For other Japanesse Fan uses, see Fan.
A fan is a device used Japanees Fan to induce airflow and generally made from broad, flat Japnese Fan surfaces which revolve or oscillate. The most common applications of fans are Jappanese Fan for creature comfort, ventilation, or gaseous transport for industrial purposes. Leaves or flat objects, Japanse Fan waved to produce a more comfortable atmosphere, are the simplest kind of fan.
Typical applications include ornamental decorations, climate control, cooling systems, Japannese Fan personal wind-generation (e.g., an Japanee Fan electric table fan), ventilation (e.g., an exhaust fan), winnowing Apanese Fan (e.g., separating chaff of cereal grains), removing dust (e.g., sucking as in a vacuum Japaese Fan cleaner), drying (usually in addition to heat) and to provide draft for a fire.
- 1 History
- 1.1 Etymology
- 1.2 Ancient
- 1.3 Asia
- 1.4 Europe
- 1.5 Mechanical Japanesee Fan development
- 2 Mechanical Japnaese Fan devices
- 2.1 Types
- 2.2 Gas turbine fan
- 2.3 Other Jpanese Fan kinds of fans
- 3 See also
- 4 Books
- 5 External links
Old English fann referred to a basket or shovel for winnowing. It was a loan from Latin vannus, with the same meaning, derived from ventus "wind" or a related root (cf. vates). In the sense of "device for moving air" the word is first attested 1390, the hand-held version is first recorded in 1555.
19th century depiction of ancient Egyptian fans and other items.
Fan history stretches back thousands of years. Since antiquity, fans have possessed a dual function – a status symbol and a useful ornament. In the course of their development, fans have been made of a variety of materials and have included decorative artwork. The simplest fans are leaves or flat objects, waved to produce a cooler atmosphere. These rigid or folding hand-held implements have been used for cooling, for air circulation, as a ceremonial device, and as a sartorial accessory throughout the world from ancient times. They are still widely used.
The earliest known fans are called 'screen fans' or 'fixed leaf fans'. These were manipulated by hand to cool the body, to produce a breeze, and to ward off insects. Such early fans usually took the form of palm leaves. Some of the earliest known fans have come from Egyptian tombs. Early Assyria and Egypt employed slaves and servants to manipulate the fan. In Egyptian reliefs, fans were of the rigid type. Tutankhamum's tomb possessed gold fans with ostrich feathers, matching depictions on tomb walls. Long-handled, disk-shaped fans were carried by attendants in ancient times and were associated with regal and religious ceremonies. They had handles or sticks attached to a rigid leaf or to feathers. Plumage of birds was used in fans, such as those of the Egyptians and Native American Indians, that had both practical and ceremonial uses.
In the ancient Americas, the Aztec, Maya, and South American cultures used bird feathers in their fans. Among the Aztec fans were used to depict merchants in illustrations of trades. The use of various feather types had a religious connotation. The Paracas people of South America (modern Peru) have left numerous examples of ancient feather fans among their mummies. In India, the Hindi term for a fan is 'pankha' (a derivative of "a feather" or "a bird's wing"). Pictorial evidence records that the Greeks, the Etruscans, and the Romans used fans as cooling and ceremonial devices. In Greece, linen was stretched over leaf-shaped frames. In Rome, gilded and painted wooden fans were used. Roman ladies throughout the empire used circular fans. Chinese sources link the fan with mythical and historical characters.
In China, screen fans were used throughout society. The earliest known Chinese fans are a pair of woven bamboo side-mounted fans from the 2nd century BC. The Chinese character for "fan" (扇) is etymologically derived from a picture of feathers under a roof. The Chinese fixed fan, pien-mien, means 'to agitate the air'.
19th century depiction of a Japanese folding fan.
Fans were part of the social status for the Chinese people. A particular status and gender would accord a specific type of fan to an individual. The folding fan was invented in Japan in the 8th century and taken to China in the 9th century. The Akomeogi (or Japanese folding fan; 衵扇; Hiôgi) originated in the 6th century. These were fans held by aristocrats of the Heian period when formally dressed. They were made by tying thin stripes of hinoki (or Japanese cypress) together with thread. The number of strips of wood differed according to the person's rank. They are used today by Shinto priests in formal costume and in the formal costume of the Japanese court (they can be seen used by the Emperor and Empress during coronation and marriage) and are brightly painted with long tassels. The Chinese dancing fan was developed in the 7th century. The Chinese form of the hand fan was a row of feathers mounted in the end of a handle.
In China, the folding fan came into fashion during the Ming dynasty between the years of 1368 and 1644, and Hangzhou was a center of folding fan production. The Mai Ogi (or Chinese dancing fan) has ten sticks and a thick paper mount showing the family crest. Chinese painters crafted many fan decoration designs. The slats, of ivory, bone, mica, mother of pearl, sandalwood, or tortoise shell, were carved and covered with paper or fabric. Folding fans have "montures" which are the sticks and guards. The leaves are usually painted by craftsman. Social significance was attached to the fan in the Far East. The management of the fan became a highly regarded feminine art. The function and employment of the fan reached its high point of social significance (fans were even used as a weapon - called the iron fan, or tiě shān in Chinese, tessen in Japanese). Simple Japanese paper fans are sometimes known as "harisens". In Japanese current pop culture, Harisens are featured frequently in animation and graphic novels as weapons.
Printed fan leaves and painted fans are done on a paper ground. The paper was originally hand made and displayed the characteristic watermarks. Machine made paper fans, introduced in the 19th century, are smoother with an even texture.
Folding fans (扇子 Japanese "sensu", Chinese: "shān zi";) continue to be important cultural symbols and popular tourist souvenirs in East Asia.
See also: Chinese paper art
Depiction of an 18th century folding fan with French design patterns.
In Europe, during the Middle Ages, the fan was absent. The West's earliest fan is a flabellum (or ceremonial fan), which dates to the 6th century. Hand fans were reintroduced to Europe in the 13th century and 14th century. Fans from the Middle East were brought back by Crusaders. In the 15th century, Portuguese traders brought fans to Europe from China and Japan. Fans became generally popular.
In the 1600s the folding fan, introduced from China, became popular in Europe. These fans are particularly well displayed in the portraits of the high-born women of the era. Queen Elizabeth 1st of England can be seen to carry both folding fans decorated with pom poms on their guardsticks as well as the older style rigid fan, usually decorated with feathers and jewels. These rigid style fans often hung from the skirts of ladies, but of the fans of this era it is only the more exotic folding ones which have survived. Those folding fans of the 15th century to found in museums today have either leather leaves with cut out designs forming a lace-like design or a more rigid leaf with inlays of more exotic materials like mica. One of the characteristics of these fans is the rather crude bone or ivory sticks and they way the leather leaves are often slotted onto the sticks rather than glued as with later folding fans. However, despite the relative crude methods of construction folding fans were at this era high status, exotic items on par with elaborate gloves as gifts to royalty.
In the 17th century the rigid fan which was seen in portraits of the previous century had fallen out of favour as folding fans gained dominance in Europe. Fans started to display well painted leaves, often with a religious or classical subject. The reverse side of these early fans also started to display elaborate flower designs. The sticks are often plain ivory or tortoiseshell, sometimes inlaid with gold or silver pique work. The way the sticks sit close to each other, often with little or no space between them is one of the distinguishing characteristics of fans of this era.
In 1685 the Edict of Nantes was revoked in France. This caused large scale immigration from France to the surrounding Protestant countries (such as England) of many fan craftsman. This dispersion in skill is reflected in the growing quality of many fans from these non-French countries after this date.
In the 18th century, fans reached a high degree of artistry and were being made throughout Europe often by specialised craftsmen, either in leaves or sticks. Folded fans of lace, silk, or parchment were decorated and painted by artists. Fans were also imported from China by the East India Companies at this time. Around the middle 1700s, inventors started designing mechanical fans. Wind-up fans (similar to wind-up clocks) were popular in the 1700s. In the 19th century in the West, European fashion caused fan decoration and size to vary.
It has been said that in the courts of England, Spain and elsewhere fans were used in a more or less secret, unspoken code of messages. These fan languages were a way to cope with the restricting social etiquette. But in fact this language is a marketing tip used by fan makers like Duvelleroy in London.
The first recorded mechanical fan was the punkah fan used in the Middle East in the 1500s. It had a canvas covered frame that was suspended from the ceiling. Servants, known as punkah wallahs, pulled a rope connected to the frame to move the fan back and forth.
Patent drawing for a Fan Moved by Mechanism
, 27 November 1830.
The Industrial Revolution in the late 1800s introduced belt-driven fans powered by factory waterwheels. Attaching wooden or metal blades to shafts overhead that were used to drive the machinery, the first industrial fans were developed. One of the first workable mechanical fans was built by A.A. Sablukov in 1832. He called his invention, a kind of a centrifugal fan, an Air Pump. Centrifugal fans were successfully tested inside coal mines and factories in 1832-1834. When Thomas Edison and Nikola Tesla introduced electrical power in the late 1800s and early 1900s for the public, the personal electrical fan was introduced. Between 1882 and 1886, Dr. Schuyler Skaats Wheeler developed the two-bladed desk fan, a type of personal electric fan. It was commercially marketed by the American firm Crocker & Curtis. In 1882, Philip H. Diehl introduced the electric ceiling fan. Diehl is considered the father of the modern electric fan. In the late 1800s, electric fans were used only in commercial establishments or in well-to-do households. Heat-convection fans fueled by alcohol, oil, or kerosene were common around the turn of the 20th century.
In the 1920s, industrial advances allowed steel to be mass-produced in different shapes, bringing fan prices down and allowing more homeowners to afford them. In the 1930s, the first art deco fan was designed. Before this fan, called the Silver Swan, most household fans were fairly plain. In the 1950s, fans were manufactured in colors that were bright and eye catching. Central air conditioning in the 1960s brought an end to the golden age of the electric fan. In the 1970s, Victorian-style ceiling fans became popular.
In the twentieth century, fans have become utilitarian. During the 2000s, fan aesthetics have become a concern to fan buyers. The fan is part of everyday life in the Far East, Japan, and Spain (among other places). Electric fans have been largely replaced by air conditioners in households and offices, even though electric fans consume much less energy than air conditioners.
Large fan used to blow fresh air into a Virginia coal mine.
Mechanically, a fan can be any revolving vane or vanes used for producing currents of air. Fans produce air flows with high volume and low pressure, as opposed to a gas compressor which produces high pressures at a comparatively low volume. Fans are useful for moving large quantities of air, which is suited for applications such as winnowing grain or blowing a fire, cooling and ventilation purposes, and in conjunction with a heat source for heating and drying. A fan blade will often rotate when exposed to an air stream, and devices that take advantage of this, such as anemometers and wind turbines often have designs similar to that of a fan.
Mechanical revolving blade fans are made in a wide range of designs. In a home you can find fans that can be put on the floor or a table, or hung from the ceiling, or are built into a window, wall, roof, chimney, etc. They can be found in electronic systems such as computers where they cool the circuits inside, and in appliances such as hair dryers and space heaters. They are also used for cooling in air-conditioning systems, and in automotive engines, where they are driven by belts or by direct motor. Fans create a wind chill but do not lower temperatures directly.
A diagram of a centrifugal fan, with top view to show airflow
There are three main types of fans used for moving air, axial, centrifugal (also called radial) and cross flow (also called tangential). The axial-flow fans have blades that force air to move parallel to the shaft about which the blades rotate. Axial fans blow air across the axis of the fan, linearly, hence their name. This is the most commonly used type of fan, and is used in a wide variety of applications, ranging from small cooling fans for electronics to the giant fans used in wind tunnels. The centrifugal fan has a moving component (called an impeller) that consists of a central shaft about which a set of blades form a spiral pattern. Centrifugal fans blow air at right angles to the intake of the fan, and spin (centrifugally) the air outwards to the outlet. An impeller rotates, causing air to enter the fan near the shaft and move perpendicularly from the shaft to the opening in the scroll-shaped fan casing. A centrifugal fan produces more pressure for a given air volume, and is used where this is desirable such as in leaf blowers, air mattress inflators, and various industrial purposes. They are typically noisier than comparable axial fans. The cross flow fan has a squirrel cage rotor (a rotor with a hollow center and axial fan blades along the periphery). Tangential fans take in air along the periphery of the rotor, and expel it through the outlet in a similar fashion to the centrifugal fan. Cross flow fans give off an even airflow along the entire width of the fan, and are very quiet in operation. They are comparatively bulky, and the air pressure is low. Cross flow fans are often used in air conditioners, automobile ventilation systems, and for cooling in medium-sized equipment such as photocopiers. The action of a fan or blower causes pressures slightly above atmospheric, which are called plenums.
Fans typically go along together with electric motors. An electric motor's poor low speed torque and powerful high speed torque are a natural match for a fan's load. Fans are often attached directly to the motor's output, with no need for gears or belts. The electric motor is either hidden in the fan's center hub or extends behind it. For big industrial fans, 3-phase asynchronous motors are commonly used. Smaller fans are often powered by shaded pole AC motors, or brushed or brushless DC motors. AC-powered fans usually use mains voltage, while DC-powered fans use low voltage, typically 24 V, 12 V or 5 V. Cooling fans for computer equipment exclusively use brushless DC motors, which produce much less EMI. In machines which already have a motor, the fan is often connected to this rather than being powered independently. This is commonly seen in cars, large cooling systems and winnowing machines.
Basic elements of a typical table fan include the fan blade, base, armature and lead wires, motor, blade guard, motor housing, oscillator gearbox, and oscillator shaft. The oscillator is a mechanism that motions the fan from side to side. The axle comes out on both ends of the motor, one end of the axle is attached to the blade and the other is attached to the oscillator gearbox. The motor case joins to the gearbox to contain the rotor and stator. The oscillator shaft combines to the weighted base and the gearbox. A motor housing covers the oscillator mechanism. The blade guard joins to the motor case for safety.
Electro-mechanical fans, among collectors, are rated according to their condition, size, age, and number of blades. Four-blade designs are the most common. Five-blade or six-blade designs are rare. The materials from which the components are made, such as brass, are important factors in fan desirability.
A fan suspended from the ceiling of a room is a ceiling fan. For in-depth discussion of ceiling fans, please see the article here.
Electric fans used for ventilation may be powered by solar panels instead of mains current. This is an attractive option because once the capital costs of the solar panel have been covered, the resulting electricity is free. In addition, electricity is always available when the sun is shining and the fan needs to run.
A typical example uses a detached 10 watt, 12x12 inch (30x30 cm) solar panel and is supplied with appropriate brackets, cables, and connectors. It can be used to ventilate up to 1250 square feet (100 m²) of area and can move air at up to 800 cubic feet per minute (400 L/s). Because of the wide availability of 12 V brushless DC electric motors and the convenience of wiring such a low voltage, such fans usually operate on 12 volts.
The detached solar panel is typically installed in the spot which gets most of the sun light and then connected to the fan mounted as far as 20 to 25 feet (6 to 7 m) away. Other permanently-mounted and small portable fans include an integrated (non-detachable) solar panel.
Gas turbine fan
The low pressure compressor in a turbofan engine is often called a fan. Typically, these units absorb thousands of horsepower, the power being provided by the expansion of hot combustion gases through the low pressure turbine.
The fan is usually located at the front of the turbomachinery, immediately downstream of the air intake.
Modern civil turbofans usually have a single fan stage, that is a row of rotating rotor blades, followed by a row of stationary exit guide vanes (or stators).
Military turbofans (e.g. those fitted to a combat aircraft) usually have two or more fan stages, the first stage, again, normally being a rotor followed by a stator assembly.
Several turbofans feature an aft fan, where the fan rotor blades are mounted radially outwards of the (LP) turbine rotor blades. This dispenses with the need for an (LP) shaft. In an early example, General Electric bolted a fan/turbine unit to the rear of a J79 turbojet, to convert it into the CJ805 turbofan.
The unusual General Electric CF700 turbofan engine was also developed as an aft-fan engine with a 2.0 bypass ratio. This was derived from the T-38 Talon and the Learjet General Electric J85/CJ610turbojet (2,850 lbf or 12,650 N) to power the larger Rockwell Sabre 75/80 version of the Sabreliner aircraft, as well as the Dassault Falcon 20 with about a 50% increase in thrust (4,200 lbf or 18,700 N). The CF700 was the first small turbofan in the world to be certificated by the Federal Aviation Administration. There are now over 400 CF700 aircraft in operation around the world, with an experience base of over 10 million service hours. The CF700 turbofan engine was also used to train Moon-bound astronauts in the Apollo Project as the powerplant for the Lunar Landing Research Vehicle.
The GE36 UDF Demonstrator used a similar arrangement to convert an F404 mixed exhaust turbofan into a propfan.
Early gas turbine fans rotated at subsonic tip speeds, to avoid the generation of shock waves in the airflow. Modern fans, however, often rotate at supersonic tip speeds, and exploit the shock waves. Some advanced designs can generate a pressure ratio of more than 2.2:1 in a single stage, although 1.8:1 is more typical.
- Supersonic through-flow fan
Although supersonic fans rotate at a supersonic tip speed, the axial flow is subsonic. However, some experimental devices have demonstrated supersonic axial flow. All the speed lines on the resulting fan map (or characteristic) are virtually horizontal, unlike those of more conventional units.
Several ultra-high bypass ratio turbofan demonstrator engines (e.g. Rolls-Royce/SNECMA M45SD-02) have incorporated variable pitch fans, much like the variable pitch propellers on a turboprop engine. Varying the pitch of the rotor blades improves the low flight speed handling of the low pressure ratio fan unit, without the need to resort to a variable area cold or mixed flow nozzle. Reverse thrust down to zero aircraft speed is also practical.
Some multi-stage, high pressure ratio, fans on military turbofan engines incorporate variable geometry (e.g. F404). The variability is usually confined to the inlet guide vanes. Although the leading edge of the vane is static, a piano-type hinge allows the trailing edge to be adjusted in pitch, to redirect the airflow onto the first rotor. VIGV's enhance the surge margin of the fan in the mid-flow region.
Some ultra-high bypass ratio turbofans dispense with the fan nacelle and have an unducted fan rotor. The fan blades, which resemble scimitars, are especially shaped to work efficiently at flight speeds up to about Mach 0.75. General Electric demonstrated a propfan engine, called the GE36 UDF, in the 1980s.
Turbojets and early turbofans used the inlet guide vanes to support the front bearing of the (LP) compressor/fan rotor assembly. Today, the fans used in turbofan engines are often to an overhung design, where the fan rotor is cantilevered out forward, beyond the front bearing. This facilitates the removal of the inlet guide vanes. Consequently, the fan rotor blades are the first aerofoils encountered by the engine airflow.
Prior to the introduction of wide chord fan blades, fan blades fitted to turbofan engines often featured snubbers. These are protuberances that stick-out at right angles to the fan aerofoil, somewhere between mid-span and blade tip. The snubbers on adjacent fan blades butt-up against each other, in a peripheral sense, and improve the vibration characteristics of the blade.
Wire lacing (e.g. Pegasus) is an alternative approach.
As might be expected, snubbers reduce the aerodynamic efficiency of fan aerofoils. Rolls-Royce pioneered a more efficient alternative: wide chord fan blades. The increased blade chord (i.e. width) is used to enhance the vibration characteristics.
Wide chord first went into service in the RB311-535E4 for the Boeing 757 in 1984 and have been a feature of the RB211/Trent/V2500 engine family ever since. Potential weight increases are usually offset by making the blades hollow. Other engine manufacturers have now introduced wide chord fans.
Engine manufacturers are beginning to introduce so-called swept fan blades, which should yield benefits in aerodynamic efficiency and noise.
Other kinds of fans
A Ford Cologne V6 engine, showing the fan on the left side.
- In a fan heater, a fan (or blower) blows cool air past a heating element, heating the air (forced convection). It has a fan wheel with vanes fixed on a rotating shaft enclosed in a case or chamber, to create a blast of air (i.e., the fan blast) for forge purposes.
- A Japanese war fan is a weapon made to look like a folding fan.
- In automobiles, a mechanical fan, driven with a belt and pulley off the engine's crankshaft, or an electric fan switched on/off by a thermo switch is used to blow or suck air through a coolant filled radiator, to prevent the engine from overheating.
- A fan is also a small vane or sail that is used to keep the large sail of a smock windmill always in the direction of the wind.
- Heat exchanger
- Wind turbine
- Fan death
- The Fan Museum in Greenwich (Greenwich, London)
- Computer cooling
- Computer fan
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- North, Audrey. "Australia's fan heritage". Boolarong Publications (1985). ISBN 0-86439-001-7
- Hart, Avril & Taylor, Emma. "Fans" (V & A Fashion Accessories Series). Publisher- V & A Publications. ISBN 1-85177-213-8
- Bennett, Anna G. "Unfolding beauty: The art of the fan : the collection of Esther Oldham and the Museum of Fine Arts, Boston". Thames and Hudson (1988). ISBN 0-87846-279-1
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- Gitter, Kurt A. "Japanese fan paintings from western collections". Publisher- New Orleans Museum of Art (1985). ISBN 0-89494-021-X
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