Medical Gas Pipeline Sizing
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40 PMEngineer April 2004
This article will discuss only the methods and crite-ria required for sizing medical gas piping distri-bution systems. Nothing downstream of the mainshut-off valve of the facility, such as tanks, sourcearrangements, and equipment or system configu-
rations such as valve locations, alarms, etc., will be presented.The information provided is strictly the author’s own and
was developed after years of engineering for many hospitalfacilities, using the primary standard for the installation ofmedical gas systems, NFPA 99. The standard, however, doesnot provide any guidance for sizing.
This article will cover medical/surgical compressed air,high-pressure instrument compressed air, laboratory com-pressed air, dental compressed air, oxygen, nitrous oxide, car-bon dioxide, nitrogen, surgical/medical vacuum, waste anes-thesia gas disposal (WAGD), laboratory vacuum, vacuumpump exhaust, and finally, dental vacuum piping.
General Design CriteriaThe typical design criteria are the same for most of the
compressed gases except for instrument air. Vacuum is alsoconsidered a medical gas, and the same type of criteria isnecessary. Note that the information presented here is forsizing purposes only.
All of the piping networks are sized using the followingfour items: total connected flow rate, the diversity factor, theallowable friction loss, and the equivalent length of piping.The equivalent length is found by using the actual measuredrun and adding 50% of the measured run to account for fit-tings. The total is the equivalent length.
Dividing the equivalent run of pipe (in hundreds of feet) by
the allowable system loss will establish the allowable frictionloss per 100 feet of pipe. As an example, 5 psig is allowed fortotal system loss with an equivalent length of 400 feet. There-fore, 4 divided into 5 equals 1.25 psi friction loss per 100 feet.
The final delivery pressure for all systems, except for instru-ment air and vacuum, is 50 psig. With a generally allowablefriction loss of 10%, the source should be arranged to deliver55 psig in order for the pressure loss through the piping to be5 psig. For instrument air, the delivery pressure is higher, usu-ally around 200 psig. The delivery pressure will vary based onthe type of pneumatic instruments used, but will never exceed200 psig because of the standards that are used for these sys-tems. This means a system loss of 20 psig. The modern instru-ments developed use less pressure than the older instruments.It will be some time before a complete changeover will occurdue to the cost involved. All vacuum systems should deliver15" if mercury, with the source set to deliver 20" mercury. Anypressure adjustment shall be made at the point of use.
Oversizing some portions of the piping system will allowfor future changes or expansion, while the cost of addinganother pipe or replacing a smaller pipe with a larger onewill be many times the cost of larger sizing during the initialconstruction. Good practice is to make the smallest sizebranch and drops to individual outlets for the compressedgases 1/2", sub-mains should be a minimum of 3/4" in sizeand main size no less than 1". This is to allow for futureexpansion and renovations without replacing piping. NFPA99 requires that the minimum size of all mains and branchesbe 1/2" nominal size. The minimum size of vacuum pipingshall be 3/4", with 1/2" drops to individual inlets permitted.Medical/Surgical Compressed Air
Here is the information onsizing methods for medicalgas piping systems that NFPA99 doesn’t provide.
BY MIKE FRANKEL
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The medical/surgical (low-pressure compressed air) sys-tem must be a dedicated system. It is not permitted to beused for any other purpose.
Table 1 gives the actual common usage in the medical facili-
ty and the diversityfactor to adjust thetotal connectedload to a level thata p p r o x i m a t e sprobable usage.Add all the outletstogether to calcu-late a total connect-ed load. Using theappropriate diver-sity factor, calculatethe maximumadjusted flow ratefor the entirebranch, sub-main,main or project.
In Table 2 ,enter the adjustedscfm (standardcubic feet perminute) on oneside and use theallowable friction
loss to find the frictionloss that most closelymeets the allowable fig-ure. Select the smallestcorrect size. If the exactfigure for friction loss isnot found, use the
smallest size based on the scfm.
Instrument AirInstrument air is a higher pressure system because of the
large variety of pneumatic tools used. The largest flow rate
Flow rate and Diversity Factor forLow-Pressure Medical Air Outlets
Compressed Air For OxygenAnd Nitrogen Piping Also
Table 1
Table 2
High Pressure Compressed Air Friction Loss Table
Table 3
Diversity Factor ForDental Compressed Air
Table 4
Flow Rate and DiversityFactor for Oxygen Outlets
Table 5
Medical Gas Piping
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42 PMEngineer April 2004
(generally between 6 and 15 scfm) will be used in facilitiesthat do orthopedic, thoracic and neurosurgical procedures.The connected load is a matter of the scfm used by theappropriate tool(s)and the pressurerequired that thetools use. The typeof tools used mustbe found from thefacility. A 100%diversity factor isused. Use Table 3
for sizing purposes. 175 psig is the most often-used figure.
Laboratory Compressed AirThe basis of sizing shall be Figure 1, which is direct read-
ing. Enter the chartwith the number ofconnected outlets andread the adjustedscfm. With the frictionloss calculated, size thesystem using Table 2.
DentalCompressed Air
Dental tools areavailable that use bothhigh- and low-pressureair. High-pressuretools such as drills usea pressure of 50 psig(345 kPa) and a flowrate of 2 scfm. Low-pressure handpiecesused for cleaning andby hygienists use 30psig (210 kPa) and a
flow rate of 3 scfm. Auxiliary outlets use 1 scfm. For diversityfactors for dental compressed air, refer to Table 4. Use Table 2to size the piping network.
OxygenUse Table 5, using the flow rate in lpm and a diversity fac-
tor for the outlet or equipment used. Size the piping systemusing Table 2, entering it with the adjusted scfm on one sideand using the allowable friction loss to find the friction lossthat most closely meets the allowable figure. Select the small-est correct size. If the exact figure for friction loss is notfound, use the smallest size based on the scfm.
Nitrous OxideSee Table 6 for
room or outlet usagein lpm and a diversityfactor to be used. Sizethe piping systemusing Table 7.
Carbon DioxideThe use of carbon
dioxide is very limited.When used, it is nor-mally supplied fromcylinders and not fromcentrally piped sys-tems. The connectedload and usage shall beconfirmed from thefacility. Diversity shallbe 100% to be on thesafe side. A central sys-tem is sized usingTable 7. The differenceFigure 1
Flow rate and Diversity Factorfor Nitrous Oxide Outlets
Table 6
Data for Sizing Nitrous-Oxide Supply-PipingAnd Carbon Dioxide Piping
Table 7
Pressure Drop (psi) per 100 ft. of 160 psi Nitrogen Piping
Table 8
Medical Gas Piping
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44 PMEngineer April 2004
in size between nitrous oxide and carbon dioxide falls wellwithin acceptable limits.
NitrogenThere is no general consensus of opinion
as to the quantity of nitrogen that might beused over an extended period of time in atypical facility, because of the constantlychanging requirements of tools using nitro-gen, the desire of medical staff to use specif-ic instruments and the degree of use forinhalation therapy, if any. The largest flowrate (generally between 6 and 15 scfm) willbe used in facilities that do orthopedic, tho-racic and neurosurgical procedures. Sizepiping for this system using Table 8.
Medical Surgical VacuumEach individual station inlet, except
WAGD (waste anesthesia gas disposal), mustprovide a minimum flow rate for properfunctioning of connected equipment underdesign conditions. The various inlets areseparated into usage groups based on theexpected usage. Group A is heavy usage;Group B is a lesser usage. For a separation of various areasinto suggested use groups to find the actual cfm, flow ratefor various station and service inlets, and diversity group,refer to Table 9. For convenience, Table 10 has been preparedto give a direct reading for the actual adjusted scfm for bothA and B types.
For sizing the piping system, use Table 11. Using the cfmfrom inlet types A and B added together and finding theallowable friction loss similar to that previously explained
using a 5" vacuum loss, select the pipe size using the lowestfriction loss in the table based on the adjusted scfm.
Waste Anesthesia Gas Disposal (WAGD)WAGD means Waste Anesthesia Gas Disposal and is used
to remove the waste anesthesia gas from any anesthetic loca-tion. In the past, this has caused problems for facility per-sonnel after they breathed it in.
The vacuum pressure is the same as the surgical/medicalsystem and uses a 5" vacuum loss for the piping system. Theusage of each inlet is 1 scfm and uses a 100% diversity factor.After adding the total scfm from the system, use Table 11 forsizing.
Laboratory VacuumThis system is intended only for laboratories within a
health care facility, but it can actually be used for laborato-ries of all types. Use 1 scfm for each inlet and see Figure 2.Figure 2 is a direct reading figure that uses the number ofinlets and the (weighted) adjusted sfcm.
Vacuum Pump ExhaustThe exhaust piping for vacuum pumps are sized using the
total scfm for the system (both lead and lag pumps) and theequivalent length of run.
Dental VacuumThe number of inlets shall be the same as dental chairs.The level of vacuum varies depending on the usage as follows:• Dental surgery—12 to 17 inches of mercury.• General dentistry—8 to 12 inches of mercury.• Laboratory—5 to 9 inches of mercury.
Figure 2
GeneralLaboratoryDemand ForVacuum Air
Flow Rate & DiversityFactor For Medical/Surgical Vacuum
Table 9
Medical Gas Piping
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Experience has shown that a level of 10 to 12 inches ofmercury has proven satisfactory at chairs for small dentalpractices or clinics.
Commonly used dental instruments use the followingflow rate:
• Saliva ejector—2 to 3 scfm, depending on tip size.• High volume ejector—5 to 10 scfm, depending on tip
size.• Hygienist—5 scfm.• Dental chair—10 scfm.• One dentist and one hygienist—15 scfm.• Dental laboratory—20 scfm; 30 scfm for a fishmouth
when grinding.For clinics, use the following flow rates that include
diversity:• 2 chairs—15 scfm.
Figure 3
Wet/Dry Vacuum Pipe Sizing
Vacuum Pipe Sizing Chart 15" Hg to 20" Hg
Table 11
Direct Reading of SimultaneousUse Factors for Health Care Facilities
Table 10
Medical Gas Piping
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• 4 chairs—22 scfm.• 5 chairs—30 scfm.• 8 chairs—44 scfm.The diversity factor varies as follows:• 1 and 2 chairs—100%• 3 and 4 chairs—75%• 5 to 10 chairs—60%
Calculate the friction loss if thereis much of a piping system. If it isunder 25 feet, ignore it. Use Figure3 for pipe sizing because there is agood chance liquids will be mixedwith vacuum. For the chart, use thefriction loss for the project and thescfm. Use the larger pipe size whenthe point falls between lines.
Mike Frankel is president of Util-ity Systems Consultants in BoyntonBeach, FL, and has more than 45years experience in the design andengineering for a variety of facilities,including health care, nuclear, phar-
maceutical, housing, commercial and chemical facilities. He isan ASSE member, has been an ASPE member for more than 20years and is past president of the New Jersey ASPE chapter. Heis the author of Utility Piping Systems Handbook, publishedby McGraw-Hill. He is the ASPE representative on the NFPA99 Health Care Facilities piping committee and can be reachedat mfrankl@aol.com.
48 PMEngineer April 2004
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Table 12
Vacuum Exhaust Pipe Sizing
Medical Gas Piping
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