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ENGLISH FOR MARINE ENGINEERS

ENGLISH FOR MARINE ENGINEERS. 2010/2011. Lubricating oil system , p. 52, ex.1. an to them oil of is block by in main rods be filter. Lubricating oil system , p. 52, ex.2 , 3. minimize wear , reduce power loss cooling agent cushioning agent, which reduces the wear on bearings

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ENGLISH FOR MARINE ENGINEERS

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  1. ENGLISH FOR MARINE ENGINEERS 2010/2011

  2. Lubricatingoilsystem, p. 52, ex.1 an to them oil of is block by in main rods be filter

  3. Lubricatingoilsystem, p. 52, ex.2, 3 • minimize wear, reducepowerloss • cooling agent • cushioning agent, which reduces the wear on bearings • reducing exhaust gas blow-by • cleaning agent

  4. Lubricatingoilsystem, p. 53, ex. 5 • To make a film of oil between the piston rings and the liner and to neutralise any acid produced by combustion of the fuel. • Splashlubricationandspeciallubricationoilpumps. • Speciallubricationoilpumps. • Drillings, grooves, andpistonrings. • Circulates oil around the engine prior to starting.

  5. Lubricatingoilsystem, p. 54, ex. 6 A forced lubrication system is used on diesel engines. That means that lubrication takes place under pressure. Pressure is created by the lubrication oil pump driven by the engine itself. In some cases oil is supplied under pressure from the gravity tank. In any case, oil is pumped from the lubricating oil sump or drain tank. This tank is situated just below the crankcase. It is longitudinal and connected to the crankcase. The oil sump is part of the bedplate and is integrated into the ship’s double bottom.

  6. Lubricatingoilsystem, p. 54, ex. 6 The oil is supplied through the main supply line and through a series of filters. From the supply line the oil is delivered to each main bearing and camshaft bearing. The crankshaft, crankwebs, and bearings have bores for the delivery of oil from where oil can be delivered through connecting rod bores to the crosshead.

  7. Personalsafety in theengineroom, p. 62, ex. 2 • In caseoffire, whatshouldwe do? • What are thedangersforinjury? • Whatkindofhazardscanwefind in theengineroomandhowcanwepreventthem? • Whatkindofsafetymeasures do weuse in caseofoilpollution? • Howcanhelp us in caseofaccident?

  8. Personalsafety in theengineroom, p. 62, ex. 3 • Overalls with long sleeves • Safety footwear • Hardhats • Safety glasses and goggles • Tools • Power tools, machinery • Electrical cables or plugs • Fire • Being alone in the engine room • Welding or flame cutting • Oil leaks or spills • Hazardous materials • Spares • Floor plates • Tiredness

  9. Personalsafety in theengineroom, p. 62, ex. 3 Overalls with long sleeves: • protect the skin against dirt and abrasion; • good fit to prevent clothing from getting caught into moving machinery; • basic defence against injury

  10. Personalsafety in theengineroom, p. 62, ex. 3 Safetyfootwear: • designed to be slip-resistant and protect your feet against heat, knocks and cuts; • basic defence against injury

  11. Personalsafety in theengineroom, p. 62, ex. 3 Hardhats: • designed with a harness inside the shell to absorb the force of impact; • clearance between the harness and shell; • protect the head from injury as a result of knocks against overhead structures or against the impact of falling objects; • reduce the chance of serious injury

  12. Personalsafety in theengineroom, p. 62, ex. 3 Safety glasses and goggles: • protect the eyes against chemicals and flying particles; • wear goggles over the top of spectacles; • if too scratched, discard them

  13. Personalsafety in theengineroom, p. 62, ex. 3 Tools: • Dangerousiffallingfrom a height

  14. Personalsafety in theengineroom, p. 62, ex. 3 Power tools: • each designed for a special purpose; • direct sharp tools away from the body; • use tools correctly; • stow them away when you’re done using them; • observe safety instructions; • make sure the safety guard is in place

  15. Personalsafety in theengineroom, p. 62, ex. 3 Electrical cables or plugs: • if there is apparent damage, don’t use them; • keep leads short so they are not cut during use; • faulty fitting and cables can cause fire; • do not exceed the rated load of electrical tools; • report items in a dangerous condition; • isolate lights from the mains when not in use; • be familiar with first aid procedures related to electric shock; • if a machine is defective, the power should be locked off and a notice placed; • only a qualified person cancarry out repairs

  16. Personalsafety in theengineroom, p. 62, ex. 3 Fire: • risk of carelessness or neglect; • good housekeeping and cleanliness crucial; • combustible materials disposed off safely; • take care when using flammable materials near exhaust pipes or hot surfaces; • fuel leaks and grease should be cleaned up immediately; • change into clean overalls; • crawl on your hands and knees if you need to; • evacuate the engine room immediately on hearing the fire alarm to allow the use of CO2 installations

  17. Personalsafety in theengineroom, p. 62, ex. 3 Being alone in the engine room: • follow the proper notification procedures; • know the meaning of alarm signals and location of safety equipment; • pre-plan your escape in case of fire

  18. Personalsafety in theengineroom, p. 62, ex. 3 Welding or flame cutting: • exercise utmost care; • arrange to have a fire watch when welding; • using this equipment requires proper qualifications

  19. Personalsafety in theengineroom, p. 62, ex. 3 Oil leaks or spills: • slips and falls are among the most common accidents aboard ships; • watch your step especially when carrying things; • use hand rails; • clean up oil spills immediately; • rectify the source of any leak; • wear gloves; • store remains in designated containers with a lid and away from heat because they are combustible; • use barrier hand cream

  20. Personalsafety in theengineroom, p. 62, ex. 3 Hazardous materials: • avoid contact with chemicals; • don’t mix chemicals unless you know the solution is safe; • consult safe materials handling data sheet

  21. Personalsafety in theengineroom, p. 62, ex. 3 Spares: • stow all heavy spares securely; • use correct lifting techniques; • good housekeeping is crucial

  22. Personalsafety in theengineroom, p. 62, ex. 3 Floor plates: • protect openings if floor plates are removed; • post safety notices; • replace floor plates as soon as possible

  23. Personalsafety in theengineroom, p. 62, ex. 3 Tiredness: • have sufficient sleep and rest; • drink plenty of liquids

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