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Thursday, August 24, 2023

Bitumen

From Wikipedia, the free encyclopedia
Natural bitumen from the Dead Sea
Refined bitumen
The University of Queensland pitch drop experiment, demonstrating the viscosity of bitumen

Bitumen (UK: /ˈbɪtjʊmɪn/, US: /bɪˈtjmən, b-/) is a sticky, black, highly viscous liquid or semi-solid form of petroleum. In the U.S., it is commonly referred to as asphalt. It may be found in natural deposits or may be a refined product, and is classed as a pitch. Before the 20th century, the term asphaltum was also used. The word is derived from the ancient Greek ἄσφαλτος ásphaltos. The largest natural deposit of bitumen in the world, estimated to contain 10 million tons, is the Pitch Lake in southwest Trinidad.

The primary use (70%) of bitumen is in road construction, where it is used as the glue or binder mixed with aggregate particles to create asphalt concrete. Its other main uses are for bituminous waterproofing products, including production of roofing felt and for sealing flat roofs.

In material sciences and engineering, the terms "asphalt" and "bitumen" are often used interchangeably to mean both natural and manufactured forms of the substance, although there is regional variation as to which term is most common. Worldwide, geologists tend to favor the term "bitumen" for the naturally occurring material. For the manufactured material, which is a refined residue from the distillation process of selected crude oils, "bitumen" is the prevalent term in much of the world; however, in American English, "asphalt" is more commonly used. To help avoid confusion, the phrases "liquid asphalt", "asphalt binder", or "asphalt cement" are used in the U.S. Colloquially, various forms of asphalt are sometimes referred to as "tar", as in the name of the La Brea Tar Pits, although tar is a different material.

Naturally occurring bitumen is sometimes specified by the term "crude bitumen". Its viscosity is similar to that of cold molasses while the material obtained from the fractional distillation of crude oil boiling at 525 °C (977 °F) is sometimes referred to as "refined bitumen". The Canadian province of Alberta has most of the world's reserves of natural bitumen in the Athabasca oil sands, which cover 142,000 square kilometres (55,000 sq mi), an area larger than England.

Terminology

Etymology

The word "bitumen" is from Latin, and passed via French into English. The Latin word traces to the Proto-Indo-European root *gʷet- "pitch"; see that link for other cognates.

The word "asphalt" is derived from the late Middle English, in turn from French asphalte, based on Late Latin asphalton, asphaltum, which is the latinisation of the Greek ἄσφαλτος (ásphaltos, ásphalton), a word meaning "asphalt/bitumen/pitch", which perhaps derives from ἀ-, "not, without", i.e. the alpha privative, and σφάλλειν (sphallein), "to cause to fall, baffle, (in passive) err, (in passive) be balked of".

The first use of asphalt by the ancients was in the nature of a cement for securing or joining various objects, and it thus seems likely that the name itself was expressive of this application. Specifically, Herodotus mentioned that bitumen was brought to Babylon to build its gigantic fortification wall.

From the Greek, the word passed into late Latin, and thence into French (asphalte) and English ("asphaltum" and "asphalt"). In French, the term asphalte is used for naturally occurring asphalt-soaked limestone deposits, and for specialised manufactured products with fewer voids or greater bitumen content than the "asphaltic concrete" used to pave roads.

Modern terminology

Bitumen mixed with clay was usually called "asphaltum", but the term is less commonly used today.

In American English, "asphalt" is equivalent to the British "bitumen". However, "asphalt" is also commonly used as a shortened form of "asphalt concrete" (therefore equivalent to the British "asphalt" or "tarmac").

In Canadian English, the word "bitumen" is used to refer to the vast Canadian deposits of extremely heavy crude oil, while "asphalt" is used for the oil refinery product. Diluted bitumen (diluted with naphtha to make it flow in pipelines) is known as "dilbit" in the Canadian petroleum industry, while bitumen "upgraded" to synthetic crude oil is known as "syncrude", and syncrude blended with bitumen is called "synbit".

"Bitumen" is still the preferred geological term for naturally occurring deposits of the solid or semi-solid form of petroleum. "Bituminous rock" is a form of sandstone impregnated with bitumen. The oil sands of Alberta, Canada are a similar material.

Neither of the terms "asphalt" or "bitumen" should be confused with tar or coal tars. Tar is the thick liquid product of the dry distillation and pyrolysis of organic hydrocarbons primarily sourced from vegetation masses, whether fossilized as with coal, or freshly harvested. The majority of bitumen, on the other hand, was formed naturally when vast quantities of organic animal materials were deposited by water and buried hundreds of metres deep at the diagenetic point, where the disorganized fatty hydrocarbon molecules joined in long chains in the absence of oxygen. Bitumen occurs as a solid or highly viscous liquid. It may even be mixed in with coal deposits. Bitumen, and coal using the Bergius process, can be refined into petrols such as gasoline, and bitumen may be distilled into tar, not the other way around.

Composition

Normal composition

The components of bitumen include four main classes of compounds:

Bitumen typically contains, elementally 80% by weight of carbon; 10% hydrogen; up to 6% sulfur; and molecularly, between 5 and 25% by weight of asphaltenes dispersed in 90% to 65% maltenes. Most natural bitumens also contain organosulfur compounds, Nickel and vanadium are found at <10 parts per million, as is typical of some petroleum. The substance is soluble in carbon disulfide. It is commonly modelled as a colloid, with asphaltenes as the dispersed phase and maltenes as the continuous phase. "It is almost impossible to separate and identify all the different molecules of bitumen, because the number of molecules with different chemical structure is extremely large".

Asphalt may be confused with coal tar, which is a visually similar black, thermoplastic material produced by the destructive distillation of coal. During the early and mid-20th century, when town gas was produced, coal tar was a readily available byproduct and extensively used as the binder for road aggregates. The addition of coal tar to macadam roads led to the word "tarmac", which is now used in common parlance to refer to road-making materials. However, since the 1970s, when natural gas succeeded town gas, bitumen has completely overtaken the use of coal tar in these applications. Other examples of this confusion include La Brea Tar Pits and the Canadian oil sands, both of which actually contain natural bitumen rather than tar. "Pitch" is another term sometimes informally used at times to refer to asphalt, as in Pitch Lake.

Additives, mixtures and contaminants

For economic and other reasons, bitumen is sometimes sold combined with other materials, often without being labeled as anything other than simply "bitumen".

Of particular note is the use of re-refined engine oil bottoms – "REOB" or "REOBs" – the residue of recycled automotive engine oil collected from the bottoms of re-refining vacuum distillation towers, in the manufacture of asphalt. REOB contains various elements and compounds found in recycled engine oil: additives to the original oil and materials accumulating from its circulation in the engine (typically iron and copper). Some research has indicated a correlation between this adulteration of bitumen and poorer-performing pavement.

Occurrence

Bituminous outcrop of the Puy de la Poix, Clermont-Ferrand, France

The majority of bitumen used commercially is obtained from petroleum. Nonetheless, large amounts of bitumen occur in concentrated form in nature. Naturally occurring deposits of bitumen are formed from the remains of ancient, microscopic algae (diatoms) and other once-living things. These natural deposits of bitumen have been formed during the Carboniferous period, when giant swamp forests dominated many parts of the Earth. They were deposited in the mud on the bottom of the ocean or lake where the organisms lived. Under the heat (above 50 °C) and pressure of burial deep in the earth, the remains were transformed into materials such as bitumen, kerogen, or petroleum.

Natural deposits of bitumen include lakes such as the Pitch Lake in Trinidad and Tobago and Lake Bermudez in Venezuela. Natural seeps occur in the La Brea Tar Pits and the McKittrick Tar Pits in California, as well as in the Dead Sea.

Bitumen also occurs in unconsolidated sandstones known as "oil sands" in Alberta, Canada, and the similar "tar sands" in Utah, US. The Canadian province of Alberta has most of the world's reserves, in three huge deposits covering 142,000 square kilometres (55,000 sq mi), an area larger than England or New York state. These bituminous sands contain 166 billion barrels (26.4×109 m3) of commercially established oil reserves, giving Canada the third largest oil reserves in the world. Although historically it was used without refining to pave roads, nearly all of the output is now used as raw material for oil refineries in Canada and the United States.

The world's largest deposit of natural bitumen, known as the Athabasca oil sands, is located in the McMurray Formation of Northern Alberta. This formation is from the early Cretaceous, and is composed of numerous lenses of oil-bearing sand with up to 20% oil. Isotopic studies show the oil deposits to be about 110 million years old. Two smaller but still very large formations occur in the Peace River oil sands and the Cold Lake oil sands, to the west and southeast of the Athabasca oil sands, respectively. Of the Alberta deposits, only parts of the Athabasca oil sands are shallow enough to be suitable for surface mining. The other 80% has to be produced by oil wells using enhanced oil recovery techniques like steam-assisted gravity drainage.

Much smaller heavy oil or bitumen deposits also occur in the Uinta Basin in Utah, US. The Tar Sand Triangle deposit, for example, is roughly 6% bitumen.

Bitumen may occur in hydrothermal veins. An example of this is within the Uinta Basin of Utah, in the US, where there is a swarm of laterally and vertically extensive veins composed of a solid hydrocarbon termed Gilsonite. These veins formed by the polymerization and solidification of hydrocarbons that were mobilized from the deeper oil shales of the Green River Formation during burial and diagenesis.

Bitumen is similar to the organic matter in carbonaceous meteorites. However, detailed studies have shown these materials to be distinct. The vast Alberta bitumen resources are considered to have started out as living material from marine plants and animals, mainly algae, that died millions of years ago when an ancient ocean covered Alberta. They were covered by mud, buried deeply over time, and gently cooked into oil by geothermal heat at a temperature of 50 to 150 °C (120 to 300 °F). Due to pressure from the rising of the Rocky Mountains in southwestern Alberta, 80 to 55 million years ago, the oil was driven northeast hundreds of kilometres and trapped into underground sand deposits left behind by ancient river beds and ocean beaches, thus forming the oil sands.

History

Ancient times

The use of natural bitumen for waterproofing, and as an adhesive dates at least to the fifth millennium BC, with a crop storage basket discovered in Mehrgarh, of the Indus Valley civilization, lined with it. By the 3rd millennium BC refined rock asphalt was in use in the region, and was used to waterproof the Great Bath in Mohenjo-daro.

In the ancient Middle East, the Sumerians used natural bitumen deposits for mortar between bricks and stones, to cement parts of carvings, such as eyes, into place, for ship caulking, and for waterproofing. The Greek historian Herodotus said hot bitumen was used as mortar in the walls of Babylon.

The 1 kilometre (0.62 mi) long Euphrates Tunnel beneath the river Euphrates at Babylon in the time of Queen Semiramis (c. 800 BC) was reportedly constructed of burnt bricks covered with bitumen as a waterproofing agent.

Bitumen was used by ancient Egyptians to embalm mummies. The Persian word for asphalt is moom, which is related to the English word mummy. The Egyptians' primary source of bitumen was the Dead Sea, which the Romans knew as Palus Asphaltites (Asphalt Lake).

In approximately 40 AD, Dioscorides described the Dead Sea material as Judaicum bitumen, and noted other places in the region where it could be found. The Sidon bitumen is thought to refer to material found at Hasbeya in Lebanon. Pliny also refers to bitumen being found in Epirus. Bitumen was a valuable strategic resource. It was the object of the first known battle for a hydrocarbon deposit – between the Seleucids and the Nabateans in 312 BC.

In the ancient Far East, natural bitumen was slowly boiled to get rid of the higher fractions, leaving a thermoplastic material of higher molecular weight that, when layered on objects, became hard upon cooling. This was used to cover objects that needed waterproofing, such as scabbards and other items. Statuettes of household deities were also cast with this type of material in Japan, and probably also in China.

In North America, archaeological recovery has indicated that bitumen was sometimes used to adhere stone projectile points to wooden shafts. In Canada, aboriginal people used bitumen seeping out of the banks of the Athabasca and other rivers to waterproof birch bark canoes, and also heated it in smudge pots to ward off mosquitoes in the summer.

Continental Europe

In 1553, Pierre Belon described in his work Observations that pissasphalto, a mixture of pitch and bitumen, was used in the Republic of Ragusa (now Dubrovnik, Croatia) for tarring of ships.

An 1838 edition of Mechanics Magazine cites an early use of asphalt in France. A pamphlet dated 1621, by "a certain Monsieur d'Eyrinys, states that he had discovered the existence (of asphaltum) in large quantities in the vicinity of Neufchatel", and that he proposed to use it in a variety of ways – "principally in the construction of air-proof granaries, and in protecting, by means of the arches, the water-courses in the city of Paris from the intrusion of dirt and filth", which at that time made the water unusable. "He expatiates also on the excellence of this material for forming level and durable terraces" in palaces, "the notion of forming such terraces in the streets not one likely to cross the brain of a Parisian of that generation".

But the substance was generally neglected in France until the revolution of 1830. In the 1830s there was a surge of interest, and asphalt became widely used "for pavements, flat roofs, and the lining of cisterns, and in England, some use of it had been made of it for similar purposes". Its rise in Europe was "a sudden phenomenon", after natural deposits were found "in France at Osbann (Bas-Rhin), the Parc (Ain) and the Puy-de-la-Poix (Puy-de-Dôme)", although it could also be made artificially. One of the earliest uses in France was the laying of about 24,000 square yards of Seyssel asphalt at the Place de la Concorde in 1835.

United Kingdom

Among the earlier uses of bitumen in the United Kingdom was for etching. William Salmon's Polygraphice (1673) provides a recipe for varnish used in etching, consisting of three ounces of virgin wax, two ounces of mastic, and one ounce of asphaltum. By the fifth edition in 1685, he had included more asphaltum recipes from other sources.

The first British patent for the use of asphalt was "Cassell's patent asphalte or bitumen" in 1834. Then on 25 November 1837, Richard Tappin Claridge patented the use of Seyssel asphalt (patent #7849), for use in asphalte pavement, having seen it employed in France and Belgium when visiting with Frederick Walter Simms, who worked with him on the introduction of asphalt to Britain. Dr T. Lamb Phipson writes that his father, Samuel Ryland Phipson, a friend of Claridge, was also "instrumental in introducing the asphalte pavement (in 1836)".

Claridge obtained a patent in Scotland on 27 March 1838, and obtained a patent in Ireland on 23 April 1838. In 1851, extensions for the 1837 patent and for both 1838 patents were sought by the trustees of a company previously formed by Claridge. Claridge's Patent Asphalte Company – formed in 1838 for the purpose of introducing to Britain "Asphalte in its natural state from the mine at Pyrimont Seysell in France", – "laid one of the first asphalt pavements in Whitehall". Trials were made of the pavement in 1838 on the footway in Whitehall, the stable at Knightsbridge Barracks, "and subsequently on the space at the bottom of the steps leading from Waterloo Place to St. James Park". "The formation in 1838 of Claridge's Patent Asphalte Company (with a distinguished list of aristocratic patrons, and Marc and Isambard Brunel as, respectively, a trustee and consulting engineer), gave an enormous impetus to the development of a British asphalt industry". "By the end of 1838, at least two other companies, Robinson's and the Bastenne company, were in production", with asphalt being laid as paving at Brighton, Herne Bay, Canterbury, Kensington, the Strand, and a large floor area in Bunhill-row, while meantime Claridge's Whitehall paving "continue(d) in good order". The Bonnington Chemical Works manufactured asphalt using coal tar and by 1839 had installed it in Bonnington.

In 1838, there was a flurry of entrepreneurial activity involving bitumen, which had uses beyond paving. For example, bitumen could also be used for flooring, damp proofing in buildings, and for waterproofing of various types of pools and baths, both of which were also proliferating in the 19th century. One of the earliest surviving examples of its use can be seen at Highgate Cemetery where it was used in 1839 to seal the roof of the terrace catacombs. On the London stockmarket, there were various claims as to the exclusivity of bitumen quality from France, Germany and England. And numerous patents were granted in France, with similar numbers of patent applications being denied in England due to their similarity to each other. In England, "Claridge's was the type most used in the 1840s and 50s".

In 1914, Claridge's Company entered into a joint venture to produce tar-bound macadam, with materials manufactured through a subsidiary company called Clarmac Roads Ltd. Two products resulted, namely Clarmac, and Clarphalte, with the former being manufactured by Clarmac Roads and the latter by Claridge's Patent Asphalte Co., although Clarmac was more widely used. However, the First World War ruined the Clarmac Company, which entered into liquidation in 1915. The failure of Clarmac Roads Ltd had a flow-on effect to Claridge's Company, which was itself compulsorily wound up, ceasing operations in 1917, having invested a substantial amount of funds into the new venture, both at the outset and in a subsequent attempt to save the Clarmac Company.

Bitumen was thought in 19th century Britain to contain chemicals with medicinal properties. Extracts from bitumen were used to treat catarrh and some forms of asthma and as a remedy against worms, especially the tapeworm.

United States

The first use of bitumen in the New World was by aboriginal peoples. On the west coast, as early as the 13th century, the Tongva, Luiseño and Chumash peoples collected the naturally occurring bitumen that seeped to the surface above underlying petroleum deposits. All three groups used the substance as an adhesive. It is found on many different artifacts of tools and ceremonial items. For example, it was used on rattles to adhere gourds or turtle shells to rattle handles. It was also used in decorations. Small round shell beads were often set in asphaltum to provide decorations. It was used as a sealant on baskets to make them watertight for carrying water, possibly poisoning those who drank the water. Asphalt was used also to seal the planks on ocean-going canoes.

Asphalt was first used to pave streets in the 1870s. At first naturally occurring "bituminous rock" was used, such as at Ritchie Mines in Macfarlan in Ritchie County, West Virginia from 1852 to 1873. In 1876, asphalt-based paving was used to pave Pennsylvania Avenue in Washington DC, in time for the celebration of the national centennial.

In the horse-drawn era, US streets were mostly unpaved and covered with dirt or gravel. Especially where mud or trenching often made streets difficult to pass, pavements were sometimes made of diverse materials including wooden planks, cobble stones or other stone blocks, or bricks. Unpaved roads produced uneven wear and hazards for pedestrians. In the late 19th century with the rise of the popular bicycle, bicycle clubs were important in pushing for more general pavement of streets. Advocacy for pavement increased in the early 20th century with the rise of the automobile. Asphalt gradually became an ever more common method of paving. St. Charles Avenue in New Orleans was paved its whole length with asphalt by 1889.

In 1900, Manhattan alone had 130,000 horses, pulling streetcars, wagons, and carriages, and leaving their waste behind. They were not fast, and pedestrians could dodge and scramble their way across the crowded streets. Small towns continued to rely on dirt and gravel, but larger cities wanted much better streets. They looked to wood or granite blocks by the 1850s. In 1890, a third of Chicago's 2000 miles of streets were paved, chiefly with wooden blocks, which gave better traction than mud. Brick surfacing was a good compromise, but even better was asphalt paving, which was easy to install and to cut through to get at sewers. With London and Paris serving as models, Washington laid 400,000 square yards of asphalt paving by 1882; it became the model for Buffalo, Philadelphia and elsewhere. By the end of the century, American cities boasted 30 million square yards of asphalt paving, well ahead of brick. The streets became faster and more dangerous so electric traffic lights were installed. Electric trolleys (at 12 miles per hour) became the main transportation service for middle class shoppers and office workers until they bought automobiles after 1945 and commuted from more distant suburbs in privacy and comfort on asphalt highways.

Canada

Canada has the world's largest deposit of natural bitumen in the Athabasca oil sands, and Canadian First Nations along the Athabasca River had long used it to waterproof their canoes. In 1719, a Cree named Wa-Pa-Su brought a sample for trade to Henry Kelsey of the Hudson's Bay Company, who was the first recorded European to see it. However, it wasn't until 1787 that fur trader and explorer Alexander MacKenzie saw the Athabasca oil sands and said, "At about 24 miles from the fork (of the Athabasca and Clearwater Rivers) are some bituminous fountains into which a pole of 20 feet long may be inserted without the least resistance."

The value of the deposit was obvious from the start, but the means of extracting the bitumen was not. The nearest town, Fort McMurray, Alberta, was a small fur trading post, other markets were far away, and transportation costs were too high to ship the raw bituminous sand for paving. In 1915, Sidney Ells of the Federal Mines Branch experimented with separation techniques and used the product to pave 600 feet of road in Edmonton, Alberta. Other roads in Alberta were paved with material extracted from oil sands, but it was generally not economic. During the 1920s Dr. Karl A. Clark of the Alberta Research Council patented a hot water oil separation process and entrepreneur Robert C. Fitzsimmons built the Bitumount oil separation plant, which between 1925 and 1958 produced up to 300 barrels (50 m3) per day of bitumen using Dr. Clark's method. Most of the bitumen was used for waterproofing roofs, but other uses included fuels, lubrication oils, printers ink, medicines, rust- and acid-proof paints, fireproof roofing, street paving, patent leather, and fence post preservatives. Eventually Fitzsimmons ran out of money and the plant was taken over by the Alberta government. Today the Bitumount plant is a Provincial Historic Site.

Photography and art

Bitumen was used in early photographic technology. In 1826, or 1827, it was used by French scientist Joseph Nicéphore Niépce to make the oldest surviving photograph from nature. The bitumen was thinly coated onto a pewter plate which was then exposed in a camera. Exposure to light hardened the bitumen and made it insoluble, so that when it was subsequently rinsed with a solvent only the sufficiently light-struck areas remained. Many hours of exposure in the camera were required, making bitumen impractical for ordinary photography, but from the 1850s to the 1920s it was in common use as a photoresist in the production of printing plates for various photomechanical printing processes.

Bitumen was the nemesis of many artists during the 19th century. Although widely used for a time, it ultimately proved unstable for use in oil painting, especially when mixed with the most common diluents, such as linseed oil, varnish and turpentine. Unless thoroughly diluted, bitumen never fully solidifies and will in time corrupt the other pigments with which it comes into contact. The use of bitumen as a glaze to set in shadow or mixed with other colors to render a darker tone resulted in the eventual deterioration of many paintings, for instance those of Delacroix. Perhaps the most famous example of the destructiveness of bitumen is Théodore Géricault's Raft of the Medusa (1818–1819), where his use of bitumen caused the brilliant colors to degenerate into dark greens and blacks and the paint and canvas to buckle.

Modern use

Global use

The vast majority of refined bitumen is used in construction: primarily as a constituent of products used in paving and roofing applications. According to the requirements of the end use, bitumen is produced to specification. This is achieved either by refining or blending. It is estimated that the current world use of bitumen is approximately 102 million tonnes per year. Approximately 85% of all the bitumen produced is used as the binder in asphalt concrete for roads. It is also used in other paved areas such as airport runways, car parks and footways. Typically, the production of asphalt concrete involves mixing fine and coarse aggregates such as sand, gravel and crushed rock with asphalt, which acts as the binding agent. Other materials, such as recycled polymers (e.g., rubber tyres), may be added to the bitumen to modify its properties according to the application for which the bitumen is ultimately intended.

A further 10% of global bitumen production is used in roofing applications, where its waterproofing qualities are invaluable. The remaining 5% of bitumen is used mainly for sealing and insulating purposes in a variety of building materials, such as pipe coatings, carpet tile backing and paint. Bitumen is applied in the construction and maintenance of many structures, systems, and components, such as the following:

  • Highways
  • Airport runways
  • Footways and pedestrian ways
  • Car parks
  • Racetracks
  • Tennis courts
  • Roofing
  • Damp proofing
  • Dams
  • Reservoir and pool linings
  • Soundproofing
  • Pipe coatings
  • Cable coatings
  • Paints
  • Building water proofing
  • Tile underlying waterproofing
  • Newspaper ink production
  • and many other applications

Rolled asphalt concrete

The largest use of bitumen is for making asphalt concrete for road surfaces; this accounts for approximately 85% of the bitumen consumed in the United States. There are about 4,000 asphalt concrete mixing plants in the US, and a similar number in Europe.

Asphalt concrete is usually placed on top in a road.

Asphalt concrete pavement mixes are typically composed of 5% bitumen (known as asphalt cement in the US) and 95% aggregates (stone, sand, and gravel). Due to its highly viscous nature, bitumen must be heated so it can be mixed with the aggregates at the asphalt mixing facility. The temperature required varies depending upon characteristics of the bitumen and the aggregates, but warm-mix asphalt technologies allow producers to reduce the temperature required.

The weight of an asphalt pavement depends upon the aggregate type, the bitumen, and the air void content. An average example in the United States is about 112 pounds per square yard, per inch of pavement thickness.

When maintenance is performed on asphalt pavements, such as milling to remove a worn or damaged surface, the removed material can be returned to a facility for processing into new pavement mixtures. The bitumen in the removed material can be reactivated and put back to use in new pavement mixes. With some 95% of paved roads being constructed of or surfaced with asphalt, a substantial amount of asphalt pavement material is reclaimed each year. According to industry surveys conducted annually by the Federal Highway Administration and the National Asphalt Pavement Association, more than 99% of the bitumen removed each year from road surfaces during widening and resurfacing projects is reused as part of new pavements, roadbeds, shoulders and embankments or stockpiled for future use.

Asphalt concrete paving is widely used in airports around the world. Due to the sturdiness and ability to be repaired quickly, it is widely used for runways.

Mastic asphalt

Mastic asphalt is a type of asphalt that differs from dense graded asphalt (asphalt concrete) in that it has a higher bitumen (binder) content, usually around 7–10% of the whole aggregate mix, as opposed to rolled asphalt concrete, which has only around 5% asphalt. This thermoplastic substance is widely used in the building industry for waterproofing flat roofs and tanking underground. Mastic asphalt is heated to a temperature of 210 °C (410 °F) and is spread in layers to form an impervious barrier about 20 millimeters (0.8 inches) thick.

Bitumen emulsion

Volume-weighted particle size distribution of 2 different asphalt emulsions determined by laser diffraction

Bitumen emulsions are colloidal mixtures of bitumen and water. Due to the different surface tensions of the two liquids, stable emulsions cannot be created simply by mixing. Therefore, various emulsifiers and stabilizers are added. Emulsifiers are amphiphilic molecules that differ in the charge of their polar head group. They reduce the surface tension of the emulsion and thus prevent bitumen particles from fusing. The emulsifier charge defines the type of emulsion: anionic (negatively charged) and cationic (positively charged). The concentration of an emulsifier is a critical parameter affecting the size of the bitumen particles - higher concentrations lead to smaller bitumen particles. Thus, emulsifiers have a great impact on the stability, viscosity, breaking strength, and adhesion of the bitumen emulsion. The size of bitumen particles is usually between 0.1 and 50 µm with a main fraction between 1 µm and 10 µm. Laser diffraction techniques can be used to determine the particle size distribution quickly and easily. Cationic emulsifiers primarily include long-chain amines such as imidazolines, amido-amines, and diamines, which acquire a positive charge when an acid is added. Anionic emulsifiers are often fatty acids extracted from lignin, tall oil, or tree resin saponified with bases such as NaOH, which creates a negative charge.

During the storage of bitumen emulsions, bitumen particles sediment, agglomerate (flocculation), or fuse (coagulation), which leads to a certain instability of the bitumen emulsion. How fast this process occurs depends on the formulation of the bitumen emulsion but also storage conditions such as temperature and humidity. When emulsified bitumen gets into contact with aggregates, emulsifiers lose their effectiveness, the emulsion breaks down, and an adhering bitumen film is formed referred to as 'breaking'. Bitumen particles almost instantly create a continuous bitumen film by coagulating and separating from water which evaporates. Not each asphalt emulsion reacts as fast as the other when it gets into contact with aggregates. That enables a classification into Rapid-setting (R), Slow-setting (SS), and Medium-setting (MS) emulsions, but also an individual, application-specific optimization of the formulation and a wide field of application (1). For example, Slow-breaking emulsions ensure a longer processing time which is particularly advantageous for fine aggregates (1).

Adhesion problems are reported for anionic emulsions in contact with quartz-rich aggregates. They are substituted by cationic emulsions achieving better adhesion. The extensive range of bitumen emulsions is covered insufficiently by standardization. DIN EN 13808 for cationic asphalt emulsions has been existing since July 2005. Here, a classification of bitumen emulsions based on letters and numbers is described, considering charges, viscosities, and the type of bitumen. The production process of bitumen emulsions is very complex. Two methods are commonly used, the "Colloid mill" method and the "High Internal Phase Ratio (HIPR)" method. In the "Colloid mill" method, a rotor moves at high speed within a stator by adding bitumen and a water-emulsifier mixture. The resulting shear forces generate bitumen particles between 5 µm and 10 µm coated with emulsifiers. The "High Internal Phase Ratio (HIPR)" method is used for creating smaller bitumen particles, monomodal, narrow particle size distributions, and very high bitumen concentrations. Here, a highly concentrated bitumen emulsion is produced first by moderate stirring and diluted afterward. In contrast to the "Colloid-Mill" method, the aqueous phase is introduced into hot bitumen, enabling very high bitumen concentrations.

T The "High Internal Phase Ratio (HIPR)" method is used for creating smaller bitumen particles, monomodal, narrow particle size distributions, and very high bitumen concentrations. Here, a highly concentrated bitumen emulsion is produced first by moderate stirring and diluted afterward. In contrast to the "Colloid-Mill" method, the aqueous phase is introduced into hot bitumen, enabling very high bitumen concentrations (1).he "High Internal Phase Ratio (HIPR)" method is used for creating smaller bitumen particles, monomodal, narrow particle size distributions, and very high bitumen concentrations. Here, a highly concentrated bitumen emulsion is produced first by moderate stirring and diluted afterward. In contrast to the "Colloid-Mill" method, the aqueous phase is introduced into hot bitumen, enabling very high bitumen concentrations (1).

Bitumen emulsions are used in a wide variety of applications. They are used in road construction and building protection and primarily include the application in cold recycling mixtures, adhesive coating, and surface treatment (1). Due to the lower viscosity in comparison to hot bitumen, processing requires less energy and is associated with significantly less risk of fire and burns. Chipseal involves spraying the road surface with bitumen emulsion followed by a layer of crushed rock, gravel or crushed slag. Slurry seal is a mixture of bitumen emulsion and fine crushed aggregate that is spread on the surface of a road. Cold-mixed asphalt can also be made from bitumen emulsion to create pavements similar to hot-mixed asphalt, several inches in depth, and bitumen emulsions are also blended into recycled hot-mix asphalt to create low-cost pavements. Bitumen emulsion based techniques are known to be useful for all classes of roads, their use may also be possible in the following applications: 1. Asphalts for heavily trafficked roads (based on the use of polymer modified emulsions) 2. Warm emulsion based mixtures, to improve both their maturation time and mechanical properties 3. Half-warm technology, in which aggregates are heated up to 100 degrees, producing mixtures with similar properties to those of hot asphalts 4. High performance surface dressing.

Synthetic crude oil

Synthetic crude oil, also known as syncrude, is the output from a bitumen upgrader facility used in connection with oil sand production in Canada. Bituminous sands are mined using enormous (100-ton capacity) power shovels and loaded into even larger (400-ton capacity) dump trucks for movement to an upgrading facility. The process used to extract the bitumen from the sand is a hot water process originally developed by Dr. Karl Clark of the University of Alberta during the 1920s. After extraction from the sand, the bitumen is fed into a bitumen upgrader which converts it into a light crude oil equivalent. This synthetic substance is fluid enough to be transferred through conventional oil pipelines and can be fed into conventional oil refineries without any further treatment. By 2015 Canadian bitumen upgraders were producing over 1 million barrels (160×103 m3) per day of synthetic crude oil, of which 75% was exported to oil refineries in the United States.

In Alberta, five bitumen upgraders produce synthetic crude oil and a variety of other products: The Suncor Energy upgrader near Fort McMurray, Alberta produces synthetic crude oil plus diesel fuel; the Syncrude Canada, Canadian Natural Resources, and Nexen upgraders near Fort McMurray produce synthetic crude oil; and the Shell Scotford Upgrader near Edmonton produces synthetic crude oil plus an intermediate feedstock for the nearby Shell Oil Refinery. A sixth upgrader, under construction in 2015 near Redwater, Alberta, will upgrade half of its crude bitumen directly to diesel fuel, with the remainder of the output being sold as feedstock to nearby oil refineries and petrochemical plants.

Non-upgraded crude bitumen

Canadian bitumen does not differ substantially from oils such as Venezuelan extra-heavy and Mexican heavy oil in chemical composition, and the real difficulty is moving the extremely viscous bitumen through oil pipelines to the refinery. Many modern oil refineries are extremely sophisticated and can process non-upgraded bitumen directly into products such as gasoline, diesel fuel, and refined asphalt without any preprocessing. This is particularly common in areas such as the US Gulf coast, where refineries were designed to process Venezuelan and Mexican oil, and in areas such as the US Midwest where refineries were rebuilt to process heavy oil as domestic light oil production declined. Given the choice, such heavy oil refineries usually prefer to buy bitumen rather than synthetic oil because the cost is lower, and in some cases because they prefer to produce more diesel fuel and less gasoline. By 2015 Canadian production and exports of non-upgraded bitumen exceeded that of synthetic crude oil at over 1.3 million barrels (210×103 m3) per day, of which about 65% was exported to the United States.

Because of the difficulty of moving crude bitumen through pipelines, non-upgraded bitumen is usually diluted with natural-gas condensate in a form called dilbit or with synthetic crude oil, called synbit. However, to meet international competition, much non-upgraded bitumen is now sold as a blend of multiple grades of bitumen, conventional crude oil, synthetic crude oil, and condensate in a standardized benchmark product such as Western Canadian Select. This sour, heavy crude oil blend is designed to have uniform refining characteristics to compete with internationally marketed heavy oils such as Mexican Mayan or Arabian Dubai Crude.

Radioactive waste encapsulation matrix

Bitumen was used starting in the 1960s as a hydrophobic matrix aiming to encapsulate radioactive waste such as medium-activity salts (mainly soluble sodium nitrate and sodium sulfate) produced by the reprocessing of spent nuclear fuels or radioactive sludges from sedimentation ponds. Bituminised radioactive waste containing highly radiotoxic alpha-emitting transuranic elements from nuclear reprocessing plants have been produced at industrial scale in France, Belgium and Japan, but this type of waste conditioning has been abandoned because operational safety issues (risks of fire, as occurred in a bituminisation plant at Tokai Works in Japan) and long-term stability problems related to their geological disposal in deep rock formations. One of the main problems is the swelling of bitumen exposed to radiation and to water. Bitumen swelling is first induced by radiation because of the presence of hydrogen gas bubbles generated by alpha and gamma radiolysis. A second mechanism is the matrix swelling when the encapsulated hygroscopic salts exposed to water or moisture start to rehydrate and to dissolve. The high concentration of salt in the pore solution inside the bituminised matrix is then responsible for osmotic effects inside the bituminised matrix. The water moves in the direction of the concentrated salts, the bitumen acting as a semi-permeable membrane. This also causes the matrix to swell. The swelling pressure due to osmotic effect under constant volume can be as high as 200 bar. If not properly managed, this high pressure can cause fractures in the near field of a disposal gallery of bituminised medium-level waste. When the bituminised matrix has been altered by swelling, encapsulated radionuclides are easily leached by the contact of ground water and released in the geosphere. The high ionic strength of the concentrated saline solution also favours the migration of radionuclides in clay host rocks. The presence of chemically reactive nitrate can also affect the redox conditions prevailing in the host rock by establishing oxidizing conditions, preventing the reduction of redox-sensitive radionuclides. Under their higher valences, radionuclides of elements such as selenium, technetium, uranium, neptunium and plutonium have a higher solubility and are also often present in water as non-retarded anions. This makes the disposal of medium-level bituminised waste very challenging.

Different types of bitumen have been used: blown bitumen (partly oxidized with air oxygen at high temperature after distillation, and harder) and direct distillation bitumen (softer). Blown bitumens like Mexphalte, with a high content of saturated hydrocarbons, are more easily biodegraded by microorganisms than direct distillation bitumen, with a low content of saturated hydrocarbons and a high content of aromatic hydrocarbons.

Concrete encapsulation of radwaste is presently considered a safer alternative by the nuclear industry and the waste management organisations.

Other uses

Roofing shingles and roll roofing account for most of the remaining bitumen consumption. Other uses include cattle sprays, fence-post treatments, and waterproofing for fabrics. Bitumen is used to make Japan black, a lacquer known especially for its use on iron and steel, and it is also used in paint and marker inks by some exterior paint supply companies to increase the weather resistance and permanence of the paint or ink, and to make the color darker. Bitumen is also used to seal some alkaline batteries during the manufacturing process.

Production

Typical asphalt plant for making asphalt

About 40,000,000 tons were produced in 1984. It is obtained as the "heavy" (i.e., difficult to distill) fraction. Material with a boiling point greater than around 500 °C is considered asphalt. Vacuum distillation separates it from the other components in crude oil (such as naphtha, gasoline and diesel). The resulting material is typically further treated to extract small but valuable amounts of lubricants and to adjust the properties of the material to suit applications. In a de-asphalting unit, the crude bitumen is treated with either propane or butane in a supercritical phase to extract the lighter molecules, which are then separated. Further processing is possible by "blowing" the product: namely reacting it with oxygen. This step makes the product harder and more viscous.

NYC Internet Provider, Stealth Communications, Laying Down Asphalt over Fiber-Optic Trench

Bitumen is typically stored and transported at temperatures around 150 °C (302 °F). Sometimes diesel oil or kerosene are mixed in before shipping to retain liquidity; upon delivery, these lighter materials are separated out of the mixture. This mixture is often called "bitumen feedstock", or BFS. Some dump trucks route the hot engine exhaust through pipes in the dump body to keep the material warm. The backs of tippers carrying asphalt, as well as some handling equipment, are also commonly sprayed with a releasing agent before filling to aid release. Diesel oil is no longer used as a release agent due to environmental concerns.

Oil sands

Naturally occurring crude bitumen impregnated in sedimentary rock is the prime feed stock for petroleum production from "oil sands", currently under development in Alberta, Canada. Canada has most of the world's supply of natural bitumen, covering 140,000 square kilometres (an area larger than England), giving it the second-largest proven oil reserves in the world. The Athabasca oil sands are the largest bitumen deposit in Canada and the only one accessible to surface mining, although recent technological breakthroughs have resulted in deeper deposits becoming producible by in situ methods. Because of oil price increases after 2003, producing bitumen became highly profitable, but as a result of the decline after 2014 it became uneconomic to build new plants again. By 2014, Canadian crude bitumen production averaged about 2.3 million barrels (370,000 m3) per day and was projected to rise to 4.4 million barrels (700,000 m3) per day by 2020. The total amount of crude bitumen in Alberta that could be extracted is estimated to be about 310 billion barrels (50×109 m3), which at a rate of 4,400,000 barrels per day (700,000 m3/d) would last about 200 years.

Alternatives and bioasphalt

Although uncompetitive economically, bitumen can be made from nonpetroleum-based renewable resources such as sugar, molasses and rice, corn and potato starches. Bitumen can also be made from waste material by fractional distillation of used motor oil, which is sometimes otherwise disposed of by burning or dumping into landfills. Use of motor oil may cause premature cracking in colder climates, resulting in roads that need to be repaved more frequently.

Nonpetroleum-based asphalt binders can be made light-colored. Lighter-colored roads absorb less heat from solar radiation, reducing their contribution to the urban heat island effect. Parking lots that use bitumen alternatives are called green parking lots.

Albanian deposits

Selenizza is a naturally occurring solid hydrocarbon bitumen found in native deposits in Selenice, in Albania, the only European asphalt mine still in use. The bitumen is found in the form of veins, filling cracks in a more or less horizontal direction. The bitumen content varies from 83% to 92% (soluble in carbon disulphide), with a penetration value near to zero and a softening point (ring and ball) around 120 °C. The insoluble matter, consisting mainly of silica ore, ranges from 8% to 17%.

Albanian bitumen extraction has a long history and was practiced in an organized way by the Romans. After centuries of silence, the first mentions of Albanian bitumen appeared only in 1868, when the Frenchman Coquand published the first geological description of the deposits of Albanian bitumen. In 1875, the exploitation rights were granted to the Ottoman government and in 1912, they were transferred to the Italian company Simsa. Since 1945, the mine was exploited by the Albanian government and from 2001 to date, the management passed to a French company, which organized the mining process for the manufacture of the natural bitumen on an industrial scale.

Today the mine is predominantly exploited in an open pit quarry but several of the many underground mines (deep and extending over several km) still remain viable. Selenizza is produced primarily in granular form, after melting the bitumen pieces selected in the mine.

Selenizza is mainly used as an additive in the road construction sector. It is mixed with traditional bitumen to improve both the viscoelastic properties and the resistance to ageing. It may be blended with the hot bitumen in tanks, but its granular form allows it to be fed in the mixer or in the recycling ring of normal asphalt plants. Other typical applications include the production of mastic asphalts for sidewalks, bridges, car-parks and urban roads as well as drilling fluid additives for the oil and gas industry. Selenizza is available in powder or in granular material of various particle sizes and is packaged in sacks or in thermal fusible polyethylene bags.

A life-cycle assessment study of the natural selenizza compared with petroleum bitumen has shown that the environmental impact of the selenizza is about half the impact of the road asphalt produced in oil refineries in terms of carbon dioxide emission.

Recycling

Bitumen is a commonly recycled material in the construction industry. The two most common recycled materials that contain bitumen are reclaimed asphalt pavement (RAP) and reclaimed asphalt shingles (RAS). RAP is recycled at a greater rate than any other material in the United States, and typically contains approximately 5–6% bitumen binder. Asphalt shingles typically contain 20–40% bitumen binder.

Bitumen naturally becomes stiffer over time due to oxidation, evaporation, exudation, and physical hardening. For this reason, recycled asphalt is typically combined with virgin asphalt, softening agents, and/or rejuvenating additives to restore its physical and chemical properties.

For information on the processing and performance of RAP and RAS, see Asphalt Concrete.

For information on the different types of RAS and associated health and safety concerns, see Asphalt Shingles.

For information on in-place recycling methods used to restore pavements and roadways, see Road Surface.

Economics

Although bitumen typically makes up only 4 to 5 percent (by weight) of the pavement mixture, as the pavement's binder, it is also the most expensive part of the cost of the road-paving material.

During bitumen's early use in modern paving, oil refiners gave it away. However, bitumen is a highly traded commodity today. Its prices increased substantially in the early 21st Century. A U.S. government report states:

"In 2002, asphalt sold for approximately $160 per ton. By the end of 2006, the cost had doubled to approximately $320 per ton, and then it almost doubled again in 2012 to approximately $610 per ton."

The report indicates that an "average" 1-mile (1.6-kilometer)-long, four-lane highway would include "300 tons of asphalt," which, "in 2002 would have cost around $48,000. By 2006 this would have increased to $96,000 and by 2012 to $183,000... an increase of about $135,000 for every mile of highway in just 10 years."

Health and safety

An asphalt mixing plant for hot aggregate

People can be exposed to bitumen in the workplace by breathing in fumes or skin absorption. The National Institute for Occupational Safety and Health (NIOSH) has set a recommended exposure limit of 5 mg/m3 over a 15-minute period.

Bitumen is basically an inert material that must be heated or diluted to a point where it becomes workable for the production of materials for paving, roofing, and other applications. In examining the potential health hazards associated with bitumen, the International Agency for Research on Cancer (IARC) determined that it is the application parameters, predominantly temperature, that affect occupational exposure and the potential bioavailable carcinogenic hazard/risk of the bitumen emissions. In particular, temperatures greater than 199 °C (390 °F), were shown to produce a greater exposure risk than when bitumen was heated to lower temperatures, such as those typically used in asphalt pavement mix production and placement. IARC has classified paving asphalt fumes as a Class 2B possible carcinogen, indicating inadequate evidence of carcinogenicity in humans.

In 2020, scientists reported that bitumen currently is a significant and largely overlooked source of air pollution in urban areas, especially during hot and sunny periods.

A bitumen-like substance found in the Himalayas and known as shilajit is sometimes used as an Ayurveda medicine, but is not in fact a tar, resin or bitumen.

Women and religion

From Wikipedia, the free encyclopedia

The study of women and religion examines women in the context of different religious faiths. This includes considering female gender roles in religious history as well as how women participate in religion. Particular consideration is given to how religion has been used as a patriarchal tool to elevate the status and power of men over women. In addition, religion portrays gender within religious doctrines.

Abrahamic religions

Christianity

Christian women in Maracaibo, Venezuela.

Christians have vastly diverse views on women's rights, responsibilities, and roles in different times and places. Many Christians believe that women and men are spiritually equal, and that their equality should be expressed in the Church's life. While some perspectives within the religion uphold equality between the sexes, others more rooted in the patriarchy of the ancient world equate cultural principles with religious ones to oppress women. A more patriarchal Christianity sets a mold for women to adhere to and limits their freedom in the church. According to such interpretations of the Christian Bible, wives are expected to be submissive in many ways. They are asked to be submissive to their husbands, the church, their community, and God. "At the head of every household is a man; at the head of a man is Christ, and the head of every woman is a man, and the head of Christ is God." Wives are seen as second in the family household, only to their husbands. This suggests that men are at the forefront of Christianity and adds to the issue of equal rights for women in the religion. In 2020, it has been estimated that the female share of the World's Christian Population is around 51.6%.

According to the scripture in Genesis, “the Lord God said, it is not good that the man should be alone; I will make him a help meet (fit or suitable) for him. The passage suggests that women are to play a supportive role to men and is supported in further passages from Christian Scripture. For example, in Colossians and Peter, women are called to submit to their husbands and stay silent in their shadow. Lastly, in terms of how women are suppressed by scripture, the specific passage in Titus calls for a woman to not teach or preach in public assembly. This would constitute the authority of a man.

While it has been estimated that the female share (aged 20 years and over) of the World's Christian Population is between 52 and 53 percent, leadership roles in modern organized churches and sects of Christianity are often restricted to males. In the Roman Catholic Church, as well as in Eastern Orthodox Churches and Oriental Orthodox Churches, only men may serve as priests or deacons. In addition, only males serve in senior leadership positions such as pope, patriarch, and bishop. However, in Christian history, women have been ordained to the diaconate and performed equal duties with male deacons. Although ordaining women as deacons fell out of mainstream practice many centuries ago, many Orthodox Churches have re-instated them to varying degrees. In 2017, Ani-Kristi Manvelian was ordained and consecrated with her male counterparts in the diaconate at Saint Sarkis Cathedral in Tehran. In addition to serving in the clergy, women may serve as nuns and abbesses.

Although many voices within Christianity profess equality for all and say women and men were created equally, as shown throughout history, women have been subject to the patriarchy embedded in the religion in some places and expressions. “In the midst of the Greek, Roman, and Jewish cultures, which viewed women almost on the level of possessions, Jesus showed love and respect for women.” As expressed in the preceding quote, Jesus Christ professed equality and Christianity expresses and celebrates equality. It is the patriarchy of society that influences Christianity and puts men in positions of power. Though women have played a vital role in the church, as expressed by the Acts and many others, none have ever been allowed leadership. Historically, women such as Mary Magdalene, who played a major role in supporting Jesus and the ministry, show just how influential women have been to Christianity.

The Apostle Paul is a great example in showing this as he worked, “side by side with them for the furtherance of the gospel,” but never himself appointed any women in roles of power. Women in the patriarchal forms of Christianity can be roughly summarised in the following quote: “Although, women are spiritual equals with men and the ministry of women is essential to the body of Christ, women are excluded from leadership over men in the church.” However, there are many exceptions to that in other expressions, times, and forms of the Christian faith. Especially during the middle ages, abbesses were women of significant authority and influence. They exercised spiritual authority not only over their nuns, but also over the monks at a double monastery. Whether the house was intended for women, men, or both, the abbess was always to be obeyed as the head of the house. From what history tells us, it is safe to conclude that the mainstream Christianity's hierarchy has benefitted women by putting them in places of authority over men. This is despite whatever cultural oppression some male leaders may have encouraged.

Many Christians in mainstream denominations not excluding Methodists, Episcopalians, Presbyterians and others disagree with the idea that women should not have leadership positions. There are New Testament texts which exhort Christians not to discriminate between men and women; for one example, Galatians 3:28 "There is neither Jew nor Gentile, neither slave nor free, nor is there male and female, for you are all one in Christ Jesus." A small minority of women are also mentioned in the New Testament as probably holding leadership positions, such as Phoebe, Junia, Priscilla and a few others. Note that many translators dispute the meaning or degree of leadership in these references. Modern popular female preachers like Joyce Meyer, Paula White and Kathryn Kuhlman have had or have leadership roles in Church. It is also mentioned in the Old Testament that women such as Deborah and Huldah were Prophets. In the New Testament Philip was said to have four daughters who prophesied.

Notably, Christians who believe in the veneration of saints hold the Virgin Mary in high regard. Catholic, Orthodox, and some other Christians believe that she is to be honoured and esteemed as the holiest and greatest of all created people. After the Holy Trinity, they honour her as the secondary paragon of holiness and goodness. As a result, they revere her with various and sundry titles, including "Queen of Heaven". There is much to be said for a sect of faith that venerates a woman as the greatest human being of all time. This is despite what other sects of that religion may declare or do.

The Gospel of Mary, a work tied to Christian Gnosticism, is the only known surviving apocryphal text that is named after a woman. According to its narrative, Mary Magdalene was the only follower of Jesus who truly understood his teachings.

Judaism

Women's role in Judaism is determined by the Hebrew Bible, the Oral Law (the corpus of rabbinic literature, including the Talmud), by custom, and by non-religious cultural factors. The Hebrew Bible and rabbinic literature mention various female role models. Religious law treats women differently in various circumstances. In historical Jewish texts, all people were seen as equal at the highest level: God. The Hebrew Bible states that “man” was made of both “male and female”, and originally had a dual gender for God, but this disappeared and God became referred to as "He and Him." In Judaism, God has never been exclusively viewed as male or masculine, but rather, God has both masculine and feminine qualities.

Judaism emphasizes family. Gender affects familial lines: in traditional Judaism, Jewishness is passed down through the mother, though the status of belonging to one of the three groups within Judaism (kohen, levite, or Israel) is inherited through the father. The Hebrew Scripture uses the father's name to identify sons and daughters, such as, "Dinah, daughter of Jacob". Responsibilities were not taken lightly for the family. Traditionally and in Orthodox Judaism, the "akeret habayit," or woman of the house, is referred to as the mainstay of the house, or "akeret habayit." According to a 2017 study by the Pew Research Center, women (aged 20 years and over) are slightly more numerous among the worldwide Jewish population (52%).

Women have been highly regarded within the Jewish community because they are capable of a great degree of "binah" (institution, understanding, intelligence). The term, “women of valor,” describes Jewish women's ideal characteristics. Traditionally, she devoted all her energies towards the “physical and spiritual well-being of her family.” Her continuous care enabled her husband and children to flourish, her personal reward being their successes. However, that role has been reshaped over time. The impact of "women of valor" extended beyond the household and into the community. Volunteer work has allowed women to sharpen their leadership and organizational skills. While it may seem that women have only had influence in smaller communities, Jewish women have eventually established enough authority to emerge as public figures. In 1972, Sally Priesand became the first woman ordained as a rabbi, in the Reform denomination. Women in the Reform, Conservative, Reconstructionist, and Renewal denominations are now able to lead worship services, read the Torah, and give drashes (sermons) just as men do, often contributing a different perspective.

Islam

Mary and Jesus in a Persian miniature

Islam is a monotheistic religion founded in the early seventh century by the prophet, Muhammad. The notion of a good life for a Muslim person is defined in Islam’s sacred text, the Quran. In addition, it is defined in the Hadith which are Muhammad's direct teachings. Although these sources covered a lot, there were still some situations that to interpretation. Thus, Islamic scholars formed consensus around a set of secondary sources, the most notable being the ijma, qiyas, ijtihad and fatwas. It is imperative to recognize that the Quran is not a static source with a fixed meaning but a dynamic, versatile one.

After the introduction of Islamic principles, men kept the dominant position. Women were required to be obedient to their husbands, fathers, and sons. This was less due to the religion's teachings than to the cultural norms of the era in which it arose.

Islam recognized men and women as equals in their ability to carry out Allah's wishes and Muhammad's teaching. The three main things sharia law introduced were women’s rights to marriage, inheritance, and divorce. It also restricted polygamy, by limiting men to marrying a maximum of four women at a time, requiring the husband to take care of each wife equally and properly. Muhammad himself had several wives, marrying some widows to give them a home and protection.

Muslims must observe the five pillars of Islam: praying five times a day, fasting during the month of Ramadan, making a pilgrimage to Mecca, donating to charity, and accepting Allah as the only God and Muhammad as Allah's prophet. Women have restrictions on praying in public, given instead separate private spaces. Also, women are not permitted to pray during menstruation as they are not considered clean. If women are pregnant or nursing during the month of Ramadan, they do not need to keep the sunup to sundown daily fasts. Segregation of men and women in Islamic centers gives Muslim women the right to work independently and not under men.

Due to their isolation, it became the responsibility of the ummah, or Muslim community, to pass down the customs and traditions that mold a Muslim women's life. This guidance, sharia, and Islamic scripture outlined the structure for her education, employment opportunities, rights to inheritance, dress, public appearance, domestic 'duties', age of marriage, freedom to consent to marriage, marriage contract, mahr, permissibility of birth control, divorce, sex outside or before marriage, ability to receive justice in case of sex crimes, property rights independent of her husband, and when salat (prayers) are mandatory for her.

East and Southeast Asian religions

Taoism

The roles of women in Taoism, have differed from the traditional patriarchy over women in ancient and imperial China. Chinese women had special importance in some Taoist schools that recognized their transcendental abilities to communicate with deities, who frequently granted women with revealed texts and scriptures. Women first came to prominence in the Highest Clarity School, which was founded in the 4th century by a woman, Wei Huacun.

Indian religions

Buddhism

A high-ranking Bhikkhuni in the Chinese Buddhist tradition during an alms round.

Buddhism can be considered to be revolutionary within the social and political realms of ancient India in regards to the role of women. Buddhism can be attributed as revolutionary due to the fact that Gautama Buddha admitted women into the monastic order, during a time when monastic communities were dominated by males in India.

Additionally, one of the main schools of tradition that originated from the early development of Buddhism, called Theravāda Buddhism, expresses the assumption that “all men and women, regardless of their caste, origins, or status, have equal spiritual worth.” Because Buddhism can be described as a religious and philosophical ideology that does not have an explicit “Creator” there is no implied “sacredness” in relation to one’s human form, which means that the practice itself is not bound to the ideas of gender, reproduction, and sexuality.

However, it is argued that Buddhist traditions still have underlying issues pertaining to gender roles. While Buddhist ideologies may be considered a revolutionary step forward in the status of women, many still consider the tradition to be subject to the social and political context of undermining gender issues during its upbringing, and even up to this day. The progression of gender issues, especially between gender and authority, can be seen during the time period of Hinayana Buddhism, when the Buddhist order underwent major reforms of splitting into about 20 different schools. During this time Buddhist narratives and beliefs arose limiting the status of women’s roles within the Buddhist communities, asserting that women could not reach enlightenment, or Buddhahood. This also meant that women would not attain positions of leadership because that they could not reach enlightenment, unless they “gain good karma and are reborn as men beforehand.”

Alternatively, Khandro Rinpoche, a female lama in Tibetan Buddhism, shows a more optimistic view in regards to women in Buddhism:

When there is a talk about women and Buddhism, I have noticed that people often regard the topic as something new and different.

They believe that women in Buddhism has become an important topic because we live in modern times and so many women are practicing

the Dharma now. However, this is not the case. The female sangha has been here for centuries. We are not bringing something new into a

2,500-year-old tradition. The roots are there, and we are simply re-energizing them.

In a YouTube interview on why there are so few female teachers in the Buddhist communities, Rinpoche goes on to say that:

It is because of a lack of education. It was a very patriarchal society back in the East. Wherever Buddhism grew, these societies

were very patriarchal. It limits the opportunity women have to study and be independent – and you have to study and be independent

to manifest any kind of realization or understanding…fortunately, that seems to be changing. I really think that opportunities for education

have now really increased for women – they are becoming very competitive and learned, and things are going to change.

Rinpoche states that while the underlying nature of the patriarchal system that still exists today creates more obstacles and limitations for women in Buddhism, she believes that there is a changing dynamic and optimistic future for women within the Buddhist community. According to a 2017 study by the Pew Research Center, women (aged 20 years and over) are slightly more numerous among worldwide Buddhist population (54%).

Hinduism

Hindu Bride
Durga Puja statue, Hiranandani Gardens, Mumbai, India, 2015.

Hinduism, states Professor of Indian Religion Edwin Bryant, has the strongest presence of the divine feminine among major world religions, from ancient times to the present. The goddess is viewed as central in Shakti and Saiva Hindu traditions. In Hinduism, women are portrayed as equal in value to men. For instance, Kali Ma (Dark Mother) "is the Hindu goddess of creation, preservation, and goddess of destruction." Her power included the origin of all creation's life, as well as the end of life. Due to her control over life and death, Kali was seen as a goddess who should be loved as well as feared. This leads to a higher status for the woman than the man, because everyone has to respect her in order to have a smooth life and live longer. Another important female figure is Shakti or Adishakti or Adiparashakti, the divine feminine - a goddess that embodies the energy of the universe, "often appearing to destroy demonic forces and restore balance". Because Shakti is a universal force, she embodies all the gods in Hinduism and is worshiped as the "mother goddess". In Hindu lore, the Goddess is referred as Devi or Devi Ma, meaning Mother Goddess. The Goddess is considered as the progenitor, sustainer and ultimately, the destroyer of the universe. She is worshipped as Durga - the warrior Goddess, Kali - the Goddess of time and death and regeneration, Lalita Tripurasundari - the divine lady of All Worlds and as Bhuvaneshwari, the Goddess of the Universe. The Goddess is worshipped in many forms as Lakshmi, the Goddess of wealth, fortune and prosperity and as Saraswati, the Goddess of knowledge, arts, education and learning.

Throughout history, Hindu women have held public religious positions as practitioners and conductors of Vedic Rituals. Hindu society has seen many female rulers, such as Rudramadevi, Rani Abbakka, Rani Durgavati, Rani Ahilyabai Holkar, Rani Chennamma of Keladi, women saints, such as Andal, philosophers, such as Maitreyi, and religious reformers. While Hinduism portrays women as figures who play an important role in understanding how the world works, women in Hindu society have often been marginalized and their importance has been diminished, as a result of "girls being made to feel lesser and not as important as boys". According to a 2017 study by the Pew Research Center, women (aged 20 years and over) are slightly less prevalent among worldwide Hindu population (49%).

Devdutt Pattnaik asserts that "Hindu mythology reveals that patriarchy, the idea that men are superior to women, was invented", a societal shift in power occurred between men and women, sometimes to the point where a woman was in a subordinated position to a male. On the other side, matriarchal theology is quite prevalent in Sanskritic traditions and village Hinduism relating to the worship of Shakti, and there are numerous Hindu communities that are matriarchal. Where there has been societal inequality, reformers and feminists have utilized Hinduism's texts to reorient the social status of women to provide them with equal opportunities, and modern Hindu society has witnessed an upsurge in women taking up leadership roles in many contemporary institutions.

Jainism

Jainism is an ancient Indian religion founded around the sixth century BCE. Janism is a nontheistic religion currently practiced in multiple countries, due to Jain settlers who immigrated there (mainly United Kingdom, United States, Canada and some African countries). Jainism is inclusive of women. One of the cornerstones of the religion is the “fourfold" sangha which describes the Jainism community, which is made up of monks, nuns, laymen and laywomen.

The religious status of women is a very important aspect of the history of the religion and one of the most critical issues between the oldest religious divisions of the religion, Svetambar and Digambar. The major distinction between these two divisions is the position of women in their societies. Digambar Jains believe that women are not capable of being enlightened due to the belief that the male can let go of all his material possessions in order to attain enlightenment including clothes whereas a woman cannot because of social norms.

While Svetambar Jains have opposite beliefs, believing that women are able to become renouncers, are capable of enlightenment and can become religious role models. Women, especially among Svetambar Jains, are believed to be deceitful, and that this characteristic is the main foundation of their character, to the extent that rebirth as a woman is a consequence of being deceitful in a former life. One of their sacred texts states:

“As the result of manifesting deception, a man in this world becomes a woman. As a woman, if her heart is pure, she becomes a man in this world.”

Women are important in Jainism, playing a major role in its structure (nuns and laywomen), making up two of the four categories within the community and participating in the continuation and spread of the religion. The Jain social structure is patriarchal, with men holding primary leadership roles in the society. Except for modern times, Jain women have been unable to speak for themselves or to tell their stories. Almost all the texts regarding Jain women's roles and experiences have been written by monks, who are males. The pan-Indian belief that women are “weak-minded”, “deceptive”, “fickle”, “treacherous” and “impure” are beliefs common to Jainism and mentioned various times in their sacred and later texts.

Jain women do have significant roles, however, especially in the performance of certain rituals. But there are various rituals women still aren't allowed to perform; for example, bathing or touching the statue of Gods. Though some temples have altered the rules, there are many temples who still don't allow it.

Jain women are nuns and laywomen in this society. In the fourfold community, the mendicants (monks and nuns) center their lives around asceticism. There are stricter rules/restrictions on nuns in their daily routine and rituals compared to those for monks. And nuns are dependent and subordinate to monks. More years are needed by nuns to gain higher positions in comparison to monks. Although nuns may have seniority in tenure they may be subservient to monks with fewer years in their religious life.

The laity, which consists of laymen and laywomen, are very important to Jainism for its survival and economic foundation. The laity support the mendicant orders, following rules which create the groundwork of the religion. For example, the doctrine of Jainism places great emphasis on dietary practices. Laywomen play a very important role in ensuring that the rules surrounding dietary practices are followed, as their first and major responsibility is the preparation of meals.

Sikhism

Volunteers preparing langar at the Golden Temple in Amritsar, India.

According to Sikhism, men and women are two sides of the same coin. There is a system of inter-relation and inter-dependence where man is born of woman, and woman is born of man's seed. According to Sikhism a man can not feel secure and complete during his life without a woman, and a man's success is related to the love and support of the woman who shares her life with him, and vice versa. The founder of Sikhism, Guru Nanak, reportedly said in 1499 that "It is a woman who keeps the race going" and that we should not "consider woman cursed and condemned when from woman are born leaders and rulers".

Sikhs have had an obligation to treat women as equals, and gender discrimination in Sikh society has not been allowed. However, gender equality has been difficult to achieve

At the time of the Gurus, women were considered very low in society. Women were treated as mere property whose only value was as a servant or for entertainment. They were considered seducers and distractions from man's spiritual path. Men were allowed polygamy but widows were not allowed to remarry; instead, they were encouraged to burn themselves on their husbands funeral pyre (sati). Child marriage and female infanticide were prevalent and purdah (veils) were popular for women. Women were also not allowed to inherit any property. Many Hindu women were captured and sold as slaves in foreign Islamic countries.

The Sikh faith is 500 years old. Guru Nanak spread the message of equality and love. Guru Nanak preached about a universal God which is not limited to different religions, race, colour, gender, and nation. The Sikh belief is made up of justice and human rights with historical examples of the Sikh Gurus as well as their followers that make sacrifices for their faith and religion.

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