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Guidelines On Domestic Gas Piping System
Disediakan oleh: Jabatan Keselamatan dan Pembekalan Gas Suruhanjaya Tenaga Tenaga Prepared By: Department o Gas Saety and Supply Energy Commission
Diterbitkan oleh/Published by: Suruhanjaya Tenaga (Energy Commission) Tingkat 13, M enara TH Perdana 1001 Jalan Sultan Ismail 50250 Kuala Lumpur Tel Tel : 603-2612 5400 Fax : 603-2693 7791 Email : in
[email protected]
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Guidelines On Domestic Gas Piping System
PURPOSES These guidelines describe saety requirements in the design, construction, operation and maintenance o uel gas piping and utilisation systems. The requirements are based on applicable legislation and industry standards. The guidelines are intended primarily to guide developers, consultants, contractors, owners and operators o piped uel gas installations in residential premises, and to educate end-users and the public on uel gas saety principles and practices.
CONTENTS
SCOPE These saety guidelines apply to the ollowing piped uel gas installations in residential premises:
Purposes
23
Gas metering (a)
liqueed petroleum gas (LPG) (LPG) storage storage tanks or cylinders and piping ping systems systems up to end-user end-user appliances. ances.
Scope
24
Pipe sizing
(b)
natural gas area stations and piping systems up to end-user appliances.
1
Characteristics o piped gas
25
Pipe installation
These guidelines are not intended to cover in detail all the saety and technical requirements or the uel gas installations
3
Gas piping system confguration
35
Pipe jointing
6
Legal requirements
36
Gas appliance selection
8
Planning or piped gas system
37
Gas appliance installation
9
Gas demand determination
39
Inspection, testing and commissioning
11
Design pressure
41
Operation & maintenance
13
Pressure regulation
43
Recommended preventive maintenance
14
Material selection
15
LPG storage sizing
16
LPG storage saety
22
Pipe isolation
as mentioned above. For urther details on the subject, reerence should be made to applicable regulations and standards mentioned in these guidelines.
programme or gas piping systems
44
Related standards and codes o practice or gas piping system
46
Conversion table
ii
iii
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Guidelines On Domestic Gas Piping System
1
1.1
CHARACTERISTICS OF PIPED GAS
The two types o uel gases that are normally piped or reticulated to end-users are liqueed petroleum gas (LPG) and natural gas. Their components and characteristics that have an implication implication on the saety o the installations are described below : Table 1: Gas properties
Physical Properties O Methane, Ethane, Propane And Butane Proper ties
Methane
Ethane
Propane
Butane
CH4
C2H6
C3H8
C4H10
.3
.4
.509
.582
Chemical Formula Specic Gravity (Liquid) Boiling Point °C
-164
-89
- 42
- 0.5
Ignition Temperature °C
620
515
510 – 600
480 - 540
Flammability Limits (Upper) %
16
12.5
9.50
3.50
Flammability Limits (Lower) %
4.0
3.0
2.15
1.55
Ideal Combustion Ratio (A (Air To Gas)
10 to 1
15 to 1
24 to 1
31 to 1
Heat Value Per Cu.Ft (Vapor) Btu
1.000
1.600
2.516
3.280
-
-
21,591
21,221
Heat Value Per Pound (Liquid) Btu
1.2
Liqueed petroleum gas (LPG) •
LPG is a mixture o propane (30 - 40%) and butane (60 - 70%) LPG is stored as a liquid under pressure, is colourless and odourless in its natural state
•
LPG vapour is heavier than air. Thereore, the vapour may ow along the ground and into drains and be ignited at a considerable distance rom the source o leakage
•
LPG orms a ammable mixture when mixed with air within the ammability limit to large volumes o vapour/air mixture and thus cause considerable hazard
•
1.3
LPG is odorised beore distribution, such that any escape o gas may be noticeable by its smell
Natural gas •
natural gas is mainly methane
•
natural gas is not stored at the consumer’s premises due to complexity o storage acilities. Natural gas can only be easibly liqueed under cryogenic conditions
•
•
natural gas is lighter than air. Hence, escaping vapour rises upwards natural gas orms a ammable mixture within ammability limit when mixed with air in the correct proportion
•
iv
natural gas is odorised beore distribution
1
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Guidelines On Domestic Gas Piping System
2
1.4
Basically, saety requirements in the design, construction and maintenance o either LPG or natural gas piping
2.1
GAS PIPING SYSTEM CONFIGURATION
LPG piping system
systems at consumer’s premises are the same, except in the ollowing aspects which necessitate dierent 2.1.1 The main components o the sys tem are:
design principles to be used. 1.41
2.1.1.1
Due to its very low boiling point, natural gas is transported in pressurised vapour state rom gas
Storage vessel
processing plants or terminals via pipelines to end-user appliances. There is no natural gas storage at the consumer’s premises. LPG, due to its relatively higher boiling point, is transpor ted by road tankers
LPG is stored at consumer’s premises in pressurised vessels (or bulk storage systems) or
in the liquid state rom reneries or terminals and stored at consumer’s premises in storage vessels
in cylinders, which are maniold together. The design pressure o the vessel or cylinder is
beore it is vaporised and piped to end-user appliances
usually 1725 kiloPascal (kPa) or 250 pounds per square inch (psig). Bulk storage vessels may be installed in any o the ollowing congurations:
1.42
Hence, in LPG systems there is a risk o liquid being leaked or released rom the system. Small volume
•
aboveground - tank is ully exposed aboveground
o liquid LPG leaks rom the storage system will expand to become an enormous volume o ammable
•
underground - tank is ully buried underground
vapour/air mixture, which may give rise to BLEVE (boiling liquid expanding vapour explosion). Since
•
mounded - tank is ully earth- covered above the ground
there is no natural gas liquid at the consumer’s premises, similar leakage o natural gas will give rise to 2.1.1.2
a much smaller volume o ammable vapour/air mixture 1.43 Natural gas vapour is lighter than air whereas LPG vapour is heavier than air. Any leakage o natural
Delivery or service pipeline This line is used or delivering the LPG vapour rom the storage tank to gas appliances.
gas vapour rom the piping system will tend to be easily dispersed and diluted upwards, whereas LPG
Vaporisers are sometimes installed near the tank to vaporise liquid LPG in the line into
vapour leaks rom the piping system will tend to accumulate to the surace below. Thus, preventive
vapour beore the rst stage regulator. This is used only in ‘liquid withdrawal systems’.
measures need to be incorporated in the design and operation o LPG systems to enhance ventilation 2.1.2 Pressure regulators are installed along the line to reduce the vapour pressure progressively rom the
and minimise leaking gas accumulation at lower suraces or depressions at the installation site
tank operating pressure about 414 414 – 690 kPa (60-100 psig) to appliance operating pressure 300 mm 1.5
LPG or natural gas by itsel has no toxicity. However, carbon monoxide (CO) is generated as the result o
w.c. (water column) or 0.5 psig. This pressure reduction is normally carried out in t wo stages (or
incomplete combustion. CO has extremely high toxicity and, in physical properties, it has essentially the
better reliability and saety) such that the gas line pressure in the building is reduced to not more
same relative density as air and, since it is also colourless and odourless, people hardly become aware o its
than 35 kPa (5 psig). A schematic showing a typical conguration o LPG storage and piping system
presence. Poisoning is caused by inhaling only a very small amount and it could result in death.
installed on consumer’s premises is as shown in g. 1 and g. 2.
Fig. 1 : LPG maniolded cylinders storage and piping system
2
3
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Guidelines On Domestic Gas Piping System
Fig. 2 : LPG bulk storage and piping system
2.2
Fig. 3 : Natural gas supply system
Natural gas piping system
2.2.2 The pressure rom the main line is reduced at the city gate station to about 1700 - 2070 kPa (250-300 psig) and subsequently at district stations to 400 kPa (60 psig). The pressure is urther reduced at area
2.2.1 Natural gas is transported rom the gas processing plant to city gate by means o a main transmission
stations in residential complexes to about 300 mm w.c. (0.43 psig) beore the pipe enters the building
pipeline. Natural gas rom the main transmission pipeline is then reduced in pressure at the city gate
or urther reticulation to gas appliances. Reer to g. 3.
station and distributed to a district or city. In each district or city, urther pressure reductions are achieved at district stations and service stations or area stations beore reaching the consumer gas utilisation acilities.
4
5
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Guidelines On Domestic Gas Piping System
3
3.1
LEGAL REQUIREMENTS
The saety and reliability o gas piping or reticulation systems in non-industrial premises are governed by
3.4
Competency o technical personnel and contractors who design, install construct, maintain, repair or operate
the Gas Supply Act 1993 (Act 501) and the Gas Supply Regulations 1997, under the purview o the Energy
piped gas systems are controlled under Act 501 through the registration o competent person and contractor
Commission (Suruhanjaya Tenaga). Act 501 regulates regulates the piping o natural gas downstream o the city gate
respectively.
stations or the piping o liqueed petroleum gas (LPG) rom the lling point o storage vessels or cylinders 3.5
up to end-user appliances or equipment.
Approvals are issued by Energy Commission to contractors beore commencing installation work and ater its completion. Engineering drawings, calculations, certicates o completion and test endorsed by the relevant
3.2
3.3
Gas is dened as ‘methane, ethane, propane, butane, or hydrocarbons which may consist o one or more
competent persons have to be urnished or the approval purposes. Gas ttings, appliances or equipments
o the above gases in the orm o gas or liquid’. Hence, all natural gas or LPG distribution, reticulation and
installed in piped gas systems must also be o the type approved by Energy Commission or other related
utilisation systems in the country are covered by the Act.
government agencies. 3.6
The design, installation, operation and maintenance o piped gas systems must comply with the saety requirements stipulated in the Gas Supply Regulations 1997 as indicated below Fig 4.
In line with the provisions o the Gas Supply Regulations 1997, saety and technical provisions prescribed by the ollowing standards are recognised by Energy Commission as a basis or reviewing and approving piped gas installations and equipment. 3.6.1 Malaysian Standards: •
MS 830 – Code o practice or the s torage, handling and transportation o liqueed petroleum gases. (The code covers the design, construction, location and operation o LPG storage and piping up to the outlet o the frst stage regulator)
•
MS 930 – Code o practice or the installation o uel gas piping systems and appliances. (The code is a saety code which applies to the installation o uel gas piping systems and appliances rom the outlet o the frst stage regulator (or LPG) or the customer’s meter set assembly (or natural gas) up to the gas utilisation device)
3.6.2 American Society o Mechanical Engineers Standards: •
ASME B31.8 – Gas Transmission and distribution piping systems (The code covers the design, abrication, installation, inspection, testing, and saety aspects o operation and maintenance o gas transmission ssion and distribution systems, including gas mains and service lines up to the outlet o the customer’s meter set assembly.)
Fig. 4 : Saety requirements requirements in the gas Supply Regulations 1997
3.7
Saety aspects o gas piping installed in premises dened as ‘actories’ by the Factories And Machinery Act 1967 (Act 139) are outside the scope o Act 501. They all under the jurisdiction o the Department O Occupational Saety and Health (DOSH).
6
7
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Guidelines On Domestic Gas Piping System
4
4.1
PLANNING FOR PIPED GAS SYSTEM
5
When planning or designing the gas piping or reticulation system, the ollowing aspects must b e determined
5.1
GAS DEMAND DETERMINATION
The volume o gas accounted or should be determined rom either the manuacturer’s input rating, gas
or veried in advance in order to ensure the system meets all saety and technical requirements o the
supplier, equipment manuacturer or competent personnel. Estimation on equipment’s rating is as shown
legislation and standards as well as it is able to deliver the required quantity o gas:
below in Table 2 (source: rom Table 11, MS 930).
•
or natural gas supply systems, conrmation on the availability o gas distribution line inrastructure
Table 2 : Approximate gas input
and the required supply pressure must be obtained rom the licensed gas supplier •
Minimum Demand o Typical Gas Appliances in BTUs Per Hour
total gas consumption volume o gas appliances (maximum gas volume per hour) must be determined based on existing and anticipated uture appliance demands
Appliance
Demand in BTU/hour
•
consumption pattern o gas appliances (coincidence actor)
Barbecue (residential)
50,000
•
supply pressure required or the proper operation o the gas appliance
Domestic Clothes dr yer
35,000
•
the locations o gas appliances
Domestic Gas Range
65,000
•
suitable space or compartment in the housing area, building and users’ premises that is required or
Domestic Recessed Oven Section
25,000
Gas Rerigerator
3,000
Storage Water Heater up to 30 gallon tank
30,000
the gas piping system installation
•
the land or space in the housing area or building that is required or natural gas regulating station or LPG storage system, inclusive o parking or loading/unloading bay
Source : Tabl e 11 o MS 930 •
when an additional piping is to be connected to existing piping, the existing piping must be checked 5.2
to determine i it has adequate specications and capacity or a new demand
The total connected hourly load should be the basis or storage and pipe sizing or all equipment that may be operating at ull capacity simultaneously. However, a coincidence actor (CF) can be established and
•
sizing o piping to carry the maximum gas ow rate
may be used with the approval o Energy Commission (as per MS 930). Coincidence actor is the ratio o the maximum demand o a group as a whole to the sum o the individual maximum demands o the several components o the group. It is dependent upon the number and types o gas appliances installed. 5.3
A suggested statistical table or determining the coincidence actor or household units installed with gas cooking ranges and water heaters are as shown below in Table 3.
8
9
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Guidelines On Domestic Gas Piping System
6
6.1
DESIGN PRESSURE
Piping systems need to have the required structural strength with a reasonable actor o saety to withstand primary stresses arising rom internal gas pressures as well as secondary stresses rom ex ternal orces. Besides
Table 3 : Coincidence actor or household
this, it must also be leak-proo to prevent inadvertent escape o the ammable and explosive gases to the
No. o units
Value o CF
No. o units
Value o CF
No. o units
Value o CF
1
1.0
15
0.225
100
0.152
2
0.680
20
0.209
150
0.143
3
0.538
25
0.198
200
0.138
surroundings. 6.2
In order to minimise the risk o gas leaks, in line with the requirements o MS 930 the maximum operating pressure o piping located inside buildings should not exceed 35 kPa (5 psig) unless approved by Energy Commission and one or more o the ollowing conditions are met: •
•
the piping system is welded. the piping is located in a ventilated chase or enclosed or protection against accidental gas accumulation.
4
0.453
30
0.190
250
0.134
5
0.395
40
0.179
300
0.132
6.3
The design pressure o LPG bulk storage vessels (aboveground, underground and mounded) and portable LPG cylinders should be 1725 kPa (250 psig). This is in line with MS 830 requirements (The normal operating pressure o LPG storage containers is 414-690 414-690 kPa (60-100 psig)).
6
0.353
50
0.171
400
0.128
7
0.320
60
0.165
500
0.126
8
0.293
70
0.161
600
0.124
9
0.271
80
0.157
700
0.123
10
0.252
90
0.154
> 1000
0.120
6.4
LPG storage containers have to meet the strength requirements o applicable Malaysia Standard or international standards such as ASME Section 8 and they require approval rom Department o Occupation, Saety and Health (DOSH). Piping and components specication have to comply with ASME B31.8, MS 830 830 or MS 930, whichever applicable.
6.5
According to ASME B31.8, the piping system should be designed to o perate at pipe material hoop stress levels below the yield strength o the pipe material. The saety ac tor to determine the operating stress level takes into account the risk o third party damages that is categorised by the code according according to its location Class. A location Class 1 reects minimum risk o third party damage whilst location Class 4 reects maximum risk. All distribution pipelines in the country are designed to operate under location Class 4 conditions.
Coincidence Factor (CF) however can also be determined by using Imperial Formula as stated below: 6.6
MS 830 requirements pertaining to the design pressures o sections o LPG piping systems are as ollows:
CF = 0.95 0.3
n
•
piping and components used at pressure higher than storage container pressure, such as on the discharge o liquid transer pumps must be suitable or a working pressure o at least 2410 kPa (350
where n is the number o units o specied premises
psig).
10
11
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Guidelines On Domestic Gas Piping System
7
•
piping and components used with liquid LPG or with vapour LPG at operating pressure over 860 kPa
7.1 7.1
(125 (125 psig) must be suitable or working pressure o 1725 kPa (250 psig). •
PRESSURE REGULATION
Piping systems have to be installed with the necessary devices to regulate ow and pressure. Pressure regulators are installed or reducing the gas delivery pressure beore reaching the appliances.
7.2
piping and components or use with vap our LPG at pressure not exceeding 1725 kPa (250 psig) should be suitable or working pressure o 1725 kPa (250 psig).
In LPG systems, a high pressure regulator is installed at the LPG storage container outlet line or reducing the tank pressure o about 550 kPa (80 psig) to 35 kPa (5 psig) or less beore entering the building. When installed as such, the regulator is known as the rst stage regulator o the gas reticulation system.
7.3
A low pressure or second stage regulator is installed downstream o the rst stage regulator to reduce the 35 kPa (5 psig) gas pressure to about 300 mm w.c. (0.5 psig) outlet pressure, which is the normal operating pressure o LPG appliances.
7.4
Preerably, regulators regulators should be installed outdoors or saety reasons. When this is not possible, regulators installed inside buildings should be vented to the outside air, except venting is not necessary or regulators with Over Pressure Shut O (OPSO) with higher 20% higher setting (with built-in vent limiting devices).
7.5
A piping system must have at least t wo acceptable devices (a line pressure regulator regulator plus one other device), each limiting the pressure to a value that does not exceed the maximum working pressure o the downstream system, both o which must ail simultaneously in order to avoid overpressure the downstream system. It is thereore mandatory to have built-in pressure relie devices in the second or nal stage regulator to protect the appliances rom excessive pressures.
7.6
Pressure relieving and pressure limiting devices devices should be set, so that the pressure should not exceed a sae level beyond the maximum allowable working pressure or the piping and appliances connected.
12
13
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Guidelines On Domestic Gas Piping System
8
8.1
MATERIALS SELECTION
9
Materials used in the construction o gas reticulation systems must be compatible with the properties o the
9.1
LPG STORAGE SIZING
The capacity o LPG storage tanks or maniolded cylinders must be determined such that enough gas is
gas. They must have the necessary properties such as good mechanical strength, ductility, resistance against
available to be piped to the appliances at all times. The tanks should be sized such that adequate pressure is
gas attack and environmental degradation. LPG and natural gas will cause natural rubber and some plastics
maintained to operate the gas system at the rated gas demand o the appliances. Tank Sweating[1] will occur
to deteriorate. Hence, installers and users should only use hoses and other equipment specically designed
when the container is undersized.
or these gases. 9.2 8.2
Malaysian Standards MS 830 and MS 930 clearly stipulate the list o materials acceptable or gas reticulation
In natural vapourization systems, the gas demand must be equal to or less than the vapourization rate o liquid LPG in the storage container at the worst operating condition. The rate o v apourization o a container is dependent upon the temperature o the liquid and the amount o wetted surace[2] area o the container.
systems as mentioned below.
The temperature o the liquid is proportional to the outside air temperature and the wetted surace area is 8.3
8.4
Pipe material should be steel, copper, or polyethylene and should comply respectively with the ollowing or
the tank surace area in contact with the liquid. Thereore, when the outside air temperature is lower or the
other equivalent specications approved by Energy Commission:
container has less liquid in it, resulting in a lower vapourization rate.
•
steel pipe: ASTM A106 or API 5L Grade B
•
copper pipe: EN 1057.
•
polyethylene pipe: ASTM D2513 or ISO 4437. Polyethylene pipes made to other standards should
9.3
It is necessary to maniold LPG cylinders or tanks to a common supply pipeline in order to obtain the required capacity or liquid vaporisation or to minimise cylinder replacement or tank relling requency (preerably a
include the ISO method o determination o long-term hydrostatic strength at 20°C derived rom
minimum o once in 7 days) or the installation. This entails the provision o operating and standby or reserve
80°C testing.
cylinder banks. 9.4
Carbon steel is the most commonly used piping material with no limitations o piping operating pressures due to its good mechanical properties.
Rules o thumb developed by the industry through experience may be used in sizing LPG storage cylinders. A recommended rule o thumb is that a 50 kg LPG cylinder has an evaporative capacity o approximately 100,000 Btu per hour.
8.5
Medium and high density polyethylene (PE) pipes may be used or buried installations with operating 9.5
pressures o not exceeding 414 414 kPa (60 psig).
To ensure uninterrupted supply o gas, automatic changeover regulators should be used. These regulators change rom the supply cylinder (when there is insufcient pressure) to the stand-by unit automatically
8.6
Copper pipes (seamless) may be used in vapour phase systems only with operating pressures o not
without having to shutdown the system to rell.
exceeding 140 kPa (20 psig). 9.6 8.7
8.8 8.9
Storage container evaporative capacity problem may be overcomed by reverting to liquid withdrawal using
Underground carbon steel vessels and pipes need to be protected rom corrosion by using protective
a LPG indirect-red vaporizer to vaporise the liquid LPG beore the rst stage regulator. The design and
coatings and cathodic protection system.
installation o various types o LPG vaporizers are covered by MS 830.
Pipe ttings should be steel, copper or polyethylene. Pressure containing metal parts o valves (except appliance valves), valves), including excess-ow valves, non return valves, saety relie valves, and manual shut o valve used in piping systems, should be o steel, ductile (nodular) iron, malleable iron or brass.
8.10
Steel should meet the requirements o ASTM A182. Ductile iron should meet the requirements o ASTM A395 or equivalent. Malleable iron should meet the requirement o ASTM A47 or equivalent. All materials used, including valve seat discs, packing, seals and diaphragms should be resistant to the action o LPG under service conditions.
8.11
Cast iron is not permitted to be used as piping and ttings material material because o its brittle properties. PVC and
[1] watercondensation on external surace o containerdue to excessive loweri ng o temperature o LPG liquid in containerto meet demand
natural rubber are also not allowed due to their poor long-term resistance to gas attack.
[2] liquid in contact that spread overthe surace
14
15
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Guidelines On Domestic Gas Piping System
10 LPG STORAGE SAFETY
A suitable site or the permanent placement o an LPG storage tank or maniolded c ylinders must be selected
Water capacity o individual container (kl)
to ensure saety o the installation. The ollowing actors should be considered: 10.1
Saety distance
Minimum saety distance (m) A
B
C
D
G
Up to 0.5
none
no
3
6
10
Over 0.5 to 2.5
1
4.5
3
6
10
H see 4.3.3.3
10.1.1
Saety distances are intended to protect the LPG acilities rom the radiation eects o res involving other acilities as well as to minimise the risk o escaping LPG being ignited beore being dispersed or diluted.
10.1.2
(d) in MS 830
Saety distances should be measured horizontally and radially rom the container shells to the
Over 2.5 to 10
1
Over 10 to 135
D1 + D2
specied eature (e.g. an adjacent storage container, building, and property boundary) except that
4
7.5
3
6
10
15
3
6
10
where deection or radiation walls are used, the distance should be measured in a horizontal line around such walls. 10.1.3
Fig. 5: Saety distance o aboveground aboveground bulk stroge container Source : Figure 2, o MS 830
The saety distance requirements or various types o tank installations are spelt out in detail in MS 830. A 4-hour re-rated deection wall o 2 meters height may be installed to reduce saety distance between storage vessel and buildings.
10.1.4
The saety distance requirements or ab oveground and underground/mounded tank installations at consumer’s premises as stipulated in MS 830 are included as ollows:
Water capacity o individual container (kl) Up to 135
Minimum saety distance (m) A 1.5
B 3
C 3
D 6
G 10
H See 4.3.3.3.(d) in MS 830
Fig. 6 : Saety distance o underground / mounded bulk storage containers containers at consumers premises (Underground (Underground and mounded tank installations oer more protection against surrounding res) Source : Figure 4, o MS 830
16
17
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Guidelines On Domestic Gas Piping System
10.2
Site topography
10.6
Corrosion protection 10.6.1
To avoid accumulation o liquid or vapour beneath or in the immediate vicinity o a container, the container
Every buried container and pipeline should be protected against corrosion by protective coating
should not be situated in or vertically above a depression on the site, nor should the area under or around
or wrapping o enamels or plastic materials supplemented by an adequately designed cathodic
the container be lled with aggregate with a high percentage o voids. It should be located ar away rom
protection system.
underground and deep open drains to prevent leaking LPG vapour rom accumulating and owing to 10.6.2
sources o ignitions.
Cathodic protection is an electrical technique or imposing a p otential on the protected container or pipeline to counter the tendency or electrochemical ion migration an d stop corrosion almost
10.3
Security and damage protection
completely. The cathodic protection system may be o the sacricial anode or impressed current type but in either case should be provided with a point at which a test can be made to determine
10.3.1
The storage acilities installed at site must be adequately protected against tampering by
the efcacy o the system.
unauthorised persons. This is usually achieved by providing security security encing on the acilities. 10.7 10.3.2
Backlling
The storage and piping s ystem must also be protected against possible damages rom encroaching vehicles by installation o barriers or walls whenever required.
Backlling material immediately adjacent to underground/mounded container should consist o at least 150 mm o non-corrosive inert material such as water-washed sand, ree rom soil, rocks, gravel or ashes and other
10.4
Accessibility
deleterious matter. Backlling sand should have a minimum resistivity o 100 Ω when tested ater thorough moistening with distilled water. The sand should be well padded into place during the backlling operation.
Storage acilities need to be located where there is adequate provision o access and exit routes or gas
Mounded containers should have the upper surace covered with earth to a depth o at least 600 mm.
delivery tankers and also emergency equipment. Escape routes must also be provided or operating 10.8
personnel during emergencies. 10.5
Electrical and electrostatic hazard precaution 10.8.1
Ventilation
According to MS 830, an area classied as “hazardous” is an area in which any ammable atmosphere is continuously present (Zone 0), or is likely to occur in normal operating conditions (Zone 1) or
10.5.1
Storage acilities must have good natural ventilation to ensure sae dilution o leaking gas.
10.5.2
A typical layout plan o a LPG bulk storage acility with saety distance, security and damage
so that a xed ignition source does not all within a hazardous area classied as Zone 0, 1 or 2
protection and good accessibility or relling is as shown below.
surrounding the above points.
in abnormal conditions (Zone 2). A storage container and other specied gas equipment and handling acilities such as relie valve discharge, vaporisers and lling points should be located
10.8.2
Only intrinsically sae electrical equipment (equipment that cannot cause ignition when in contact with ammable or explosive atmospheres) can be used in Zone 0, whilst ameproo/explosionproo electrical equipment (equipment which contains the explosion within housing, preventing the ignition o the surrounding atmosphere) may be used in Zone 1 or 2.
10.8.3
An eective earthing point and/or bonding connection should be provided at the storage site or discharging static electricity rom bulk tank vehicles prior to commencing the delivery operation. In addition, storage containers greater than 2.5 kl water capacity should be electrically earthed as a protection against the accumulation o static electricity.
10.8.4
The placing o storage containers within 1.5 m measured horizontally rom the vertical plane o overhead electric transmission lines should be avoided.
Fig. 7 : A typical layout plan o LPG bulk storage acility
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Guidelines On Domestic Gas Piping System
10.9
Maniolded cylinders location
(e)
a cylinder should be located at a distance o at least 5 m rom ammable or combustible liquid storage and other orms o combustible materials. This distance may be reduced
10.9.1
Cylinders should be located outside o buildings situated on a rm level ground in a well ventilated
to 3 m by using a deection wall o 2 hour re resistance rating.
location (Cylinders should not be installed in a basement or in locations below ground level – the (f)
gas is heavier than air and will “ow” into low points and collect causing a ammable or explosive mixture). The saety distance requirements or cylinders as stipulated by MS 830 are as ollows:
any exterior source o ignition, openings into direct-vent (sealed combustion system) appliances or mechanical ventilation air intakes should be at least 1.5 m in any direction away rom the nearest cylinder or opening to the compar tment whichever is nearer.
Table 4 : Cylinder location and saety distances
(g)
Aggregate water capacity o cylinders in a maniolded group o cylinders (kl)
meet the saety requirements and distances or outdoor installations.
From Fr om bui build ldin ing gA
From pro From prope perty rty boundary B
From a xed ignition source
None
None
Fixed ignition
Up to 2.5
(h)
7.5
7.5
the compartment should be separated rom the rest o the building by surrounding walls having 4 hour re resistance rating. The separation should be absolute in such manner that it will have no openings o access towards the inside o the building
source should not Over 2.5 to 10
a specially built compartment within the building boundary but meeting the ollowing requirements should be considered an outdoor installation and should be required to
Minimum saety distance (m)
proper.
all within Zone 0, 1 or 2 area (i)
10.9.2
According to MS 830 a cylinder installation outside a building should comply with the ollowing
(j)
requirements: (a)
the oor should be o smooth concrete and at least 100 mm higher than the ground. Rough surace that may cause sparking during cylinder handling should not be used.
Source : Table 10 o MS 830
electrical appliances installed in the compartment should be at least suitable or Zone 2[3] application and preerably located above the cylinder.
the water capacity o individual cylinder in a maniolded group o cylinders should
(k)
ventilation openings o at least 300 cm2 per 1 m2 o the oor area should be provided
not exceed 125 ℓ. I more than one maniolded group o cylinders are installed at a
and such opening should be as close to the oor as practicable, so as to prevent leaking
consumer site each maniolded group should be separated rom the border by at least
gas rom accumulating inside the compar tment.
7.5 m. A deection wall o 2 hour re resistance rating and a minimum height o 2 m may be used to reduce this distance to 3 m provided the vapour path should not be
(l)
less than 7.5 m. (See also Figure 9 in MS 830) (b)
a door o at least 1.5 m width should be provided with access orientated towards the outside o the building.
the installations should be enced and locked to prevent unauthorised access and
10.10
tampering.
Openings on storage container shell are provided with protective valves (to protect against inadvertent release o LPG) in accordance with MS 830 provisions. Accordingly, all openings on containers, except those or saety relie valves and those connections protected by an opening not larger than No. 54 drill size (0.0550
(c)
(d)
any opening into the building that is below the level o the relie valve should be at least
inch), should be equipped with excess ow valves or other suitable automatic valves or devices which will
1 m horizontally rom the nearest cylinder.
automatically prevent loss o the tank contents in the event o a connection or line ailure.
one or more cylinders may be installed below a window, provided that there is a minimum distance o 150 mm between the top o any cylinder valve and the bottom o the window opening
[3] speciallysel ected industrial, non-incendive orrestric ted breathing equipment
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Guidelines On Domestic Gas Piping System
11 PIPE ISOLATION
12 GAS METERING
Isolation valves should be installed at strategic locations in the gas piping system to acilitate isolation o
12.1
sections or components o the piping system or servicing and maintenance and during emergency
A meter location agreed upon by the gas utility company should be provided as close as possible to the point where the gas service piping enters the building.
situations. Isolation valves must have manuacturer’s design and operating specications that are compatible 12.2
with the system operating parameters.
The location should be such that the meter, meter connections, gas service piping tee and gas service shut o valve are exposed and accessible or inspection, installation, replacement, removal, locking, unlocking
11.1
Isolation shut-o valve
and reading. 12.3
Isolation shut-o valve should be installed at branch lines, beore regulators and meters, at each riser point, at
11.2
Gas meters should not be located where meters will be subject to damage, such as in public passageways,
appliance points, to enable isolation o each sec tion o the pipe or maintenance) as well as during emergency.
over doors or in locations subject to dripping water or unusual moisture conditions or extreme high
Isolation valves should be o quick-action type such as manually operated ball valves.
temperatures or where the meter will be inaccessible. 12.4
Emergency shut-o valve (ESV)
Gas meters should be located at least 1 m rom sources o ignition. Meters should be securely supported and should be protected against overpressure, backpressure and vacuum.
This valve can be either manually or automatically triggered shut rom a remote location away rom the 12.5
valve unit. The valve is preerably o re-prooed type and should be installed at strategic locations such as
All riser/meter compartments should be naturally ventilated by xed louvers or pre-cast concrete ventilation
necessities beore entering a building, to enable remote shut-o during emergency. They may sometimes be
blocks at the top and bottom o the compartment to atmosphere. The door o the duct opening to the
controlled rom the building control room.
lobby area should be re-rated to the relevant authority’s requirement. 12.6
The service pipe termination and internal piping termination should be in line and parallel to the ace o the door o the riser shat or duct to enable the gas meter and control valve to be installed easily without the need or urther pipe adjustments.
12.7
Diaphragm gas meter installation should comply to MS1766:2004 (Installation o Diaphragm Gas Meters – Specication)
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Guidelines On Domestic Gas Piping System
13 PIPE SIZING
13.1
14 PIPE INSTALL INSTALLATION ATION
Proper sizing o supply pipelines is important so that each gas appliance receives enough gas to perorm
14.1
General requirements
properly. Inadequate sizing o supply pipelines not only will cause inefcient appliance operation but also supply interruptions, which can adversely aect the saety o the system.
The general principles that must be borne in mind when planning a gas pipe installation on residential premises are as ollows:
13.2
Gas piping should be sized to provide the maximum demand, and such that the supply pressure at the gas (a)
utilization equipment is appropriate and greater than the minimum pressure required.
the piping system must be designed so that the gas meter provided by gas supplier can be properly located or or within the building o the owner or each customer.
13.3
Two dierent methods o pipe sizing are presented in Appendix C o the MS 930. These are; (b)
•
NFPA No 54
•
Cliord Method
gas pipes should be located such that the locations o isolation valves are easily accessible to the users to acilitate line isolation during emergency. Each oor or section o a building should be provided with an isolation point, in case o re or leakage at any o the sections.
13.4
The sizing tables in MS 930 contain gas-carrying capacities or dierent sizes and lengths o rigid pipe and (c)
semi-rigid tubing. The tables are in order by type o gas (natural gas or LPG), type o piping (pipe or tube), pressure, and pressure drop allowed.
gas pipes should, as ar as practicable, be run outside the building, especially when the operating line pressure exceeds 35 kPa (5.0 psi). However or maintenance purposes, it is recommended that pipe riser to be installed at accessible and reachable location near corridors or dedicated shats.
13.5
The design parameters must adhere to certain pressure limitations as stipulated in the applicable standards. (d)
For instance, under normal conditions, the maximum design operating pressure or piping located inside buildings should not exceed 35 kPa (5 psi) (as stipulated in MS 930 ) 13.6
gas pipes should preerably enter the building aboveground and remain aboveground and in ventilated location.
(e)
For larger and more complex gas piping systems that are not covered by MS 930, the size o the gas piping system should be determined by standard engineering methods acceptable to Energy Commission. These
gas pipes should be properly painted and labelled or identication identication purposes. The colour or gas pipes should be yellow.
are:
13.7
•
Pole’s Method
•
Cox’s Method
(f)
the pipe route selection should avoid any positions where the pipe could be liable to damage, either during the building construction or when the propert y is nally occupied.
The maximum allowable pressure drop recommended or the design o internal gas piping should be less
(g)
the re resistance o the building must not be impaired.
(h)
the route should, as ar as possible, avoid the need to cut into load-bearing walls or joist.
(i)
pipes may be concealed, but provision should be made or access. Exposed gas pipes would
than 15 percent. 13.8
The maximum gas velocity in the gas pipe should be less than 20 m/s such that the gas velocity should not have negative eects, or example, by eroding the pipe wall or creating nuisance to the public rom excessive noise emissions.
13.9
acilitate leak detection and maintenance. (j)
A recommended ormat or presenting gas reticulation network pipe sizing calculations is as shown below. (Pipe sizing sotwares are readily available rom Universiti Teknologi Malaysia.)
pipe riser ducts must have 2 hour re rated doors and have one side as an external wall with xed louvers or ventilated pre-cast block venting naturally to atmosphere.
Table 5 : Format or gas reticulation network pipe sizing calculations
Inlet Node
Outlet Node
Flow Rate scmh
Length m
CF
Diameter mm
Inlet Pressure kPa
Outlet Pressure kPa
Pressure Drop kPa
Pressure Drop %
Velocity m/s
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Guidelines On Domestic Gas Piping System
(k)
there should be a space o at least 50 mm between a gas pipe and any other services. Where
(t)
each outlet, including pipe terminating with a valve, should be securely closed gas-tight with an
electrical services are being use in the same duct, the gas riser should be separated rom the
approved threaded plug or threaded cap immediately ater installation and should be let closed
electrical services by a gas-tight partition with respect to the electrical services.
until an appliance is connected.
(l)
pipes passing through a cavity must take the shortest route and be sleeved.
(m)
pipes are normally run above ceiling, dropping down to appliances on the oor below it, when no other route is available.
(n)
pipes must not be laid under or through oundations.
(o)
pipes should never run diagonally across walls or oor. They sho uld normally ollow the line o the walls and be kept close to them.
(p) (q)
the piping system must not be exposed to the excessive external stress, vibration or corrosion. the piping system must be installed at a location where maintenance and checking work can be done easily.
(r)
to prevent the distribution o gas leakage throughout the building, piping inside any building must not be installed at the ollowing locations: •
lit shat
•
ues, chimneys and gas vents Fig. 8 : A typical natural gas piping layout on domestic consumer’s consumer’s premises
•
circulating air duct and ventilating duct
•
clothes chute
•
enclosed staircase
•
in rooms provided with high voltage power acilities
•
air handling room
•
unventilated void space
areas through which the riser passes should be well ventilated. This will ensure early detection o
•
re protected/smoke ree/enclosed lit lobby areas
gas leaks, prevent accumulation o gasses to dangerous levels and allow access or maintenance.
•
within protected corridors or passageways which are routes o escape/exit
•
under load bearing oundations and walls
•
at area or location owned or exclusively used by third party (e.g. local authority)
the building should be provided to ensure that minor gas leakage does not cause the atmosphere
•
in case o riser not provided with ventilation, it is best to install gas detector to detect
within the duct to become unsae.
14.2
Pipe shat or duct 14.2.1
14.2.2
Where practicable, gas pipes within the building, including gas risers, should be r un exposed. The
Where a gas riser is to be located in a pipe shat (or duct), permanent ventilation to the outside o
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Guidelines On Domestic Gas Piping System
14.2.3
Where shats are continuous, ventilation can normally be achieved by the provision o openings
14.3.2
Piping buried in a ground
at the top and bottom to the outdoors. Th e opening should have a minimum ree area (in inches square) equal to the product o one-hal o the maximum pressure in the piping (in psi) times
Underground pipes also need to be protected against aboveground loading by using protective
the largest nominal diameter o that piping (in inches), or the cross-sectional area o the duct,
sleeves and concrete slabs. When dissimilar metal are joined underground, an insulating coupling
whichever is smaller.
or tting should be used. Piping should not be laid in contact with cinders. Please reer to ourth schedule o Gas Supply Regulations 1997. 1997.
14.2.4
When a pipe shat takes the orm o an enclosure at each storey level, riser pipes should be re stopped as the pass rom one oor to another unless in their own protected shat which is ventilated top and bottom to outside atmosphere. When riser pipes rom a shat or duct enter a at or apartment unit they should b e re stopped at the point o entry.
Fig. 10 : Piping embedded in concrete oor
14.3.3
Pipe in oor channel The channels should be constructed such that the structural strength o the oor is not reduced and the pipes are wholly encased within the oor structure.
Uncoated threaded or socket welded joints should not be installed in contact with soil where internal or external crevice corrosion may occur. Piping which is in contact with soil or other materials, which may corrode the piping, should be protected against corrosion in an approved manner. Fig. 9 : Typical layout o ventilated gas pipe shat/duct
14.4
Pipe penetrating through solid wall or oor
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Guidelines On Domestic Gas Piping System
Fig. 11 : Pipe penetrating through solid wall or oor
14.5
Underground pipe damage protection 14.5.1
Proper protective measures should be taken to protect underground gas piping against damage caused by the third party work. In addition, when underground gas piping is installed in sot soil, proper measures should be taken against dierential settlements.
14.5.2
Fig. 12 : Piping buried in ground oor or under concrete external o building
Underground gas piping installation beore the boundary line o private land should have a depth o cover not less than 900 mm. 14.6
14.5.3
Pipe Support
Underground gas piping installation beyond the boundary line o private land should have a depth o cover not less than 450 mm or deeper whichever is required by authority. The cover
14.6.1
The piping system must be supported to avoid the external stress such as vibration, thermal shrinkage and must be installed at a location where maintenance work can be done easily.
should be permitted to be reduced to a minimum o 300 mm i external damage to the pipe is
Gas piping should be supported with the proper size pipe hooks, metal pipe straps, bands or
not likely to result.
hangers. 14.5.4
Pipe casing or protection slab may be used where the depth o cover or underground gas piping is not sufcient to protect the pipe rom damage and should b e approved by authority.
14.6.2
The supports must be o adequate strength and quality, and located at proper intervals, so that the piping cannot be moved accidentally rom the installed position.
14.5.5
For steel underground gas piping installation, a cathodic protection will be used in conjunction with the coating to protect the gas pipe against corrosion.
14.6.3
The building structure should not be weakened by the installation o any gas piping. Gas piping should not be supported by other piping.
14.5.6
Warning marker (concrete marker) should be installed at suitable intervals along the straight and
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Guidelines On Domestic Gas Piping System
Table 6 : Support o piping
Steel Pipe Nominal Size o Pipe mm (Inches)
Spacing o Supports m (Feet)
Nominal Size o Tubing mm (Inch OD)
Spacing o Supports m (Feet)
15 (1/2)
1.8 (6)
15 (1/2)
1.2 (4)
20 (3/4) or 25 (1)
2.4 (8)
16 (5/8) or 20 (3/4)
1.8 (6)
32 (1 1/4) or larger
3 (10)
22 (7/8) or 25 (1)
2.4 (8)
Ever y oor level
-
-
(horizontal) 32 (1 1/4) or larger
Fig. 13 : Underground gas piping
(vertical) 14.8.3
Source : Table 2 o MS 930
Clearance rom electrical cable without casing and lightning arrestor should be as per table below:
14.7
Pipe Tracer Wire Table 7 : Clearance rom buried electrical acilities
For polyethylene (PE) underground gas piping installation, a tracer wire is installed along the entire length o gas pipe or the purp ose o locating the gas pipe rom aboveground using a pipe locator. The tracer wire
Buried Facility
should be installed around the pipe surace and the wire ends should be led to aboveground, at every 50 m intervals, where the discontinuity can be detected easily. An insulated copper wire o at least 4 mm or AWG 14 should be used as tracer wire. 14.8
Clearance (mm)
Low voltage cable
> 100
High voltage cable
> 1000
Lightning arrestor
> 1500
Clearance rom Other Buried Facilities 14.9 14.8.1
by segregation or other means. Requirements or clearance (parallel and cross layout distances) rom other buried acilities is as shown in the gure below: 14.8.2
Drain Crossing
When a gas pipe runs close to some other services, contact between them should be prevented
For polyethylene pipe installation, ample clearance must be provided to separate such pipe rom any heat source in order to assure that the surace temperature o the pipe does not exceed 35o C
Drain crossing gas pipe should be installed under the drain as shown in the ollowing gure:
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Guidelines On Domestic Gas Piping System
15 PIPE JOINTING
14.10
Connection o plastic piping (polyethylene piping)
15.1
Jointing methods must also be suitable or the particular gas reticulation design. Gas piping joints must have good strength and leak tightness properties. The joint must be able to sustain the maximum end orce due
When plastic piping (polyethylene pipe) is used as underground piping, connection between metallic pipe
to the internal pressure and any additional orces due to temperature expansion or contraction, atigue or to
(steel) and polyethylene pipe should be made only outside, underground and with approved transition
the weight o the pipe and its contents.
ttings. 15.2
Welded joints are normally used or their excellent strength and sealing properties under all operating conditions. However, sometimes sometimes threaded joints may be use or very small diameter pipes operating at low pressures. Threaded joints are very leak-prone, hence, they should not be used in concealed/underground pipe installations as stated in MS 930.
15.3
Although welding is preerred, threaded joints and ttings are permitted or pipe sizes up to and including 4” operating at 35 kPa (5 psig) or less. Pressure piping larger than 4” and all pressure piping above 35 kPa (5 psig) regardless o size must be welded or anged.
15.4
Joints in steel pipe may be welded in accordance with API 1104 1104 or ASME IX. Metallic pipe and t ting threads should be taper pipe threads and should comply with ANSI B2.1.
15.5
Joints in copper pipe should be br azed in accordance with ANSI/AWS B2.2-91. B2.2-91. Copper ttings should conorm to EN 1254.
Fig. 15 : Typical installation o anodeless riser tting
15.6 14.11
Isolation Joint Installation
Joints in polyethylene pipe should be made by heat usion in accordance with manuacturers’ instruction. Polyethylene ttings should conorm to ASTM D2683 or ASTM D3261. Plastic pipe or tubing should not be threaded.
Isolation joint should be installed in the ollowing location: 15.7 •
•
Welders o metallic gas piping or jointers o non-metallic piping must have a valid certicate o qualication
Location where pipes or ttings made o dierent materials are joined in buried portion.
rom the relevant authority such as DOSH or Construction Industry Board (CIDB). For this, welders have to
Transition portion between underground and aboveground piping, in case cathodic
pass perormance qualication tests according to the API 1104 or equivalent code requirements beore they
protection is installed, underground piping is protected with cathodic protection.
can be allowed to do the welding job.
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Guidelines On Domestic Gas Piping System
16 GAS APPLIANCE SELECTION
16.1
The gas appliance operating pressure range and required gas consumption rate must be able to be met by
17 GAS APPLIANCE INSTALLA INSTALLATION TION
17.1
the actual pressure and ow rate in the piping sys tem.
The gas appliance must be o the approved type and is suitable or the type o gas supply (natural gas or LPG) to which it will be connected. The installer should provide the user with all the relevant manuacturer’s instructions.
16.2
All appliances used must be type-approved by Energy Commission. Appliances designed or LPG must only be used with LPG and similarly, appliances designed or natural gas must be used only with n atural gas.
17.2
Gas appliances should not be installed in premises without the connection being tested or gas tightness, ascertaining that all the gas saety controls are in proper working order, ensuring that there is proper
In order to convert existing LPG appliances to operate on natural gas, the gas burner nozzles size must be 16.3
ventilation and the operating pressure is as recommended by the manuac turer.
changed or increased to the meet natural gas characteristics. Appliance conversions must only be perormed by competent persons registered with Energy Commission.
17.3
To enable appliances to be moved to a limited extent or convenience o use or to acilitate cleaning, a exible hose connection approved by Energy Commission should be used. The length o connecting hose or tube rom the gas cock to the appliance should not exceed 1.5 m. The material o the hose or tube should be rubber or copper approved by Energy Commission.
17.4
Adequate ventilation or combustion should be provided by ensuring air change, natural or otherwise in the kitchen as a whole. Separate ues or venting to the outside air are normally not required or domestic cooking appliances unless the kitchen area is ully air-conditioned. In such cases, ues should be designed and installed according to MS 930 requirements. Appliance manuacturers generally oer detailed inormation on proper venting o gas appliances. These instructions must be closely ollowed as specied in the appliance
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Guidelines On Domestic Gas Piping System
18 INSPECTION, TESTING AND COMMISSIONING
18.1
Prior to acceptance and initial operation, all piping installations should be inspected and tested by a competent person to ensure that the materials, design, abrication and installation comply with the technical and saety requirements o the Gas Supply Regulations 1997 and recognized standards.
18.2
Inspection should consist o visual examination during or ater abrication, assembly or test as appropriate.
18.3
Corrosion protective coating should be subjected to holiday testing (test o the continuity o protective coating). Coating deects or damage that may impair eective corrosion control should be repaired prior to installation in the ditch as specied by the relevant codes such as MS 830 or National Association o Corrosion Engineers (NACE) Recommended Practice.
18.4
The pressure or leak test medium should be air, water or an inert gas (e.g. nitrogen, carbon dioxide). Gas may be used as the test medium at the maximum pressure available in the system at the time o the test.
Fig. 15 : Typical location o gas cock at cabinet cabinet type top range
18.5
Pipe joints including welds should be let exposed or examination during the test. Expansion joints should be provided with temporary restraints, i required or the additional thrust load under test.
17.6
Gas leak detector installation 18.6
Soapy water solution test may be used to locate leaks i all joints are accessible during the test. The test
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Guidelines On Domestic Gas Piping System
19 OPERATION & MAINTENANCE
19.1
Table 9 : Natural gas piping system pressure / leak test requirements
Gas piping systems in service are subjected to various degrading or abnormal operating conditions such as third party activities, corrosive environment, ground erosion, excessive pressure uctuations, malunctioning
Maximum Scope
Type o Test
Test
Operating
Eq u ipm ent
Pressure
Pressure kPa(psi)
Test D ur a tio n (m (m in ut es)
Tes t
M ed ium
kPa (psi)
Above ground
Buried
Pressure gauge
Pressure
Soap
Chart
water
Recorder*
solution
or breakdown o components, material wear and tear, and tampering. It is the duty o the owner or occupier o the premises to saely operate and maintain the system in accordance with manuacturer’s specications. Gas detector**
19.2
From service station up to 2nd stage regulator /
the premises, or where there is no consumer or occupier, the owner o the premises or any person authorised Above 140 (20)
H yd r ost a ti c
Wa ter
H yd yd ro rost at ati c
Wa te ter
345 (50)
60
14 4 0
√
(√)
by the consumer or occupier to be in charge o the gas pipeline or gas installation in the premises.
√
meter
19.3
system. He is responsibilities as provided or under the regulations are as ollows:
/ area to 2 stage nd
His role is essentially to be in charge o the gas pipeline or gas installation in the premises to ensure that certain basic saety and administrative requirements are being adhered to in the operation and use o the
From service station up
The regulations provide or a ‘responsible person’ who may be the licensee or consumer, or an occupier o
Up to 140
Pneumatic/
(20)
leak
Nitrogen
345 (50)
12 0
14 4 0
√
√
√
Air
•
ensuring that the gas pipeline can be continuously identied,
•
immediately taking all reasonable steps to cause the supply o gas to be shut o in the event o him
regulator / meter
Leak(during
Natural
Operating
commisioning)
gas
Pressure
Pneumatik/
Nitrogen
√
√
(√)
knowing or suspecting gas escaping into the premises,
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Guidelines On Domestic Gas Piping System
RECOMMENDED PREVENTIVE MAINTENANCE PROGRAMME FOR GAS PIPING SYSTEMS 19.4
Proper maintenance programmes and procedures including procedures or regular leakage surveillance o
Table 10: Natural gas and LPG piping
the system have to be prepared and ollowed by the responsible person. In addition to that, emergency
Maintenance Items
procedures have to be prepared and rehearsed or actual implementation during emergencies involving gas leakage or re. 1 19.5
using gas detector or soap liquid.
Frequency Every Two Years
The piping system must be subjected to a thorough inspection an d tested by registered competent competent persons at least once every three years. Pressure vessels must comply with DOSH requirements. Maintenance and repair works on the system must similarly be perormed by competent persons.
19.6
Detailed visual survey or pipe, connections, valves and equipments by
It is unlawul to remove or disconnect any gas equipment without rst plugging or capping with a screwed
2
Detailed visual inspection or pipe support and surrounding conditions around piping and gas appliances
Annually
3
Inspection or PE/Steel transition joints.
Annually
4
Inspection Inspection and unctional unctional test o valves and regulators. ators.
Annually ly
5
Air-tightness test or leak check testing.
6
Painting & labelling.
joint tting the outlet rom which the gas equipment was removed. All outlets to which gas equipment are not connected should be let capped gas tight on any piping system being installed, altered, extended or repaired.
Every Three Years
Ever y Two Years
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Guidelines On Domestic Gas Piping System
RELATED STANDARDS STANDARDS AND CODES OF PR ACTICE FOR GAS PIPING SYSTEM Malaysian Standards (MS): MS 830:2003
Code o Practice or the storage, handling and transportation o liqueed petroleum gases.
MS 930:1986
Code o Practice or The Installation o Fuel Gas Piping Systems and Appliances.
MS 17 1766:2004 66:2004
Code o Practice or the Installa Installation tion o Gas Meters
MS 187 1870: 0: 2005
Gas meters (Diaphragm meters)
MS 1086:1987 1987
Specication or Buried Polyethylene ene (PE) Pipes or the supply o gaseous uels.
MS 153 1535 5
Part 1: 2002
Domestic gas cooking appliances or use with LPG: Specication.
Part 2: 2002
Domestic gas cooking appliances or use with LPG: General
MS 1165: 1989
Specication or pressure regulat regulators ors and automatic changeover devices or LPG
MS 831:1986
Specication or valves or use with domestic LPG cylinder.
MS 773:1999
Specication or exible rubber tubing and hose or use in LPG vapour phase and LPG/air installations
MS 217:1974
Method or the hydrostatic strength testing o liqueable and other compressed gas cylinders.
American Society o Mechanical Engineers (ASME) ASME B31.8:1999 1999
Code or Gas Transm Transmission ission and Distribution Piping Systems
American Petroleum Institute
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Guidelines On Domestic Gas Piping System
CONVERSION TABLE
SURUHANJAYA TENAGA HEADQUARTERS AND SURUHANJAYA REGIONAL OFFICES:
Conversion Table
HEADQUARTERS
Pejabat Kawasan Suruhanjaya Tenaga
Suruhanjaya Tenaga
Tingkat 10, Kompleks Teruntum
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Guidelines On Domestic Gas Piping System
ACKNOWLEDGEMENT
We thank the following organisations organisations for their contribution, input and
NOTES
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Guidelines On Domestic Gas Piping System
NOTES
NOTES
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NOTES