Pneumatic tubes (or capsule pipelines, also known as pneumatic tube transport or PTT) are systems that propel cylindrical containers through networks of tubes by compressed air or by partial vacuum. They are used for transporting solid objects, as opposed to conventional pipelines which transport fluids. In the late 19th and early 20th centuries, pneumatic tube networks gained acceptance in offices that needed to transport small, urgent packages, such as mail, other paperwork, or money, over relatively short distances, within a building or, at most, within a city. Some installations became quite complex, but have mostly been superseded. However, they have been further developed in the 21st century in places such as hospitals, to send blood samples and the like to clinical laboratories for analysis. [1]
A small number of pneumatic transportation systems were built for larger cargo, to compete with train and subway systems. However, they never gained popularity.
Pneumatic transportation was invented by William Murdoch around 1799. [2] Capsule pipelines were first used in the Victorian era, to transmit telegrams from telegraph stations to nearby buildings. The system is known as pneumatic dispatch. [3]
In 1854, Josiah Latimer Clark was issued a patent "for conveying letters or parcels between places by the pressure of air and vacuum". In 1853, he installed a 220-yard (200 m) pneumatic system between the London Stock Exchange in Threadneedle Street, London, and the offices of the Electric Telegraph Company in Lothbury. [3] The Electric Telegraph Company used the system to acquire stock prices and other financial information to pass to subscribers of their service over their telegraph wires. The advantage of the pneumatic system was that, without it, the company would have had to employ runners to carry messages between the two buildings, or else employ trained telegraph operators within the Stock Exchange. In the mid-1860s, the company installed similar systems to local stock exchanges in Liverpool, Birmingham, and Manchester. [4] After the telegraphs were nationalised in Britain, the pneumatic system continued to be expanded under Post Office Telegraphs. That expansion was due to Joseph William Willmot (previously employed at the Electric & International Telegraph Company) improving Latimer-Clark's invention in 1870 with the "double sluice pneumatic valve" and, in 1880, the "intermediate signaller/quick break switch for pneumatic tubes", which dramatically sped up the process, and made it possible for a number of carrier messages to be in the tube at any one time. [5] By 1880, there were over 21 miles (34 km) of tube in London. [6] A tube was laid between the Aberdeen fish market office and the main post office, to facilitate the rapid sale of the very perishable commodity. [7]
While they are commonly used for small parcels and documents, including cash carriers at banks or supermarkets, [8] in the early 19th century, they were proposed for transport of heavy freight. It was once envisaged that networks of massive tubes might be used to transport people. [9]
The technology is still used on a smaller scale. While its use for communicating information has been superseded by electronics, pneumatic tubes are widely used for transporting small objects, where convenience and speed in a local environment are important. [1]
In the United States, drive-up banks often used pneumatic tubes to transport cash and documents between cars and tellers; by the 2020s some of these have been removed, obviated by the rise of mobile banking apps and the increasing sophistication of ATMs. Many hospitals have a computer-controlled pneumatic tube system to deliver drugs, documents, and specimens to and from laboratories and nurses' stations. [1] Many factories use them to deliver parts quickly across large campuses. Many larger stores use systems to securely transport excess cash from checkout stands to back offices, and to send change back to cashiers. [10] They are used in casinos to move money, chips, and cards quickly and securely. Japanese love hotels use them to allow customers to settle bills anonymously (no face-to-face contact). [11] NASA's original Mission Control Center had pneumatic tubes connecting controller consoles with staff support rooms. Mission Operations Control Room 2, was last used in its original configuration in 1992 and then remodeled for other missions. Because the room was designated a National Historic Landmark in 1985, it was decided in 2017 to restore it to its 1960s condition. [12] The pneumatic tubes were removed and sent to the Cosmosphere in Kansas for restoration. [13]
Pneumatic tube systems have been used in nuclear chemistry to transport samples during neutron activation analysis. Samples must be moved from the nuclear reactor core, in which they are bombarded with neutrons, to the instrument that measures the resulting radiation. As some of the radioactive isotopes in the sample can have very short half-lives, speed is important. These systems may be automated, with a magazine of sample tubes that are moved into the reactor core in turn for a predetermined time, before being moved to the instrument station and finally to a container for storage and disposal. [14]
Until it closed in early 2011, a McDonald's in Edina, Minnesota claimed to be the "World's Only Pneumatic Air Drive-Thru," sending food from their strip-mall location to a drive-through in the middle of a parking lot. [15]
Technology editor Quentin Hardy noted renewed interest as of 2015 [update] in transmission of data by pneumatic tube accompanied discussions of digital network security, [16] and he cited research into London's forgotten pneumatic network. [17]
Related applications include fish cannons [18] which use mechanisms very similar to pneumatic tube systems.
Pneumatic post or pneumatic mail is a system to deliver letters through pressurized air tubes. It was invented by the Scottish engineer William Murdoch in the 19th century and was later developed by the London Pneumatic Despatch Company. Pneumatic post systems were used in several large cities starting in the second half of the 19th century (including an 1866 London system powerful and large enough to transport humans during trial runs – though not intended for that purpose), [19] but later were largely abandoned.
A major network of tubes in Paris (the Paris pneumatic post) was in use until 1984, when it was abandoned in favor of computers and fax machines. The Prague pneumatic post commenced for the public in 1889 in Prague, now in the Czech Republic, and the network extended approximately 60 kilometres (37 mi).
Pneumatic post stations usually connect post offices, stock exchanges, banks and ministries. Italy was the only country to issue postage stamps (between 1913 and 1966) specifically for pneumatic post. Austria, France, and Germany issued postal stationery for pneumatic use.
Typical applications are in banks, hospitals, and supermarkets. Many large retailers used pneumatic tubes to transport cheques or other documents from cashiers to the accounting office.
In 1812, George Medhurst first proposed, but never implemented, blowing passenger carriages through a tunnel. [30] Precursors of pneumatic tube systems for passenger transport, the atmospheric railway (for which the tube was laid between the rails, with a piston running in it suspended from the train through a sealable slot in the top of the tube) were operated as follows: [31]
In 1861, the London Pneumatic Despatch Company built a system large enough to move a person, although it was intended for parcels. The inauguration of the new Holborn Station on 10 October 1865 was marked by having the Duke of Buckingham, the chairman, and some company directors blown through the tube to Euston (a five-minute trip).
The 550-metre (1,804 ft) Crystal Palace pneumatic railway was exhibited at the Crystal Palace in 1864. This was a prototype for a proposed Waterloo and Whitehall Railway that would have run under the River Thames linking Waterloo and Charing Cross. Digging commenced in 1865 but was halted in 1868 due to financial problems.
In 1867 at the American Institute Fair in New York, Alfred Ely Beach demonstrated a 100-foot (30 m) long, 6-foot (1.8 m) diameter pipe that was capable of moving 12 passengers plus a conductor. [32] One year after New York City's first-ever elevated rail line went into service; in 1869, the Beach Pneumatic Transit Company of New York secretly constructed a 312-foot (95 m) long, 8.9-foot (2.7 m) diameter pneumatic subway line under Broadway, to demonstrate the possibilities of the new transport mode. [32] The line only operated for a few months, closing after Beach was unsuccessful in getting permission to extend it – Boss Tweed, a corrupt influential politician, did not want it to go ahead as he was intending to personally invest into competing schemes for an elevated rail line. [33]
In the 1920s, the Canadian Pacific and Canadian National Railways cooperated together to lay an elaborate system of 4,500 metre pneumatic tubing between four of their offices to Postal Station A at Union Station in Toronto, Canada. There was also a connection to the mail room at the Royal York Hotel. The newspapers the Star and Telegram joined into the system, laying pipes. [34] In the 1960s, Lockheed and MIT with the United States Department of Commerce conducted feasibility studies on a vactrain system powered by ambient atmospheric pressure and "gravitational pendulum assist" to connect cities on the country's East Coast. [32] They calculated that the run between Philadelphia and New York City would average 174 meters per second, that is 626 km/h (388 mph). When those plans were abandoned as too expensive, Lockheed engineer L.K. Edwards founded Tube Transit, Inc. to develop technology based on "gravity-vacuum transportation". In 1967 he proposed a Bay Area Gravity-Vacuum Transit for California that would run alongside the then-under construction BART system. It was never built.
Research into trains running in partially evacuated tubes, such as the Vactrain and Hyperloop, is continuing.
A pneumatic elevator consists of a cylindrical vertical shaft (typically made of transparent plastic), and a passenger capsule (also transparent) within the shaft which moves vertically by means of differential air pressure above and below. The main advantage that it requires neither a pit below or a loft above the shaft.
For ascending operations, a vacuum pump at the top of the elevator shaft creates a low pressure by drawing air from above the capsule while below the greater normal atmospheric pressure is permitted to enter at the lower (ground floor) level below the capsule providing lift.
To descend, electronically controlled valves inside the tubular shaft regulate the entry and exit of air within the cylinder lowering the car smoothly by means of programmed operation. In the event of a failure of the vacuum pump or electronically controlled valves, the trapped volume of air below the capsule acts as a cushion that is allowed to slowly escape by means of a mechanical valve, gently returning the capsule to the lowest level.
In large retail stores, pneumatic tube systems were used to transport sales slips and money from the salesperson to a centralized tube room, where cashiers could make change, reference credit records, and so on. [35]
Many banks with drive-throughs also use pneumatic tubes. [8]
Many hospitals have pneumatic tube systems which send samples to laboratories. [1] [36] Blood preservations are transported, where weight and transport duration matter as well as preventing haemolysis caused by centrifugal and accelerating forces. Pneumatic tube systems are also used in hospitals to transport X-rays, patient documents, general documents, drugs and test results.
6-inch (152 mm) pneumatic tube systems have been shown to handle heavy liter-capacity IV bags with significantly fewer jams compared to the 4-inch (102 mm) systems.
To manage its mail order business the department store Sears built "massive warehouses, like its central facility in Chicago, in which messages to various departments and assembly workers were sent through pneumatic tubes". [37] Many other department stores had pneumatic tube systems in the 20th century, such as Jacksons of Reading and Myer in Melbourne, Australia. The National Library of Australia's building (opened 1968), incorporates a pneumatic tube system for sending book requests from the reading rooms to the book stacks. The system is no longer used, but remains partially operational, and is demonstrated on behind the scenes tours.
The use of pneumatic tubes in waste disposal units include the Masjid al-Haram, Mecca, [38] GlashusEtt in the Hammarby Sjöstad area of Stockholm, Sweden, Old Montreal, Canada, Disney World, Florida, and Roosevelt Island and Hudson Yards, New York (US).
Pneumatic tube systems are used in production plants. Uses include conveying spare parts, measuring instruments, tools, or work pieces alongside conveyor belts or in the production process. In industrial laboratories samples are transported through the pneumatic tube systems. These can be conveyed in any physical state (solid, liquid, gas) and at any temperature. For example, the industrial company ThyssenKrupp sends 900 °C (1,650 °F) steel samples through pneumatic tubes at a rate of 22 m (72 ft) per second from the furnace to the laboratory. [39]
Modern systems (for smaller, i.e. “normal”, tube diameters as used in the transport of small capsules) reach speeds of around 7.5 m (25 ft) per second, though some historical systems already achieved speeds of 10 m (33 ft) per second. [1] [40] At the same time, varying air pressures allow capsules to brake slowly, removing the jarring arrival that used to characterise earlier systems and make them unsuitable for fragile contents. [1]
Very powerful systems can transport items with a weight of up to 50 kg (110 lb) and a diameter of up to 500 mm (20 in). [39] More than 100 lines and 1000 stations can be connected.
Further, modern systems can be computer-controlled for tracking of any specific capsule and managing priority deliveries as well as system efficiency. With this technology, time-critical items can be transported, such as tissue samples taken during a surgery in a hospital. RFID chips within the capsules gather data – e. g. about the location of the carrier, its transport speed or its destination. [41] The systems collect and save these data to help users optimize their internal processes and turnaround times. The facilities can be linked to the company's software systems, e.g. laboratory information systems, for full integration into company logistical management and production chains.
The Post Office Railway, known since 1987 as Mail Rail, is a 2 ft narrow gauge, driverless underground railway in London that was built by the Post Office with assistance from the Underground Electric Railways Company of London, to transport mail between sorting offices. Inspired by the Chicago Tunnel Company, it opened in 1927 and operated for 76 years until it closed in 2003. A museum within the former railway was opened in September 2017.
Subterranean London refers to a number of subterranean structures that lie beneath London. The city has been occupied by humans for two millennia. Over time, the capital has acquired a vast number of these structures and spaces, often as a result of war and conflict.
A railway air brake is a railway brake power braking system with compressed air as the operating medium. Modern trains rely upon a fail-safe air brake system that is based upon a design patented by George Westinghouse on April 13, 1869. The Westinghouse Air Brake Company was subsequently organized to manufacture and sell Westinghouse's invention. In various forms, it has been nearly universally adopted.
Alfred Ely Beach was an American inventor, entrepreneur, publisher, and patent lawyer, born in Springfield, Massachusetts. He is known for his design of the earliest predecessor to the New York City Subway, the Beach Pneumatic Transit, which became the first subway in America. He was an early owner and cofounder of Scientific American and Munn & Co., the country's leading patent agency, and helped secure patents for Thomas Edison, Alexander Graham Bell, Cornelius Vanderbilt, and other innovators. A member of the Union League of New York, he also invented a typewriter for the blind and a system for heating water with solar power.
An atmospheric railway uses differential air pressure to provide power for propulsion of a railway vehicle. A static power source can transmit motive power to the vehicle in this way, avoiding the necessity of carrying mobile power generating equipment. The air pressure, or partial vacuum can be conveyed to the vehicle in a continuous pipe, where the vehicle carries a piston running in the tube. Some form of re-sealable slot is required to enable the piston to be attached to the vehicle. Alternatively the entire vehicle may act as the piston in a large tube or be coupled electromagnetically to the piston.
The Beach Pneumatic Transit was the first attempt to build an underground public transit system in New York City. It was developed by Alfred Ely Beach in 1869 as a demonstration subway line running on pneumatic power. The line had one stop in the basement of the Rogers Peet Building, near the old City Hall station, and a one-car shuttle running between the building and a dead end approximately 300 feet (91 m) away. It was not a regular mode of transportation and lasted from 1870 until 1873.
A vactrain is a proposed design for very-high-speed rail transportation. It is a maglev line using partly evacuated tubes or tunnels. Reduced air resistance could permit vactrains to travel at very high (hypersonic) speeds with relatively little power—up to 6,400–8,000 km/h (4,000–5,000 mph). This is 5–6 times the speed of sound in Earth's atmosphere at sea level.
The following outline is provided as an overview of and topical guide to transport:
An automated vacuum waste collection system, also known as pneumatic refuse collection, or automated vacuum collection (AVAC), transports waste at high speeds through underground pneumatic tubes to a collection station where the waste is compacted and sealed in containers. Full containers are transported away to be emptied. The AVAC system helps facilitate the separation and recycling of waste material.
Cash carriers were used in shops and department stores to carry customers' payments from the sales assistant to the cashier and to carry the change and receipt back again. The benefits of a "centralised" cash system were that it could be more closely supervised by management, there was less opportunity for pilfering, and it freed up the assistant to attend to the customer and perhaps make further or better sales.
The Railway Clearing House (RCH) was an organisation set up to manage the allocation of revenue collected by pre-grouping railway companies for the conveyance of passengers and goods over the lines of other companies. It went on to become the major regulatory body overseeing the day-to-day running of railways in Great Britain and setting common standards for railway companies, which ensured their safety and interoperability. The RCH also produced fare structures governing many aspects of rail transport at a national level and set limits on price increases for passenger travel.
A conveyor system is a common piece of mechanical handling equipment that moves materials from one location to another. Conveyors are especially useful in applications involving the transport of heavy or bulky materials. Conveyor systems allow quick and efficient transport for a wide variety of materials, which make them very popular in the material handling and packaging industries. They also have popular consumer applications, as they are often found in supermarkets and airports, constituting the final leg of item/ bag delivery to customers. Many kinds of conveying systems are available and are used according to the various needs of different industries. There are chain conveyors as well. Chain conveyors consist of enclosed tracks, I-Beam, towline, power & free, and hand pushed trolleys.
Österreichische Post is the company responsible for postal service in Austria. This company was established in 1999 after its split-off from the mail corporate division of the former state-owned PTT agency Post- und Telegraphenverwaltung. It is listed on the Vienna Stock Exchange.
Prague pneumatic post is the world's last preserved municipal pneumatic post system. It is an underground system of metal tubes under the wider centre of Prague, totaling about 55 km in length. The system started service in 1889 and remained in use by the government, banks and the media until it was rendered inoperative by the August 2002 European floods.
The London Pneumatic Despatch Company was formed on 30 June 1859, to design, build and operate an underground railway system for the carrying of mail, parcels and light freight between locations in London. The system was used between 1863 and 1874.
The General Post Office in St. Martin's Le Grand was the main post office for London between 1829 and 1910, the headquarters of the General Post Office of the United Kingdom of Great Britain and Ireland, and England's first purpose-built post office.
Hyperloop is a proposed high-speed transportation system for both passengers and freight. The concept was published by Elon Musk in a 2013 white paper, where the hyperloop was described as a transportation system using capsules supported by an air-bearing surface within a low-pressure tube. Hyperloop systems have three essential elements: tubes, pods, and terminals. The tube is a large, sealed low-pressure system. The pod is a coach at atmospheric pressure that experiences low air resistance or friction inside the tube using magnetic propulsion. The terminal handles pod arrivals and departures. The hyperloop, in the form proposed by Musk, differs from traditional vactrains by relying on residual air pressure inside the tube to provide lift from aerofoils and propulsion by fans; however, many subsequent variants using the name "hyperloop" have remained relatively close to the core principles of vactrains.
The pneumatic tube mail was a postal system operating in New York City from 1897 to 1953 using pneumatic tubes. Similar systems had arisen in the mid-19th century in London, via the London Pneumatic Despatch Company; in Manchester and other British cities; and in Paris via the Paris pneumatic post. Following the creation of the first American pneumatic mail system in Philadelphia in 1893, New York City's system was begun, initially only between the old General Post Office on Park Row and the Produce Exchange on Bowling Green, a distance of 3,750 feet (1,140 m).
The Rohrpostin Berlin, was a pneumatic tube postal service, which existed from 18 November 1865 until 1963 in West Berlin and in East Berlin until 1976.
The Paris pneumatic post was a pneumatic tube message-carrying service that operated in the French capital from 1866. It was established because of the popularity of the electric telegraph in the city which had led to the signal cables becoming overloaded and messages being sent by road. The pneumatic system allowed the telegraph companies to send messages underground through sealed lines laid in the Paris sewers, bypassing any traffic on the roads above. The network was taken into public ownership in 1879, under the Ministry of Posts and Telegraphs, and opened to messages sent by the general public. Messages continued to be considered officially as telegrams and for a fixed cost users could write a message on a "petit bleu" form to be sent anywhere in the city. After arriving at the office nearest the recipient it would be taken to their address by a courier.
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