Misplaced Pages

Tetteh Quarshie Interchange

Article snapshot taken from Wikipedia with creative commons attribution-sharealike license. Give it a read and then ask your questions in the chat. We can research this topic together.

The Tetteh Quarshie Interchange is a cloverleaf interchange carrying a six-lane motorway that links the Liberation Road from 37 Military Hospital to the Pantang junction through Madina in Accra , Ghana . The interchange was commissioned for vehicular use on 27 February 2005 by then president of Ghana, John Agyekum Kufuor .

#427572

51-559: In 2003, the Government of Ghana initiated the expansion of the then Akuafo Circle. The circle was the largest roundabout in Ghana. The sod cutting for the project was done by John Kufuor on 17 January 2003. The project was to restructure it into an interchange to handle the huge vehicular traffic. The contract for the project was won by Messrs. SONITRA-RCCN Joint Ventures. The interchange was open to vehicular traffic on 27 February 2005 and

102-416: A pedestrian island for protection that also forces drivers to slow and begin to change direction, encouraging slower, safer speeds. On the island, the pedestrian crossing may become diagonal, to direct the gaze of those crossing into exiting traffic. Physically separated bikeways best protect cyclists. Less optimally, terminating cycle lanes well before roundabout entrances requires cyclists to merge into

153-410: A roundabout can reduce delays, because half of the time a full stop would be required. Dedicated left turn signals (in countries where traffic drives on the right) further reduce throughput. Roundabouts can reduce delays for pedestrians compared to traffic signals, because pedestrians are able to cross during any safe gap rather than waiting for a signal. During peak flows when large gaps are infrequent,

204-729: A significant improvement, in terms of both operations and safety, when compared with older rotaries and traffic circles. The design became mandatory in the United Kingdom for all new roundabouts in November 1966. Australia and other British-influenced countries were the first outside the UK to build modern roundabouts. In the United States modern roundabouts emerged in the 1990s after years of planning and educational campaigning by Frank Blackmore and Leif Ourston , who sought to bring

255-409: A stop and a 90-degree turn to enter. Because these circumstances caused a lot of vehicle collisions, construction of traffic circles and rotaries ceased in the 1950s, and some were removed. Widespread use of the modern roundabout began when the UK's Transport Research Laboratory engineers re-engineered and standardised circular intersections during the 1960s. Frank Blackmore led the development of

306-514: A tree or tall shrubs. Road signage or flagpoles may be erected at the top of a landscaped mound. Some communities use the island for monuments, the display of large public art or for a fountain. Pedestrians may be prohibited from crossing the circling lane(s). Access to the central island requires an underpass or overpass for safety. Roundabouts have attracted art installations around the world: For larger roundabouts, pedestrian islands at each entry/exit encourage drivers to slow and prepare to enter

357-414: Is a type of looping junction in which road traffic travels in one direction around a central island and priority is given to the circulating flow. Signs usually direct traffic entering the circle to slow and to give way to traffic already on it. Because low speeds are required for traffic entering roundabouts, they are physically designed to slow traffic entering the junction to improve safety, so that

408-404: Is clear without waiting for a signal to change. Roundabouts can increase delays in locations where traffic would otherwise often not be required to stop. For example, at the junction of a high-volume and a low-volume road, traffic on the busier road would stop only when cross traffic was present, otherwise not having to slow for the roundabout. When the volumes on the roadways are relatively equal,

459-633: Is in common use. In the Channel Islands a third type of roundabout, known as "Filter in Turn", exists. Here approaching drivers neither give way to traffic on the roundabout, as normal, nor have priority over it, but take it in turns to enter from each. Almost all of Jersey 's roundabouts are of this type. In the Philippines , the term rotunda or rotonda is used in referring to roundabouts. The fundamental principle of modern roundabouts

510-584: Is permitted to flow in one direction around a central island, and priority is typically given to traffic already in the junction. In the USA, engineers use the term modern roundabout to refer to junctions installed after 1960 that incorporate various design rules to increase safety. Compared to stop signs, traffic signals, and earlier forms of roundabouts, modern roundabouts reduce the likelihood and severity of collisions greatly by reducing traffic speeds and minimizing T-bone and head-on collisions . Variations on

561-849: Is sponsored by the Federal Transit Administration and carried out under a three-way agreement among the National Academy of Sciences , the Transit Development Corporation, Inc., and the American Public Transportation Association . TRB offers selective research funding, notably, the NCHRP, the ACRP, and TCRP. Each one of these programs has industry leaders who function as references while completing

SECTION 10

#1732764656428

612-476: Is that entering drivers give way to traffic within the roundabout without the need for traffic signals. Conversely, older traffic circles typically require circling drivers to give way to entering traffic. Roundabouts may also have an interior lane. Generally, exiting directly from an inner lane of a multi-lane roundabout is permitted, given that the intersecting road has as many lanes as the roundabout. By contrast, exiting from an inner lane of an older traffic circle

663-424: Is the controversy for drivers that seasoned driving teachers complain about this discomfort a decade after its safety is proven and adoption widespread. The central island may be surrounded by a truck apron that is high enough to discourage drivers from crossing over it, but low enough to allow wide or long vehicles to navigate the roundabout. The island may provide a visual barrier, to alert approaching drivers to

714-431: Is to mobilize expertise, experience, and knowledge to anticipate and solve complex transportation-related challenges. For example, committees, researchers, and staff are currently focused on advancing resilient infrastructure, exploring transformational technology, and caring for the public’s health and safety. It publishes research via four cooperative research programs and through consensus studies, which may be requested by

765-497: Is usually not permitted and traffic must first move into the outside lane. Vehicles circulate around the central island in one direction at speeds of 25–40 km/h (15–25 mph). In left-hand traffic countries they circulate clockwise (looking from above); in right-hand traffic, anticlockwise. Multi-lane roundabouts are typically less than 75 metres (250 ft) in diameter; older traffic circles and roundabout interchanges may be considerably larger. Roundabouts are roughly

816-787: The Governors Highway Safety Association . The Airport Cooperative Research Program (ACRP) is sponsored by the Federal Aviation Administration . The National Cooperative Highway Research Program (NCHRP), created in 1962, is sponsored by individual state departments of transportation of the American Association of State Highway and Transportation Officials and the Federal Highway Administration . The Transit Cooperative Research Program (TCRP)

867-502: The "National Advisory Board on Highway Research" and changed its name to the "Highway Research Board" from 1925 until 1974, when it was renamed again as the "Transportation Research Board." It has commissioned ad-hoc research since 1950, became more involved in multi-modal transport in the 1960s, and continues to research across various transportation modes. TRB's varied activities annually draw on over 8,000 engineers, planners, scientists, academics, and other transportation researchers from

918-401: The "priority rule" and subsequently invented the mini-roundabout to overcome capacity and safety limitations. The priority rule was found to improve traffic flow by up to 10%. In 1966, the United Kingdom adopted a rule at all circular junctions that required entering traffic to give way to circulating traffic. A Transportation Research Board guide reports that the modern roundabout represents

969-594: The National Academies do not receive direct appropriations from the federal government. Programs receive support from state transportation departments , the various administrations of the U.S. Department of Transportation and other federal agencies, industry associations, and other organizations and individuals interested in the development of transportation. The Cooperative Research Programs receive funding. The Behavioral Traffic Safety Cooperative Research Program (BTSCRP) facilitates projects with support from

1020-619: The Transportation Research Board (TRR) which publishes peer-reviewed papers, and a bi-monthly magazine called TR News . A history of transportation research and of TRB was published in January 2020 called The Transportation Research Board, 1920–2020: Everyone Interested Is Invited . Transportation Research Information Services (TRIS) offers several databases for researchers: Although many activities are requested and funded by Congress and federal agencies, TRB and

1071-477: The U.S. Congress. As one of seven major divisions of the National Academies of Sciences, Engineering, and Medicine, TRB research is objective and interdisciplinary . TRB hosts nearly 200 standing technical committees that address specific aspects of transport and the TRB Annual Meeting attracts thousands of transportation professionals. The Transportation Research Board was established in 1920 as

SECTION 20

#1732764656428

1122-644: The US. Research on Australian roundabouts was conducted in the 1980s at the Australian Road Research Board (ARRB). Its analytical capacity and performance models differ from the TRL model significantly, following a lane-based gap-acceptance theory including geometric parameters. Transportation Research Board The Transportation Research Board ( TRB ) is a division of the National Academy of Sciences, Engineering, and Medicine . TRB's mission

1173-781: The United Kingdom in the 1960s. In the mid-2010s, about 3% of the then circa 4,000 U.S. modern roundabouts were located in Carmel, Indiana , whose mayor James Brainard had been actively promoting their construction; because of increased safety, injuries caused by car accidents in the city dropped by 80% after 1996. As of December 2015 there were about 4,800 modern roundabouts in the United States. As an example, Washington state contained about 120 roundabouts as of October 2016 , all having been built since 1997, with more planned. The first Canadian traffic circles were in Edmonton. There were 7 such by 1954. However, they didn't gain popularity in

1224-401: The United Kingdom. A roundabout is also a traditional English name given to amusement rides known as a carousel , or a merry-go-round in other English-speaking countries. In U.S. dictionaries the terms roundabout , traffic circle , road circle and rotary are synonyms. However, several experts such as Leif Ourston have stressed the need to distinguish between the characteristics of

1275-826: The approaches. Many traffic circles have been converted to modern roundabouts, including the former Kingston traffic circle in New York and several in New Jersey. Others have been converted to signalised intersections, such as the Drum Hill Rotary in Chelmsford, Massachusetts , which is now six lanes wide and controlled by four separate intersections. Japan was first introduced to roundabouts in September 2014 to stop major accidents and traffic jams. The word roundabout dates from early 20th-century use in

1326-531: The basic concept include integration with tram or train lines, two-way flow, higher speeds and many others. For pedestrians, traffic exiting the roundabout comes from one direction, instead of three, simplifying the pedestrian's visual environment. Traffic moves slowly enough to allow visual engagement with pedestrians, encouraging deference towards them. Other benefits include reduced driver confusion associated with perpendicular junctions and reduced queuing associated with traffic lights . They allow U-turns within

1377-709: The by then well-established increased safety and traffic flow in other countries to America. The first was constructed in Summerlin, Nevada , in 1990 and was followed by another the following year. This roundabout occasioned dismay from residents, and a local news program said about it, "Even police agree, [roundabouts] can be confusing at times." Between 1990 and 1995, numerous modern roundabouts were built in California, Colorado, Florida, Maryland, Nevada, and Vermont. Municipalities introducing new roundabouts often were met with some degree of public resistance, just as in

1428-496: The circle. They also provide a refuge where pedestrians may pause mid-crossing. Vehicles or bicycles entering or exiting the roundabout must yield to all traffic including pedestrians. Pedestrian crossings at each entry/exit may be located at least one full car length outside the circle. The extra space allows pedestrians to cross behind vehicles waiting to enter the circle, and to allow exiting vehicles to stop for pedestrians without obstruction. Each pedestrian crossing may traverse

1479-455: The engine will require less work to regain the initial speed, resulting in lower emissions. Research has also shown that slow-moving traffic in roundabouts makes less noise than traffic that must stop and start, speed up and brake. Modern roundabouts were first standardised in the UK in 1966 and were found to be a significant improvement over previous traffic circles and rotaries. Since then, modern roundabouts have become commonplace throughout

1530-558: The exit arms of the motorised roundabout, priority must be established. In the Netherlands, cyclists will normally be given priority to promote cycling over driving. As well as their use in the Netherlands and Denmark, these designs have been subsequently built in the United Kingdom and Ireland. The capacity of a roundabout varies based on entry angle, lane width, and the number of entry and circulating lanes. As with other types of junctions, operational performance depends heavily on

1581-449: The flow volumes from various approaches. A single-lane roundabout can handle approximately 20,000–26,000 vehicles per day, while a two-lane design supports 40,000 to 50,000. Under many traffic conditions, a roundabout operates with less delay than signalised or all-way stop approaches. Roundabouts do not stop all entering vehicles, reducing both individual and queuing delays. Throughput further improves because drivers proceed when traffic

Tetteh Quarshie Interchange - Misplaced Pages Continue

1632-481: The flyover. The interchange is linked to several road networks. The various roads the feed to the interchange bring vehicular traffic from all over Accra. The roads that link to the interchange are the Liberation Road, which brings vehicles from Legon to Accra. Roundabout A roundabout , a rotary and a traffic circle are types of circular intersection or junction in which road traffic

1683-435: The modern roundabout and the nonconforming traffic circle: The U.S. Department of Transportation adopted the term modern roundabout to distinguish those that require entering drivers to give way to others. Many old traffic circles remain in the northeastern US . Some modern roundabouts are elongated to encompass additional streets, but traffic always flows in a loop. In the United States, traffic engineers typically use

1734-545: The most, by -47% to -84% for the aforementioned heights. The level of irritation to drivers is not to be understated, as it is the crucial point of the design: to force drivers to pay attention to the sides of the driving direction. This leads to drivers complaining about these designs, as Denmark in most regards embraces designing road infrastructure, such that the wanted driving behaviour leads to comfort i.e., lane width corresponding to speed limit and obstacles encouraging slowdown near points of safety concern such as schools. Such

1785-405: The normal flow of traffic, which often are not possible at other forms of junction. Moreover, since vehicles that run on gasoline typically spend less time idling at roundabouts than at signalled intersections, using a roundabout potentially leads to less pollution. When entering vehicles only need to give way, they do not always perform a full stop; as a result, by keeping a part of their momentum,

1836-460: The obstacles have been found to discomfort drivers more so than the roundabout itself compared to conventional intersections, thus initiating further observation and care taking of the driver. In Denmark, it was found to decrease accidents in roundabouts by 27% to 84% depending on height and type. In studies, heights of 0-0.9, 1-1.9 and 2+ metres were evaluated. It was found that for all heights, especially accidents leading to human injuries were reduced

1887-427: The path of an exiting vehicle is relatively straight, and so the motorist may often not slow substantially. To give way to a cyclist on the outside requires the exiting motorist to look toward the rear, to the perimeter. Other vehicles can obstruct the driver's view in this direction, complicating the motorist's task. The more frequent requirements for motorists to slow or stop reduce traffic flow. A 1992 study found that

1938-400: The presence of the roundabout, and to encourage drivers to focus on the traffic in the path of the circle. A visual barrier significantly reduces the accident rate. Otherwise, vehicles anywhere in or near the circle can cause those entering to stop and wait for them to pass, even if they are opposite, which unnecessarily reduces traffic flow. The barrier may be a landscaped mound, a raised wall,

1989-667: The public and private sectors, who volunteer expertise in the public interest by participating on TRB committees, panels, and task forces. Additionally, TRB hosts its Annual Meeting in Washington DC every January, gathering approximately 14,000 transportation professionals from across the United States and around the world. Publications include the Highway Capacity Manual , the Transportation Research Record: Journal of

2040-586: The rest of the country until the 1990s. They became increasingly popular amongst traffic planners and civil engineers in the 15 years thereafter due to their success in Europe. By 2014 there were about 400 roundabouts in Canada at the time (most in Quebec, Alberta, British Columbia and Ontario), or one per 90,000 inhabitants (compared to one per 84,000 inhabitants in the United States that year). A " modern roundabout"

2091-559: The risk to cyclists is high in all such intersections, but much higher when the junction has a marked bicycle lane or sidepath around its perimeter. Cycle lanes were installed at Museum Road, Portsmouth , but were replaced by a narrowed carriageway to encourage lane sharing. The roundabout at the Brown Road and Loop 202 interchange in Mesa, Arizona , adopts a U.S.-recommended design. On-street pavement markings direct cyclists to enter

Tetteh Quarshie Interchange - Misplaced Pages Continue

2142-483: The roads typically approach the junction radially ; whereas older-style traffic circles may be designed to try to increase speeds, and have roads that enter the circle tangentially . Roundabouts are normally not used on controlled-access highways because of the low speed requirement, but may be used on lower grades of highway such as limited-access roads . When such roads are redesigned to incorporate roundabouts, traffic speeds must be reduced via tricks such as curving

2193-614: The rotary always has the right of way. For instance, in Massachusetts , "Any operator of a vehicle entering a rotary intersection shall yield the right-of-way to any vehicle already in the intersection." In Rhode Island entering vehicles "Yield to vehicles in the roundabout." In the dialect used in the Scottish city of Dundee , circle is used to refer to roundabouts. In the English West Midlands , island

2244-436: The same size as signalled intersections of the same capacity. Design criteria include: Modern roundabouts feature a central island and sometimes pedestrian islands at each entry or exit often for decoration. Denmark has begun widespread adoption of particular high islands, or if not possible, obstacles such as hedges or a ring of trees in larger examples. This is done to further increase the safety benefits of roundabouts, as

2295-488: The sidewalk at the end of the bike lane. Cyclists who choose to travel on the wide sidewalk, cross roundabout arms perpendicularly, well outside the circle. A pedestrian island allows pedestrians and cyclists to cross one lane at a time. Protected roundabouts (or Dutch roundabout) were developed in the Netherlands , with cyclists separated from vehicles using dedicated lanes. As cyclists will conflict with motorists at

2346-616: The slower speed of traffic entering and exiting can still allow crossing, despite the smaller gaps. Studies of roundabouts that replaced stop signs and/or traffic signals found that vehicle delays were reduced 13–89 percent and the proportion of vehicles that stopped was reduced 14–56 percent. Delays on major approaches increased as vehicles slowed to enter the roundabouts. Roundabouts have been found to reduce carbon monoxide emissions by 15–45 percent, nitrous oxide emissions by 21–44 percent, carbon dioxide emissions by 23–37 percent and hydrocarbon emissions by 0–42 percent. Fuel consumption

2397-407: The stream of motor traffic, but keeps cyclists in full view of drivers, at some cost in motor vehicle speed. Cyclists may also be permitted to use pedestrian crossings. Traditional cycle lanes increase vehicle–bicycle collisions. When exiting, a motorist must look ahead to avoid colliding with another vehicle or with pedestrians on a pedestrian crossing. As the intersection curves away from the exit,

2448-432: The term rotary for large-scale circular junctions between expressways or controlled-access highways . Rotaries of this type typically feature high speeds inside the circle and on the approaches. In the United States' New England region, however, a " rotary " is typically used as the general term for all roundabouts, including those with modern designs. State laws in these states mandate that traffic already driving in

2499-605: The world, including Australia, the United Kingdom and France. Circular junctions existed before roundabouts, including: Although some may still be referred to as roundabouts , the operating and entry characteristics of these traffic circles differed considerably from modern roundabouts. Circular intersections were built in the United States, though many were large-diameter 'rotaries' that enabled high-speed merge and weave manoeuvres. Older-style traffic circles may control entering traffic by stop signs or traffic lights. Many allow entry at higher speeds without deflection, or require

2550-552: Was completed on 5 May 2005. The interchange was the second to have been built in Ghana, after the Sankara Interchange (now Ako Adjei Interchange ). The interchange cost 8 million cedis (5 million dollars ). It was funded by the African Development Bank . The interchange includes a bridge on the motorways, three-lane dual carriageway . Four loops and four slip boards to ease the movement onto

2601-697: Was reduced by an estimated 23–34 percent. Many countries have researched roundabout capacity. The software can help calculate capacity, delay and queues. Packages include ARCADY , Rodel, Highway Capacity Software and Sidra Intersection . ARCADY and Rodel are based on the Transport Research Laboratory mathematical model. The TRL approach is derived from empirical models based on geometric parameters and observed driver behaviour with regard to lane choice. Sidra Intersection software includes roundabout capacity models developed in Australia and

SECTION 50

#1732764656428
#427572