicles are available

218. Accident reporting and recording

219. Rig location signs

220. Stretcher, location.  No.:

221. Condition of handrails and stairs – toe boards.

222. Fire retardant clothing is available

223. Suit casing/walkways

224. All safety hazards addressed at safety meetings (H2S, etc)

225. Other

The above inspection form pertains to all Manitoba legislation, applicable codes, and associated standards related to the upstream oil industry.

In the event items are not corrected within the specified time listed, the infraction may be forwarded to the appropriate enforcement body to ensure compliance is addressed under specific legislation including possible elevated enforcement measures.

INFRACTION / DATE TO BE REPAIRED / INSPECTOR’S COMMENTS

Unless specified otherwise, all issues are to be corrected within one week from the date of the inspection.

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1.0. ACTIVITY

1.1. Working at height

1.2. Housekeeping

1.3. Electrical

1.4. Moving Objects

1.5. Safe use of handle tools

1.6. Slips, trips and falls

1.7. Access to Site

1.8. Elevator Inspection

2.0. HAZARDS

2.1. Falls from height

2.2. Dropped objects

2.3. Unsecured harness or fall arrest system failure

2.4. Instability of working platform

2.5. Insufficient edge protection

2.6. Limited visibility or poor lighting

2.7. Inadequate access/egress

2.8. Weather conditions

2.9. Fatigue and loss of balance

2.10. Improper use of equipment

2.11. Slipping Hazards

2.12. Blocked Exits

2.13. Falling Objects

2.14. Poor Visibility

2.15. Fire Hazards

2.16. Injury from Sharp Objects

2.17. Restricted Movement

2.18. Misplacement of Essential Tools

2.19. Electric Shock

2.20. Arc Flash

2.21. Short Circuits

2.22. Faulty Grounding

2.23. Contact with Live Wires

2.24. Circuit Overload

2.25. Electrical Burns

2.26. Static Electricity

2.27. Improper Lockout/Tagout (LOTO)

2.28. Equipment Malfunction

2.29. Collision with Moving Elevator Cab

2.30. Contact with Counterweights

2.31. Crush Injuries from Misaligned Components

2.32. Impact of Falling Weights

2.33. Entrapment in Moving Mechanisms

2.34. Equipment Roll-away

2.35. Accidental Activation of Lift System

2.36. Interference with Other Moving Machinery

2.37. Contact with Moving Cables

2.38. Loss of Balance from Platform Shifts

2.39. Pinching and Crushing Injuries

2.40. Cuts and Abrasions

2.41. Slips and fall

2.42. Eye Injuries

2.43. Repetitive Strain Injuries

2.44. Electrical Shock

2.45. Tool Malfunction

2.46. Overexertion

2.47. Fire Hazard

2.48. Wet or oily floors

2.49. Loose or uneven flooring

2.50. Poor lighting

2.51. Obstructed pathways

2.52. Unsecured ladders

2.53. Missteps in confined spaces

2.54. Improper footwear

2.55. Open or exposed edges

2.56. Unexpected movement

2.57. Unauthorised access to the site

2.58. Slips, trips, and falls on uneven or cluttered surfaces

2.59. Inadequate lighting in access areas

2.60. Vehicular movement around site access points

2.61. Weather-related hazards (e.g., rain, high winds)

2.62. Lack of awareness among personnel regarding emergency exits and assembly points

2.63. Poor communication about site hazards and ongoing activities

2.64. Mechanical Hazards

2.65. Electrical Hazards

2.66. Fall Hazards

2.67. Load-Testing Hazards

2.68. Slip, Trip, and Fall Hazards

2.69. Hazardous Materials Exposure

2.70. Manual Handling Hazards

2.71. Noise Hazards

2.72. Limited Lighting and Visibility Hazards

2.73. Involvement of unauthorised personnel / Entrapment, Panic, Shock, Inquiry

2.74. Incompetent maintenance personnel, fatalities

2.75. Low overhead (Hitting), Head Inquiry

2.76. Inspection of Moving / Rotating parts

2.77. Pinch Hazards Caught in Between Moving Objects Cutting, Crushing

2.78. Ungraded Objects, counterweights,

2.79. Entanglement, cutting, crushing, pinch hazard

2.80. Physical / Mechanical Hazard

2.81. Electrocution, Electrical Shock and Burns

2.82. Unexpected movement Cuts, Serious Injuries, Fatality

2.83. Inspection instruments / Tools falling from the top, Property / Equipment damage & Financial Loos

2.84. Fire Hazard, Injuries (minor/major) burns, property damage

2.85. Working at height/ insufficient illumination at the site, Fatal Injuries

2.86. Physiological and physical tiredness, stress and physical exhaustion

2.87. Pinching of fingers Finger dislocation

3.0. RISKS

3.1. Risk of falling from ladders, scaffolding, or open elevator shafts.

3.2. Tools or materials falling from a height may cause injury to workers below.

3.3. Faulty or improperly used fall protection equipment can result in falls.

3.4. Inadequate or unstable scaffolding or ladders may lead to slips or falls.

3.5. The absence of guardrails or barriers increases the risk of falls.

3.6. Poor lighting in shafts or around elevators can lead to slips, trips, or missteps.

3.7. A lack of safe entry and exit points can make it difficult to maintain balance at height.

3.8. Wind or rain can impact stability and grip, especially if working near open shafts.

3.9. Extended periods at height may cause fatigue, increasing the risk of accidents.

3.10. Using ladders, scaffolding, or harnesses incorrectly may compromise safety.

3.11. Tools, equipment, or materials left on floors or work areas can cause trips and falls.

3.12. Spills, grease, or lubricants on floors may lead to slip incidents.

3.13. Cluttered walkways and exits can delay evacuation during an emergency.

3.14. Unsecured tools or testing equipment on elevated platforms may fall, posing risks to workers below.

3.15. Debris and clutter can obstruct views, increasing the risk of accidental collisions or mishaps.

3.16. Inadequate cleaning and upkeep can cause malfunctioning of elevators and testing apparatus.

3.17. Accumulated debris and flammable materials can increase fire risk in confined areas.

3.18. Unattended or improperly stored tools and equipment may cause cuts and other injuries.

3.19. Excessive materials or equipment in the workspace can limit mobility, increasing the risk of strain or injury.

3.20. Disorganized tools and equipment can delay responses in emergencies or disrupt the testing process.

3.21. Exposure to high-voltage circuits can cause severe shock or electrocution if proper precautions are not followed.

3.22. Electrical arc flashes can occur due to improper contact with live components, causing burns and injuries.

3.23. Faulty wiring or damaged insulation can lead to short circuits, increasing the risk of fire.

3.24. Inadequate grounding of electrical equipment can cause stray voltage, posing shock hazards to personnel.

3.25. Unintentional contact with exposed live wires, often during maintenance, can lead to severe injury.

3.26. Excessive load on circuits can cause overheating, potentially leading to equipment failure or fire.

3.27. Direct or indirect contact with high-voltage components can result in severe burns.

3.28. Accumulated static electricity can lead to shocks or ignite flammable materials in the work area.

3.29. Failing to properly isolate and secure electrical sources can lead to accidental energization during testing.

3.30. Faulty or poorly maintained electrical testing equipment can pose risks to operators and maintenance staff.

3.31. Risk of being struck by the elevator cab while it is in motion.

3.32. Potential for accidental contact with counterweights, which move in the opposite direction to the elevator cab.

3.33. Possibility of hands or other body parts being caught between moving parts like doors or safety interlocks.

3.34. Risk of testing weights dropping or shifting unexpectedly, leading to injuries or equipment damage.

3.35. Chance of limbs or clothing being trapped in moving mechanisms such as pulleys, cables, or sheaves.

3.36. Heavy testing weights or equipment on wheeled platforms may move unexpectedly, causing potential collision risks.

3.37. Unintended movement of the elevator due to improper controls or maintenance errors, posing a hazard to workers.

3.38. Risk of nearby machinery or tools moving unexpectedly and interfering with the elevator examination process.

3.39. Risk of being struck by or entangled in elevator cables, especially during tensioning or maintenance.

3.40. Sudden movements or shifts in test platforms can cause workers to lose balance and fall.

3.41. Improper handling or use of heavy tools can lead to pinching or crushing fingers and hands.

3.42. Sharp edges or worn-out tools increase the risk of cuts or abrasions when handling or repairing elevator components.

3.43. Leaving tools on floors or near edges can lead to tripping hazards in confined spaces.

3.44. Small particles or tool fragments can cause eye injuries, especially when working with metal or concrete surfaces.

3.45. Extended use of handheld tools may lead to muscle strain or repetitive motion injuries.

3.46. Using tools near electrical circuits without proper insulation can result in electrical shock.

3.47. Defective or poorly maintained tools can break, causing injuries from sudden tool failure.

3.48. Heavy or extended tool use without adequate breaks can cause fatigue, reducing focus and leading to errors.

3.49. Certain hand tools, such as grinders, can generate sparks, posing a fire risk in flammable areas.

3.50. Common in mechanical rooms or elevator pits, increasing slip risk.

3.51. This can lead to trips, particularly around elevator entrances.

3.52. Reduces visibility, increasing the likelihood of trips or missteps.

3.53. Tools, equipment, or cables left in walkways create tripping hazards.

3.54. Unstable ladders used in shaft access increase fall risks.

3.55. Limited room to manoeuvre, particularly in elevator pits.

3.56. Inadequate footwear may cause loss of grip on smooth or slick surfaces.

3.57. Elevator shafts and open doors may pose fall hazards if barriers aren’t in place.

3.58. Elevator or counterweight movement can cause imbalance or falls.

3.59. Potential injuries to unauthorised personnel and increased liability.

3.60. Physical injuries, such as sprains, fractures, or bruises.

3.61. Reduced visibility, increasing the likelihood of trips and falls.

3.62. Risk of collision or being struck by moving vehicles.

3.63. Increased risk of slips, falls, and site access obstructions.

3.64. Confusion and delays during an emergency, lead to potential injuries.

3.65. Increased likelihood of accidents due to lack of awareness.

3.66. Crushing, entanglement, or impact injuries from moving elevator parts.

3.67. Electric shock, electrocution, or fire hazards from faulty wiring or exposed electrical panels

3.68. Falling from height or into elevator shaft during inspection.

3.69. Overloading or incorrect weight distribution leads to elevator malfunction or structural failure.

3.70. Slips, trips, or falls due to oily or wet floors, loose cables, or tools.

3.71. Exposure to lubricants, oils, or chemicals during inspection and testing.

3.72. Strains or musculoskeletal injuries from lifting heavy weights or equipment.

3.73. Hearing damage due to loud noises from machinery.

3.74. Reduced visibility leads to potential errors or accidents.

4.0. CONTROL MEASURES

4.1. Safe Access should be provided

4.2. Personnel Fall Arrester System should be worn at all times when working a meter & above.

4.3. Only Competent Personnel are allowed to work at heights.

4.4. Tool Box Talk.

4.5. A 100% tie-off position must be maintained for fall protection.

4.6. Use of Proper PPE

4.7. In Case required for access use of MEWP, Scaffolding, Ladder

4.8. Statutory Third Party inspection Certification of MEWP, Scaffolding

4.9. Maintenance record of the ladder

4.10. Statutory Third-Party Training Certification

4.11. Isolation the area of inspection

4.12. Establish clear communication and signalling procedures to ensure workers are aware of cab movements.

4.13. Implement lockout/tagout procedures to prevent unintended cab movement during testing.

4.14. Use warning signage and barriers around the elevator shaft to restrict access during testing.

4.15. Enclose or restrict access to areas with counterweights using safety guards.

4.16. Conduct testing only when personnel are trained on counterweight hazards.

4.17. Use physical barriers or signage to mark counterweight zones, ensuring they remain clear.

4.18. Ensure proper alignment and inspection of doors, safety interlocks, and other components before testing.

4.19. Train workers to keep hands and clothing away from potential pinch points.

4.20. Perform periodic alignment checks to avoid unexpected component movement during testing.

4.21. Use secured weight-testing equipment and ensure all weights are properly attached.

4.22. Implement exclusion zones beneath or around areas where weights are handled.

4.23. Use safety harnesses and fall protection for workers near elevated areas.

4.24. Enforce strict lockout/tagout procedures to prevent machine activation during maintenance.

4.25. Educate workers on the dangers of moving parts and require PPE, such as gloves and fitted clothing.

4.26. Ensure guards and barriers are in place around mechanisms with moving parts.

4.27. Secure equipment on stable surfaces or lock wheels to prevent movement.

4.28. Inspect the testing area for inclines or hazards that might cause equipment to roll.

4.29. Use chocks or wheel locks on movable items to avoid unexpected rolling.

4.30. Implement lockout/tagout for the lift system controls to prevent unintended activation.

4.31. Display clear signs indicating the testing status and limit access to authorized personnel only.

4.32. Confirm all safety interlocks are functioning correctly before starting work.

4.33. Schedule elevator testing separately from other equipment operations in the vicinity.

4.34. Isolate the testing area and restrict non-essential machinery during the examination.

4.35. Maintain open lines of communication between teams to prevent unexpected interferences.

4.36. Use protective barriers or enclosures around cables to prevent accidental contact.

4.37. Ensure that workers are aware of the location and movement patterns of cables.

4.38. Secure cables and conduct visual checks for any unexpected movements during testing.

4.39. Ensure that platforms are level, secure, and capable of handling the weight before any work starts.

4.40. Train workers to stand clear of the platform edges and use guardrails when available.

4.41. Inspect and stabilize platforms regularly, especially during elevator weight testing activities.

4.42. Always check the equipment is in good condition before use.

4.43. Always wear cut protective gloves.

4.44. Always use the appropriate equipment (an adjustable wrench is less safe than a spanner which is less safe than a hex key).

4.45. Never use damaged tools.

4.46. Always use the correct sized tool for the job

4.47. To prevent injury due to loose material and tools, must be kept in relevant toolboxes and secured safely.

4.48. Tidy the site and provide clearly defined walkways as per individual compound.

4.49. Remove trip hazards around the site; store materials in designated areas.

4.50. The work will be clear to avoid slips & trips.

4.51. All Tools are properly kept in bags/boxes to avoid fall injury.

4.52. The area in the lobby is barricaded to prevent unauthorized entry.

4.53. Suitable signage and safety nets must be placed at the workplace.

4.54. Sufficient Light arrangement must be provided during work in progress.

4.55. Establish controlled access points with sign-in procedures.

4.56. Implement access restrictions with security personnel or badge systems.

4.57. Maintain clear and marked pathways.

4.58. Regularly inspect and clear access routes of any obstructions or hazards.

4.59. Provide appropriate footwear with anti-slip features for all personnel.

4.60. Ensure sufficient lighting in all access routes.

4.61. Install additional temporary lighting if required.

4.62. Establish designated pedestrian pathways separate from vehicular routes.

4.63. Use high-visibility signage and barriers.

4.64. Implement traffic control measures, such as speed limits and warning signs.

4.65. Monitor weather conditions and adjust work schedules if necessary.

4.66. Use non-slip mats or coverings in wet conditions.

4.67. Ensure all materials and equipment are secured against strong winds.

4.68. Conduct site inductions, including orientation on emergency exits and assembly points.

4.69. Place clear signage indicating exit routes and assembly points.

4.70. Regularly review emergency response procedures with all site personnel.

4.71. Hold daily briefings or toolbox talks to communicate site activities and hazards.

4.72. Use signage to warn of specific hazards in access areas.

4.73. Ensure two-way radios or communication devices are available for coordination.

4.74. Fix appropriate warnings/sign board

4.75. Provide barriers to restrict unauthorized access to the inspection area

4.76. Evaluate the maintenance representative as inspection is to be carried out with professionally trained and qualified personnel only

4.77. Forbid to operate the equipment without the presence of a qualified maintenance provider

4.78. Always be vigilant at working in low overhead area

4.79. Sharp protruding fixtures to be covered

4.80. Ensure adequate is paid throughout the inspection for the moving or rotating parts

4.81. Keep away from rotating/moving parts

4.82. Isolate the power supply before entry and tag out

4.83. Ensure adequate lighting

4.84. Ensure adequate attention is paid to work

4.85. To prevent the activation or energizing of machinery

4.86. Use of proper PPE

4.87. Isolate the area of inspection

4.88. Warning Signage

4.89. Trained & Experience Worker

4.90. Supervision of the Work

4.91. Check the condition of the brake and safety gear before entering the car top or pit

4.92. Ensure that mechanical car holding devices are in active position

4.93. Use the tools/instrument lanyard to avoid accidental falling of equipment

4.94. Proper housekeeping to be maintained

4.95. A suitable fire extinguisher shall be used at the workplace

4.96. Use had lamp to provide adequate lighting

4.97. Inform the client to provide adequate illumination

4.98. Don’t allow it to operate when illumination is insufficient

4.99. Job Rotation

4.100. Rest Breaks

4.101. Supervision of the work

4.102. Isolation of space

4.103. Trained and Experienced Inspector

4.104. LOTO

4.105. Proper use of PPE

4.106. Tool Box Talk

4.107. PTW should be provided before the commencement of the job.

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HSE DOCUMENTS-DAILY PRE-TASK BRIEFING FORM

The blog post "Daily Pre-Task Briefing Form" from HSE Documents offers a free, editable, ready-to-use form designed for health and safety professionals, project managers, HSE engineers, and supervisors. This essential tool facilitates effective daily pre-task briefings, promoting a safer work environment by ensuring task-specific hazards, control measures, and safety responsibilities are communicated to all team members before work begins. It is perfect for worldwide HSE professionals aiming to enhance site safety.

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COMPACTORS RISK ASSESSMENT

The "Compactors Risk Assessment" blog post on HSE Documents offers a concise, editable guide tailored for health and safety professionals globally. It covers potential risks associated with operating compactors, such as entrapment, vibration hazards, and noise exposure. The document provides step-by-step controls to mitigate these risks, ensuring safe compactor operation in construction, waste management, and roadwork projects. This resource is ideal for HSE engineers, project managers, and supervisors seeking to enhance workplace safety standards with pre-made, customizable risk assessments, available freely to promote industry-wide safety compliance.

1.0. Hazards

1.1. Entanglement

1.2. Crushing Injuries

1.3. Machine Malfunctions

1.4. Noise Hazards

1.5. Slips, Trips, and Falls

1.6. Manual Handling Injuries:

1.7. Fire Hazard

1.8. Exposure to Hazardous Substances

1.9. Electrical Hazards

1.10. Dust and Airborne Particles

2.0. Risks

2.1. Risk of hands, fingers, or clothing getting caught in moving parts like belts, rollers, or hydraulic arms

2.2. Severe risk of injury from the compactor’s compressing components, which can cause crushing if a worker is caught between moving parts or within the compacting chamber.

2.3. Mechanical failure or unexpected operation of the compactor can lead to sudden movements, posing risks to operators or bystanders.

2.4. Compactors often produce high noise levels, potentially leading to hearing damage if proper hearing protection is not used

2.5. The compactor area may have accumulated debris, waste materials, or hydraulic fluids that could cause slip and trip hazards.

2.6. Risk of back or musculoskeletal injuries when loading or unloading heavy materials without proper lifting techniques

2.7. Compactors generate heat and may be at risk of causing fires, particularly if flammable materials are improperly compacted.

2.8. Compactors used in waste management may expose operators to harmful chemicals, biohazards, or fumes released during compacting.

2.9. Compactors are often powered by electricity, which can pose risks of electric shock if maintenance is inadequate or if the unit is improperly handled.

2.10. Compaction may release dust, particularly when working with materials like cardboard or organic waste, which can lead to respiratory issues.

3.0. Existing Risk Control Measures

3.1. Safety guards and barriers to restrict access to moving parts.

3.2. Emergency stop buttons within reach of operators

3.3. Safety training on proper operation and awareness of crush zones.

3.4. Warning signs and labels on crush hazard areas.

3.5. Emergency stop mechanisms and lockout/tagout (LOTO) procedures.

3.6. Routine maintenance schedules and inspections.

3.7. LOTO procedures during repairs or troubleshooting.

3.8. Provision of hearing protection for operators and nearby personnel.

3.9. Noise signage to alert workers of high-noise areas.

3.10. Housekeeping procedures to keep floors around the compactor clear of waste and debris.

3.11. Anti-slip mats or textured flooring in high-traffic areas.

3.12. Training on proper lifting techniques.

3.13. Availability of mechanical aids like dollies, carts, or hoists to reduce manual lifting.

3.14. Fire extinguishers are available nearby and staff are trained in their use.

3.15. Avoidance of flammable materials or strict protocols for their disposal.

3.16. PPE requirements such as gloves and respirators when handling hazardous waste.

3.17. Clear protocols for handling and disposing of hazardous materials.

3.18. Regular inspection and maintenance of electrical components.

3.19. Use of waterproof covers for electrical controls to prevent moisture ingress.

3.20. Dust masks or respirators for workers in high-exposure areas.

3.21. Dust extraction or ventilation systems are in place to reduce airborne particles.

4.0. Additional Risk Control Measures

4.1. Install interlock systems that automatically shut down the machine if guards are opened.

4.2. Require operators to secure loose clothing, remove jewelry, and tie back long hair.

4.3. Conduct regular checks on guards to ensure they are not damaged or removed.

4.4. Motion sensors or light curtains that stop the compactor if an object or person enters a danger zone.

4.5. Enhanced training on hazard recognition and safe operating distances.

4.6. Establish a safety zone with physical barriers around the compactor to prevent unauthorized access

4.7. Integrate condition monitoring systems to detect early signs of malfunction, such as vibrations or overheating.

4.8. Conduct regular training for operators on identifying signs of malfunction and reporting issues promptly.

4.9. Use only certified parts and trained personnel for maintenance.

4.10. Install noise-reducing enclosures around the compactor.

4.11. Conduct regular noise level assessments to ensure compliance with permissible exposure levels.

4.12. Rotate personnel to limit individual exposure duration in high-noise areas.

4.13. Apply anti-slip coatings or paint to the floor around the compactor.

4.14. Implement visual indicators (such as tape or paint) to mark walkways and safe zones.

4.15. Regularly inspect the area for spilled fluids, loose materials, or worn flooring.

4.16. Increase the use of automatic or mechanized loading systems for heavy items.

4.17. Redesign workstations or storage to minimize unnecessary bending, twisting, or lifting.

4.18. Conduct ergonomic assessments to optimize manual handling tasks.

4.19.  Install fire detection and suppression systems in compactor areas.

4.20. Conduct regular inspections to ensure no combustible materials are mixed with waste.

4.21. Provide clear signage about prohibited items (e.g., flammable liquids) near compactors.

4.22. Introduce specific training on recognizing hazardous waste and proper handling techniques.

4.23. Enhance ventilation in compactor areas to reduce exposure to airborne chemicals.

4.24. Install contamination monitors and use labeled bins to segregate hazardous waste.

4.25. Periodic electrical safety training and drills on emergency response for electrical faults.

4.26. Lockout/tagout procedures are strictly enforced before electrical maintenance.

4.27. Install dust suppression systems or misting units in compactor areas.

4.28. Schedule regular cleaning to prevent excessive dust buildup.

4.29. Increase the ventilation rate or add filtration units if dust levels are above permissible exposure limits.

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HSE DOCUMENTS-RISK ASSESSMENT FOR DREDGING WORKS

"Risk Assessment for Dredging Works" is a valuable resource from HSE Documents, offering a free, editable template designed to support health and safety professionals globally. This blog post outlines the key risks associated with dredging activities—such as soil instability, water contamination, and equipment hazards—while detailing control measures to mitigate these risks. It’s an essential tool for HSE engineers, supervisors, and project managers aiming to ensure compliance, prevent accidents, and maintain safe working conditions in dredging projects. HSE Documents provides practical templates that streamline risk management for professionals worldwide.

1.0. ACTIVITIES 

1.1. Dust-Not including asbestos dust or dust from lead fumes or welding.

1.2. Leptospirosis (Weils Disease)

1.3. Eye injury/strain

1.4. Hand Arm Vibration

1.5. Work-related Upper Limb Disorders (WRULD)

1.6. Severe Water Conditions

1.7. Temperature

1.8. Access & Egress

1.9. Hazardous Substances

1.10. Working from boats/barge over water

1.11. Working Alone

1.12. Lifting Heavy Objects

1.13. Injury

1.14. Tipping, Falling and Slipping

1.15. Excessive Noise Levels

1.16. Falling Objects/ Hitting Head on Objects

1.17. Fire

1.18. Docking/ disembarking split hopper barge alongside digging barge

1.19. 360° Excavator

1.20. Loading split hopper barge

1.21. De- stabilization of Work Barge During Digging

1.22. Port traffic- Vessel collision

1.23. Spud leg operation

1.24. Casualty Recovery - Unresponsive Casualty / Spinal Injury

1.25. Casualty Recovery – Walking Wounded

1.26. Stricken Staff Member Recovery

2.0. HAZARDS / RISKS

2.1. Inhalation of dust

2.2. Serious health problems from inhalation of respirable crystalline silica (RCS) dust

2.3. Risk of silicosis, bronchitis emphysema and lung cancer

2.4. Impaired vision due to dust clouds leading to accidents

2.5. Dirt and nuisance to neighbours

2.6. Fatality

2.7. Eye strain

2.8. Defective eyesight

2.9. Eye injuries

2.10. Vibration of White Finger (VWF) and conditions which can affect vascular, bone or joint, neurological or muscular disorders

2.11. Raynaud’s Phenomenon of Occupational Origin

2.12. Writer’s or twister’s cramp and tenosynovitis, carpal tunnel syndrome, tennis and golfer’s elbow

2.13. Injury due to Wind, Poor Visibility

2.14. Hypothermia / Hyperthermia

2.15. High / Low Air & Water temperatures during the project.

2.16. Injury: Slips, trips, falls

2.17. Injury / Sickness

2.18. Injury / Drowning / Hypothermia

2.19. Injury / Entrapment / Drowning

2.20. Injury due to Slip/Trip/Fall Hazards on site.

2.21. Injury / Illness

2.22. Injury to due hitting the head of objects or objects falling from a height.

2.23. Burns / Smoke Inhalation / Injury

2.24. Staff fatality or injury / Man Overboard

2.25. Injury/death to staff members

2.26. Damage to plant/equipment

2.27. Injury/death to staff members or crew

2.28. Damage to vessel/equipment

2.29. Fatality / Severe Injury / Injury

2.30. Severe Injury / Injury

2.31. Injury to staff members during Emergency Rescue of Injured Diver/Staff Member

2.32. Delay in recovering injured staff member

3.0. EXISTING RISK CONTROL MEASURES 

3.1. Always damp down the dust. This is especially critical when using a Consaw to cut stone, concrete and the like because of the presence of RCS dust (some of which is invisible to the naked eye) which can be inhaled. Ensure that the runoff is controlled.

3.2. The HSE UK recommends a minimum flow rate of 0.5 litres per minute to dampen RCD dust effectively.

3.3. A suitable dust mask (not a nuisance dust mask) must be worn as well as the damping down process. Use either FFP3 filtering face pieces or nasal respirators with P3 filters for RCS dust.

3.4. Training should be given to the workforce regarding the appropriate use and maintenance of their masks.

3.5. Make sure the water jets are working properly. Maintaining an adequate water flow by cleaning the water jets is essential and should be done at least every time the blades are changed.

3.6. Replace worn cutting discs to reduce the cutting time.

3.7. Inspect and maintain reusable masks.

3.8. Select the correct dust mask for conditions (always seek specialist advice)

3.9. Enforce the wearing of masks

3.10. If there is a presence of vermin, contact the pest control contractor

3.11. Use safe systems of work and wear the protective equipment that is provided

3.12. Avoid becoming contaminated with sewerage

3.13. Avoid breathing in sewerage dust or spray

3.14. Those working in exposed environments must not touch their faces, smoke, eat or drink unless they have washed their hands and face thoroughly with anti-bacterial soap and water

3.15. Cleanse all exposed wounds, however small, and cover with a sterile waterproof dressing

3.16. Change out of contaminated clothing before eating, drinking or smoking and before going home

3.17. If exposed personnel suffer from a skin problem, seek medical advice before working with sewerage

3.18. Clean contaminated equipment on site. Do not take contaminated clothing home for washing

3.19. Report any suspected exposure

3.20. Obtain details on the machinery/equipment used and the usage time.

3.21. Obtain data on the likely vibration levels from one or more of the available data sources. It is best to consult the manufacturer’s agent /tool supplier to provide information on the vibration characteristics of the particular item of plant

3.22. Generic data is available for example see sample values below:

- Chainsaw: 6 m/s2

- Sander: 8 m/s2

- Hammer drill: 9 m/s2

- Road breaker: 12 m/s2

3.23. Ensure that the legislative levels below are adhered to:

- Daily exposure limit value (8-hour reference period) 5m/s²

- The daily exposure action valve (8-hour reference period) is 2.5m/ s²

- If the equipment is suitable determine the duration of time it can be used before the relevant exposure limits are reached.

3.24. Reduce vibration exposure by careful tool selection.

3.25. Ensure tools are maintained regularly and items such as abrasive discs are replaced regularly to minimise vibration.

3.26. Take frequent breaks when using vibrating tools. Plan work to avoid employees being exposed to vibration for long, continuous periods – several shorter periods are preferable.

3.27. Particular attention is to be given to the level, type and duration of exposure, including any exposure to intermittent vibration or repeated shocks,

3.28. Particular attention is to be given to working in low temperatures. Operatives should ensure that they stay warm and dry when using vibrating tools.

3.29. If necessary, e.g. if the estimated exposure looks like it might be above the exposure limit, measurement should be taken of the magnitude of mechanical vibration to which the employer’s employees are liable to be exposed. These should be carried out by a competent person on the basis set out in Schedule 6,

3.30. The formula for calculating weekly exposure is as defined by the international standard ISO 5349-2:2001

3.31. Identify those jobs involving frequent prolonged rapid forceful movements, forceful gripping and twisting movements of the hand and arm, where the wrist is angled towards the little finger, the arm held above the shoulder height or uncomfortably away from the body, and where repetitive pushing, pulling and lifting are necessary

3.32. Ensure hand tools are designed with good mechanical advantage and have a comfortable grip, are suitable for those who use them and that cutting edges are kept sharp.

3.33. Provide those involved in the work with information relating to the risks and ensure that operatives using tools and equipment are trained in their correct use.

3.34. Plan the work to incorporate work rotation if possible and also ensure this type of work is kept to as short a duration as possible.

3.35. Operatives should report any suspected condition as soon as possible, complaints should be monitored and checks made of first aid records and absence certification.

3.36. Cut-off Limits for operations to be determined on-site.

3.37. Weather conditions are to be monitored constantly while on site.

3.38. Weather forecasts are to be monitored daily during the project.

3.39. The health of staff is to be monitored on an ongoing basis while on site.

3.40. Provision of a qualified First Aider on-site.

3.41. All staff are to wear appropriate dress and select appropriate exposure protection for above and below-water tasks. All divers are to Wear suitably maintained dry suits.

3.42. Hse Documents-risk Assessment For Dredging Works.

3.43. All staff/sub-contractors are to be briefed on safe working procedures and safe access and egress.

3.44. All ladders and points of Access / Egress are to be checked daily by the Barge Master.

3.45. All staff/subcontractors are to be briefed on hygiene procedures.

3.46. Work Gloves, Clean Water, Cleaning Equipment and Hand Wipes are to be provided on-site.

3.47. All divers are to have current Hepatitis A, Hepatitis B and Tetanus vaccines.

3.48. All staff /sub-contractors are to be briefed on safe working procedures in boats.

3.49. Provision of qualified First Aider on site.

3.50. Life Jackets are to be worn at all times when working from boats.

3.51. All staff are to wear full PPE including High Visibility Vest, Hard Hats, Safety Glasses and Steel Toe Capped Boots.

3.52. Life belts are available and accessible on barge/vessel

3.53. All staff/sub-contractors are to work with another member of staff at all times.

3.54. All staff /sub-contractors will have undergone approved manual handling courses and employ kinetic handling techniques where necessary.

3.55. Carry out by GA1/LOLER – cranes and excavator to be certified, lifting gear checked etc.

3.56. Develop specific procedures and lifting plans as required. Document and risk assessment as necessary

3.57. Banking operations are to be under the direct control of the supervisor either through hand signals or verbal communication.

3.58. Only use certified ‘in-test’ lifting equipment.

3.59. Provision of qualified First Aider on-site.

3.60. First Aid box to be present on-site at all times.

3.61. Training & Adequate Supervision.

3.62. All staff/sub-contractors are to be made aware of tripping hazards.

3.63. Any tripping objects are to be removed from the area of danger.

3.64. Cables on the barge deck are to be covered with Cable Protection ramps

3.65. Vessel deck space is to be kept clean and tidy at all times.

3.66. Life jackets are to be worked when working over or in the vicinity of water.

3.67. Life belts aboard barge/vessels

3.68. All staff//sub-contractors to use ear protection when/as directed.

3.69. All staff/sub-contractors are to be briefed on safe working procedures.

3.70. All staff/sub-contractors are to wear full PPE including High Visibility Vest, Hard Hats, Safety Glasses and Steel Toe Capped Boots.

3.71. All items shall be lowered/recovered in a controlled manner.

3.72. All staff/sub-contractors are not to stand directly beneath the load.

3.73. Suitable and sufficient Fire Fighting Appliances / Systems.

3.74. Warning communication by radio, PA or word of mouth.

3.75. Maintenance of equipment.

3.76. Hot-works permit.

3.77. Communications; Barge / Tug Operators are to be in contact and listening on the designated VHF channel.

3.78. Tug operator to alert barge master before coming alongside

3.79. Competent persons for vessel operation and tying up process

3.80. Stand clear as the hopper barge comes alongside

3.81. Suitable fendering on barges

3.82. Certified, experienced and competent persons to operate excavator

3.83. Operator to monitor rear view camera

3.84. Swing area and blind spots to be established before operation

3.85. Deck crew to stay clear of the swing area

3.86. Authorised persons only on deck

3.87. Certified, experienced and competent persons to operate equipment

3.88. Deck of hopper barge to be clear of crew during loading operations

3.89. Hopper barge to be securely moored alongside pontoon barge.

3.90. Excavator & tug operators to communicate via marine VHF

3.91. During all operations with the excavator, the spud legs will be fully deployed

3.92. Three-person team on the work barge/work boat at all times.

3.93. 10-minute safety period after posting of the barge.

3.94. All plants/equipment are to be secured to the deck by a suitable anchor device.

3.95. All staff are to wear suitable PPE at all times, including life jackets.

3.96. Excavator operator and barge master to be in continuous voice communication.

3.97. The workboat is to be in a state of readiness to stabilize the barge if required.

3.98. Stability assessment to be undertaken on work barge before commencement of works.

3.99. The Harbour Master is to be regularly briefed and informed of works plan, specifically the proposed area of operation.

3.100. Vessel operators to maintain “listening” on marine VHF channels

3.101. Crew to remain vigilant at all times

3.102. Vessels and barge to be fitted with appropriate lighting

3.103. Barge Master to ensure that excavator operations are suspended

3.104. Marine Bravo to be moored to the barge, with engines running and operator aboard

3.105. Barge Master to ensure that no vessel approaches the pontoon barge during the raising or lowering of spud legs

3.106. Barge Master to instruct crew on spud leg raising/lowering sequence

3.107. Casualty’s Airway is to be maintained during the entire recovery procedure.

3.108. Backboard to be onsite at all times

3.109. The most suitable casualty evacuation point to be used at all times.

3.110. Suitable First Aid Kit & Medical Oxygen onsite

3.111. Suspected Spinal Injury: Keep the casualty still / Keep head, neck and spine aligned / Support head, neck and shoulders

3.112. All casualty recovery operations will be controlled from the Surface via the Supervisor.

3.113. Suitably trained & certified First Aiders

3.114. The most suitable casualty evacuation point to be used at all times.

3.115. Suitable First Aid Kit & Medical Oxygen onsite.

3.116. All ladders and points of Access / Egress are to be checked daily by the barge operator.

3.117. Vessel Deck to be kept clean/tidy at all times.

3.118. Sufficient medical oxygen will be available on-site at all times to help administer first- Aid in the event of any decompression incidents.

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