Meo Oral Ans

June 11, 2018 | Author: Kapil Verma | Category: Oil Tanker, Fuel Oil, Valve, Mechanical Engineering, Waste
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What all entries are entered in BDN (Bunker Delivery Note) ?. Name of Barge/Port b. Position of vessel. c. Delivery date d. IMO number e. Gross tonnage of Vessel f. Vessel name g. Time of starting h. Time of stopping i. Product name & code j. Viscosity at 50 Degree C k. Density @ 15°C l. Water Content % V/V m. Flash Point ° C n. Sulphur Content % m/m o. Pour Point °C p. Quantity taken @ 35°C What all equipments are carried in a Life boat of a ship? 1. Sufficient buoyant oars 2. 2 boat hook. 3. 2 Buckets 4. 6 Hand Flares 5. 2 Rocket parachutes 6. 2 smoke signals. 7. EPIRB 8. SART 9. Food Ration. 10. 1 knife and 3 tin opener. 11. Hand Pump 12. Tow line 13. Anti-sea sickness tablets 14. 1 set of fishing tackles. 15. Waterproof torch 16. Day light signalling lamp. 17. Radar reflector 18. First Aid Kit 19. Tools 20. Compass 21. Sea Anchor 22. 1 Whistle 23. Portable fire extinguisher 24. Thermal Protective aid Procedure for lowering of a Life boat ? 1. 1. Minimum of 5 persons are required to lower the L/B. 2. One person goes inside the L/B and passes the end of toggle painter and plugs the drain. 3. Check all lifeline and falls are clear of L/B. 4. Make fast the other end of toggle painter on a strong point forward of the ship. 5. Remove forward and aft gripes and both person stand by for passing bowing tackle and tricing pendant. 6. Remove harbour safety pin. 7. Make sure the ship’s side is free of everything, no water or garbage is there. 8. Now, one person lift’s the dead mans handle slowly which releases the brake. 9. The boat along with cradle sides downward till it comes to the embarkation deck. 10. By pulling tricing pendant , bring it alongside the embarkation deck. 11. Persons embark inside the boat. 12. Now, tricing pendant is removed and the whole load comes on falls. 13. Now, boat is further lowered with deadman’s handle. 14. As soon as the boat comes around 1meter above the sea-water, it can be released. Explain Emergency fire Pump on board ship Location, Capacity and How to check its performance Location of Emergency Fire pump :- The space containing the pump should not be contiguous to the boundaries of machinery space or those spaces containing main fire pumps. Normally located at : Steering Gear Compartment, Aft of Collision Bulkhead, Shaft Tunnel, Forward part of ship. Capacity:- Shall have capacity not less than 25 m3/hr & pump should be able to deliver water at following pressure with two hydrants opens: Passenger Ship above 4000 GRT :- 4 bar Passenger ship below 4000 GRT :- 3 Bar Cargo ship above 6000 GRT :- 2.7 Bar Cargo ship below 6000 GRT :- 2.5 bar The throw at the top most deck should not be less 12 meter. Emergency Generator- Location & services or power supplied. Location:- Should be on the uppermost continuous deck outside from the engine room but not located at the forward collision bulkhead. Services Supplied:- (a) For a period of 3 Hrs at Emergency lighting at every muster & embarkation station. (b) For a period of 18 hrs at:- (i) In all service & accommodation alleyways, stairways & exits, personal lift cars & personnel lift trunks. (ii) In the machinery spaces & main generating stations including their control positions. (iii) In all control stations, machinery control rooms, and at each main & emergency switchboard. (iv) At all stowage positions. (v) At the steering gear. (vi) At the fire pump & in all cargo pump rooms. (vii) The navigational lights. (viii) VHF & MF Radio installation. (ix) The ship earth radio station. (x) At all internal communication equipment (xi) The fire detection & fire alarm system. (xii) Intermittent operation of the daylight signalling lamp & all integral signals that are required in an emergency. Explain Regulations of Air pollution - NOx, SOx, ODS and Volatile substance MARPOL Annex VI:- Regulation for the prevention of pollution by air from ships. Regulation 12:- Ozone depleting Substance Any deliberate emissions of Ozone depleting substance shall be prohibited. Deliberate emissions include emissions occurring in the course of maintaining, servicing, repairing or disposing of systems or equipments. New installations which contain ozone depleting substance shall be prohibited on all ships, except that new installations containing HCFCs are permitted until January 2020. The substances & equipment containing such substances, shall be delivered to appropriate reception facilities when removed from ships. Regulation 13:- Nitrogen Oxide(NOx) This regulation applies to the diesel engine with a power output of more than 130 KW which is installed on a ship constructed on or after 1st January’2000. & to diesel engines with a power output of more than 130 KW which has undergone major conversion on or after 1st January’2000. This regulation does not applies to emergency diesel engine, engines installed in lifeboats & any device intended to be used solely in case of emergency. Limits of NOx:- a. 17.0 g/Kw-h when n less than 130 rpm. b. 45.0 x n -0.2 g/Kw-h when is 130 or more but less than 2000 rpm c. 9.8 g/Kw-h when n is 2000 rpm or more. Regulation 14:- Sulphur Oxide (Sox) The sulphur content of any fuel used on board ships shall not exceed 4.5% m/m. In SECA Area the sulphur content should not exceed 1.5% m/m. If in SECA area fuel used is having sulphur content more than 1.5% m/m , then exhaust gas cleaning system to be provided to limit emission of Sox to 6.0g Sox /Kw-h or less. Regulation 15:- Volatile Organic Compound Regulation 16:- Shipboard Incineration Alarms and trips of boiler and IG system Alarms in IG System a. Scrubber High Level b. Scrubber low level c. Deck seal High level d. Deck seal low level e. High O2 Content f. High blower casing temp. g. Low lube oil pressure alarm. Trips in IG System a. High Casing Temp. trip b. Low lube oil pressure trip. c. Low/ no flow scrubber water d. Low / no flow deck seal water. e. High boiler pressure trip. f. Low boiler pressure trip. Alarms in Boiler a. Low water level Alarm b. Too low water level alarm. c. High water level alarm d. High fuel oil temp. alarm. e. Low fuel oil temp. alarm f. Low boiler pressure alarm. Trips in Boiler a. Low Low level water trip b. High boiler pressure trip. c. Flame failure d. Low fuel oil pressure trip. What are the entries in a Oil record Book? (MARPOL Annex 1. Regulation 17) As per MARPOL Annex 1. Regulation 17. Regulation for the prevention of pollution by oil. Enteries done in Oil Record book are:- a. Ballasting or cleaning of fuel oil tanks. b. Discharge of dirty ballast or cleaning water from fuel oil tanks. c. Collection & disposal of oil residues, sludge & bilge oil. d. Bunkering of fuel or bulk lubricating oil. e. Any failure of the Oil Filtering Equipment. f. Date & time of the operation. What is Rudder wear Down, Rudder Drop, Jumping Clearence. What is its purpose and how it is measured? Rudder wear down refers to the measurements taken generally during a docking period to indicate excessive wear in the steering gear system particularly the rudder carrier. This wear down or rudder drop is measured using a special L shaped instrument called Tramel. When the vessel is built a distinct centrepunch mark is placed onto the ruder stock and onto a suitable location on the vessels structure, here given as a girder which is typical. The trammel is manufactured to suit these marks As the carrier wears the upper pointer will fall below the centrepunch mark by an amount equal to the wear down. Rudder Clearance Pads are welded to the hull and rudder. A clearance is given ( sometimes refered to as the jumping clearance). As the carrier wears this clearance will increase (Join this site to get all updated oral and important questions) What is CAS (Condition Assessment Scheme)? CAS- Condition Assessment Scheme Tanker type 1:- Oil Tankers above 20000 DWT, not having segregated ballast tank(SBT) Tanker Type 2:- Oil tankers above 20000 DWT having SBT. Type 1 tankers have already been phased out by 2005. CAS Applies to only Type 2 tankers. Which are to be phased out in segregated manner by April 2015. CAS is a method of checking structural integrity of ship, & its certification by regular inspection by authority. The said inspections are carried on annually by authorities. ISM Code, It's Purpose and certificates issued for ISM code ISM Code:- As per SOLAS Chapter IX. Management for the Safe Operation of Ship. ISM is International Safety Management Code for safe operation of ships & for pollution prevention as adopted. Purpose of this code is to provide an international standard for safe management and operation of ships and for pollution prevention. The objective is to ensure safety at sea, prevention of human injury or loss of life & avoidance of damage to the environment , in particular to marine environment and to property. certificate issued for ISM code. DOC- Document of Compliance . Valid for 5 years SMC- Safety Management Certificate. Valid for 5 Years Interim DOC- Valid for 12 months. Interim SMC- Valid for 6 months Safety system in a fire line or Why fire line fitted with relief valve and drain valve Relief valve:- Relief valve is provided if pumps are capable of developing the pressure exceeding the design pressure of water service pipes, hydrants & hoses. It assists to avoid any overpressure to develop in any part of the fire main. The fire line is fitted with relief valve to prevent the damage to pipe in case , the V/L is fighting fire with the help of shore while in dry-dock. Drain Valve :- Drain valve is fitted to drain the fire line when not in use & also prevent the damage to pipe due to icing, while V/L is operating in Sub-zero temperature area. Maintenance on a CO2 fire fighting system onboard a ship 1. Check the hinges of the CO2 Room door & grease it. 2. Check the pressure gauge. 3. Check the condition of the blower. 4. Check all lightings are properly working. 5. If Manual pull cables operate the remote release controls, they should be checked to verify the cables & corner pulleys are in good condition and freely move and do not require an excessive amount of travel to activate the system. 6. Check the weight of the CO2 Bottles. 7. The discharge piping & nozzles should be tested to verify that they are not blocked. The test should be performed by isolating the discharge piping from the system & flowing dry air or nitrogen from test cylinder or through any other suitable means. 8. The hydrostatic test of all the cylinders should be done once in 10 years atleast. 9. The alarm to be tested. 10. The CO2 Lines should be blown through with service air. Testing procedure a. Close the section isolating valve, this will raise an alarm indicating zone isolation. b. Now, open the test valve, if no water comes out, then it means the NR valve placed after the section isolating valve is not leaking. c. Since, the section after the NR valve remains pressurized, opening of the drain valve will cause the water pressure in the section line to decrease. A pressure switch sensor senses the decreased pressure & raises an alarm. d. Now, close the drain valve, open the section isolating stop valve. To check the flow switch, open the flow test switch to activate an alarm. e. All the above alarms will be indicated on the navigation bridge, E/room as well as in the Fire Control Room. The alarm will also indicate the particular zone from where it has risen. f. If all the alarm conditions are satisfied, close all the testing valves, open the section isolating valve, purge the sprinkler line by air and again keep the line pressurized. Check from the pressure gauge, that proper pressure has been maintained or not. Markings on Life boat and life raft of a ship as per LSA Code book chapter 4 As per LSA Code book Chapter 4. Marking on Lifeboat. a. Name of Ship b. Port of Registry c. IMO Number d. Lifeboat dimension e. Carrying Capacity f. Maker Name g. Serial number Marking on Liferaft: a. Name of Ship. b. Port of Registry c. IMO Number d. Carrying Capacity e. Maker Name f. Serial Number g. Date of last servicing. Garbage Disposal regulation as per MARPOL Annex V from ship As per MARPOL Annex V, Regulation for the prevention of pollution by Garbage from ship. 1. The disposal into the sea of all plastics, plastic garbage bags and incinerator ashes from plastic products which may contain toxic or heavy metal residues is prohibited. 2. The disposal of garbage i.e., dunnage, lining & packing materials to be made 25 Nautical miles away from the nearest land. 3. Disposal of food wastes and all other garbage including paper products, rags, glass, metal to be made 12 Nautical miles away from the nearest land. 4. Disposal of food wastes can be permitted if it has passed through a comminuter or grinder , distance is more than 3 Nautical miles from the nearest land. Such comminuted or ground garbage shall be capable of passing through a screen with openings no greater than 25mm. What is SOPEP and its purpose - Shipboard Oil Pollution Emergency Plan (As per MARPOL Annex 1, Regulation 37) SOPEP :- Shipboard Oil Pollution Emergency Plan As per MARPOL Annex 1, Regulation 37. Every oil tanker of 150GRT and above and every ship other than oil tanker of 400GRT & above shall carry onboard a SOPEP approved by the administration. The SOPEP consists of:- 1. The procedure to be followed by Master & other person having charge of the ship to report an Oil Pollution incident. 2. The list of authorities or persons to be contacted in event of Oil Pollution incident. 3. A detailed description of the action to be taken immediately by persons onboard to reduce or control the discharge of oil. 4. The procedures & point of contact on the ship for co-ordinating ship board action with national & local authorities. Explain the procedure to pump out Engine Room Bilge step by step. a. Inform Chief Engineer. b. Note down the V/L Position from the bridge. c. Take the sounding of the bilge tank. d. Check the 15ppm alarm for its proper working. e. Open the overboard valve , open sea water valve & bilge pump inlet and outlet valve. f. Note down the time of starting. g. Start the bilge pump & fill the OWS with sea water. Let the OWS run on sea water for 10-15 mins. h. Slowly close the sea water inlet valve & start opening the outlet valve of the bilge tank. Regulations for pumping out ER bilges in Special areas and outside special areas Pumping out ER Bilges outside special area: As per Marpol Annex I, Regulation 15. Any discharge into the sea of oily or oily mixtures from ships of 400 GRT & above shall be prohibited except when all the following conditions are satisfied:- 1. The ship should be proceeding enroute from Point A to point B. 2. The oily mixture is processed through an oil filtering equipment. 3. The oily content of the effluent without dilution does not exceeds more than 15ppm. 4. The oily mixture does not originate from cargo pump room bilges on oil tankers. 5. The oily mixture, in case of oil tankers, is not mixed with oil cargo residues. Pumping out ER Bilges inside special area. 1. The ship should be proceeding enroute from Point A to Point B. 2. The oily mixture is processed through an Oil filtering Equipment approved by the Administration. 3. The oil content of the effluent without dilution does not exceeds more than 15ppm. 4. The oily mixture does not originate from Cargo pump room bilges on oil tankers. 5. The oily mixture in case of oil tankers, is not mixed with oil cargo residues. Collision Bulkhead in a ship - Purpose, location and Regulations Purpose:- § Avoids flooding of ship in case of damage to bows. Location § Location is such that it is not so much forward as to get damaged on impact , Neither it should be too far aft so that compartment flooded forward causes extensive trim by head. As a rule located at minimum distance to get maximum space for cargo. § Minimum at 1/20 of ships length from forward perpendicular § The collision bulkhead is continuous to upper most continuous deck § The collision bulkhead is 20% stronger than other bulkheads § Collision bulkhead is 5 to 8 percent of ships length from forward. what is tender and stiff ship Tender Ship:- The ship with a small Metacentric height has a small righting lever at any angle & will roll easily is said to be tender ship. In tender ship, In it the centre of gravity lies below the transverse metacentre. The GM is more than GZ. & these kind of ship are more stable. Stiff Ship:- The ship with a large Metacentric height has a large righting lever at any angle & has considerable resistance to rolling. A stiff ship is very uncomfortable. In it the Centre of Gravity lies above the transverse metacentre. what is tender and stiff ship. Tender Ship:- The ship with a small Metacentric height has a small righting lever at any angle & will roll easily is said to be tender ship. In tender ship, In it the centre of gravity lies below the transverse metacentre. The GM is more than GZ. & these kind of ship are more stable. Stiff Ship:- The ship with a large Metacentric height has a large righting lever at any angle & has considerable resistance to rolling. A stiff ship is very uncomfortable. In it the Centre of Gravity lies above the transverse metacentre. TUESDAY, APRIL 3, 2012 Boiler Gauge Glass Drill or Daily Maintenece Procedure: 1. Make sure drain line is clear 2. Close the steam outlet valve. 3. Close the water outlet valve. 4. Open the drain valve. 5. Open the water out valve & let water flow thru it and close the valve after blowing down with water. 6. Open the steam out valve and blow thru with steam. 7. Close steam valve. 8. Close the drain valve. 9. Now, open the water side valve. 10. Let water fill up 3/4th gauge glass. 11. Open the steam valve slowly. SATURDAY, MAY 5, 2012 What is SOPEP and its purpose onboard a ship? SOPEP: - Shipboard Oil Pollution Emergency Plan As per MARPOL Annex 1, Regulation 37: Every oil tanker of 150GRT and above and every ship other than oil tanker of 400GRT & above shall carry onboard a SOPEP approved by the administration. The SOPEP consists of: - 1. The procedure to be followed by Master & other person having charge of the ship to report an Oil Pollution incident. 2. The list of authorities or persons to be contacted in event of Oil Pollution incident. 3. A detailed description of the action to be taken immediately by persons onboard to reduce or control the discharge of oil. 4. The procedures & point of contact on the ship for coordinating ship board action with national & local authorities. Checks to be done for Purifier over flowing * Size of gravity disc. * High throughput. * Temperature of the oil. * Operating water level in tank. * Sealing water is not present in purifier. * Bowl is not closed properly. * Seal ring is damaged. * By mistake if bowl opening water is feeded. * Increasing the specific gravity of the oil will tend to push the interface outlet and cause overflow from the heavy phase outlet until the equilibrium is restored. Methods for measuring tappet clearance in an engine Dial Gauge Method: - In this method the fuel injector is taken out and from the opening a dial gauge is put inside. Then the turning gear is engaged and the engine turned over. The pointer of the dial gauge will move in one direction and then stop and start in opposite direction. The moment the pointer of the dial gauge stops and changes its direction of movement is the TDC of the unit. This method is not normally used in day-to-day practice, but may be used in the calibration of the flywheel if it is not calibrated, or after some repairs Camshaft Method: - The camshaft window of the engine can be opened up and the camshaft inspected. The cam of the engine has a base circle, and acceleration and dwell periods. If the roller of the follower is at the base circle, then the particular valve is closed by spring action. When both the exhaust valve and the inlet valve follower are on the base circle, then the unit is also at TDC. It must be remembered that as a four-stroke engine has two rotations of the crankshaft there is one injection TDC where the injection and the combustion take place. The second time the piston is at TDC is when the exhausting of the flue gases takes place. It is very important to identify the combustion TDC, as tappets have to be adjusted at that point. Cam Profile Crankcase Method: - In this method the crankcase doors are opened up and the piston is visually checked whether is going up or down. This is the surest method, but a bit cumbersome. It should be used when you have a strong doubt about the other methods. Valve Spring Method: - This is not an independent method but is used in conjunction with the flywheel method. In this method if the flywheel is indicating two units, you can check the springs of both the units. The unit in which the springs are loose is the one at TDC. The caution is that this method is useful for an engine in use. If you have removed the rocker arms during the overhaul and thereafter you want to use this method then it can cause errors. 0 comments Email ThisBlogThis!Share to TwitterShare to Facebook What is the effect of less and more tappet clearances in an engine If tappet clearance is less: I. Valve will open early & close late ii. Air induced through inlet valve may leak out. So less air for combustion. iii. Power will be reduced. iv. Fuel consumption will increase, engine may become unbalanced, exhaust temp. will be very high. v. In worst condition, valve may remain open, resulting in loss of compression pressure, burning of exhaust valve, T/C fouling will increase. If tappet clearance is more: I. Valve will open late & close early. ii. Lesser heat energy to T/C, so reduction in scavenge air & hence power. iii. No proper removal of gases. iv. Hammering of valve stem-may cause damage to valve stem. 0 comments Email ThisBlogThis!Share to TwitterShare to Facebook How aft peak tank is sealed from stern tube? The propeller enters the shaft outside from the ship, acting as its barrier. In case of water- cooled Stern Tube, Gland packing is used to prevent water ingress inside. But incase of Lignum vitae bearing, some water is allowed to go. In case of Oil cooled Stern tube, the rubber seals fitted with springs are used. 0 comments Email ThisBlogThis!Share to TwitterShare to Facebook Importance and precautions during fuel oil bunkering ? 1) Sawdust is a great absorbent and hence ample amount of sawdust should be kept in sacks on deck so that if any leakage takes place during the bunkering procedure, it can be easily controlled by putting sawdust on it. 2) Proper means of communication with the use of hand held radio sets or other means should be established between the ships crew and the staff at the bunkering installation to avoid misunderstandings. 3) The scuppers should be closed to make sure that no oil goes overboard. 4) Drips trays should be closed off. 5) The bunkering lines should be properly checked and fuel tank valves should be carefully checked before commencing bunkering. 6) Valves not in operation should be effectively sealed off. 7) A sounding of all the ship tanks should be done before starting the bunkering operation. 8) Sounding equipment should be checked properly before the bunkering starts. 9) A marker to indicate the filling up of a particular tank should be used. 10) Port authorities should be immediately contacted in case of a major oil spill. 11) There should be no damage to the hose and it should be of a sufficient length. The couplings should also be checked for any damage. 12) High level alarms of bunker tanks should be properly checked for their functioning. 13) The SOPEP lockers should be checked whether they have sufficient supplies. 14) Oil absorbing apparatus like oil absorbing pads should be kept at important areas to reduce any oil leaks. 15) Make sure the bunkering plans are agreed upon by all officers onboard the ship. 16) Discuss the procedures to be undertaken in case of an emergency with the supplier. 17) A proper system of signals for communication should be established between the shipboard crew and suppliers. 18) Fire extinguishers and other fire fighting apparatus should be readily available. 0 comments Email ThisBlogThis!Share to TwitterShare to Facebook Action in case of Purifier room fire A purifier room is one of the most probable places in the engine room to catch fire. Purifier room fire has been the reason for several major accidents on various ships in the past. In this article we will learn about everything related to purifier room fires. As we all know, for a fire to happen, three things are needed and in the purifier room all these things are present. These three things are – fuel oil which is present in abundant (lubricating oil in lube oil separator and fuel oil or diesel oil in fuel oil separator), air for combustion, and a heat source such as extremely hot oil, electrical short circuit etc. When all these things are present together and lie within the flammable limit, a fire can take place.Therefore, if a spray of oil takes place through a leaking pipe over a hot surface or over an electrical point, a fire can immediately take place. Prevention of Purifier Fire The following points are to be followed in order to prevent purifier room fire: 1) All the pipes leading to the separator are to be double sheathed; the reason for this is that if inner pipe leaks, then it will not spray all over the place but instead it will leak into outer pipe. 2) Drip trays should be provided below the purifier or separator, so that in case of oil spill the oil will not flow and spread in the purifier room and contact with any hot material and catch fire. 3) All the pipes with flanges or connections are to be covered with anti spill tapes which can prevent spill from the flanges in case of a leakage. 4) Fire fighting system such as water mist and CO2 system should be installed. 5) Quick closing valves and remote stopping of pumps and purifier should be provided. 6) Fire detection and alarm system are to be provided so that quick action can be taken. How to fight purifier room fire A small purifier fire can be easily stopped with the help of small fire extinguisher. In case of a bigger fire, the following steps should be taken: 1) As soon as fire alarm is sounded, call the chief engineer and locate the fire. 2) Close the quick closing valves from which the oil is leaking. 3) Stop the transfer pump. 4) Both transfer and quick closing valves can be closed from remote location like ship control center or from the engine control room. 5) Stop all the motors and electrical equipments, which can be stopped from emergency stop button outside the purifier room. 6) The fire can be stopped with the help of fire extinguisher. 7) In case of a big fire, close the air supply pump and exhaust from the purifier room. 8 )The fire can be stopped by releasing water mist system if present on the ship. 9) Entry in the purifier room is made putting on the fire fighter suit, along with self contained breathing apparatus (SCBA) and fire hose. 10) The fire can be extinguished with the help of spraying water. 11) In case the fire is still not extinguished then the chief engineer will decide about using the carbon dioxide bottles for fighting fire. 12) When these bottles are to be used, there should not be any person present inside the Purifier space as Co2 can cause suffocation due to displacement of air and the person involved may die. 0 comments Email ThisBlogThis!Share to TwitterShare to Facebook Safety features in marine air compressor Every Air compressor on a ship is fitted with several safety features to avoid abnormal and dangerous operational errors of the equipment. If safety, alarms and trips are not present on the air compressor, abnormal operation may lead to breakdown of the compressor and may also injure a person working on or around it. Relief valve: Fitted after every stage to release excess pressure developed inside it. The setting of the lifting pressure increases after every ascending stage. Bursting disc: A bursting disc is a copper disc provided at the airside of the compressor. It is a safety disc, which bursts when the pressure exceeds over the pre-determined value. Fusible plug: Generally located on the discharge side of the compressor, it fuses if the air temperature is higher than the operational temperature. The fusible plug is made up of material, which melts at high temperature. Lube Oil low-pressure alarm and trip: If the lube oil pressure goes lower than the normal, the alarm is sounded followed by a cut out trip signal to avoid damage to bearings and crank shaft. Water high temperature trip: If the intercoolers are choked or the flow of water is less, then the air compressor will get over heated. To avoid this situation high water temperature trip is activated which cut offs the compressor. Water no-flow trip: If the attached pump is not working or the flow of water inside the intercooler is not enough to cool the compressor then moving part inside the compressor will get seized due to overheating. A no flow trip is provided which continuously monitor the flow of water and trips the compressor when there is none. Motor Overload trip: If the current taken by motor during running or starting is very high then there is a possibility of damage to the motor. An overload trip is thus fitted to avoid such situation. High Air Temperature Trip 0 comments Email ThisBlogThis!Share to TwitterShare to Facebook How mud and water removed from ship chain locker ? The chain moves through the chain pipe and the hawse pipe as the anchor is raised or lowered. The chain pipe connects the chain locker to the deck and the hawse pipe runs from the deck through the hull of the ship. When recovering the anchor, the anchor and chain are washed off with a fire hose to remove mud, marine organisms, and other debris picked up during anchoring. Seawater from the fire hose is directed either through the hawse pipe or directly over the side onto the chain while recovering the anchor. The top of the chain pipe has a canvas sleeve to keep water from entering the chain locker through the chain pipe. Under rare circumstances, like heavy weather, rain or green water (seawater that comes over the bow during heavy weather) gets under the chain pipe canvas cover and into the chain locker. A diagram of a typical chain locker is provided in Figure 2. Any fluid that accumulates in the chain locker sump is removed by either drainage eductor for discharge directly overboard or by draining the chain locker effluent into the bilge. As the fluid in the chain locker sump is being drained for overboard discharge, the locker is sprayed with firemain water to flush out sediment, mud, or silt. An eductor is a pumping device that uses a high velocity jet of seawater from the firemain system to create a suction to remove the accumulated liquids and solids. 0 comments Email ThisBlogThis!Share to TwitterShare to Facebook Maintenance carried out on a portable fire fighting extinguishers * Portable fire extinguishers are to be examined by a competent person annually. * Each portable fire extinguisher is to be provided with a label indicating that it has been examined and the date of the examination, or the date of next examination. * Containers of permanently pressurized portable fire extinguishers and propellant bottles / containers of non-pressurized portable fire extinguishers shall be hydraulically pressure tested as follows: a. Powder extinguishers every 10 years b. CO2 extinguishers every 10 years c. Other extinguishers every 10 years 0 comments Email ThisBlogThis!Share to TwitterShare to Facebook What all maintenance are carried out on CO2 fixed fire fighting installations * CO2 bottles of fixed CO2 fire extinguishing installation shall be hydraulically tested 20 years after the date on which the bottles were put into use, and every 5 years thereafter. * The quantity of the medium in the CO2 bottles should be checked once every 4 years. This may be carried out in batches of 25% of the CO2 bottles annually, or 50% of the CO2 bottles biennially or in accordance with the ship’s maintenance so long as every CO2 bottle is checked once every 4 years. * All stop valves should be checked monthly to ensure that they are in their proper open or closed position. * The installation should be checked monthly for leakage. * All CO2 bottle connections for cable operating clips should be checked for tightness every 3 months. * All control valves should be inspected annually, and internally inspected every 5 years. • Air should be blown through the piping of the installation annually. 0 comments Email ThisBlogThis!Share to TwitterShare to Facebook Requirements for the storage of CO2 storage room? Carbon dioxide storage rooms The following requirements are applicable only for the storage rooms for fire-extinguishing media of fixed gas fire-extinguishing systems: 1) The storage room should be used for no other purposes; 2) If the storage space is located below deck, it should be located no more than one deck below the open deck and should be directly accessible by a stairway or ladder from the open deck; 3) Spaces which are located below deck or spaces where access from the open deck is not provided, should be fitted with a mechanical ventilation system designed to take exhaust air from the bottom of the space and should be sized to provide at least 6 air changes per hour; and 4) Access doors should open outwards, and bulkheads and decks including doors and other means of closing any opening therein, which form the boundaries between such rooms and adjacent enclosed spaces, should be gas tight. 0 comments Email ThisBlogThis!Share to TwitterShare to Facebook What are the main components of a Ship's hull? The main components are the framing or skeleton to which the platting or skin is attached. The backbone of the skeleton is the keel to which the frames or ribs are connected. Deck beams are fitted between the side frames across or athwart the hull and are fastened to it by brackets. The frames are shaped to the hull lines and the deck beams are given a slight curve or beam round. 0 comments Email ThisBlogThis!Share to TwitterShare to Facebook Checks during a Marine Main Engine crankcase inspection The crankcase inspection is done every month whenever the ship is in port and there is sufficient time for inspection. Thorough inspection is required during this to analyze the condition inside and damage to the bearings. Before inspection following procedures has to be followed: - Permission has to be taken before reaching port to make sure that the authority is not having any problem with this. This is called Immobilization permission of the main engine. After the permission is received the checklist has to be filled. Safety issues have to be discussed with the people taking part in the inspection. When the engine is in “stopped” condition, the lubricating oil pump and cross-head oil pump have to be stopped and the breaker taken out so that it doesn’t start on its own or by any other person by mistake. Proper sign and placards to be displayed regarding men at work. Since engine crankcase is an enclosed space, an enclosed space checklist is also to be filled. After stopping the engine and the pumps the crankcase doors have to be opened and sufficient time is to be given to cool and ventilate the space as the temperature inside is very hot and deprived of air. After the cooling and ventilating the space, the person entering the space should be with proper personnel protective equipments like boiler suit, safety harness, and anti slipping pads for shoes. Make sure there are no tools, pen etc in your pockets which might drop inside and cause damage to bearing and machinery parts Before entering, the person has to be detailed as what needs be checked inside. Special attention is also given if technical department specifies any other issue or any major problem found on other ships. Inside Crankcase Following Checks are to be made: - 1. Check the overall quality of oil whether it is clean or dirty with carbon particles. 2. Check for any distinguished smell, if found, this could be because of bacterial contamination of oil. The smell is generally of rotten eggs. 3. Check for any metal particles near the grating in the crankcase. 4. Check the condition and damage to the gratings. 5. Check the slip marks on the web; they should be in the same line. If slip is found then report is to be made to the company and classification society regarding this. 6. Check for any bluish dark patches, this indicates that hot spots are caused by friction of insufficient lubrication. 7. Check crosshead for any damages. 8. Check crosshead guides for damages and marks. 9. Check the bedplate for any welding cracks etc. 10. Check any metal seen near the bearings coming out due to wiping. 11. Check for piping and any loose connections between them. 12. Check the locking wires and locking washers on bolts of stuffing box. 13. Make any other checks specified by technical department. 14. Before coming out make sure there is nothing left inside. 0 comments Email ThisBlogThis!Share to TwitterShare to Facebook Difference between a Clarifier and a Purifier and how to change a purifier to clarifier? The main difference between a clarifier and a purifier is the presence of a dam ring in the latter. In a purifier, the interface or the line of separation between the oil and water is created using a dam ring. The position of the dam ring plays an important role in the generation of interface and thus in the clarifying process. For example, if the diameter of dam ring is large, the interface moves out towards the periphery and as a result some oil is discharged with water from the water outlet. Also, if the diameter is small, the interface formed will be more inwards and water will be discharged with the oil from the oil outlet. The diameter of holes in the dam rings also plays an important role in the creation of interface and purification process. If the diameter of the holes is more, the interface is formed towards the periphery and oil globules are found with water and sludge. If the diameter is less the oil- water interface moves inwards and water is released with the clean oil discharged. However, clarifiers do not have a dam ring but have a sealing ring which seals the water outlet. This prevents the impurities and water to remain inside the bowl unless opening the cleansing bowl discharges them automatically or manually. Also, the conical discs in a clarifier usually don’t have feed holes in them but if they do, then a disc without any holes is fitted at the bottom of the stack. Another difference between a clarifier and purifier is that a purifier needs to be filled completely with water for the generation of a seal that prevents the oil to leave from the water outlet. Whereas a clarifier doesn’t needs to be filled up with water. Purifiers are used for filtering lubricating oil whereas clarifiers are not used for the same unless the oil is completely devoid of water. 0 comments Email ThisBlogThis!Share to TwitterShare to Facebook Precautions before starting Auxiliary engine after overhaul * Turn engine through flywheel for checking any restrictions. *Water tightness to be checked. * Air to be removed from jacket water outlet line. * Priming lube oil pump to run before starting the engine. * Check the lube oil level. * Check the flow of lube oil. * Blow through the engine before starting. 0 comments Email ThisBlogThis!Share to TwitterShare to Facebook What all safety trips are present in Marine Auxiliary Engine ? The various trips and alarms are mentioned as follows Alternator bearing low oil level alarm & trip Alternator bearing high temperature lube oil alarm &trip Low sump oil level alarm and trip Lube low oil pressure alarm and trip Reverse current trip Over speed trip Over load trip High and low frequency trip Jacket cooling water low-pressure alarm 0 comments


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