Medical gas Cylinder
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Apr 21, 2021
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About This Presentation
• Medical gas supply system in hospitals and
other healthcare facilities are utilized to supply
specialized gases and gas mixtures to various
parts of the facility .
Supply of Medical Gases:
• From:
• Cylinders (Manifold)
• PIPED gas system
• Medical gases commonly
used:
• Oxygen
• N...
Slide Content
Medical Gases
Mr. Harshad Khade
MSc. Medical Technology (OTA)
Symbiosis International university, Pune.
Mr. Harshad Khade
MSc. Medical Technology (OTA)
Symbiosis International university, Pune.
•Medical gas supply system in hospitals and
other healthcare facilities are utilized to supply
specialized gases and gas mixtures to various
parts of the facility .
other healthcare facilities are utilized to supply
specialized gases and gas mixtures to various
parts of the facility .
Medical Gas Cylinders
•Supply of Medical Gases:
•From:
•Cylinders (Manifold)
•PIPED gas system
•Medical gases commonly
used:
•Oxygen
•Nitrous oxide
•Air
•Nitrogen
•Carbon Dioxide
•Supply of Medical Gases:
•From:
•Cylinders (Manifold)
•PIPED gas system
•Medical gases commonly
used:
•Oxygen
•Nitrous oxide
•Air
•Nitrogen
•Carbon Dioxide
Cylinder
•A gas cylinderor tankis a pressure vesselused to store gasesat
high pressure. Gases stored this way are called bottled gases.
•Components:
•Made of Molybdenum steel in which gases and vapoursare
stored under pressure, e.g.13700 kPafor oxygen and 4400 kPa
for Nitrous oxide.
•Shape & colourof plastic disc around the neck of cylinder
indicates the year of last examination.
•A gas cylinderor tankis a pressure vesselused to store gasesat
high pressure. Gases stored this way are called bottled gases.
•Components:
•Made of Molybdenum steel in which gases and vapoursare
stored under pressure, e.g.13700 kPafor oxygen and 4400 kPa
for Nitrous oxide.
•Shape & colourof plastic disc around the neck of cylinder
indicates the year of last examination.
Medical Gas Cylinders
Cylinder Size D AF E F G J
Approxdimension(mm) 490 x 102 760 x 173 830 x 102 890 x 140 1290 x
178
1600 x
230
ApproxWeight Empty
(kg)
3.8 11.4 6.6 13 30.6 68.7
Valve Type
Pin-Index Bullnose Pin-Index Bullnose Bullnose Pin-Index
Gaseous Litres 0.34
(340)
1.36
(1360)
0.68 (680) 1.36 (1360) 3.4 (3400) 10.6
(10600)
Cylinder Size D AF E F G J
Approxdimension(mm) 490 x 102 760 x 173 830 x 102 890 x 140 1290 x
178
1600 x
230
ApproxWeight Empty
(kg)
3.8 11.4 6.6 13 30.6 68.7
Valve Type
Pin-Index Bullnose Pin-Index Bullnose Bullnose Pin-Index
Gaseous Litres 0.34
(340)
1.36
(1360)
0.68 (680) 1.36 (1360) 3.4 (3400) 10.6
(10600)
Components
•They are manufactured in different sizes (A to J).
•Size E cylinders are used on the antiesthetic machine.
•Oxygen cylinders contain gas.
•Nitrous oxide cylinders contain a mixture of liquid and
vapour. 75% liquid N2O
•Light weight for homes & Transportation made of
aluminum alloy.
•They are manufactured in different sizes (A to J).
•Size E cylinders are used on the antiesthetic machine.
•Oxygen cylinders contain gas.
•Nitrous oxide cylinders contain a mixture of liquid and
vapour. 75% liquid N2O
•Light weight for homes & Transportation made of
aluminum alloy.
Different Sizes
Marks Engraved On Cylinders
1.Test pressure
2.Dates of tests performed
3.Chemical Formulas of the cylinder’s content
4.Tare weight ( weight of Nitrous oxide cylinder when
empty)
1.Test pressure
2.Dates of tests performed
3.Chemical Formulas of the cylinder’s content
4.Tare weight ( weight of Nitrous oxide cylinder when
empty)
Labelling
•Name, chemical symbol,
pharmaceutical form, specification of
the product and its License number.
•Hazard warnings and safety
instructions.
•Cylinder size code
•Name, chemical symbol,
pharmaceutical form, specification of
the product and its License number.
•Hazard warnings and safety
instructions.
•Cylinder size code
Labelling
•Normal cylinder contents (Liters)
•Maximum cylinder pressure (Bars)
•Shelf life and expiry date
•Directions for Use
•Storage and handling precautions
•Normal cylinder contents (Liters)
•Maximum cylinder pressure (Bars)
•Shelf life and expiry date
•Directions for Use
•Storage and handling precautions
Storage
•Purpose built, dry, well-ventilated and fire proof room, preferably inside and
not subjected to extremes of heat.
•Not be stored near flammables
•Not be exposed to dampness, corrosive chemicals or fumes. Leads to
corrosion of cylinders and valves
•To avoid accidents, full cylinders should be stored separately from empty
ones
•F, G and J size cylinders are stored upright to avoid damage to the valves.
•C, D and E size cylinders can be stored horizontally on shelves.
•Overpressurizedcylinders are hazardous and should be reported to
manufacturer.
•Purpose built, dry, well-ventilated and fire proof room, preferably inside and
not subjected to extremes of heat.
•Not be stored near flammables
•Not be exposed to dampness, corrosive chemicals or fumes. Leads to
corrosion of cylinders and valves
•To avoid accidents, full cylinders should be stored separately from empty
ones
•F, G and J size cylinders are stored upright to avoid damage to the valves.
•C, D and E size cylinders can be stored horizontally on shelves.
•Overpressurizedcylinders are hazardous and should be reported to
manufacturer.
Safety Features
•The Gases and vapors should be free of water vapors when
stored in cylinders.
•Water vapor freezes and blocks the exit port when the
temperature of the cylinder decreases on the opening.
•The Gases and vapors should be free of water vapors when
stored in cylinders.
•Water vapor freezes and blocks the exit port when the
temperature of the cylinder decreases on the opening.
Pin-index
•The outlet valve uses the pin-index system to
make it almost impossible to connect a cylinder
to the wrong yoke.
•The identifying code consists of a specific
combination of two holes in the face of the valve
into which connecting pins for a particular type
of gas must fit in perfect alignment. For example,
the index hole position for a cylinder of oxygen
is 2-5, for nitrous oxide it is 3-5, and so on.
•The outlet valve uses the pin-index system to
make it almost impossible to connect a cylinder
to the wrong yoke.
•The identifying code consists of a specific
combination of two holes in the face of the valve
into which connecting pins for a particular type
of gas must fit in perfect alignment. For example,
the index hole position for a cylinder of oxygen
is 2-5, for nitrous oxide it is 3-5, and so on.
Cylinder Pin Index
Air 1 –5
Oxygen 2 –5
Nitrous Oxide 3 –5
Air 1 –5
Oxygen 2 –5
Nitrous Oxide 3 –5
Color Coding
•Cylinders are color
coded to reduce
accidental use of the
wrong gas or vapor.
•Cylinders are color
coded to reduce
accidental use of the
wrong gas or vapor.
Body Colour Shoulder ColourPressure, kPa
(room T)
Oxygen Black White 13700
Nitrous oxide Blue Blue 4400
Carbon dioxideGrey Grey 5000
Air Grey White/ Black quarters13700
Entonox Blue White/ Bluequarters13700
Oxygen/ heliumBlack White/ Brown
quarters
13700
(room T)
Oxygen Black White 13700
Nitrous oxide Blue Blue 4400
Carbon dioxideGrey Grey 5000
Air Grey White/ Black quarters13700
Entonox Blue White/ Bluequarters13700
Oxygen/ heliumBlack White/ Brown
quarters
13700
Cylinder Valves
•Introduction:
•Cylinder Valves seal the cylinder contents.
•The chemical formula of the particular gas is engraved on the
valve.
•They are mounted on the neck of cylinder.
•They act as an on/off device for the discharge of cylinder
contents.
•A pin-index system prevents cylinder identification errors.
•Introduction:
•Cylinder Valves seal the cylinder contents.
•The chemical formula of the particular gas is engraved on the
valve.
•They are mounted on the neck of cylinder.
•They act as an on/off device for the discharge of cylinder
contents.
•A pin-index system prevents cylinder identification errors.
•A Bodocksealing washer must be
placed between the valve and the
yoke of the anesthetic machine.
•A newly designed valve allows
keyless manual turning on and off.
placed between the valve and the
yoke of the anesthetic machine.
•A newly designed valve allows
keyless manual turning on and off.
Piped Gas System
Piped Gas System
•Introduction:
•Piped gas supply ( piped Medical Gas and Vacuum PMGV)
•PMGV system delivers gases from central supply points to different
sites in a hospital at a pressure of about 400 kPa.
•Special outlet valves supply the various needs throughout the hospital.
•Oxygen, nitrous oxide, Entonox, compressed air and medical vacuum
are commonly supplied through the pipeline system.
•Introduction:
•Piped gas supply ( piped Medical Gas and Vacuum PMGV)
•PMGV system delivers gases from central supply points to different
sites in a hospital at a pressure of about 400 kPa.
•Special outlet valves supply the various needs throughout the hospital.
•Oxygen, nitrous oxide, Entonox, compressed air and medical vacuum
are commonly supplied through the pipeline system.
Components
•Central supply points
•Cylinder banks.
•Liquid oxygen storage tank.
•Pipework made of special high quality copper with bacteriostatic
properties.
•Outlets identified by gas color coding, gas name and shape.
•Matching quick connect/ disconnect probes
•Network of pipelines throughout a hospital from central supply
•Outlets are color-and shape-coded
•Flexible and color-coded pipelines runs from the anesthetic machine
to outlets
•Central supply points
•Cylinder banks.
•Liquid oxygen storage tank.
•Pipework made of special high quality copper with bacteriostatic
properties.
•Outlets identified by gas color coding, gas name and shape.
•Matching quick connect/ disconnect probes
•Network of pipelines throughout a hospital from central supply
•Outlets are color-and shape-coded
•Flexible and color-coded pipelines runs from the anesthetic machine
to outlets
Safety Features
•Reserve bank of cylinders
•Low pressure alarms
•Single hose test, cross-connection
•Tug test, miss-connection
•Regular PGMV installation, repair and modification
•Reserve bank of cylinders
•Low pressure alarms
•Single hose test, cross-connection
•Tug test, miss-connection
•Regular PGMV installation, repair and modification
SourcesOf Gas Supply
•Cylinder Manifold
•Liquid oxygen storage tank
•Oxygen concentrator
•Cylinder Manifold
•Liquid oxygen storage tank
•Oxygen concentrator
Cylinder Manifold
•Introduction:
•Manifolds are used to supply,
Oxygen, Nitrous oxide and Entonox.
•Introduction:
•Manifolds are used to supply,
Oxygen, Nitrous oxide and Entonox.
Components
•Large cylinders (e.g. Size J) are divided into 2 groups,
primary & secondary.
•The 2 groups alternate in supplying the pipelines.
•All cylinders in each group are connected through non
return valves to a common pipe.
•In turn connected to pipeline.
•Large cylinders (e.g. Size J) are divided into 2 groups,
primary & secondary.
•The 2 groups alternate in supplying the pipelines.
•All cylinders in each group are connected through non
return valves to a common pipe.
•In turn connected to pipeline.
Mechanism Of Action
•In either group all cylinder valves are open to allow
simultaneously empting.
•The supply is automatically changed to the secondary group
when the primary group is nearly empty.
•This changeover is achieved by a pressure sensitive device.
•Alarm is activated to alert staff
•In either group all cylinder valves are open to allow
simultaneously empting.
•The supply is automatically changed to the secondary group
when the primary group is nearly empty.
•This changeover is achieved by a pressure sensitive device.
•Alarm is activated to alert staff
Safety Features
•Manifold should be housed in a well –ventilated room built
of fire proof material away from the main hospital building.
•Manifold room should not be used as a general cylinder
store.
•Empty cylinders should be immediately removed from the
manifold room.
•Manifold should be housed in a well –ventilated room built
of fire proof material away from the main hospital building.
•Manifold room should not be used as a general cylinder
store.
•Empty cylinders should be immediately removed from the
manifold room.
Liquid Oxygen
•Vacuum-insulated evaporator.
•Components:
•Thermally insulated vessel where vacuum is used as insulation
•Pressure regulator allows gas to enter pipelines & maintain
pressure of 400 kPa.
•Safety valve opens at 1700 kPa
•Control valve opens for excessive demand.
•Vacuum-insulated evaporator.
•Components:
•Thermally insulated vessel where vacuum is used as insulation
•Pressure regulator allows gas to enter pipelines & maintain
pressure of 400 kPa.
•Safety valve opens at 1700 kPa
•Control valve opens for excessive demand.
•Outer carbon steel shelland an inner stainless steel shell, with a vacuum
insulation in between and kept cold (between -160°C to -180°C as the
critical temperatureof oxygen is -118°C).
insulation in between and kept cold (between -160°C to -180°C as the
critical temperatureof oxygen is -118°C).
OXYGEN CONCENTRATOR
Entonox
•Compressed gas mixture of 50% oxygen & 50% nitrous oxide by
volume.
•Used in casualty & labourwards for analgesia.
•A two-stage pressure demand regulator is attached to the
entonoxcylinder.
•Entonox is administered by inhalation from a cylinderat a
pressureof 137 bar(in the UK) or from a pipeline supply.
•Compressed gas mixture of 50% oxygen & 50% nitrous oxide by
volume.
•Used in casualty & labourwards for analgesia.
•A two-stage pressure demand regulator is attached to the
entonoxcylinder.
•Entonox is administered by inhalation from a cylinderat a
pressureof 137 bar(in the UK) or from a pipeline supply.
Compressed Air
•Medical air is supplied in hospitals for clinical uses or to
drive power tools.
•400 kPa
•700 kPa
•Can be supplied by cylinder manifolds or by compressor
•Medical air is supplied in hospitals for clinical uses or to
drive power tools.
•400 kPa
•700 kPa
•Can be supplied by cylinder manifolds or by compressor
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