SlideShare a Scribd company logo

CArgo tank atmosphere.ppt

Download as PPT, PDF
C
ChristopherPoppen

cargo tnk atm

Education
1 of 32
Cargo tank Atmosphere
A tank is an enclosed space which is sealed and may not have any ventilation. As a result, there is a accumulation of gases which can be dangerous and harmful to humans.
What do we FEAR MOST when we speak about Cargo Tank atmospheres ?
There are Different types of Tankers. Such as:  Crude Oil Tankers  Product Tankers  Chemical Tankers  LNG  LPG  Bitumen Tankers  Fruit Juice Tankers (stainless steel tanks)  Wine Tankers (stainless steel tanks) BUT, we are speaking about our vessels : Crude Oil & Product Tankers
Contributing Factors:  Oxygen  Flammable Vapors  External / Internal Spark Contributing Factors:  Oxygen Deficiency  Hydro carbon Gas  Toxic Gases Health Hazard Hazards associated with tank atmosphere Fire Hazard
Or simply said A potential source of ignition hazard on oil tankers Pyrophoric Reaction What is this ? It is a rapid exothermic oxidation with Incandescence. How it is formed ? • In an inerted atmosphere, the Hydrogen Sulphide reacts with Iron Oxide (rust) and forms Iron Sulphide. • When a tank is exposed to air,the Iron Sulphide is oxidized back to Iron Oxide This oxidation is accompanied by generation of considerable heat so that individual particles may be incandescent. Prevention ? All cargo operation is carried in controlled inerted condition.
Vapor + Gas mixture Ignition Hazard- Static Electricity Oxygen Contents of a Cargo Oil Tank atmosphere in a Petroleum tanker
Fire hazards can be best explained by a Fire Tetrahedron It describes the four different factors required for ignition of a fire. The Inert Gas is introduced into a tank to remove the Oxygen side of the tetrahedron by reducing the Oxygen content below required percentage for combustion. Essentially all four elements must be present at the same time for a fire to occur. Removal of any one of these essential elements will result in the fire being extinguished : 1. Air (Oxygen) 2. Heat ( Internal / External Spark) 3. Fuel (Cargo vapours) 4. Chain Reaction
Introduction of IG in the tank Safe atmosphere in tank NO FIRE In absence of any one side of the original Fire Tetrahedron , the risk of a fire is non- existent. No Fire can take Place even in the presence of Heat or Fuel because there is not enough oxygen to support it Chemical Chain Reaction
G 21 Oxygen-Percentage by volume Hydrocarbons Gas-Percentage by volume Flammable Mixture 5 10 15 20 5 10 15 Flammable Mixture The Flammability diagram Inerted Atmosphere- Oxygen less than 8% F Consider a point representing typical condition of tank atmosphere in a inerted condition Purged Atmosphere- Hydrocarbons less than 2% by voulme & oxygen- less than 8% Unsafe atmosphere Safe Atmosphere passing well below the critical dilution line What happens when cargo oil tank atmosphere is diluted with air or when air is introduced for gas free condition.
What is the percentage of oxygen required to sustain combustion ? More than 11 % What percentage of oxygen are we required to maintain in the cargo tanks ? By law less than 8 %. (Some ports require a vessel to maintain less than 5 %.) A Cargo tank is considered “Inerted” when the oxygen content in the tank is less than 8 % by volume Controlling Fire Hazard in Cargo Oil Tank
Health Hazards Hazards inside the tank  Oxygen deficiency. (Minimum 20.8% required for man entry)  Contact with Body parts  Inhalation and Ingestion  Risk of slip / trip/ fall due to cargo cling age in the access areas of tanks. Hidden risk :The risk of exposure to Health is not only inside a tank but that same atmosphere may also be present on the open deck areas. Hazards outside the tank  Release of tank atmosphere content during key cargo operations.  Accidental release by negligence or mechanical faults.  Accumulation due to still air conditions. Beware!!
These includes the Key Cargo Operations such as:  Discharging  Tank Cleaning  Purging  Gas Freeing  Inerting  Loading When performing these key cargo operations safely The most important concern is to have a safe & controlled cargo tank atmosphere. On a oil tanker the cargo oil tank atmosphere changes as per various operations the ship is performing.
General Policy of Cargo tank atmosphere control Tankers fitted with an inert gas system should maintain their cargo tanks in a non-flammable condition at all times. It follows that: Tanks are kept inerted when they contain cargo /cargo residue The atmosphere within the tank should make the transition from inert condition to gas-free condition without passing through flammable condition. In practice before any tank is gas freed, it would be purged with inert gas until the hydrocarbon content of the tank atmosphere is below the critical dilution line. When a ship is in a gas-free condition before arrival at a loading port, tanks should be re-inerted prior to loading.
Venting system for a cargo oil tank Secondary Venting System High Velocity Pressure Vacuum valve Primary Venting System Mast Riser Pressure side Vaccum side Gas Free Cover Gas outlet
Cargo oil Pump Suction bell mouth Suction line Cargo in the tank Ullage space Discharge line Deck Discharge line Pump room Cargo Oil Tank Manifold Shore Hose / Arm Pressure Vacuum valve From Inert Gas System Drop of level & increase of ullage space. This increase in ullage space is filled with Inert gas, so that there is no vacuum and no ingress of air in tank Discharging Operation Tank atmosphere is controlled with use of IG Empty cargo tank
Cargo oil Pump Main Suction bell mouth Suction line Discharge line Deck Discharge line Pump room Cargo Oil Tank Manifold Pressure Vacuum valve From Inert Gas System Tank Cleaning Operation Stripping Suction bell mouth Stripping line to Stripping pump or Eductor Generation of static electricity due water droplets Wash water in slop tank Unsafe Atmosphere IG introduced to maintain safe atmosphere
After tank cleaning there are 3 operations which involve replacement of gas in cargo tanks. And there are 2 principal means of Gas Replacement for above operations, these are :  Dilution , which is a mixing process  Displacement, which is layering process Namely:  Purging (For reducing the hydrocarbon /H2S content )  Gas-freeing (For man-entry).  Inerting (For preparation before arrival load Port)
Dilution method Dilution theory assumes Incoming inert gas / air, mixes with the original gas mixture in tank to form a homogenous mixture throughout the tank, In result concentration of original gas decreases gradually. For complete replacement the entry velocity of incoming gas should be high enough for the jet to reach the bottom of tank. Important!!! Inert gas or fresh air Completion of gas replacement PV valve gas free cover kept open for venting.
Displacement method For ideal replacement a stable horizontal interface should be formed between the lighter gas entering at the top of tank and heavier gas being displayed from the bottom of tank through some suitable pipping arrangment. In result the tank atmosphere is changed gradually. For complete replacement a relativley low entry velocity of gas is required. In practice more than one volume change is necessary Important!!! Inert gas or fresh air Purge Pipe kept open for venting. Completion of gas replacement
Several arrangements are put in use on board tanker, when using dilution or displacement method. One feature which is common to all is that the inlet and outlet points should be so located that efficient gas replacement can take place through out the tank. There are three principal arrangement: Inlet Point Outlet point Principle 1. Top Top Dilution 2. Bottom Top Dilution 3. Top Bottom Displacement or dilution
Displacement /Dilution method-using bottom cargo lines from one tank to other tank Inert gas or fresh air from top PV valve gas free cover kept open for venting from top PV Valve on auto mode. Completion of gas replacement by displacement Cargo Bottom line Completion of gas replacement by dilution
Dilution method-using bottom cargo lines from IG line to tank Inert gas or fresh air Gas free cover on PV Valve for venting from top Completion of gas replacement Inlet of gas into tank from bottom
Gas Freeing blowers Used for  Gas freeing purposes  Continuous ventilation during the duration of man entry in cargo oil tank Butterworth holes for cargo oil tank Main deck Ventilation ducts
Loading Operation Bell mouth Suction line Cargo in the tank Ullage space Drop line Deck Cargo line Cargo Oil Tank Manifold Shore Hose / Arm Pressure Vacuum valve From pump room IG line Mast Riser Increase of level, & reduction in ullage space. Increase of tank pressure,as loading is done in closed ullaging system to control the safe atmosphere in tank Venting done through the Mast Riser connected to IG line
For a safe and effective control of tank atmosphere, it is important to know and understand the tank content at all stages of operations. There a various equipments available on board for the detecting the contents in a cargo oil tank. Some of these are:  Portable Oxygen Meter (To check oxygen content)  Explosimeter or Combustible Gas Indicator (To measure hydrocarbon content in a gas free condition)  Tankscope (To measure hydrocarbon content in a inerted condition)  Multi-Gas meters (Basically used to check oxygen, hdrocarbon and any one toxic gas for a gas free tank).  Gas detector tubes (To measure other toxic gases such as; ammonia, benzene, carbon monoxifr,mercaptans.) Portable Gas Detectors on board
Oxygen meter Hydro carbon detector Portable Gas Detectors on board Multi gas Monitor Gas Detector Tubes
Thank you
• Presentation on theme: "Cargo tank Atmosphere."— Presentation transcript: • 1 Cargo tank • Atmosphere • 2 A tank is an enclosed space which is sealed and may not have any ventilation. • As a result, there is a accumulation of gases which can be dangerous and harmful to humans. • 3 when we speak about Cargo Tank atmospheres ? • What do we • FEAR MOST • when we speak about Cargo Tank atmospheres ? • 4 There are Different types of Tankers. • Such as: • Crude Oil Tankers • Product Tankers • Chemical Tankers • LNG • LPG • Bitumen Tankers • Fruit Juice Tankers (stainless steel tanks) • Wine Tankers (stainless steel tanks) • BUT, we are speaking about our vessels : • Crude Oil & Product Tankers • 5 Hazards associated with tank atmosphere • Health Hazard • Hazards associated with tank atmosphere • Fire Hazard • Contributing Factors: • Oxygen • Flammable Vapors • External / Internal Spark • Contributing Factors: • Oxygen Deficiency • Hydro carbon Gas • Toxic Gases
CArgo tank atmosphere.ppt
CArgo tank atmosphere.ppt
CArgo tank atmosphere.ppt

Recommended

INERT GAS SYSTEM(IG)
INERT GAS SYSTEM(IG)INERT GAS SYSTEM(IG)
INERT GAS SYSTEM(IG)nmahi96
 
Ig system & equipment oil tankers
Ig system & equipment oil tankersIg system & equipment oil tankers
Ig system & equipment oil tankersjabbar2002pk200
 
Ship common systems
Ship common systemsShip common systems
Ship common systemsYasser B. A. Farag
 
Oil tankers
Oil tankersOil tankers
Oil tankersSiddharth Chandrasekar
 
Marine Boilers
Marine BoilersMarine Boilers
Marine BoilersYasser B. A. Farag
 
Personal safety in the engine room and on deck
Personal safety in the engine room and on deckPersonal safety in the engine room and on deck
Personal safety in the engine room and on deckUniversidad Maritima del Caribe
 
Incinerator and MARPOL Requirements
Incinerator and MARPOL RequirementsIncinerator and MARPOL Requirements
Incinerator and MARPOL RequirementsMohammud Hanif Dewan M.Phil.
 
Environmental presentation
Environmental presentationEnvironmental presentation
Environmental presentationIndian Maritime University, Visakhapatnam
 

Recommended

INERT GAS SYSTEM(IG)
INERT GAS SYSTEM(IG)INERT GAS SYSTEM(IG)
INERT GAS SYSTEM(IG)nmahi96
 
Ig system & equipment oil tankers
Ig system & equipment oil tankersIg system & equipment oil tankers
Ig system & equipment oil tankersjabbar2002pk200
 
Ship common systems
Ship common systemsShip common systems
Ship common systemsYasser B. A. Farag
 
Oil tankers
Oil tankersOil tankers
Oil tankersSiddharth Chandrasekar
 
Marine Boilers
Marine BoilersMarine Boilers
Marine BoilersYasser B. A. Farag
 
Personal safety in the engine room and on deck
Personal safety in the engine room and on deckPersonal safety in the engine room and on deck
Personal safety in the engine room and on deckUniversidad Maritima del Caribe
 
Incinerator and MARPOL Requirements
Incinerator and MARPOL RequirementsIncinerator and MARPOL Requirements
Incinerator and MARPOL RequirementsMohammud Hanif Dewan M.Phil.
 
Environmental presentation
Environmental presentationEnvironmental presentation
Environmental presentationIndian Maritime University, Visakhapatnam
 
Piping system
Piping systemPiping system
Piping systemRajneesh20042010
 
2.2 Engine Room Layout.pdf
2.2 Engine Room Layout.pdf2.2 Engine Room Layout.pdf
2.2 Engine Room Layout.pdfVishalSharma425143
 
ISM Code
ISM CodeISM Code
ISM CodeYasser B. A. Farag
 
Parts of ship
Parts of shipParts of ship
Parts of shipAmadorDe
 
Refrigeration
RefrigerationRefrigeration
RefrigerationYasser B. A. Farag
 
Crude oil washing system
Crude oil washing systemCrude oil washing system
Crude oil washing systemCoolrich Engineering (M) Sdn Bhd
 
Gas tankers familiarisation course
Gas tankers familiarisation course Gas tankers familiarisation course
Gas tankers familiarisation course Miguel Diaz Medina
 
Common terms used on board the ship
Common terms used on board the shipCommon terms used on board the ship
Common terms used on board the shipMoises Tenyosa
 
OIL & LIQUEFIED GAS: TANKER OPERATIONS
OIL & LIQUEFIED GAS: TANKER OPERATIONSOIL & LIQUEFIED GAS: TANKER OPERATIONS
OIL & LIQUEFIED GAS: TANKER OPERATIONSEaswaran Kanason
 
MARPOL Annex IV & Sewage Treatment Plant
MARPOL Annex IV & Sewage Treatment PlantMARPOL Annex IV & Sewage Treatment Plant
MARPOL Annex IV & Sewage Treatment PlantMohammud Hanif Dewan M.Phil.
 
MARPOL Annex VI: Prevention of Air Pollution from Ships
MARPOL Annex VI: Prevention of Air Pollution from ShipsMARPOL Annex VI: Prevention of Air Pollution from Ships
MARPOL Annex VI: Prevention of Air Pollution from ShipsMohammud Hanif Dewan M.Phil.
 
A Short Note on ISPS Code
A Short Note on ISPS CodeA Short Note on ISPS Code
A Short Note on ISPS CodeMohammud Hanif Dewan M.Phil.
 
Safety in mooring Operations
Safety in mooring OperationsSafety in mooring Operations
Safety in mooring OperationsASK EHS Engineering & Consultants
 
Marine Incinerator
Marine Incinerator Marine Incinerator
Marine Incinerator Nejat Öztezcan
 
Stern Tube and Shafting Arrangements
Stern Tube and Shafting ArrangementsStern Tube and Shafting Arrangements
Stern Tube and Shafting ArrangementsMohammud Hanif Dewan M.Phil.
 
Intro to basic safety and seamanship2
Intro to basic safety and seamanship2Intro to basic safety and seamanship2
Intro to basic safety and seamanship2Pat Cabangis
 
Personal safety on deck
Personal safety on deckPersonal safety on deck
Personal safety on deckUniversidad Maritima del Caribe
 
Tank Atmosphere - Tanker Vessels
Tank Atmosphere - Tanker VesselsTank Atmosphere - Tanker Vessels
Tank Atmosphere - Tanker VesselsCapt. Ajeet Singh
 
ISPS REVIVE
ISPS REVIVEISPS REVIVE
ISPS REVIVEPat Cabangis
 
Pyrotechnics - Maritime Distress Signal ( Types - How to use - Disposal)
Pyrotechnics - Maritime Distress Signal ( Types - How to use - Disposal) Pyrotechnics - Maritime Distress Signal ( Types - How to use - Disposal)
Pyrotechnics - Maritime Distress Signal ( Types - How to use - Disposal) SHM Shipcare
 
Tank atmosphere-Inert gas system
Tank atmosphere-Inert gas systemTank atmosphere-Inert gas system
Tank atmosphere-Inert gas systemnmahi96
 
Engine emission and their control
Engine emission and their controlEngine emission and their control
Engine emission and their controlAnkit Kumar
 

More Related Content

What's hot

Parts of ship
Parts of shipParts of ship
Parts of shipAmadorDe
 
Gas tankers familiarisation course
Gas tankers familiarisation course Gas tankers familiarisation course
Gas tankers familiarisation course Miguel Diaz Medina
 
Common terms used on board the ship
Common terms used on board the shipCommon terms used on board the ship
Common terms used on board the shipMoises Tenyosa
 
OIL & LIQUEFIED GAS: TANKER OPERATIONS
OIL & LIQUEFIED GAS: TANKER OPERATIONSOIL & LIQUEFIED GAS: TANKER OPERATIONS
OIL & LIQUEFIED GAS: TANKER OPERATIONSEaswaran Kanason
 
MARPOL Annex VI: Prevention of Air Pollution from Ships
MARPOL Annex VI: Prevention of Air Pollution from ShipsMARPOL Annex VI: Prevention of Air Pollution from Ships
MARPOL Annex VI: Prevention of Air Pollution from ShipsMohammud Hanif Dewan M.Phil.
 
Intro to basic safety and seamanship2
Intro to basic safety and seamanship2Intro to basic safety and seamanship2
Intro to basic safety and seamanship2Pat Cabangis
 
Tank Atmosphere - Tanker Vessels
Tank Atmosphere - Tanker VesselsTank Atmosphere - Tanker Vessels
Tank Atmosphere - Tanker VesselsCapt. Ajeet Singh
 
Pyrotechnics - Maritime Distress Signal ( Types - How to use - Disposal)
Pyrotechnics - Maritime Distress Signal ( Types - How to use - Disposal) Pyrotechnics - Maritime Distress Signal ( Types - How to use - Disposal)
Pyrotechnics - Maritime Distress Signal ( Types - How to use - Disposal) SHM Shipcare
 

What's hot (20)

Piping system
Piping systemPiping system
Piping system
 
2.2 Engine Room Layout.pdf
2.2 Engine Room Layout.pdf2.2 Engine Room Layout.pdf
2.2 Engine Room Layout.pdf
 
ISM Code
ISM CodeISM Code
ISM Code
 
Parts of ship
Parts of shipParts of ship
Parts of ship
 
Refrigeration
RefrigerationRefrigeration
Refrigeration
 
Crude oil washing system
Crude oil washing systemCrude oil washing system
Crude oil washing system
 
Gas tankers familiarisation course
Gas tankers familiarisation course Gas tankers familiarisation course
Gas tankers familiarisation course
 
Common terms used on board the ship
Common terms used on board the shipCommon terms used on board the ship
Common terms used on board the ship
 
OIL & LIQUEFIED GAS: TANKER OPERATIONS
OIL & LIQUEFIED GAS: TANKER OPERATIONSOIL & LIQUEFIED GAS: TANKER OPERATIONS
OIL & LIQUEFIED GAS: TANKER OPERATIONS
 
MARPOL Annex IV & Sewage Treatment Plant
MARPOL Annex IV & Sewage Treatment PlantMARPOL Annex IV & Sewage Treatment Plant
MARPOL Annex IV & Sewage Treatment Plant
 
MARPOL Annex VI: Prevention of Air Pollution from Ships
MARPOL Annex VI: Prevention of Air Pollution from ShipsMARPOL Annex VI: Prevention of Air Pollution from Ships
MARPOL Annex VI: Prevention of Air Pollution from Ships
 
A Short Note on ISPS Code
A Short Note on ISPS CodeA Short Note on ISPS Code
A Short Note on ISPS Code
 
Safety in mooring Operations
Safety in mooring OperationsSafety in mooring Operations
Safety in mooring Operations
 
Marine Incinerator
Marine Incinerator Marine Incinerator
Marine Incinerator
 
Stern Tube and Shafting Arrangements
Stern Tube and Shafting ArrangementsStern Tube and Shafting Arrangements
Stern Tube and Shafting Arrangements
 
Intro to basic safety and seamanship2
Intro to basic safety and seamanship2Intro to basic safety and seamanship2
Intro to basic safety and seamanship2
 
Personal safety on deck
Personal safety on deckPersonal safety on deck
Personal safety on deck
 
Tank Atmosphere - Tanker Vessels
Tank Atmosphere - Tanker VesselsTank Atmosphere - Tanker Vessels
Tank Atmosphere - Tanker Vessels
 
ISPS REVIVE
ISPS REVIVEISPS REVIVE
ISPS REVIVE
 
Pyrotechnics - Maritime Distress Signal ( Types - How to use - Disposal)
Pyrotechnics - Maritime Distress Signal ( Types - How to use - Disposal) Pyrotechnics - Maritime Distress Signal ( Types - How to use - Disposal)
Pyrotechnics - Maritime Distress Signal ( Types - How to use - Disposal)
 

Similar to CArgo tank atmosphere.ppt

Tank atmosphere-Inert gas system
Tank atmosphere-Inert gas systemTank atmosphere-Inert gas system
Tank atmosphere-Inert gas systemnmahi96
 
Engine emission and their control
Engine emission and their controlEngine emission and their control
Engine emission and their controlAnkit Kumar
 
Lpg lng cargo_handling Merchant Shipping
Lpg lng cargo_handling Merchant ShippingLpg lng cargo_handling Merchant Shipping
Lpg lng cargo_handling Merchant Shippingydmisra
 
some Knowledge about Lng filling station from wenzhou bluesky energy co,ltd
some Knowledge about Lng filling station from wenzhou bluesky energy co,ltdsome Knowledge about Lng filling station from wenzhou bluesky energy co,ltd
some Knowledge about Lng filling station from wenzhou bluesky energy co,ltdNick liu
 
Gasifier types - Fixed and Fluidized bed gasification
Gasifier types - Fixed and Fluidized bed gasificationGasifier types - Fixed and Fluidized bed gasification
Gasifier types - Fixed and Fluidized bed gasificationAyisha586983
 
Emission from IC engines and their effects.ppt
Emission from IC engines and their effects.pptEmission from IC engines and their effects.ppt
Emission from IC engines and their effects.pptsharmasr0326
 
Agc wp-dissolved gases in transformer insulation fluids
Agc wp-dissolved gases in transformer insulation fluidsAgc wp-dissolved gases in transformer insulation fluids
Agc wp-dissolved gases in transformer insulation fluidsAGC International, LLC
 
Liquefied petroleum gas cylinder
Liquefied petroleum gas cylinderLiquefied petroleum gas cylinder
Liquefied petroleum gas cylinderVishnu RC Vijayan
 
Ice parts anf functions
Ice parts anf functionsIce parts anf functions
Ice parts anf functionsljill16
 
Cryogenic air separation brochure19 4353 tcm136-414865
Cryogenic air separation brochure19 4353 tcm136-414865Cryogenic air separation brochure19 4353 tcm136-414865
Cryogenic air separation brochure19 4353 tcm136-414865SonaTrak
 
Understanding Anesthesia Vaporizers
Understanding Anesthesia VaporizersUnderstanding Anesthesia Vaporizers
Understanding Anesthesia VaporizersSaneesh P J
 
Methanol Loop Start Up and Shut Down
Methanol Loop Start Up and Shut DownMethanol Loop Start Up and Shut Down
Methanol Loop Start Up and Shut DownGerard B. Hawkins
 
Design Calculation of Venting for Atmospheric & Low Pressure Storage Tanks
Design Calculation of Venting for Atmospheric & Low Pressure Storage TanksDesign Calculation of Venting for Atmospheric & Low Pressure Storage Tanks
Design Calculation of Venting for Atmospheric & Low Pressure Storage TanksKushagra Saxena
 
Frac tank explosion_steps
Frac tank explosion_stepsFrac tank explosion_steps
Frac tank explosion_stepsBryan Haywood
 
Orsat appatarus
Orsat appatarus Orsat appatarus
Orsat appatarus umar farooq
 
Safety in welding
Safety in weldingSafety in welding
Safety in weldingIlhamR222
 
Medical gas supply.pipelines and cylinders
Medical gas supply.pipelines and cylindersMedical gas supply.pipelines and cylinders
Medical gas supply.pipelines and cylindersdrsauravdas1977
 

Similar to CArgo tank atmosphere.ppt (20)

Tank atmosphere-Inert gas system
Tank atmosphere-Inert gas systemTank atmosphere-Inert gas system
Tank atmosphere-Inert gas system
 
Engine emission and their control
Engine emission and their controlEngine emission and their control
Engine emission and their control
 
Lpg lng cargo_handling Merchant Shipping
Lpg lng cargo_handling Merchant ShippingLpg lng cargo_handling Merchant Shipping
Lpg lng cargo_handling Merchant Shipping
 
some Knowledge about Lng filling station from wenzhou bluesky energy co,ltd
some Knowledge about Lng filling station from wenzhou bluesky energy co,ltdsome Knowledge about Lng filling station from wenzhou bluesky energy co,ltd
some Knowledge about Lng filling station from wenzhou bluesky energy co,ltd
 
Gasifier types - Fixed and Fluidized bed gasification
Gasifier types - Fixed and Fluidized bed gasificationGasifier types - Fixed and Fluidized bed gasification
Gasifier types - Fixed and Fluidized bed gasification
 
Emission from IC engines and their effects.ppt
Emission from IC engines and their effects.pptEmission from IC engines and their effects.ppt
Emission from IC engines and their effects.ppt
 
Agc wp-dissolved gases in transformer insulation fluids
Agc wp-dissolved gases in transformer insulation fluidsAgc wp-dissolved gases in transformer insulation fluids
Agc wp-dissolved gases in transformer insulation fluids
 
AIRCRAFT CARBURETTOR SYSTEM
AIRCRAFT CARBURETTOR SYSTEMAIRCRAFT CARBURETTOR SYSTEM
AIRCRAFT CARBURETTOR SYSTEM
 
Liquefied petroleum gas cylinder
Liquefied petroleum gas cylinderLiquefied petroleum gas cylinder
Liquefied petroleum gas cylinder
 
Lpg
LpgLpg
Lpg
 
Emission Control.ppt
Emission Control.pptEmission Control.ppt
Emission Control.ppt
 
Ice parts anf functions
Ice parts anf functionsIce parts anf functions
Ice parts anf functions
 
Cryogenic air separation brochure19 4353 tcm136-414865
Cryogenic air separation brochure19 4353 tcm136-414865Cryogenic air separation brochure19 4353 tcm136-414865
Cryogenic air separation brochure19 4353 tcm136-414865
 
Understanding Anesthesia Vaporizers
Understanding Anesthesia VaporizersUnderstanding Anesthesia Vaporizers
Understanding Anesthesia Vaporizers
 
Methanol Loop Start Up and Shut Down
Methanol Loop Start Up and Shut DownMethanol Loop Start Up and Shut Down
Methanol Loop Start Up and Shut Down
 
Design Calculation of Venting for Atmospheric & Low Pressure Storage Tanks
Design Calculation of Venting for Atmospheric & Low Pressure Storage TanksDesign Calculation of Venting for Atmospheric & Low Pressure Storage Tanks
Design Calculation of Venting for Atmospheric & Low Pressure Storage Tanks
 
Frac tank explosion_steps
Frac tank explosion_stepsFrac tank explosion_steps
Frac tank explosion_steps
 
Orsat appatarus
Orsat appatarus Orsat appatarus
Orsat appatarus
 
Safety in welding
Safety in weldingSafety in welding
Safety in welding
 
Medical gas supply.pipelines and cylinders
Medical gas supply.pipelines and cylindersMedical gas supply.pipelines and cylinders
Medical gas supply.pipelines and cylinders
 

Recently uploaded

Arihant handbook biology for class 11 .pdf
Arihant handbook biology for class 11 .pdfArihant handbook biology for class 11 .pdf
Arihant handbook biology for class 11 .pdfchloefrazer622
 
Industrial Policy - 1948, 1956, 1973, 1977, 1980, 1991
Industrial Policy - 1948, 1956, 1973, 1977, 1980, 1991Industrial Policy - 1948, 1956, 1973, 1977, 1980, 1991
Industrial Policy - 1948, 1956, 1973, 1977, 1980, 1991RKavithamani
 
SOCIAL AND HISTORICAL CONTEXT - LFTVD.pptx
SOCIAL AND HISTORICAL CONTEXT - LFTVD.pptxSOCIAL AND HISTORICAL CONTEXT - LFTVD.pptx
SOCIAL AND HISTORICAL CONTEXT - LFTVD.pptxiammrhaywood
 
Web & Social Media Analytics Previous Year Question Paper.pdf
Web & Social Media Analytics Previous Year Question Paper.pdfWeb & Social Media Analytics Previous Year Question Paper.pdf
Web & Social Media Analytics Previous Year Question Paper.pdfJayanti Pande
 
Q4-W6-Restating Informational Text Grade 3
Q4-W6-Restating Informational Text Grade 3Q4-W6-Restating Informational Text Grade 3
Q4-W6-Restating Informational Text Grade 3JemimahLaneBuaron
 
mini mental status format.docx
mini mental status format.docxmini mental status format.docx
mini mental status format.docxPoojaSen20
 
Accessible design: Minimum effort, maximum impact
Accessible design: Minimum effort, maximum impactAccessible design: Minimum effort, maximum impact
Accessible design: Minimum effort, maximum impactdawncurless
 
Paris 2024 Olympic Geographies - an activity
Paris 2024 Olympic Geographies - an activityParis 2024 Olympic Geographies - an activity
Paris 2024 Olympic Geographies - an activityGeoBlogs
 
The Most Excellent Way | 1 Corinthians 13
The Most Excellent Way | 1 Corinthians 13The Most Excellent Way | 1 Corinthians 13
The Most Excellent Way | 1 Corinthians 13Steve Thomason
 
Nutritional Needs Presentation - HLTH 104
Nutritional Needs Presentation - HLTH 104Nutritional Needs Presentation - HLTH 104
Nutritional Needs Presentation - HLTH 104misteraugie
 
Presentation by Andreas Schleicher Tackling the School Absenteeism Crisis 30 ...
Presentation by Andreas Schleicher Tackling the School Absenteeism Crisis 30 ...Presentation by Andreas Schleicher Tackling the School Absenteeism Crisis 30 ...
Presentation by Andreas Schleicher Tackling the School Absenteeism Crisis 30 ...EduSkills OECD
 
Student login on Anyboli platform.helpin
Student login on Anyboli platform.helpinStudent login on Anyboli platform.helpin
Student login on Anyboli platform.helpinRaunakKeshri1
 
Hybridoma Technology ( Production , Purification , and Application )
Hybridoma Technology ( Production , Purification , and Application ) Hybridoma Technology ( Production , Purification , and Application )
Hybridoma Technology ( Production , Purification , and Application ) Sakshi Ghasle
 
Software Engineering Methodologies (overview)
Software Engineering Methodologies (overview)Software Engineering Methodologies (overview)
Software Engineering Methodologies (overview)eniolaolutunde
 
Grant Readiness 101 TechSoup and Remy Consulting
Grant Readiness 101 TechSoup and Remy ConsultingGrant Readiness 101 TechSoup and Remy Consulting
Grant Readiness 101 TechSoup and Remy ConsultingTechSoup
 

Recently uploaded (20)

Mattingly "AI & Prompt Design: The Basics of Prompt Design"
Mattingly "AI & Prompt Design: The Basics of Prompt Design"Mattingly "AI & Prompt Design: The Basics of Prompt Design"
Mattingly "AI & Prompt Design: The Basics of Prompt Design"
 
Arihant handbook biology for class 11 .pdf
Arihant handbook biology for class 11 .pdfArihant handbook biology for class 11 .pdf
Arihant handbook biology for class 11 .pdf
 
Industrial Policy - 1948, 1956, 1973, 1977, 1980, 1991
Industrial Policy - 1948, 1956, 1973, 1977, 1980, 1991Industrial Policy - 1948, 1956, 1973, 1977, 1980, 1991
Industrial Policy - 1948, 1956, 1973, 1977, 1980, 1991
 
SOCIAL AND HISTORICAL CONTEXT - LFTVD.pptx
SOCIAL AND HISTORICAL CONTEXT - LFTVD.pptxSOCIAL AND HISTORICAL CONTEXT - LFTVD.pptx
SOCIAL AND HISTORICAL CONTEXT - LFTVD.pptx
 
Web & Social Media Analytics Previous Year Question Paper.pdf
Web & Social Media Analytics Previous Year Question Paper.pdfWeb & Social Media Analytics Previous Year Question Paper.pdf
Web & Social Media Analytics Previous Year Question Paper.pdf
 
Q4-W6-Restating Informational Text Grade 3
Q4-W6-Restating Informational Text Grade 3Q4-W6-Restating Informational Text Grade 3
Q4-W6-Restating Informational Text Grade 3
 
mini mental status format.docx
mini mental status format.docxmini mental status format.docx
mini mental status format.docx
 
Accessible design: Minimum effort, maximum impact
Accessible design: Minimum effort, maximum impactAccessible design: Minimum effort, maximum impact
Accessible design: Minimum effort, maximum impact
 
Paris 2024 Olympic Geographies - an activity
Paris 2024 Olympic Geographies - an activityParis 2024 Olympic Geographies - an activity
Paris 2024 Olympic Geographies - an activity
 
The Most Excellent Way | 1 Corinthians 13
The Most Excellent Way | 1 Corinthians 13The Most Excellent Way | 1 Corinthians 13
The Most Excellent Way | 1 Corinthians 13
 
Nutritional Needs Presentation - HLTH 104
Nutritional Needs Presentation - HLTH 104Nutritional Needs Presentation - HLTH 104
Nutritional Needs Presentation - HLTH 104
 
Presentation by Andreas Schleicher Tackling the School Absenteeism Crisis 30 ...
Presentation by Andreas Schleicher Tackling the School Absenteeism Crisis 30 ...Presentation by Andreas Schleicher Tackling the School Absenteeism Crisis 30 ...
Presentation by Andreas Schleicher Tackling the School Absenteeism Crisis 30 ...
 
Mattingly "AI & Prompt Design: Structured Data, Assistants, & RAG"
Mattingly "AI & Prompt Design: Structured Data, Assistants, & RAG"Mattingly "AI & Prompt Design: Structured Data, Assistants, & RAG"
Mattingly "AI & Prompt Design: Structured Data, Assistants, & RAG"
 
Student login on Anyboli platform.helpin
Student login on Anyboli platform.helpinStudent login on Anyboli platform.helpin
Student login on Anyboli platform.helpin
 
Hybridoma Technology ( Production , Purification , and Application )
Hybridoma Technology ( Production , Purification , and Application ) Hybridoma Technology ( Production , Purification , and Application )
Hybridoma Technology ( Production , Purification , and Application )
 
TataKelola dan KamSiber Kecerdasan Buatan v022.pdf
TataKelola dan KamSiber Kecerdasan Buatan v022.pdfTataKelola dan KamSiber Kecerdasan Buatan v022.pdf
TataKelola dan KamSiber Kecerdasan Buatan v022.pdf
 
Código Creativo y Arte de Software | Unidad 1
Código Creativo y Arte de Software | Unidad 1Código Creativo y Arte de Software | Unidad 1
Código Creativo y Arte de Software | Unidad 1
 
Software Engineering Methodologies (overview)
Software Engineering Methodologies (overview)Software Engineering Methodologies (overview)
Software Engineering Methodologies (overview)
 
Staff of Color (SOC) Retention Efforts DDSD
Staff of Color (SOC) Retention Efforts DDSDStaff of Color (SOC) Retention Efforts DDSD
Staff of Color (SOC) Retention Efforts DDSD
 
Grant Readiness 101 TechSoup and Remy Consulting
Grant Readiness 101 TechSoup and Remy ConsultingGrant Readiness 101 TechSoup and Remy Consulting
Grant Readiness 101 TechSoup and Remy Consulting
 

CArgo tank atmosphere.ppt

  • 2. A tank is an enclosed space which is sealed and may not have any ventilation. As a result, there is a accumulation of gases which can be dangerous and harmful to humans.
  • 3. What do we FEAR MOST when we speak about Cargo Tank atmospheres ?
  • 4. There are Different types of Tankers. Such as:  Crude Oil Tankers  Product Tankers  Chemical Tankers  LNG  LPG  Bitumen Tankers  Fruit Juice Tankers (stainless steel tanks)  Wine Tankers (stainless steel tanks) BUT, we are speaking about our vessels : Crude Oil & Product Tankers
  • 5. Contributing Factors:  Oxygen  Flammable Vapors  External / Internal Spark Contributing Factors:  Oxygen Deficiency  Hydro carbon Gas  Toxic Gases Health Hazard Hazards associated with tank atmosphere Fire Hazard
  • 6. Or simply said A potential source of ignition hazard on oil tankers Pyrophoric Reaction What is this ? It is a rapid exothermic oxidation with Incandescence. How it is formed ? • In an inerted atmosphere, the Hydrogen Sulphide reacts with Iron Oxide (rust) and forms Iron Sulphide. • When a tank is exposed to air,the Iron Sulphide is oxidized back to Iron Oxide This oxidation is accompanied by generation of considerable heat so that individual particles may be incandescent. Prevention ? All cargo operation is carried in controlled inerted condition.
  • 7. Vapor + Gas mixture Ignition Hazard- Static Electricity Oxygen Contents of a Cargo Oil Tank atmosphere in a Petroleum tanker
  • 8. Fire hazards can be best explained by a Fire Tetrahedron It describes the four different factors required for ignition of a fire. The Inert Gas is introduced into a tank to remove the Oxygen side of the tetrahedron by reducing the Oxygen content below required percentage for combustion. Essentially all four elements must be present at the same time for a fire to occur. Removal of any one of these essential elements will result in the fire being extinguished : 1. Air (Oxygen) 2. Heat ( Internal / External Spark) 3. Fuel (Cargo vapours) 4. Chain Reaction
  • 9. Introduction of IG in the tank Safe atmosphere in tank NO FIRE In absence of any one side of the original Fire Tetrahedron , the risk of a fire is non- existent. No Fire can take Place even in the presence of Heat or Fuel because there is not enough oxygen to support it Chemical Chain Reaction
  • 10. G 21 Oxygen-Percentage by volume Hydrocarbons Gas-Percentage by volume Flammable Mixture 5 10 15 20 5 10 15 Flammable Mixture The Flammability diagram Inerted Atmosphere- Oxygen less than 8% F Consider a point representing typical condition of tank atmosphere in a inerted condition Purged Atmosphere- Hydrocarbons less than 2% by voulme & oxygen- less than 8% Unsafe atmosphere Safe Atmosphere passing well below the critical dilution line What happens when cargo oil tank atmosphere is diluted with air or when air is introduced for gas free condition.
  • 11. What is the percentage of oxygen required to sustain combustion ? More than 11 % What percentage of oxygen are we required to maintain in the cargo tanks ? By law less than 8 %. (Some ports require a vessel to maintain less than 5 %.) A Cargo tank is considered “Inerted” when the oxygen content in the tank is less than 8 % by volume Controlling Fire Hazard in Cargo Oil Tank
  • 12. Health Hazards Hazards inside the tank  Oxygen deficiency. (Minimum 20.8% required for man entry)  Contact with Body parts  Inhalation and Ingestion  Risk of slip / trip/ fall due to cargo cling age in the access areas of tanks. Hidden risk :The risk of exposure to Health is not only inside a tank but that same atmosphere may also be present on the open deck areas. Hazards outside the tank  Release of tank atmosphere content during key cargo operations.  Accidental release by negligence or mechanical faults.  Accumulation due to still air conditions. Beware!!
  • 13. These includes the Key Cargo Operations such as:  Discharging  Tank Cleaning  Purging  Gas Freeing  Inerting  Loading When performing these key cargo operations safely The most important concern is to have a safe & controlled cargo tank atmosphere. On a oil tanker the cargo oil tank atmosphere changes as per various operations the ship is performing.
  • 14. General Policy of Cargo tank atmosphere control Tankers fitted with an inert gas system should maintain their cargo tanks in a non-flammable condition at all times. It follows that: Tanks are kept inerted when they contain cargo /cargo residue The atmosphere within the tank should make the transition from inert condition to gas-free condition without passing through flammable condition. In practice before any tank is gas freed, it would be purged with inert gas until the hydrocarbon content of the tank atmosphere is below the critical dilution line. When a ship is in a gas-free condition before arrival at a loading port, tanks should be re-inerted prior to loading.
  • 15. Venting system for a cargo oil tank Secondary Venting System High Velocity Pressure Vacuum valve Primary Venting System Mast Riser Pressure side Vaccum side Gas Free Cover Gas outlet
  • 16. Cargo oil Pump Suction bell mouth Suction line Cargo in the tank Ullage space Discharge line Deck Discharge line Pump room Cargo Oil Tank Manifold Shore Hose / Arm Pressure Vacuum valve From Inert Gas System Drop of level & increase of ullage space. This increase in ullage space is filled with Inert gas, so that there is no vacuum and no ingress of air in tank Discharging Operation Tank atmosphere is controlled with use of IG Empty cargo tank
  • 17. Cargo oil Pump Main Suction bell mouth Suction line Discharge line Deck Discharge line Pump room Cargo Oil Tank Manifold Pressure Vacuum valve From Inert Gas System Tank Cleaning Operation Stripping Suction bell mouth Stripping line to Stripping pump or Eductor Generation of static electricity due water droplets Wash water in slop tank Unsafe Atmosphere IG introduced to maintain safe atmosphere
  • 18. After tank cleaning there are 3 operations which involve replacement of gas in cargo tanks. And there are 2 principal means of Gas Replacement for above operations, these are :  Dilution , which is a mixing process  Displacement, which is layering process Namely:  Purging (For reducing the hydrocarbon /H2S content )  Gas-freeing (For man-entry).  Inerting (For preparation before arrival load Port)
  • 19. Dilution method Dilution theory assumes Incoming inert gas / air, mixes with the original gas mixture in tank to form a homogenous mixture throughout the tank, In result concentration of original gas decreases gradually. For complete replacement the entry velocity of incoming gas should be high enough for the jet to reach the bottom of tank. Important!!! Inert gas or fresh air Completion of gas replacement PV valve gas free cover kept open for venting.
  • 20. Displacement method For ideal replacement a stable horizontal interface should be formed between the lighter gas entering at the top of tank and heavier gas being displayed from the bottom of tank through some suitable pipping arrangment. In result the tank atmosphere is changed gradually. For complete replacement a relativley low entry velocity of gas is required. In practice more than one volume change is necessary Important!!! Inert gas or fresh air Purge Pipe kept open for venting. Completion of gas replacement
  • 21. Several arrangements are put in use on board tanker, when using dilution or displacement method. One feature which is common to all is that the inlet and outlet points should be so located that efficient gas replacement can take place through out the tank. There are three principal arrangement: Inlet Point Outlet point Principle 1. Top Top Dilution 2. Bottom Top Dilution 3. Top Bottom Displacement or dilution
  • 22. Displacement /Dilution method-using bottom cargo lines from one tank to other tank Inert gas or fresh air from top PV valve gas free cover kept open for venting from top PV Valve on auto mode. Completion of gas replacement by displacement Cargo Bottom line Completion of gas replacement by dilution
  • 23. Dilution method-using bottom cargo lines from IG line to tank Inert gas or fresh air Gas free cover on PV Valve for venting from top Completion of gas replacement Inlet of gas into tank from bottom
  • 24. Gas Freeing blowers Used for  Gas freeing purposes  Continuous ventilation during the duration of man entry in cargo oil tank Butterworth holes for cargo oil tank Main deck Ventilation ducts
  • 25. Loading Operation Bell mouth Suction line Cargo in the tank Ullage space Drop line Deck Cargo line Cargo Oil Tank Manifold Shore Hose / Arm Pressure Vacuum valve From pump room IG line Mast Riser Increase of level, & reduction in ullage space. Increase of tank pressure,as loading is done in closed ullaging system to control the safe atmosphere in tank Venting done through the Mast Riser connected to IG line
  • 26. For a safe and effective control of tank atmosphere, it is important to know and understand the tank content at all stages of operations. There a various equipments available on board for the detecting the contents in a cargo oil tank. Some of these are:  Portable Oxygen Meter (To check oxygen content)  Explosimeter or Combustible Gas Indicator (To measure hydrocarbon content in a gas free condition)  Tankscope (To measure hydrocarbon content in a inerted condition)  Multi-Gas meters (Basically used to check oxygen, hdrocarbon and any one toxic gas for a gas free tank).  Gas detector tubes (To measure other toxic gases such as; ammonia, benzene, carbon monoxifr,mercaptans.) Portable Gas Detectors on board
  • 27. Oxygen meter Hydro carbon detector Portable Gas Detectors on board Multi gas Monitor Gas Detector Tubes
  • 29. • Presentation on theme: "Cargo tank Atmosphere."— Presentation transcript: • 1 Cargo tank • Atmosphere • 2 A tank is an enclosed space which is sealed and may not have any ventilation. • As a result, there is a accumulation of gases which can be dangerous and harmful to humans. • 3 when we speak about Cargo Tank atmospheres ? • What do we • FEAR MOST • when we speak about Cargo Tank atmospheres ? • 4 There are Different types of Tankers. • Such as: • Crude Oil Tankers • Product Tankers • Chemical Tankers • LNG • LPG • Bitumen Tankers • Fruit Juice Tankers (stainless steel tanks) • Wine Tankers (stainless steel tanks) • BUT, we are speaking about our vessels : • Crude Oil & Product Tankers • 5 Hazards associated with tank atmosphere • Health Hazard • Hazards associated with tank atmosphere • Fire Hazard • Contributing Factors: • Oxygen • Flammable Vapors • External / Internal Spark • Contributing Factors: • Oxygen Deficiency • Hydro carbon Gas • Toxic Gases