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Liquefied petroleum gas

February 15, 2024

Not to be confused with liquefied natural gas, nor with associated petroleum gas, nor with "condensate" in the sense of natural-gas condensate (natural gas liquids).

Liquefied petroleum gas, also referred to as liquid petroleum gas (LPG or LP gas), is a fuel gas which contains a flammable mixture of hydrocarbon gases, specifically propane, n-butane and isobutane. It can sometimes contain some propylene, butylene, and isobutene.[1][2][3]

LPG storage spheres
Two 45 kg (99 lb) LPG gas cylinders in New Zealand used for domestic supply
LPG minibuses in Hong Kong
A dual fuel LPG-powered Ford Falcon taxicab in Perth
Tank cars in a Canadian train for carrying liquid petroleum gas by rail

LPG is used as a fuel gas in heating appliances, cooking equipment, and vehicles. It is increasingly used as an aerosol propellant[4] and a refrigerant,[5] replacing chlorofluorocarbons in an effort to reduce damage to the ozone layer. When specifically used as a vehicle fuel, it is often referred to as autogas or even just as gas.

Varieties of LPG that are bought and sold include mixes that are mostly propane (C
3H
8), mostly butane (C
4H
10), and, most commonly, mixes including both propane and butane. In the northern hemisphere winter, the mixes contain more propane, while in summer, they contain more butane.[6][7] In the United States, mainly two grades of LPG are sold: commercial propane and HD-5. These specifications are published by the Gas Processors Association (GPA)[8] and the American Society of Testing and Materials.[9] Propane/butane blends are also listed in these specifications.

Propylene, butylenes and various other hydrocarbons are usually also present in small concentrations such as C2H6, CH4, and C3H8. HD-5 limits the amount of propylene that can be placed in LPG to 5% and is utilized as an autogas specification. A powerful odorant, ethanethiol, is added so that leaks can be detected easily. The internationally recognized European Standard is EN 589. In the United States, tetrahydrothiophene (thiophane) or amyl mercaptan are also approved odorants,[10] although neither is currently being utilized.

LPG is prepared by refining petroleum or "wet" natural gas, and is almost entirely derived from fossil fuel sources, being manufactured during the refining of petroleum (crude oil), or extracted from petroleum or natural gas streams as they emerge from the ground. It was first produced in 1910 by Walter O. Snelling, and the first commercial products appeared in 1912. It currently provides about 3% of all energy consumed, and burns relatively cleanly with no soot and very little sulfur emission. As it is a gas, it does not pose ground or water pollution hazards, but it can cause air pollution. LPG has a typical specific calorific value of 46.1 MJ/kg compared with 42.5 MJ/kg for fuel oil and 43.5 MJ/kg for premium grade petrol (gasoline).[11] However, its energy density per volume unit of 26 MJ/L is lower than either that of petrol or fuel oil, as its relative density is lower (about 0.5–0.58 kg/L, compared to 0.71–0.77 kg/L for gasoline). As the density and vapor pressure of LPG (or its components) change significantly with temperature, this fact must be considered every time when the application is connected with safety or custody transfer operations,[12] e.g. typical cuttoff level option for LPG reservoir is 85%.

Besides its use as an energy carrier, LPG is also a promising feedstock in the chemical industry for the synthesis of olefins such as ethylene, propylene,[13][14]

As its boiling point is below room temperature, LPG will evaporate quickly at normal temperatures and pressures and is usually supplied in pressurized steel vessels. They are typically filled to 80–85% of their capacity to allow for thermal expansion of the contained liquid. The ratio of the densities of the liquid and vapor varies depending on composition, pressure, and temperature, but is typically around 250:1. The pressure at which LPG becomes liquid, called its vapour pressure, likewise varies depending on composition and temperature; for example, it is approximately 220 kilopascals (32 psi) for pure butane at 20 °C (68 °F), and approximately 2,200 kilopascals (320 psi) for pure propane at 55 °C (131 °F). LPG in its gaseous phase is still heavier than air, unlike natural gas, and thus will flow along floors and tend to settle in low spots, such as basements. There are two main dangers to this. The first is a possible explosion if the mixture of LPG and air is within the explosive limits and there is an ignition source. The second is suffocation due to LPG displacing air, causing a decrease in oxygen concentration.

A full LPG gas cylinder contains 86% liquid; the ullage volume will contain vapour at a pressure that varies with temperature.[15]

LPG prices around the world edit

Country/Territory US$/L
(95 RON) 		US$/US gallon
(95 RON) 		Date of price Sources
Algeria 0.0661 0.25 9 Mar 2023 [16]
Angola 0.1991 0.75 9 Mar 2023 [17]
Saudi Arabia 0.2401 0.91 9 Mar 2023 [18]
Russia 0.2561 0.97 9 Mar 2023 [19]
Kyrgyzstan 0.3371 1.28 9 Mar 2023 [20]
Azerbaijan 0.3821 1.45 9 Mar 2023 [21]
Taiwan 0.4751 1.80 9 Mar 2023 [22]
Australia 0.4981 1.89 9 Mar 2023 [23]
Honduras 0.5071 1.92 9 Mar 2023 [24]
Peru 0.5071 1.92 9 Mar 2023 [25]
Belarus 0.5191 1.97 9 Mar 2023 [26]
Cambodia 0.5671 2.15 9 Mar 2023 [27]
Paraguay 0.5831 2.21 9 Mar 2023 [28]
Lithuania 0.6171 2.34 9 Mar 2023 [29]
Bulgaria 0.6271 2.37 9 Mar 2023 [30]
Turkey 0.6281 2.38 9 Mar 2023 [31]
Ukraine 0.6511 2.46 9 Mar 2023 [32]
Mongolia 0.6801 2.57 9 Mar 2023 [33]
Georgia 0.6851 2.59 9 Mar 2023 [34]
Albania 0.6921 2.62 9 Mar 2023 [35]
South Korea 0.6941 2.63 9 Mar 2023 [36]
Dominican Republic 0.7021 2.66 9 Mar 2023 [37]
Poland 0.7191 2.72 9 Mar 2023 [38]
Chile 0.7331 2.78 9 Mar 2023 [39]
Philippines 0.7701 2.92 9 Mar 2023 [40]
Estonia 0.7721 2.92 9 Mar 2023 [41]
Czech Republic 0.7921 3.00 9 Mar 2023 [42]
Bosnia And Herzegovina 0.8061 3.05 9 Mar 2023 [43]
India 0.8191 3.10 9 Mar 2023 [44]
Slovakia 0.8361 3.16 9 Mar 2023 [45]
San Marino 0.8381 3.17 9 Mar 2023 [46]
Latvia 0.8411 3.18 9 Mar 2023 [47]
Romania 0.8571 3.24 9 Mar 2023 [48]
Italy 0.8591 3.25 9 Mar 2023 [49]
Macedonia 0.8611 3.26 9 Mar 2023 [50]
Moldova 0.8611 3.26 9 Mar 2023 [51]
Belgium 0.8681 3.29 9 Mar 2023 [52]
Luxembourg 0.8701 3.29 9 Mar 2023 [53]
Netherlands 0.8891 3.37 9 Mar 2023 [54]
Lebanon 0.9031 3.42 9 Mar 2023 [55]
Serbia 0.9101 3.45 9 Mar 2023 [56]
Portugal 0.9151 3.46 9 Mar 2023 [57]
United Kingdom 0.9171 3.47 9 Mar 2023 [58]
Canada 0.9281 3.51 9 Mar 2023 [59]
Slovenia 0.9931 3.76 9 Mar 2023 [60]
Croatia 1.0261 3.88 9 Mar 2023 [61]
Israel 1.0341 3.91 9 Mar 2023 [62]
Hungary 1.0431 3.95 9 Mar 2023 [63]
Spain 1.0491 3.97 9 Mar 2023 [64]
France 1.0531 3.99 9 Mar 2023 [65]
Greece 1.0571 4.00 9 Mar 2023 [66]
Fiji 1.0601 4.01 9 Mar 2023 [67]
Switzerland 1.1411 4.32 9 Mar 2023 [68]
Germany 1.1531 4.36 9 Mar 2023 [69]
Sweden 1.3451 5.09 9 Mar 2023 [70]

Uses edit

LPG has a wide variety of uses in many different markets as an efficient fuel container in the agricultural, recreation, hospitality, industrial, construction, sailing and fishing sectors. It can serve as fuel for cooking, central heating and water heating and is a particularly cost-effective and efficient way to heat off-grid homes.

Cooking edit

LPG is used for cooking in many countries for economic reasons, for convenience or because it is the preferred fuel source.

In India, nearly 8.9 million tons of LPG were consumed in the six months between April and September 2016 in the domestic sector, mainly for cooking. The number of domestic connections are 215 million (i.e., one connection for every six people) with a circulation of more than 350 million LPG cylinders.[71] Most of the LPG requirement is imported. Piped city gas supply in India is not yet developed on a major scale. LPG is subsidised by the Indian government for domestic users. An increase in LPG prices has been a politically sensitive matter in India as it potentially affects the middle class voting pattern.

LPG was once a standard cooking fuel in Hong Kong; however, the continued expansion of town gas to newer buildings has reduced LPG usage to less than 24% of residential units. However, other than electric, induction, or infrared stoves, LPG-fueled stoves are the only type available in most suburban villages and many public housing estates.

LPG is the most common cooking fuel in Brazilian urban areas, being used in virtually all households, with the exception of the cities of Rio de Janeiro and São Paulo, which have a natural gas pipeline infrastructure. Since 2001, poor families receive a government grant ("Vale Gás") used exclusively for the acquisition of LPG. Since 2003, this grant is part of the government's main social welfare program ("Bolsa Família"). Also, since 2005, the national oil company Petrobras differentiates between LPG destined for cooking and LPG destined for other uses, establishing a lower price for the former. This is a result of a directive from the Brazilian federal government, but its discontinuation is currently being debated.[72]

LPG is commonly used in North America for domestic cooking and outdoor grilling.

Rural heating edit

 
LPG cylinders in India
 
Liquefied petroleum gas tank on a rural farm

Predominantly in Europe and rural parts of many countries, LPG can provide an alternative to electric heating, heating oil, or kerosene. LPG is most often used in areas that do not have direct access to piped natural gas. In the UK about 200,000 households use LPG for heating.

LPG can be used as a power source for combined heat and power technologies (CHP). CHP is the process of generating both electrical power and useful heat from a single fuel source. This technology has allowed LPG to be used not just as fuel for heating and cooking, but also for decentralized generation of electricity.

 
Bottling LPG in the Marshall Islands for storage

LPG can be stored in a variety of manners. LPG, as with other fossil fuels, can be combined with renewable power sources to provide greater reliability while still achieving some reduction in CO2 emissions. However, as opposed to wind and solar renewable energy sources, LPG can be used as a standalone energy source without the prohibitive expense of electrical energy storage. In many climates renewable sources such as solar and wind power would still require the construction, installation and maintenance of reliable baseload power sources such as LPG fueled generation to provide electrical power during the entire year. 100% wind/solar is possible, the caveat being that the expense of the additional generation capacity necessary to charge batteries plus the cost of battery electrical storage makes this option economically feasible in only a minority of situations.[citation needed]

Motor fuel edit

 
LPG filling connector on a Skoda 120
Main article: Autogas
 
White-bordered green diamond symbol used on LPG-powered vehicles in China

When LPG is used to fuel internal combustion engines, it is often referred to as autogas or auto propane. In some countries, it has been used since the 1940s as a petrol alternative for spark ignition engines. In some countries, there are additives in the liquid that extend engine life and the ratio of butane to propane is kept quite precise in fuel LPG. Two recent studies have examined LPG-fuel-oil fuel mixes and found that smoke emissions and fuel consumption are reduced but hydrocarbon emissions are increased.[73][74] The studies were split on CO emissions, with one finding significant increases,[73] and the other finding slight increases at low engine load but a considerable decrease at high engine load.[74] Its advantage is that it is non-toxic, non-corrosive and free of tetraethyllead or any additives, and has a high octane rating (102–108 RON depending on local specifications). It burns more cleanly than petrol or fuel-oil and is especially free of the particulates present in the latter.

LPG has a lower energy density per liter than either petrol or fuel-oil, so the equivalent fuel consumption is higher. Many governments impose less tax on LPG than on petrol or fuel-oil, which helps offset the greater consumption of LPG than of petrol or fuel-oil. However, in many European countries, this tax break is often compensated by a much higher annual tax on cars using LPG than on cars using petrol or fuel-oil. Propane is the third most widely used motor fuel in the world. 2013 estimates are that over 24.9 million vehicles are fueled by propane gas worldwide. Over 25 million tonnes (over 9 billion US gallons) are used annually as a vehicle fuel.

Not all automobile engines are suitable for use with LPG as a fuel. LPG provides less upper cylinder lubrication than petrol or diesel, so LPG-fueled engines are more prone to valve wear if they are not suitably modified. Many modern common rail diesel engines respond well to LPG use as a supplementary fuel. This is where LPG is used as fuel as well as diesel. Systems are now available that integrate with OEM engine management systems.

Conversion kits can switch a vehicle dedicated to gasoline to using a dual system, in which both gasoline and LPG are used in the same vehicle.

Conversion to gasoline edit

LPG can be converted into alkylate which is a premium gasoline blending stock because it has exceptional anti-knock properties and gives clean burning.

Refrigeration edit

LPG is instrumental in providing off-the-grid refrigeration, usually by means of a gas absorption refrigerator.

Blended from pure, dry propane (refrigerant designator R-290) and isobutane (R-600a) the blend "R-290a" has negligible ozone depletion potential, very low global warming potential and can serve as a functional replacement for R-12, R-22, R-134a and other chlorofluorocarbon or hydrofluorocarbon refrigerants in conventional stationary refrigeration and air conditioning systems.[75]

Such substitution is widely prohibited or discouraged in motor vehicle air conditioning systems, on the grounds that using flammable hydrocarbons in systems originally designed to carry non-flammable refrigerant presents a significant risk of fire or explosion.[76][77]

Vendors and advocates of hydrocarbon refrigerants argue against such bans on the grounds that there have been very few such incidents relative to the number of vehicle air conditioning systems filled with hydrocarbons.[78][79] One particular test, conducted by a professor at the University of New South Wales, unintentionally tested the worst-case scenario of a sudden and complete refrigerant expulsion into the passenger compartment followed by subsequent ignition. He and several others in the car sustained minor burns to their face, ears, and hands, and several observers received lacerations from the burst glass of the front passenger window. No one was seriously injured.[80]

Propellant edit

This section is an excerpt from Aerosol spray dispenser § Aerosol propellants.[edit]
Chlorofluorocarbons (CFCs) were once often used as propellants,[81] but since the Montreal Protocol came into force in 1989, they have been replaced in nearly every country due to the negative effects CFCs have on Earth's ozone layer. The most common replacements of CFCs are mixtures of volatile hydrocarbons, typically propane, n-butane and isobutane.[82] Dimethyl ether (DME) and methyl ethyl ether are also used. All these have the disadvantage of being flammable. Nitrous oxide and carbon dioxide are also used as propellants to deliver foodstuffs (for example, whipped cream and cooking spray). Medicinal aerosols such as asthma inhalers use hydrofluoroalkanes (HFA): either HFA 134a (1,1,1,2,-tetrafluoroethane) or HFA 227 (1,1,1,2,3,3,3-heptafluoropropane) or combinations of the two. More recently, liquid hydrofluoroolefin (HFO) propellants have become more widely adopted in aerosol systems due to their relatively low vapor pressure, low global warming potential (GWP), and nonflammability.[83] Manual pump sprays can be used as an alternative to a stored propellant.

Global production edit

Global LPG production reached over 292 million metric tons per year (Mt/a) in 2015, while global LPG consumption to over 284 Mt/a.[84] 62% of LPG is extracted from natural gas while the rest is produced by petroleum refineries from crude oil.[85] 44% of global consumption is in the domestic sector. The U.S. is the leading producer and exporter of LPG.[86]

Security of supply edit

Because of the natural gas and the oil-refining industry, Europe is almost self-sufficient in LPG. Europe's security of supply is further safeguarded by:

  • a wide range of sources, both inside and outside Europe;
  • a flexible supply chain via water, rail and road with numerous routes and entry points into Europe.

According to 2010–12 estimates, proven world reserves of natural gas, from which most LPG is derived, stand at 300 trillion cubic meters (10,600 trillion cubic feet). Production continues to grow at an average annual rate of 2.2%.

Comparison with natural gas edit

LPG is composed mainly of propane and butane, while natural gas is composed of the lighter methane and ethane. LPG, vaporised and at atmospheric pressure, has a higher calorific value (46 MJ/m3 equivalent to 12.8 kWh/m3) than natural gas (methane) (38 MJ/m3 equivalent to 10.6 kWh/m3), which means that LPG cannot simply be substituted for natural gas. In order to allow the use of the same burner controls and to provide for similar combustion characteristics, LPG can be mixed with air to produce a synthetic natural gas (SNG) that can be easily substituted. LPG/air mixing ratios average 60/40, though this is widely variable based on the gases making up the LPG. The method for determining the mixing ratios is by calculating the Wobbe index of the mix. Gases having the same Wobbe index are held to be interchangeable.

LPG-based SNG is used in emergency backup systems for many public, industrial and military installations, and many utilities use LPG peak shaving plants in times of high demand to make up shortages in natural gas supplied to their distributions systems. LPG-SNG installations are also used during initial gas system introductions when the distribution infrastructure is in place before gas supplies can be connected. Developing markets in India and China (among others) use LPG-SNG systems to build up customer bases prior to expanding existing natural gas systems.

LPG-based SNG or natural gas with localized storage and piping distribution network to the households for catering to each cluster of 5000 domestic consumers can be planned under the initial phase of the city gas network system. This would eliminate the last mile LPG cylinders road transport which is a cause of traffic and safety hurdles in Indian cities. These localized natural gas networks are successfully operating in Japan with feasibility to get connected to wider networks in both villages and cities.

Environmental effects edit

Commercially available LPG is currently derived mainly from fossil fuels. Burning LPG releases carbon dioxide, a greenhouse gas. The reaction also produces some carbon monoxide. LPG does, however, release less CO
2 per unit of energy than does coal or oil, but more than natural gas. It emits 81% of the CO
2 per kWh produced by oil, 70% of that of coal, and less than 50% of that emitted by coal-generated electricity distributed via the grid.[87] Being a mix of propane and butane, LPG emits less carbon per joule than butane but more carbon per joule than propane.

LPG burns more cleanly than higher molecular weight hydrocarbons because it releases less particulate matter.[88]

As it is much less polluting than most traditional solid-fuel stoves, replacing cookstoves used in developing countries with LPG is one of the key strategies adopted to reduce household air pollution in the developing world.[89]

Fire/explosion risk and mitigation edit

 
LPG Horton sphere tanks at a Repsol Butano facility in Gijón, Spain

In a refinery or gas plant, LPG must be stored in pressure vessels. These containers are either cylindrical and horizontal (sometimes referred to as bullet tanks) or spherical (of the Horton sphere type). Typically, these vessels are designed and manufactured according to some code. In the United States, this code is governed by the American Society of Mechanical Engineers (ASME).

LPG containers have pressure relief valves, such that when subjected to exterior heating sources, they will vent LPGs to the atmosphere or a flare stack.

If a tank is subjected to a fire of sufficient duration and intensity, it can undergo a boiling liquid expanding vapor explosion (BLEVE). This is typically a concern for large refineries and petrochemical plants that maintain very large containers. In general, tanks are designed so that the product will vent faster than pressure can build to dangerous levels.

One remedy that is utilized in industrial settings is to equip such containers with a measure to provide a fire-resistance rating. Large, spherical LPG containers may have up to a 15 cm steel wall thickness. They are equipped with an approved pressure relief valve. A large fire in the vicinity of the vessel will increase its temperature and pressure. The relief valve on the top is designed to vent off excess pressure in order to prevent the rupture of the container itself. Given a fire of sufficient duration and intensity, the pressure being generated by the boiling and expanding gas can exceed the ability of the valve to vent the excess. Alternatively, if, due to continued venting, the liquid level drops below the area being heated, the tank structure can be overheated and subsequently weakened in that area. If either occurs, the container may rupture violently, launching pieces of the vessel at high velocity, while the released products can ignite as well, potentially causing catastrophic damage to anything nearby, including other containers.

People can be exposed to LPG in the workplace by breathing it in, skin contact, and eye contact. The Occupational Safety and Health Administration (OSHA) has set the legal limit (Permissible exposure limit) for LPG exposure in the workplace as 1000 ppm (1800 mg/m3) over an 8-hour workday. The National Institute for Occupational Safety and Health (NIOSH) has set a recommended exposure limit (REL) of 1000 ppm (1800 mg/m3) over an 8-hour workday. At levels of 2000 ppm, 10% of the lower explosive limit, LPG is considered immediately dangerous to life and health (due solely to safety considerations pertaining to risk of explosion).[90]

See also edit

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External links edit

February 15, 2024
liquefied, petroleum, confused, with, liquefied, natural, with, associated, petroleum, with, condensate, sense, natural, condensate, natural, liquids, also, referred, liquid, petroleum, fuel, which, contains, flammable, mixture, hydrocarbon, gases, specificall. Not to be confused with liquefied natural gas nor with associated petroleum gas nor with condensate in the sense of natural gas condensate natural gas liquids Liquefied petroleum gas also referred to as liquid petroleum gas LPG or LP gas is a fuel gas which contains a flammable mixture of hydrocarbon gases specifically propane n butane and isobutane It can sometimes contain some propylene butylene and isobutene 1 2 3 LPG storage spheresTwo 45 kg 99 lb LPG gas cylinders in New Zealand used for domestic supplyLPG minibuses in Hong KongA dual fuel LPG powered Ford Falcon taxicab in PerthTank cars in a Canadian train for carrying liquid petroleum gas by railLPG is used as a fuel gas in heating appliances cooking equipment and vehicles It is increasingly used as an aerosol propellant 4 and a refrigerant 5 replacing chlorofluorocarbons in an effort to reduce damage to the ozone layer When specifically used as a vehicle fuel it is often referred to as autogas or even just as gas Varieties of LPG that are bought and sold include mixes that are mostly propane C3 H8 mostly butane C4 H10 and most commonly mixes including both propane and butane In the northern hemisphere winter the mixes contain more propane while in summer they contain more butane 6 7 In the United States mainly two grades of LPG are sold commercial propane and HD 5 These specifications are published by the Gas Processors Association GPA 8 and the American Society of Testing and Materials 9 Propane butane blends are also listed in these specifications Propylene butylenes and various other hydrocarbons are usually also present in small concentrations such as C2H6 CH4 and C3H8 HD 5 limits the amount of propylene that can be placed in LPG to 5 and is utilized as an autogas specification A powerful odorant ethanethiol is added so that leaks can be detected easily The internationally recognized European Standard is EN 589 In the United States tetrahydrothiophene thiophane or amyl mercaptan are also approved odorants 10 although neither is currently being utilized LPG is prepared by refining petroleum or wet natural gas and is almost entirely derived from fossil fuel sources being manufactured during the refining of petroleum crude oil or extracted from petroleum or natural gas streams as they emerge from the ground It was first produced in 1910 by Walter O Snelling and the first commercial products appeared in 1912 It currently provides about 3 of all energy consumed and burns relatively cleanly with no soot and very little sulfur emission As it is a gas it does not pose ground or water pollution hazards but it can cause air pollution LPG has a typical specific calorific value of 46 1 MJ kg compared with 42 5 MJ kg for fuel oil and 43 5 MJ kg for premium grade petrol gasoline 11 However its energy density per volume unit of 26 MJ L is lower than either that of petrol or fuel oil as its relative density is lower about 0 5 0 58 kg L compared to 0 71 0 77 kg L for gasoline As the density and vapor pressure of LPG or its components change significantly with temperature this fact must be considered every time when the application is connected with safety or custody transfer operations 12 e g typical cuttoff level option for LPG reservoir is 85 Besides its use as an energy carrier LPG is also a promising feedstock in the chemical industry for the synthesis of olefins such as ethylene propylene 13 14 As its boiling point is below room temperature LPG will evaporate quickly at normal temperatures and pressures and is usually supplied in pressurized steel vessels They are typically filled to 80 85 of their capacity to allow for thermal expansion of the contained liquid The ratio of the densities of the liquid and vapor varies depending on composition pressure and temperature but is typically around 250 1 The pressure at which LPG becomes liquid called its vapour pressure likewise varies depending on composition and temperature for example it is approximately 220 kilopascals 32 psi for pure butane at 20 C 68 F and approximately 2 200 kilopascals 320 psi for pure propane at 55 C 131 F LPG in its gaseous phase is still heavier than air unlike natural gas and thus will flow along floors and tend to settle in low spots such as basements There are two main dangers to this The first is a possible explosion if the mixture of LPG and air is within the explosive limits and there is an ignition source The second is suffocation due to LPG displacing air causing a decrease in oxygen concentration A full LPG gas cylinder contains 86 liquid the ullage volume will contain vapour at a pressure that varies with temperature 15 Contents 1 LPG prices around the world 2 Uses 2 1 Cooking 2 2 Rural heating 2 3 Motor fuel 2 4 Conversion to gasoline 2 5 Refrigeration 2 6 Propellant 3 Global production 4 Security of supply 5 Comparison with natural gas 6 Environmental effects 7 Fire explosion risk and mitigation 8 See also 9 References 10 External linksLPG prices around the world editCountry Territory US L 95 RON US US gallon 95 RON Date of price SourcesAlgeria 0 0661 0 25 9 Mar 2023 16 Angola 0 1991 0 75 9 Mar 2023 17 Saudi Arabia 0 2401 0 91 9 Mar 2023 18 Russia 0 2561 0 97 9 Mar 2023 19 Kyrgyzstan 0 3371 1 28 9 Mar 2023 20 Azerbaijan 0 3821 1 45 9 Mar 2023 21 Taiwan 0 4751 1 80 9 Mar 2023 22 Australia 0 4981 1 89 9 Mar 2023 23 Honduras 0 5071 1 92 9 Mar 2023 24 Peru 0 5071 1 92 9 Mar 2023 25 Belarus 0 5191 1 97 9 Mar 2023 26 Cambodia 0 5671 2 15 9 Mar 2023 27 Paraguay 0 5831 2 21 9 Mar 2023 28 Lithuania 0 6171 2 34 9 Mar 2023 29 Bulgaria 0 6271 2 37 9 Mar 2023 30 Turkey 0 6281 2 38 9 Mar 2023 31 Ukraine 0 6511 2 46 9 Mar 2023 32 Mongolia 0 6801 2 57 9 Mar 2023 33 Georgia 0 6851 2 59 9 Mar 2023 34 Albania 0 6921 2 62 9 Mar 2023 35 South Korea 0 6941 2 63 9 Mar 2023 36 Dominican Republic 0 7021 2 66 9 Mar 2023 37 Poland 0 7191 2 72 9 Mar 2023 38 Chile 0 7331 2 78 9 Mar 2023 39 Philippines 0 7701 2 92 9 Mar 2023 40 Estonia 0 7721 2 92 9 Mar 2023 41 Czech Republic 0 7921 3 00 9 Mar 2023 42 Bosnia And Herzegovina 0 8061 3 05 9 Mar 2023 43 India 0 8191 3 10 9 Mar 2023 44 Slovakia 0 8361 3 16 9 Mar 2023 45 San Marino 0 8381 3 17 9 Mar 2023 46 Latvia 0 8411 3 18 9 Mar 2023 47 Romania 0 8571 3 24 9 Mar 2023 48 Italy 0 8591 3 25 9 Mar 2023 49 Macedonia 0 8611 3 26 9 Mar 2023 50 Moldova 0 8611 3 26 9 Mar 2023 51 Belgium 0 8681 3 29 9 Mar 2023 52 Luxembourg 0 8701 3 29 9 Mar 2023 53 Netherlands 0 8891 3 37 9 Mar 2023 54 Lebanon 0 9031 3 42 9 Mar 2023 55 Serbia 0 9101 3 45 9 Mar 2023 56 Portugal 0 9151 3 46 9 Mar 2023 57 United Kingdom 0 9171 3 47 9 Mar 2023 58 Canada 0 9281 3 51 9 Mar 2023 59 Slovenia 0 9931 3 76 9 Mar 2023 60 Croatia 1 0261 3 88 9 Mar 2023 61 Israel 1 0341 3 91 9 Mar 2023 62 Hungary 1 0431 3 95 9 Mar 2023 63 Spain 1 0491 3 97 9 Mar 2023 64 France 1 0531 3 99 9 Mar 2023 65 Greece 1 0571 4 00 9 Mar 2023 66 Fiji 1 0601 4 01 9 Mar 2023 67 Switzerland 1 1411 4 32 9 Mar 2023 68 Germany 1 1531 4 36 9 Mar 2023 69 Sweden 1 3451 5 09 9 Mar 2023 70 Uses editLPG has a wide variety of uses in many different markets as an efficient fuel container in the agricultural recreation hospitality industrial construction sailing and fishing sectors It can serve as fuel for cooking central heating and water heating and is a particularly cost effective and efficient way to heat off grid homes Cooking edit LPG is used for cooking in many countries for economic reasons for convenience or because it is the preferred fuel source In India nearly 8 9 million tons of LPG were consumed in the six months between April and September 2016 in the domestic sector mainly for cooking The number of domestic connections are 215 million i e one connection for every six people with a circulation of more than 350 million LPG cylinders 71 Most of the LPG requirement is imported Piped city gas supply in India is not yet developed on a major scale LPG is subsidised by the Indian government for domestic users An increase in LPG prices has been a politically sensitive matter in India as it potentially affects the middle class voting pattern LPG was once a standard cooking fuel in Hong Kong however the continued expansion of town gas to newer buildings has reduced LPG usage to less than 24 of residential units However other than electric induction or infrared stoves LPG fueled stoves are the only type available in most suburban villages and many public housing estates LPG is the most common cooking fuel in Brazilian urban areas being used in virtually all households with the exception of the cities of Rio de Janeiro and Sao Paulo which have a natural gas pipeline infrastructure Since 2001 poor families receive a government grant Vale Gas used exclusively for the acquisition of LPG Since 2003 this grant is part of the government s main social welfare program Bolsa Familia Also since 2005 the national oil company Petrobras differentiates between LPG destined for cooking and LPG destined for other uses establishing a lower price for the former This is a result of a directive from the Brazilian federal government but its discontinuation is currently being debated 72 LPG is commonly used in North America for domestic cooking and outdoor grilling Rural heating edit nbsp LPG cylinders in India nbsp Liquefied petroleum gas tank on a rural farmPredominantly in Europe and rural parts of many countries LPG can provide an alternative to electric heating heating oil or kerosene LPG is most often used in areas that do not have direct access to piped natural gas In the UK about 200 000 households use LPG for heating LPG can be used as a power source for combined heat and power technologies CHP CHP is the process of generating both electrical power and useful heat from a single fuel source This technology has allowed LPG to be used not just as fuel for heating and cooking but also for decentralized generation of electricity nbsp Bottling LPG in the Marshall Islands for storageLPG can be stored in a variety of manners LPG as with other fossil fuels can be combined with renewable power sources to provide greater reliability while still achieving some reduction in CO2 emissions However as opposed to wind and solar renewable energy sources LPG can be used as a standalone energy source without the prohibitive expense of electrical energy storage In many climates renewable sources such as solar and wind power would still require the construction installation and maintenance of reliable baseload power sources such as LPG fueled generation to provide electrical power during the entire year 100 wind solar is possible the caveat being that the expense of the additional generation capacity necessary to charge batteries plus the cost of battery electrical storage makes this option economically feasible in only a minority of situations citation needed Motor fuel edit nbsp LPG filling connector on a Skoda 120Main article Autogas nbsp White bordered green diamond symbol used on LPG powered vehicles in ChinaWhen LPG is used to fuel internal combustion engines it is often referred to as autogas or auto propane In some countries it has been used since the 1940s as a petrol alternative for spark ignition engines In some countries there are additives in the liquid that extend engine life and the ratio of butane to propane is kept quite precise in fuel LPG Two recent studies have examined LPG fuel oil fuel mixes and found that smoke emissions and fuel consumption are reduced but hydrocarbon emissions are increased 73 74 The studies were split on CO emissions with one finding significant increases 73 and the other finding slight increases at low engine load but a considerable decrease at high engine load 74 Its advantage is that it is non toxic non corrosive and free of tetraethyllead or any additives and has a high octane rating 102 108 RON depending on local specifications It burns more cleanly than petrol or fuel oil and is especially free of the particulates present in the latter LPG has a lower energy density per liter than either petrol or fuel oil so the equivalent fuel consumption is higher Many governments impose less tax on LPG than on petrol or fuel oil which helps offset the greater consumption of LPG than of petrol or fuel oil However in many European countries this tax break is often compensated by a much higher annual tax on cars using LPG than on cars using petrol or fuel oil Propane is the third most widely used motor fuel in the world 2013 estimates are that over 24 9 million vehicles are fueled by propane gas worldwide Over 25 million tonnes over 9 billion US gallons are used annually as a vehicle fuel Not all automobile engines are suitable for use with LPG as a fuel LPG provides less upper cylinder lubrication than petrol or diesel so LPG fueled engines are more prone to valve wear if they are not suitably modified Many modern common rail diesel engines respond well to LPG use as a supplementary fuel This is where LPG is used as fuel as well as diesel Systems are now available that integrate with OEM engine management systems Conversion kits can switch a vehicle dedicated to gasoline to using a dual system in which both gasoline and LPG are used in the same vehicle Conversion to gasoline edit LPG can be converted into alkylate which is a premium gasoline blending stock because it has exceptional anti knock properties and gives clean burning Refrigeration edit LPG is instrumental in providing off the grid refrigeration usually by means of a gas absorption refrigerator Blended from pure dry propane refrigerant designator R 290 and isobutane R 600a the blend R 290a has negligible ozone depletion potential very low global warming potential and can serve as a functional replacement for R 12 R 22 R 134a and other chlorofluorocarbon or hydrofluorocarbon refrigerants in conventional stationary refrigeration and air conditioning systems 75 Such substitution is widely prohibited or discouraged in motor vehicle air conditioning systems on the grounds that using flammable hydrocarbons in systems originally designed to carry non flammable refrigerant presents a significant risk of fire or explosion 76 77 Vendors and advocates of hydrocarbon refrigerants argue against such bans on the grounds that there have been very few such incidents relative to the number of vehicle air conditioning systems filled with hydrocarbons 78 79 One particular test conducted by a professor at the University of New South Wales unintentionally tested the worst case scenario of a sudden and complete refrigerant expulsion into the passenger compartment followed by subsequent ignition He and several others in the car sustained minor burns to their face ears and hands and several observers received lacerations from the burst glass of the front passenger window No one was seriously injured 80 Propellant edit This section is an excerpt from Aerosol spray dispenser Aerosol propellants edit Chlorofluorocarbons CFCs were once often used as propellants 81 but since the Montreal Protocol came into force in 1989 they have been replaced in nearly every country due to the negative effects CFCs have on Earth s ozone layer The most common replacements of CFCs are mixtures of volatile hydrocarbons typically propane n butane and isobutane 82 Dimethyl ether DME and methyl ethyl ether are also used All these have the disadvantage of being flammable Nitrous oxide and carbon dioxide are also used as propellants to deliver foodstuffs for example whipped cream and cooking spray Medicinal aerosols such as asthma inhalers use hydrofluoroalkanes HFA either HFA 134a 1 1 1 2 tetrafluoroethane or HFA 227 1 1 1 2 3 3 3 heptafluoropropane or combinations of the two More recently liquid hydrofluoroolefin HFO propellants have become more widely adopted in aerosol systems due to their relatively low vapor pressure low global warming potential GWP and nonflammability 83 Manual pump sprays can be used as an alternative to a stored propellant Global production editGlobal LPG production reached over 292 million metric tons per year Mt a in 2015 while global LPG consumption to over 284 Mt a 84 62 of LPG is extracted from natural gas while the rest is produced by petroleum refineries from crude oil 85 44 of global consumption is in the domestic sector The U S is the leading producer and exporter of LPG 86 Security of supply editBecause of the natural gas and the oil refining industry Europe is almost self sufficient in LPG Europe s security of supply is further safeguarded by a wide range of sources both inside and outside Europe a flexible supply chain via water rail and road with numerous routes and entry points into Europe According to 2010 12 estimates proven world reserves of natural gas from which most LPG is derived stand at 300 trillion cubic meters 10 600 trillion cubic feet Production continues to grow at an average annual rate of 2 2 Comparison with natural gas editThis section does not cite any sources Please help improve this section by adding citations to reliable sources Unsourced material may be challenged and removed February 2022 Learn how and when to remove this template message LPG is composed mainly of propane and butane while natural gas is composed of the lighter methane and ethane LPG vaporised and at atmospheric pressure has a higher calorific value 46 MJ m3 equivalent to 12 8 kWh m3 than natural gas methane 38 MJ m3 equivalent to 10 6 kWh m3 which means that LPG cannot simply be substituted for natural gas In order to allow the use of the same burner controls and to provide for similar combustion characteristics LPG can be mixed with air to produce a synthetic natural gas SNG that can be easily substituted LPG air mixing ratios average 60 40 though this is widely variable based on the gases making up the LPG The method for determining the mixing ratios is by calculating the Wobbe index of the mix Gases having the same Wobbe index are held to be interchangeable LPG based SNG is used in emergency backup systems for many public industrial and military installations and many utilities use LPG peak shaving plants in times of high demand to make up shortages in natural gas supplied to their distributions systems LPG SNG installations are also used during initial gas system introductions when the distribution infrastructure is in place before gas supplies can be connected Developing markets in India and China among others use LPG SNG systems to build up customer bases prior to expanding existing natural gas systems LPG based SNG or natural gas with localized storage and piping distribution network to the households for catering to each cluster of 5000 domestic consumers can be planned under the initial phase of the city gas network system This would eliminate the last mile LPG cylinders road transport which is a cause of traffic and safety hurdles in Indian cities These localized natural gas networks are successfully operating in Japan with feasibility to get connected to wider networks in both villages and cities Environmental effects editCommercially available LPG is currently derived mainly from fossil fuels Burning LPG releases carbon dioxide a greenhouse gas The reaction also produces some carbon monoxide LPG does however release less CO2 per unit of energy than does coal or oil but more than natural gas It emits 81 of the CO2 per kWh produced by oil 70 of that of coal and less than 50 of that emitted by coal generated electricity distributed via the grid 87 Being a mix of propane and butane LPG emits less carbon per joule than butane but more carbon per joule than propane LPG burns more cleanly than higher molecular weight hydrocarbons because it releases less particulate matter 88 As it is much less polluting than most traditional solid fuel stoves replacing cookstoves used in developing countries with LPG is one of the key strategies adopted to reduce household air pollution in the developing world 89 Fire explosion risk and mitigation editThis section needs additional citations for verification Please help improve this article by adding citations to reliable sources in this section Unsourced material may be challenged and removed September 2009 Learn how and when to remove this template message nbsp LPG Horton sphere tanks at a Repsol Butano facility in Gijon SpainIn a refinery or gas plant LPG must be stored in pressure vessels These containers are either cylindrical and horizontal sometimes referred to as bullet tanks or spherical of the Horton sphere type Typically these vessels are designed and manufactured according to some code In the United States this code is governed by the American Society of Mechanical Engineers ASME LPG containers have pressure relief valves such that when subjected to exterior heating sources they will vent LPGs to the atmosphere or a flare stack If a tank is subjected to a fire of sufficient duration and intensity it can undergo a boiling liquid expanding vapor explosion BLEVE This is typically a concern for large refineries and petrochemical plants that maintain very large containers In general tanks are designed so that the product will vent faster than pressure can build to dangerous levels One remedy that is utilized in industrial settings is to equip such containers with a measure to provide a fire resistance rating Large spherical LPG containers may have up to a 15 cm steel wall thickness They are equipped with an approved pressure relief valve A large fire in the vicinity of the vessel will increase its temperature and pressure The relief valve on the top is designed to vent off excess pressure in order to prevent the rupture of the container itself Given a fire of sufficient duration and intensity the pressure being generated by the boiling and expanding gas can exceed the ability of the valve to vent the excess Alternatively if due to continued venting the liquid level drops below the area being heated the tank structure can be overheated and subsequently weakened in that area If either occurs the container may rupture violently launching pieces of the vessel at high velocity while the released products can ignite as well potentially causing catastrophic damage to anything nearby including other containers People can be exposed to LPG in the workplace by breathing it in skin contact and eye contact The Occupational Safety and Health Administration OSHA has set the legal limit Permissible exposure limit for LPG exposure in the workplace as 1000 ppm 1800 mg m3 over an 8 hour workday The National Institute for Occupational Safety and Health NIOSH has set a recommended exposure limit REL of 1000 ppm 1800 mg m3 over an 8 hour workday At levels of 2000 ppm 10 of the lower explosive limit LPG is considered immediately dangerous to life and health due solely to safety considerations pertaining to risk of explosion 90 See also edit nbsp Energy portalCompressed natural gas CNG Filling carousel Gasoline gallon equivalent Industrial gas Intumescent POL valveReferences edit World Energy Prices Database Documentation PDF Report 2020 ed International Energy Agency Archived PDF from the original on 8 February 2024 Retrieved 8 February 2024 NFPA 2017 Liquefied Petroleum Gas Code NFPA 58 2017 ed Quincy Mass National Fire Protection Association pp 11 132 ISBN 978 1455913879 Enciclopedia degli idrocarburi Encyclopaedia of Hydrocarbons in Italian Vol II Roma Italy Eni and Istituto della Enciclopedia Italiana 2005 p 26 OCLC 955421604 Alvi Moin ud Din Aerosol Propellant Aerosol Propellant Gas Aerosol Supplies Dubai Brothers Gas www brothersgas com Archived from the original on 30 December 2016 Retrieved 14 June 2016 Performance and Safety of LPG Refrigerants PDF Archived from the original PDF on 10 March 2015 ed George E Totten ed 2003 Fuels and lubricants handbook technology properties performance and testing 2nd printing ed West Conshohocken Pa ASTM International ISBN 9780803120969 Archived from the original on 4 June 2016 Unipetrol Analysis of seasonal mixtures Propane butane Fuel Mixture Summer Winter Archived from the original on 9 August 2010 Retrieved 29 April 2013 Liquefied Petroleum Gas Specifications and Test Methods Gas Processors Association Archived from the original on 21 June 2013 Retrieved 18 May 2012 ASTM D1835 11 Standard Specification for Liquefied Petroleum LP Gases American Society for Testing amp Materials Archived from the original on 22 May 2012 49 CFR 173 315 Horst Bauer ed 1996 Automotive Handbook 4th ed Stuttgart Robert Bosch GmbH pp 238 239 ISBN 0 8376 0333 1 Zivenko Oleksiy 2019 LPG Accounting Specificity During ITS Storage and Transportation Measuring Equipment and Metrology 80 3 21 27 doi 10 23939 istcmtm2019 03 021 ISSN 0368 6418 S2CID 211776025 High purity propylene from refinery LPG Kinetic studies of propane oxidation on Mo and V based mixed oxide catalysts 2011 LPG pdf PDF Algeria Lpg Prices Angola Lpg Prices Saudi Arabia Lpg Prices Russia Lpg Prices Kyrgyzstan Lpg Prices Azerbaijan Lpg Prices Taiwan Lpg Prices Australia Lpg Prices Honduras Lpg Prices Peru Lpg Prices Belarus Lpg Prices Cambodia Lpg Prices Paraguay Lpg Prices Lithuania Lpg Prices Bulgaria Lpg Prices Turkey Lpg Prices Ukraine Lpg Prices Mongolia Lpg Prices Georgia Lpg Prices Albania Lpg Prices South Korea Lpg Prices Dominican Republic Lpg Prices Poland Lpg Prices Chile Lpg Prices Philippines Lpg Prices Estonia Lpg Prices Czech Republic Lpg Prices Bosnia And Herzegovina Lpg Prices India Lpg Prices Slovakia Lpg Prices San Marino Lpg Prices Latvia Lpg Prices Romania Lpg Prices Italy Lpg Prices Macedonia Lpg Prices Moldova Lpg Prices Belgium Lpg Prices Luxembourg Lpg Prices Netherlands Lpg Prices Lebanon Lpg Prices Serbia Lpg Prices Portugal Lpg Prices United Kingdom Lpg Prices Canada Lpg Prices Slovenia Lpg Prices Croatia Lpg Prices Israel Lpg Prices Hungary Lpg Prices Spain Lpg Prices France Lpg Prices Greece Lpg Prices Fiji Lpg Prices Switzerland Lpg Prices Germany Lpg Prices Sweden Lpg Prices LPG Profile PDF Archived PDF from the original on 8 April 2017 Retrieved 30 March 2017 ANP quer fim de diferenca entre precos do gas de botijao 17 08 2017 Mercado Folha de S Paulo Retrieved 25 January 2019 a b Zhang Chunhua Bian Yaozhang Si Lizeng Liao Junzhi Odbileg N 2005 A study on an electronically controlled liquefied petroleum gas diesel dual fuel automobile Proceedings of the Institution of Mechanical Engineers Part D Journal of Automobile Engineering 219 2 207 doi 10 1243 095440705X6470 S2CID 109657186 a b Qi D Bian Y Ma Z Zhang C Liu S 2007 Combustion and exhaust emikon characteristics of a compression ignition engine using liquefied petroleum gas fuel oil blended fuel Energy Conversion and Management 48 2 500 doi 10 1016 j enconman 2006 06 013 overview of advantages and disadvantages of alternatives PDF Technical Meeting on HCFC Phase Out European Commission 5 6 April 2008 Archived from the original PDF on 5 August 2009 Retrieved 30 July 2009 Detailed Questions About HC 12a OZ 12 DURACOOL 12a EC 12a and 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household refrigerators air cooling systems and as a DDT carrier in aerosol insect bombs have been found to be more effective in extinguishing fires than carbon dioxide Yeoman Amber M Lewis Alastair C 22 April 2021 Global emissions of VOCs from compressed aerosol products Elementa Science of the Anthropocene 9 1 00177 doi 10 1525 elementa 2020 20 00177 ISSN 2325 1026 Solstice Propellant Technical Bulletin PDF Honeywell 2017 Statistical Review of Global LPG 2016 PDF Argus Media Archived from the original PDF on 10 April 2017 Retrieved 13 January 2017 WLPGA Annual Report 2015 PDF World LPG Association Archived PDF from the original on 10 April 2017 Retrieved 13 January 2017 Needham John 7 April 2016 U S Is World s Largest LPG Exporter But When Will Market Balance Butane Propane News Archived from the original on 30 December 2017 Retrieved 10 April 2017 Green Finance and Investment Promoting Clean Urban Public Transportation and Green Investment in Kazakhstan OECD Publishing 2017 p 124 ISBN 978 9264279643 Shah Yatish T 16 March 2017 Chemical Energy from Natural and Synthetic Gas CRC Press ISBN 9781315302348 World Health Organization 2016 Burning opportunity clean household energy for health sustainable development and wellbeing of women and children Geneva Switzerland WHO Archived from the original on 24 November 2017 CDC NIOSH Pocket Guide to Chemical Hazards L P G www cdc gov Archived from the original on 8 December 2015 Retrieved 28 November 2015 Calorific value of Different Fuels Centre for Ecological Sciences IISc Archived from the original on 19 February 2020 External links editPropane 101 explaining propane and LP Gas fundamentals NIOSH Pocket Guide to Chemical Hazards Centers for Disease Control and Prevention Difference between CNG and LPG Retrieved from https en wikipedia org w index php title Liquefied petroleum gas amp oldid 1206383655, wikipedia, wiki, book, books, library,

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