Ig system & equipment oil tankers
jabbar2002pk200
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Jun 15, 2014
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About This Presentation
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Slide Content
Cargo Tank Venting &
Inert Gas System &
Equipment
Inert Gas System &
Equipment
On board cargo equipment
2
Inert Gas System Introduction
2
Inert Gas System Introduction
On board cargo equipment
3
Introduction to Inert Gas System
Introduction
Flammability
Flammable Range
Effect of Increasing Oxygen
Suppression of Flammability by IG
Combustion& Explosion
Inert Gas Prevents FIRE & EXPLOSION
3
Introduction to Inert Gas System
Introduction
Flammability
Flammable Range
Effect of Increasing Oxygen
Suppression of Flammability by IG
Combustion& Explosion
Inert Gas Prevents FIRE & EXPLOSION
On board cargo equipment
4
4
On board cargo equipment
5
5
On board cargo equipment
6
Suppression of Flammability by IG
6
Suppression of Flammability by IG
On board cargo equipment
7
Suppression of Flammability by IG
7
Suppression of Flammability by IG
On board cargo equipment
8
Effect of Oxygen on Flammable Range
8
Effect of Oxygen on Flammable Range
On board cargo equipment
9
Inert Gas Definitions
9
Inert Gas Definitions
On board cargo equipment
10
Inert Gas Must On Tankers
Required Under Regulation 60 of SOLAS
For All Petroleum Tankers more than 20,000 DWT –
Keel laid after 1-9-84
Exception for Existing Tankers (Keel Laid prior 84)
- i) Tank Washing Machine Capacity less than 60 Cubic
Meter/Hour &
- ii) Unreasonable & Impracticable due to design determined
by Administration
- iii) For Product Tankers between 20-40,000DWT tank
washing Machine Capacity less than 60 cubic meter/Hour
Tankers fitted with IGS to keep COT inerted at all times
10
Inert Gas Must On Tankers
Required Under Regulation 60 of SOLAS
For All Petroleum Tankers more than 20,000 DWT –
Keel laid after 1-9-84
Exception for Existing Tankers (Keel Laid prior 84)
- i) Tank Washing Machine Capacity less than 60 Cubic
Meter/Hour &
- ii) Unreasonable & Impracticable due to design determined
by Administration
- iii) For Product Tankers between 20-40,000DWT tank
washing Machine Capacity less than 60 cubic meter/Hour
Tankers fitted with IGS to keep COT inerted at all times
On board cargo equipment
11
Inert Gas Production
11
Inert Gas Production
On board cargo equipment
12
Inert Gas System
Flue Gas Uptake Valves
Scrubber
I.G. Fans (Blowers)
Gas Regulating Valve
Deck Water Seal
Non Return Valve
Deck Isolating Valve ( Manual)
P/ V Breaker
Instrumentation
Tank Atmosphere Analyzers (Oxygen
Analyzers) Fixed & Portable
12
Inert Gas System
Flue Gas Uptake Valves
Scrubber
I.G. Fans (Blowers)
Gas Regulating Valve
Deck Water Seal
Non Return Valve
Deck Isolating Valve ( Manual)
P/ V Breaker
Instrumentation
Tank Atmosphere Analyzers (Oxygen
Analyzers) Fixed & Portable
On board cargo equipment
13
Inert Gas System Layout
13
Inert Gas System Layout
On board cargo equipment
14
Inert Gas System Flow Sheet
14
Inert Gas System Flow Sheet
On board cargo equipment
15
Inert Gas Lay Out
15
Inert Gas Lay Out
On board cargo equipment
16
Inert Gas Layout System
From
Flue Gas Uptake
16
Inert Gas Layout System
From
Flue Gas Uptake
On board cargo equipment
17
Deck Distribution of Inert Gas System
17
Deck Distribution of Inert Gas System
On board cargo equipment
18
I. G. S. LAYOUT
18
I. G. S. LAYOUT
On board cargo equipment
19
Deck Water Seal Requirement
•Regulation 62 requires that Inert Gas system is
equipped with two Non return devices one of
which shall be water seal to prevent the return of
hydrocarbon to Gas safe spaces
•In addition Regulation 62 requires that
arrangement of Deck Water Seal Shall be such
that it will prevent back flow of hydrocarbon
vapours and ensure proper Functioning of Seal
Under Operating Conditions.
19
Deck Water Seal Requirement
•Regulation 62 requires that Inert Gas system is
equipped with two Non return devices one of
which shall be water seal to prevent the return of
hydrocarbon to Gas safe spaces
•In addition Regulation 62 requires that
arrangement of Deck Water Seal Shall be such
that it will prevent back flow of hydrocarbon
vapours and ensure proper Functioning of Seal
Under Operating Conditions.
On board cargo equipment
20
Deck Water Seal Wet Type
20
Deck Water Seal Wet Type
On board cargo equipment
21
Deck Water Seal Semi Dry
21
Deck Water Seal Semi Dry
On board cargo equipment
22
Deck Water Seal Dry Type
22
Deck Water Seal Dry Type
On board cargo equipment
23
Deck seal
Deck seal prevent flow back
from deck pipe line to flame
area of boilers or scrubbers
Water column works as non
returning valve
23
Deck seal
Deck seal prevent flow back
from deck pipe line to flame
area of boilers or scrubbers
Water column works as non
returning valve
On board cargo equipment
24
Principle of IG Scrubber
24
Principle of IG Scrubber
On board cargo equipment
25
IG Scrubber
25
IG Scrubber
On board cargo equipment
26
IGS types: Inert Gas Generator (FTU) construction -Scrubber
26
IGS types: Inert Gas Generator (FTU) construction -Scrubber
On board cargo equipment
27
Inert Gas System Non Return Devices
Reason for Non Return Devices
N/R Consist of Deck Water Seal & Deck
Mechanical N/R Valve
Deck Water Seal is a Principal Barrier
Incase of water drop, there should be
Low Water Alarm but Seal Should not
become Ineffective
Heating Arrangement For Deck Water
Seal
Sight Glass & Inspection Opening
Provided
Function of Deck Mechanical N/R V/V
Purpose of Separate Deck Isolating Valve
27
Inert Gas System Non Return Devices
Reason for Non Return Devices
N/R Consist of Deck Water Seal & Deck
Mechanical N/R Valve
Deck Water Seal is a Principal Barrier
Incase of water drop, there should be
Low Water Alarm but Seal Should not
become Ineffective
Heating Arrangement For Deck Water
Seal
Sight Glass & Inspection Opening
Provided
Function of Deck Mechanical N/R V/V
Purpose of Separate Deck Isolating Valve
On board cargo equipment
28
Deck Water Seal Wet Type
28
Deck Water Seal Wet Type
On board cargo equipment
29
Deck Water Seal Semi Dry with Heating System
29
Deck Water Seal Semi Dry with Heating System
On board cargo equipment
30
Pressure-Relief & vacuum protection Systems
Principal work of
liquid filled
pressure – vacuum
deck breakers: in
case P/V v/v fails
to operate
–Over pressure by
IG or Vapour and
blow out liquid on
deck
–Suction ambient
air in gas line and
liquid in tank
30
Pressure-Relief & vacuum protection Systems
Principal work of
liquid filled
pressure – vacuum
deck breakers: in
case P/V v/v fails
to operate
–Over pressure by
IG or Vapour and
blow out liquid on
deck
–Suction ambient
air in gas line and
liquid in tank
On board cargo equipment
31
Liquid Filled pressure vacuum breaker
31
Liquid Filled pressure vacuum breaker
On board cargo equipment
The Pressure-Relief and Vacuum-Protection
System gives an automatically controlled
protection against too high or too low pressure
within the cargo-handling system
Pressure-relief piping system
Pressure-Relief & vacuum protection System for
All Cargo Tanks, as per IMO rules.
Pressure-Relief & vacuum protection Systems
The Pressure-Relief and Vacuum-Protection
System gives an automatically controlled
protection against too high or too low pressure
within the cargo-handling system
Pressure-relief piping system
Pressure-Relief & vacuum protection System for
All Cargo Tanks, as per IMO rules.
Pressure-Relief & vacuum protection Systems
On board cargo equipment
33
P/V & High Velocity Valves
33
P/V & High Velocity Valves
On board cargo equipment
34
Pressure-Relief & vacuum protection Systems
P/V valves
34
Pressure-Relief & vacuum protection Systems
P/V valves
On board cargo equipment
35
Pressure-Relief & vacuum protection Systems
High velocity vents valve
combines the best of modulating
valves and full-lift valves.
Valve creates "delayed" blow
down of cargo tanks. It reduces
vapor loss during low filling rates
(and due to sloshing) until venting
takes place at full rate when vapor
loss is less important.
Valve provides active protection
from fire and explosion regardless
of pipe configuration.
Valve operates in freezing
conditions without heating
arrangements.
35
Pressure-Relief & vacuum protection Systems
High velocity vents valve
combines the best of modulating
valves and full-lift valves.
Valve creates "delayed" blow
down of cargo tanks. It reduces
vapor loss during low filling rates
(and due to sloshing) until venting
takes place at full rate when vapor
loss is less important.
Valve provides active protection
from fire and explosion regardless
of pipe configuration.
Valve operates in freezing
conditions without heating
arrangements.
On board cargo equipment
36
Pressure-Relief & vacuum protection Systems
Common liquid P/V
36
Pressure-Relief & vacuum protection Systems
Common liquid P/V
On board cargo equipment
37
Pressure-Relief & vacuum protection Systems
1,2 Pressure house; Adapter
3,4 Pressure disc and seat
5,6 Booster
7,8,9 Sleeve / Weight / Stem
10 Check lift (pressure unit)
11,12,13 Vacuum house, disc,
seat
14 Filter element
15 Venting cover
16 Check lift (vacuum unit)
37
Pressure-Relief & vacuum protection Systems
1,2 Pressure house; Adapter
3,4 Pressure disc and seat
5,6 Booster
7,8,9 Sleeve / Weight / Stem
10 Check lift (pressure unit)
11,12,13 Vacuum house, disc,
seat
14 Filter element
15 Venting cover
16 Check lift (vacuum unit)
On board cargo equipment
38
Methods of Gas Replacement
DILUTION
DISPLACEMENT
Dilution is mixing process, where velocity
of incoming Gas is High
Displacement is a Layering Process,
where IG has Low Entry Velocity , to
enable stable horizontal interface
38
Methods of Gas Replacement
DILUTION
DISPLACEMENT
Dilution is mixing process, where velocity
of incoming Gas is High
Displacement is a Layering Process,
where IG has Low Entry Velocity , to
enable stable horizontal interface
On board cargo equipment
39
IGS – Arrangement for Gas Replacement
39
IGS – Arrangement for Gas Replacement
On board cargo equipment
40
IGS – Arrangement for Gas Replacement
40
IGS – Arrangement for Gas Replacement
On board cargo equipment
41
IG Application
41
IG Application
On board cargo equipment
42
42
On board cargo equipment
43
Requirement for I G Main
Means for Isolating Each Tank
Breathing Possible when Tanks Isolated from IG Main
Blank Flanges for Slop Tanks & Isolation for OBOs
External IG Supply Connection
Mast Riser or High Velocity Vents Provided for
Vapour Displacement
Purge Pipes as Far as practicable from IG inlet
Effective Isolation between IG Main and Cargo piping
One or More P/V Breakers
Provision of Continuous pressure indication of IG
43
Requirement for I G Main
Means for Isolating Each Tank
Breathing Possible when Tanks Isolated from IG Main
Blank Flanges for Slop Tanks & Isolation for OBOs
External IG Supply Connection
Mast Riser or High Velocity Vents Provided for
Vapour Displacement
Purge Pipes as Far as practicable from IG inlet
Effective Isolation between IG Main and Cargo piping
One or More P/V Breakers
Provision of Continuous pressure indication of IG
On board cargo equipment
44
Tanker Cycle
44
Tanker Cycle
On board cargo equipment
45
Inert Gas Application to Various Shipboard Operations
45
Inert Gas Application to Various Shipboard Operations
On board cargo equipment
46
IGS types: Flue Gas System
Flue Gas Systems cool and clean flue gas from the ship's boilers, and deliver it to
deck, typically during cargo unloading and tank washing.
Flue gas already contains less than 5% oxygen, which is the IMO higher limit for
inert gas, no further treatment is therefore necessary.
The main components are the scrubber unit, inert gas blowers, the deck water seal,
main non-return valve, the pressure/vacuum breaker, valves, instrumentation and
the control system.
Surplus gas is automatically re-circulated back to the scrubber unit, and gas
production hence follows gas demand.
The system can also, like the other variants dealt with in this presentation, be
preset to deliver fresh air for gas-freeing purposes.
46
IGS types: Flue Gas System
Flue Gas Systems cool and clean flue gas from the ship's boilers, and deliver it to
deck, typically during cargo unloading and tank washing.
Flue gas already contains less than 5% oxygen, which is the IMO higher limit for
inert gas, no further treatment is therefore necessary.
The main components are the scrubber unit, inert gas blowers, the deck water seal,
main non-return valve, the pressure/vacuum breaker, valves, instrumentation and
the control system.
Surplus gas is automatically re-circulated back to the scrubber unit, and gas
production hence follows gas demand.
The system can also, like the other variants dealt with in this presentation, be
preset to deliver fresh air for gas-freeing purposes.
On board cargo equipment
47
IGS types: Inert Gas Generator
Inert Gas Generator Systems is used when no existing supply of
flue gas is available.
The scrubber unit of the flue gas system is here integrated into a
generator unit consisting of a combined burner part and scrubber
part, both sea water cooled. MDO or HFO fuel is burning in the
horizontal combustion chamber to produce flue gas with an
oxygen content of typically 2-4%.
The gas then enters the scrubber part, where it is cooled and
cleaned by sprayed sea water before being piped to the deck area.
47
IGS types: Inert Gas Generator
Inert Gas Generator Systems is used when no existing supply of
flue gas is available.
The scrubber unit of the flue gas system is here integrated into a
generator unit consisting of a combined burner part and scrubber
part, both sea water cooled. MDO or HFO fuel is burning in the
horizontal combustion chamber to produce flue gas with an
oxygen content of typically 2-4%.
The gas then enters the scrubber part, where it is cooled and
cleaned by sprayed sea water before being piped to the deck area.
On board cargo equipment
48
Tank Pressure & Oxygen Concentration
48
Tank Pressure & Oxygen Concentration
On board cargo equipment
49
MMC Ullaging Device
49
MMC Ullaging Device
On board cargo equipment
50
Flammability Composition Diagram
50
Flammability Composition Diagram
On board cargo equipment
51
Isolation of Cargo Tanks from IG Deck Main
51
Isolation of Cargo Tanks from IG Deck Main
On board cargo equipment
52
Cargo tank vent system
52
Cargo tank vent system
On board cargo equipment
53
Monitoring of IG Plant
53
Monitoring of IG Plant
On board cargo equipment
54
Inert Gas systems
Carbon dioxide (IG) generation system
–Burning fuel for generation carbon dioxide gas is
common procedure on gas tankers
–Take off carbon dioxide gas form boilers
Inert Gas (IG) is sent via drier / non returning valves
and used for replacing air to prevent explosion
concentrations :
–in Cargo Tanks and
–in Ballast tanks (some times).
IG can be supplied from the shore facilities in
emergency condition
54
Inert Gas systems
Carbon dioxide (IG) generation system
–Burning fuel for generation carbon dioxide gas is
common procedure on gas tankers
–Take off carbon dioxide gas form boilers
Inert Gas (IG) is sent via drier / non returning valves
and used for replacing air to prevent explosion
concentrations :
–in Cargo Tanks and
–in Ballast tanks (some times).
IG can be supplied from the shore facilities in
emergency condition
On board cargo equipment
55
IGS types: Flue Gas System
55
IGS types: Flue Gas System
On board cargo equipment
56
IGS types: Flue Gas System with Topping Up Generator
This alternative consists of a flue gas system supplemented
by a separate small (500Nm3/h) inert gas generator, and is
often preferred to aboard OBO and VLCCs
The flue gas system covers the bulk of the inerting during
cargo unloading etc., and the topping up generator tops up
tank pressures during the sea voyage.
56
IGS types: Flue Gas System with Topping Up Generator
This alternative consists of a flue gas system supplemented
by a separate small (500Nm3/h) inert gas generator, and is
often preferred to aboard OBO and VLCCs
The flue gas system covers the bulk of the inerting during
cargo unloading etc., and the topping up generator tops up
tank pressures during the sea voyage.
On board cargo equipment
57
IGS types: Inert Gas Generator (FTU) construction
- Panel
- Generator
- Fan
- Scrubber
57
IGS types: Inert Gas Generator (FTU) construction
- Panel
- Generator
- Fan
- Scrubber
On board cargo equipment
58
IGS types: Inert Gas Generator (IGG)
Moss Inert Gas Generators for Oil/
Chemical/ Products
Moss Inert Gas Generators for
LPG/LNG
58
IGS types: Inert Gas Generator (IGG)
Moss Inert Gas Generators for Oil/
Chemical/ Products
Moss Inert Gas Generators for
LPG/LNG
On board cargo equipment
59
IGS types: Flexinert
Flexinert is a fuel-saving combination of a flue gas system and an
inert gas generator.
As long as sufficient boiler flue gas is available, Flexinert works as
a flue gas system. When no basis gas is available, it works as an
inert gas generator, and when high-oxygen exhaust gas from the
main engines or diesel generators is available, it afterburns this
gas to produce inert gas with the acceptable oxygen content.
Afterburning saves fuel since the combustion "air" already has a
reduced oxygen content.
59
IGS types: Flexinert
Flexinert is a fuel-saving combination of a flue gas system and an
inert gas generator.
As long as sufficient boiler flue gas is available, Flexinert works as
a flue gas system. When no basis gas is available, it works as an
inert gas generator, and when high-oxygen exhaust gas from the
main engines or diesel generators is available, it afterburns this
gas to produce inert gas with the acceptable oxygen content.
Afterburning saves fuel since the combustion "air" already has a
reduced oxygen content.
On board cargo equipment
60
Inert Gas Generator (IGG) – output
Oxygen: 0.5% - 1%
Carbon Dioxide: ~ 14 %
Nitrogen: ~ 85%
Carbon Monoxide, oxides of
Nitrogen and Sulphur
Dioxide: ~ 0,5%
–Carbon Monoxide: Max 100
ppm
–Oxides of Nitrogen: Max 100
ppm
–Sulphur Dioxide: Max 1 ppm
Moisture: Dew Point of -45C
Modes: Inerting
60
Inert Gas Generator (IGG) – output
Oxygen: 0.5% - 1%
Carbon Dioxide: ~ 14 %
Nitrogen: ~ 85%
Carbon Monoxide, oxides of
Nitrogen and Sulphur
Dioxide: ~ 0,5%
–Carbon Monoxide: Max 100
ppm
–Oxides of Nitrogen: Max 100
ppm
–Sulphur Dioxide: Max 1 ppm
Moisture: Dew Point of -45C
Modes: Inerting
On board cargo equipment
61
Deck seal
61
Deck seal
On board cargo equipment
62
Deck seal
62
Deck seal
On board cargo equipment
63
Ballast tank inerting
Ballast tanks are inerted in
emergency conditions
Flexible Hose used for inerted
operation
Pressure 250 mmWC,
63
Ballast tank inerting
Ballast tanks are inerted in
emergency conditions
Flexible Hose used for inerted
operation
Pressure 250 mmWC,
On board cargo equipment
64
Pressure-Relief & vacuum protection Systems
Vent riser
64
Pressure-Relief & vacuum protection Systems
Vent riser
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