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52-511: The Geary Bus Rapid Transit project added bus rapid transit features to San Francisco Municipal Railway bus lines along Geary Boulevard . The corridor serves routes 38 , 38R , 38AX , 38BX which combined to serve 52,900 daily riders in 2019, the most of any corridor in the city. The project added transit-only lanes, painted red, along many sections of Geary between the Salesforce Transit Center and 33rd Avenue. After

104-621: A "BHLS" (stands for Bus with a High Level of Service ). The term transitway was originated in 1981 with the opening of the OC Transpo transitway in Ottawa , Ontario , Canada. Critics have charged that the term "bus rapid transit" has sometimes been misapplied to systems that lack most or all the essential features which differentiate it from conventional bus services. The term " bus rapid transit creep " has been used to describe severely degraded levels of bus service which fall far short of

156-525: A BRT system to 35,000 passengers per hour. The single-lane roads of Istanbul Metrobus had been frequently blocked by Phileas buses breaking down, causing delays for all the buses in a single direction. After focusing on Mercedes-Benz buses, capacity increased to 45,000 pph. Light rail, by comparison, has reported passenger capacities between 3,500 pph (mainly street running) to 19,000 pph (fully grade-separated ). Van Ness Bus Rapid Transit Too Many Requests If you report this error to

208-414: A center-running corridor as originally planned. The second phase of the project will now focus on making the temporary improvements permanent. Bus rapid transit Bus rapid transit ( BRT ), also referred to as a busway or transitway , is a trolleybus , electric bus and public transport bus service system designed to have much more capacity , reliability , and other quality features than

260-425: A conventional bus system. Typically, a BRT system includes roadways that are dedicated to buses , and gives priority to buses at intersections where buses may interact with other traffic; alongside design features to reduce delays caused by passengers boarding or leaving buses, or paying fares . BRT aims to combine the capacity and speed of a light rail transit (LRT) or mass rapid transit (MRT) system with

312-428: A low-noise, low-emissions "hush mode" (in which the diesel engine operates but does not exceed idle speed ) when underground. The need to provide electric power in underground environments brings the capital and maintenance costs of such routes closer to those of light rail, and raises the question of building or eventually converting to light rail. In Seattle, the downtown transit tunnel was retrofitted for conversion to

364-449: A result, less forced ventilation will be required in tunnels to achieve the same air quality. Another alternative is to use electric propulsion, which Seattle 's Metro Bus Tunnel and Boston 's Silver Line Phase II implemented. In Seattle, dual-mode (electric/diesel electric) buses manufactured by Breda were used until 2004, with the center axle driven by electric motors obtaining power from trolley wires through trolley poles in

416-455: A shared hybrid-bus and light-rail facility in preparation for Seattle's Central Link Light Rail line, which opened in July 2009. In March 2019, expansion of the light rail in the tunnel moved busses back to surface streets. Bi-articulated battery electric buses cause no problems in tunnels anymore but provide BRT capacity. A BRT system can be measured by a number of factors. The BRT Standard

468-419: A static map, featuring services like trip planning, live arrival and departure times, up-to-date line schedules, local station maps, service alerts, and advisories that may affect one's current trip. Transit and Moovit are examples of apps that are available in many cities around the world. Some operators of bus rapid transit systems have developed their own apps, like Transmilenio. These apps even include all

520-480: A total daily ridership), in the developing world this capacity constraint (or rumor of a capacity constraint) was a significant argument in favor of heavy rail metro investments in some venues. When TransMilenio opened in 2000, it changed the paradigm by giving buses a passing lane at each station stop and introducing express services within the BRT infrastructure. These innovations increased the maximum achieved capacity of

572-586: Is a risk of a dangerous gap between bus and platform , and is even greater due to the nature of bus operations. Kassel curbs or other methods may be used to ease quick and safe alignment of the BRT vehicle with a platform. A popular compromise is low-floor buses with a low step at the door, which can allow easy boarding at low-platform stops compatible with other buses. This intermediate design may be used with some low- or medium-capacity BRT systems. The MIO system in Santiago de Cali, Colombia, pioneered in 2009

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624-439: Is expected to reduce travel times on the 38-Geary by 10-20% when traveling the entire route from 48th Avenue to the Salesforce Transit Center . This translates to a travel time reduction of roughly 10 minutes on a trip that takes around one hour. The travel time reduction is expected to be 15-30% between Van Ness Avenue and 25th Avenue. In addition to transit service upgrades, the project is intended to improve pedestrian safety on

676-585: Is less complex than rail maintenance. Moreover, buses are more flexible than rail vehicles, because a bus route can be altered, either temporarily or permanently, to meet changing demand or contend with adverse road conditions with comparatively little investment of resources. The first use of a protected busway was the East Side Trolley Tunnel in Providence , Rhode Island . It was converted from trolley to bus use in 1948. However,

728-459: Is today over 18.5 miles long. The OC Transpo BRT system in Ottawa , Canada, was introduced in 1983. The first element of its BRT system was dedicated bus lanes through the city centre, with platformed stops. The introduction of exclusive separate busways (termed 'Transitway') occurred in 1983. By 1996, all of the originally envisioned 31 km Transitway system was in operation; further expansions were opened in 2009, 2011, and 2014. As of 2019,

780-570: The BRT Standard promoted by the Institute for Transportation and Development Policy (ITDP) and other organizations. Compared to other common transit modes such as light rail transit (LRT), bus rapid transit (BRT) service is attractive to transit authorities because it does not cost as much to establish and operate: no track needs to be laid, bus drivers typically require less training and less pay than rail operators, and bus maintenance

832-624: The Indonesian capital city . Bus rapid transit is a mode of mass rapid transit (MRT) and describes a high-capacity urban public-transit system with its own right of way , vehicles at short headways , platform-level boarding, and preticketing. The expression "BRT" is mainly used in the Americas and China; in India, it is called "BRTS" (BRT System); in Europe it is often called a "busway" or

884-937: The MIO in Cali since November 2008, Metrolinea in Bucaramanga since December 2009, Megabús in Pereira since May 2009. This design is also used in Johannesburg 's Rea Vaya . The term "station" is more flexibly applied in North America and ranges from enclosed waiting areas ( Ottawa and Cleveland ) to large open-sided shelters ( Los Angeles and San Bernardino ). A unique and distinctive identity can contribute to BRT's attractiveness as an alternative to driving cars, (such as Viva, Max, TransMilenio, Metropolitano, Metronit, Select) marking stops and stations as well as

936-641: The San Francisco County Transportation Authority (SFCTA) conducted a study, titled the Four Corridor Plan, to determine the details of the transportation improvements along the corridors included in the Proposition B plan. The study called for a subway-surface rail line along Geary . With the Proposition B tax expiring in 2010, the voters of San Francisco approved Proposition K in 2003 that extended

988-435: The 15,000 to 25,000 range. Research of the Institute for Transportation and Development Policy (ITDP) shows a capacity ranking of MRT modes, based on reported performance of 14 light rail systems, 14 heavy rail systems (just 1-track + 3 2-track-systems "highest capacity") and 56 BRT systems. The study concludes, that BRT-"capacity on TransMilenio exceeds all but the highest capacity heavy rail systems, and it far exceeds

1040-621: The SFCTA published a feasibility report for the project. Starting in 2008, the SFCTA started an environmental impact review process. In 2017, the SFCTA approved the final environmental impact report for the project after thirteen years of studying the feasibility and impacts for the proposed bus infrastructure. With that milestone, the project was handed off to the San Francisco Municipal Transportation Agency for design and implementation. Construction

1092-661: The United States, BRT began in 1977, with Pittsburgh's South Busway , operating on 4.3 miles (6.9 km) of exclusive lanes. Its success led to the Martin Luther King Jr. East Busway in 1983, a fuller BRT deployment including a dedicated busway of 9.1 miles (14.6 km), traffic signal preemption , and peak service headway as low as two minutes. After the opening of the West Busway , 5.1 miles (8.2 km) in length in 2000, Pittsburgh's Busway system

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1144-419: The buses. Large cities usually have big bus networks. A map showing all bus lines might be incomprehensible, and cause people to wait for low-frequency buses that may not even be running at the time they are needed. By identifying the main bus lines having high-frequency service, with a special brand and separate maps, it is easier to understand the entire network. Public transit apps are more convenient than

1196-601: The center of major arterial roads, in 1980 the Curitiba system added a feeder bus network and inter-zone connections, and in 1992 introduced off-board fare collection, enclosed stations, and platform-level boarding. Other systems made further innovations, including platooning (three buses entering and leaving bus stops and traffic signals at once) in Porto Alegre , and passing lanes and express service in São Paulo . In

1248-605: The central part of the Transitway has been converted to light rail transit , due to the downtown section being operated beyond its designed capacity. In 1995, Quito , Ecuador, opened MetrobusQ its first BRT trolleybuses in Quito , using articulated trolleybuses. The TransMilenio in Bogotá , Colombia, opening in 2000, was the first BRT system to combine the best elements of Curitiba's BRT with other BRT advances, and achieved

1300-584: The concept while sketching on the back of an envelope. The town was designed around the transport system, with most residents no more than five minutes walking distance, or 500 yards (460 m), from the Busway. The second BRT system in the world was the Rede Integrada de Transporte (RIT, integrated transportation network ), implemented in Curitiba , Brazil, in 1974. The Rede Integrada de Transporte

1352-664: The corridor. For example, the project includes several upgraded pedestrian crossings adjacent to Japantown. Additionally, the project will narrow parts of Geary Boulevard to two lanes of automobile traffic down from three lanes. In the early 1900s, the Geary Boulevard corridor was served by streetcar routes such as the A Geary-10th Avenue , B Geary , and C Geary-California lines. These streetcar lines were all eliminated by 1956 as buses replaced streetcars in San Francisco. Subsequently, replacement rail service on Geary

1404-711: The first BRT system in the world was the Runcorn Busway in Runcorn , England. First conceived in the Runcorn New Town Masterplan in 1966, it opened for services in October 1971 and all 22 kilometres (14 mi) were operational by 1980. The central station is at Runcorn Shopping City where buses arrive on dedicated raised busways to two enclosed stations. Arthur Ling , Runcorn Development Corporation's Master Planner, said that he had invented

1456-652: The first phase would be the addition of "center-running" transit lanes (similar to those built for the Van Ness Bus Rapid Transit project) in the middle of the street between Arguello Boulevard and 28th Avenue. At the start of the COVID-19 pandemic, the second phase was in the detailed design phase. That work was put on pause, as SFMTA focused on installing Temporary Emergency Transit Lanes (TETL) on several transit corridors. The TETL project installed side-running transit-only lanes on Geary over much of

1508-610: The first phase, after several revisions based on community input, was approved by the SFMTA board in August 2018. Construction on the project started in early 2019 and concluded in fall 2021. The second phase, called the Geary Boulevard Improvement Project, picked up at the end of the first phase at Stanyan Street and would take the improvements further west to 34th Avenue. One of the major differences from

1560-626: The flexibility, lower cost and simplicity of a bus system. The world's first BRT system was the Runcorn Busway in Runcorn New Town, England, which entered service in 1971. As of March 2018 , a total of 166 cities in six continents have implemented BRT systems, accounting for 4,906 km (3,048 mi) of BRT lanes and about 32.2 million passengers every day. The majority of these are in Latin America , where about 19.6 million passengers ride daily, and which has

1612-442: The following features: Bus-only lanes make for faster travel and ensure that buses are not delayed by mixed traffic congestion . A median alignment bus-only keeps buses away from busy curb-side side conflicts, where cars and trucks are parking, standing and turning. Separate rights of way may be used such as the completely elevated Xiamen BRT . Transit malls or 'bus streets' may also be created in city centers. Fare prepayment at

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1664-454: The footprint of the second phase: between Stanyan Street and 15th Avenue, and between 24th Avenue and 33rd Avenue. The project also installed several "transit head start" signals and wooden bus bulbs. SFMTA found that the temporary side-running lanes kept bus travel times from increasing as auto congestion returned. The SFMTA considered these results to be satisfying enough to retain the side-running transit lanes permanently instead of constructing

1716-662: The green phase or reducing the red phase in the required direction compared to the normal sequence. Prohibiting turns may be the most important measure for moving buses through intersections. The station platforms for BRT systems should be level with the bus floor for quick and easy boarding, making it fully accessible for wheelchairs, disabled passengers and baby strollers, with minimal delays. High-level platforms for high-floored buses makes it difficult to have stops outside dedicated platforms, or to have conventional buses stop at high-level platforms, so these BRT stops are distinct from street-level bus stops. Similar to rail vehicles, there

1768-648: The highest capacity and highest speed BRT system in the world. In January 2004 the first BRT in Southeast Asia, TransJakarta , opened in Jakarta , Indonesia. As of 2015 , at 210 kilometres (130 mi), it is the longest BRT system in the world. Africa's first BRT system was opened in Lagos , Nigeria, in March 2008 but is considered a light BRT system by many people. Johannesburg , South Africa, BRT Rea Vaya ,

1820-450: The highest light rail system." Performance data of 84 systems show More topical are these BRT data After the first BRT system opened in 1971, cities were slow to adopt BRT because they believed that the capacity of BRT was limited to about 12,000 passengers per hour traveling in a given direction during peak demand. While this is a capacity rarely needed in the US (12,000 is more typical as

1872-479: The most cities with BRT systems, with 54, led by Brazil with 21 cities. The Latin American countries with the most daily ridership are Brazil (10.7 million), Colombia (3.0 million), and Mexico (2.5 million). In the other regions, China (4.3 million) and Iran (2.1 million) stand out. Currently, TransJakarta is the largest BRT network in the world, with about 251.2 kilometres (156.1 mi) of corridors connecting

1924-550: The project’s completion, over 75% of Geary corridor now has transit lanes. The original plan called for consolidating some stops in a center-running configuration, as was done for the Van Ness Bus Rapid Transit project, but in early 2021, as part of emergency changes related to the COVID-19 pandemic , SFMTA added side-running bus lanes along Geary. Based on the success of these "temporary emergency transit lanes" in increasing bus speeds with minimal impacts to car traffic, SFMTA made

1976-877: The right side of the street. Groups of criteria form the BRT Standard 2016, which is updated by the Technical Committee of the BRT Standard. High-capacity vehicles such as articulated or even bi-articulated buses may be used, typically with multiple doors for fast entry and exit. Double-decker buses or guided buses may also be used. Advanced powertrain control may be used for a smoother ride. Bottleneck BRT stations typically provide loading areas for simultaneous boarding and alighting of buses through multiple doors coordinated via displays and loudspeakers. An example of high-quality stations include those used on TransMilenio in Bogotá since December 2000,

2028-775: The schedules and live arrival times and stations for buses that feed the BRT, like the SITP (Sistema Integrado de Transporte Público or Public Transit Integrated System) in Bogotá . A special issue arises in the use of buses in metro transit structures. Since the areas where the demand for an exclusive bus right-of-way are apt to be in dense downtown areas where an above-ground structure may be unacceptable on historic, logistic, or environmental grounds, use of BRT in tunnels may not be avoidable. Since buses are usually powered by internal combustion engines , bus metros raise ventilation issues similar to those of motor vehicle tunnels. Powerful fans typically exchange air through ventilation shafts to

2080-691: The side of the street adjacent to the curb or parking spaces on the section of the corridor east of Stanyan Street, which includes neighborhoods such as the Tenderloin and Japantown . The bus lanes run in the center of the street west of Stanyan to around 27th Avenue in the Richmond District and Laurel Heights . The bus lanes then switch to side running from 27th Avenue to 34th Avenue. The project will also implement transit improvements such as bulb-outs for bus stops and traffic signal updates. The combination of bus lanes and other improvements

2132-426: The side-running bus lanes permanent. Side-running transit lanes are less efficient than center-running configurations, and so this decision has been criticized as a downgrade from the original plan. Geary BRT provides transit service improvements primarily through the use of bus lanes . The project plans for red-painted bus priority lanes on most of the route of the 38-Geary along Geary Boulevard. These lanes run along

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2184-492: The station, instead of on board the bus, eliminates the delay caused by passengers paying on board. Fare machines at stations also allow riders to purchase multi-ride stored-value cards and have multiple payment options. Prepayment also allows riders to board at all doors, further speeding up stops. Prohibiting turns for traffic across the bus lane significantly reduces delays to the buses. Bus priority will often be provided at signalized intersections to reduce delays by extending

2236-404: The subway, and with the rear axle driven by a conventional diesel powertrain on freeways and streets. Boston is using a similar approach, after initially using trolleybuses pending delivery of the dual-mode vehicles that was completed in 2005. In 2004, Seattle replaced its "Transit Tunnel" fleet with diesel-electric hybrid buses, which operate similarly to hybrid cars outside the tunnel and in

2288-417: The surface; these are usually as remote as possible from occupied areas, to minimize the effects of noise and concentrated pollution. A straightforward way to reduce air quality problems is to use internal combustion engines with lower emissions. The 2008 Euro V European emission standards set a limit on carbon monoxide from heavy-duty diesel engines of 1.5 g/kWh, one third of the 1992 Euro I standard. As

2340-483: The tax and established a new expenditure plan. The new plan funded the Geary Bus Rapid Transit project and mandated the implementation of a bus rapid transit network, with the first two lines consisting of Geary BRT and Van Ness Bus Rapid Transit . Proposition K mandates that Geary BRT be built to "rail-ready standards" to accommodate a planned future conversion to light rail . Subsequently, in 2007

2392-428: The theoretical maximum throughput measured in passengers per hour per direction (PPHPD) for a single traffic lane is some 150,000 passengers per hour (250 passengers per vehicle, one vehicle every 6 seconds). In real world conditions BRT Rio (de Janeiro, BRS Presidente Vargas) with 65.000 PPHPD holds the record, TransMilenio Bogotá and Metrobus Istanbul perform 49,000 – 45,000 PPHPD, most other busy systems operating in

2444-499: The use of dual buses, with doors on the left side of the bus that are located at the height of high-level platforms, and doors on the right side that are located at curb height. These buses can use the main line with its exclusive lanes and high level platforms, located on the center of the street and thus, boarding and leaving passengers on the left side. These buses can exit the main line and use normal lanes that share with other vehicles and stop at regular stations located on sidewalks on

2496-476: Was broken up into two separate, complementary projects. The first phase of work, called the Geary Rapid Project, would install red bus lanes, upgrade traffic signals, add new crosswalks, and build bus bulbs from Market Street west to Stanyan Street. The Environmental Impact Statement for the first phase was approved by the federal Department of Transportation on June 1, 2018. The final design of

2548-438: Was developed by the Institute for Transportation and Development Policy (ITDP) to score BRT corridors, producing a list of rated BRT corridors meeting the minimum definition of BRT. The highest rated systems received a "gold" ranking. The latest edition of the standard was published in 2016. Other metrics used to evaluate BRT performance include: Based on this data, the minimum headway and maximum current vehicle capacities,

2600-503: Was inspired by the previous transport system of the National Urban Transport Company of Peru (In Spanish: ENATRU ), which only had quick access on Lima downtown , but it would not be considered BRT itself. Many of the elements that have become associated with BRT were innovations first suggested by Carlos Ceneviva, within the team of Curitiba Mayor Jaime Lerner . Initially just dedicated bus lanes in

2652-502: Was proposed multiple times, such as in the original plans for the Bay Area Rapid Transit system. In 1989, the city of San Francisco approved Proposition B, a ballot measure that approved a half-cent sales tax for transportation. The expenditure plan that was included in the proposition prioritized the planning and implementation of transit expansion along four transit corridors including Geary Boulevard. Subsequently,

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2704-616: Was the first true BRT in Africa, in August 2009, carrying 16,000 daily passengers. Rea Vaya and MIO (BRT in Cali , Colombia, opened 2009) were the first two systems to combine full BRT with some services that also operated in mixed traffic, then joined the BRT trunk infrastructure. In 2017 Marrakesh , Morocco, opened its first BRT Marrakesh trolleybus system (BHNS De Marrakesh) trolleybuses Corridors of 8 km (5.0 mi), of which 3 km (1.9 mi) of overhead wiring for operation as trolleybus. BRT systems normally include most of

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