Delhi Bus Rapid Transit System
Encyclopedia
The Delhi Bus Rapid Transit System is a bus rapid transit
being introduced in Delhi
. a city in which buses cater to sixty percent of the city's transportation needs. Together with Delhi Metro
and soon to be introduced Delhi Monorail
and Delhi Light Rail, it will be part of an integrated multi-modal transport system. Introduction of bus rapid transit was sped up in time for the 2010 Commonwealth Games
in Delhi.
Like other bus-rapid transit systems, Delhi BRT aims to make public transport more convenient. Delhi BRT is not grade-separated: the buses run at the same level as normal traffic and share the same traffic signals.
In 2002, Supreme Court issued an order to convert all diesel buses to compressed natural gas
(CNG) to reduce air pollution
. However, in less than a decade, the gains from the CNG program were lost: by August 2008, the average total suspended particulate (TSP) level in Delhi was 378 micrograms per cubic meter — approximately five times the World Health Organization’s (WHO) annual average standard. It is estimated that over 3000 metric tons of air pollutants are emitted in Delhi .
The red colored buses are air-conditioned, while the green colored buses are not air-conditioned.
Increasing vehicle population is co-related with road accidents: every year road accidents cost India about 3% of its gross domestic product, which was more than $1 trillion in 2007.
Delhi Metro, approved in 1998 with an aim to improve the traffic condition and mobility of commuters, operates around 90 trains and carrying approx. 80 000 passenger per day but can not completely replace the bus system on all routes, due to higher capital cost, low capital returns and large gestation period.
In October 2006, construction work on the corridor started. The stretch from Dr. Ambedkar Nagar to Moolchand is under trial run since April 20, 2008.
is in the middle of the road with a width of 3.3 meters. Other motor vehicle
lanes are is on the side of bus lane with a width of 6.75 meters. Separate lanes are provided for non-motorized vehicles and pedestrians.
Third-party service providers meet specific requirements. 180 road marshals are deployed on the corridor to guide bus passengers, help children and old people to cross the road, manage traffic, instruct people to follow traffic rules and perform other corridor management activities.
The company also employs security guard
s at the bus platforms on a 24-hour basis and a crane to remove disabled vehicles from the corridor: since April 2008, on average 3 vehicles break down on the corridor each day and all disabled vehicles including buses are removed in about 10 minutes response time.
The company uses Passenger information system
displays on all bus shelters. Global Positioning System
is installed in the new low-floor buses on four routes – 419, 423, 521 and 522.
More than 1.35 million vehicles cross the junction in a typical 16-hour day. Motorised vehicles consisting of cars, two wheelers and auto rickshaws constitute more than 90% of the vehicle traffic, of which the number of cars/Jeeps constitute around 35-40% of total motorized vehicles. These, however, carry only 15-20% of the total commuters. On the other hand, buses account only for 2.0-2.5% of total vehicles, but carry around 55-60% of the total commuters, thus using road space more democratically.
Approximately 200-250 buses move on Chirag Delhi Junction (the busiest section) during peak hour, catering to passenger load of about 11,000-12,000 on an average day. It has been observed that net throughput of all kinds of vehicles have significantly improved after the implementation of the BRT and bus and cycle transit time through the corridor has reduced.
Mre than 50% of respondents desired timeliness of bus service, clean bus and well behaved staff and certainty of bus service. The research agency also enquired about the willingness of the respondents to use the BRT System. Interestingly, 85% of the respondents, who were currently not using public transport system, showed their willingness to use new BRT system if it is good.
Bus rapid transit
Bus rapid transit is a term applied to a variety of public transportation systems using buses to provide faster, more efficient service than an ordinary bus line. Often this is achieved by making improvements to existing infrastructure, vehicles and scheduling...
being introduced in Delhi
Delhi
Delhi , officially National Capital Territory of Delhi , is the largest metropolis by area and the second-largest by population in India, next to Mumbai. It is the eighth largest metropolis in the world by population with 16,753,265 inhabitants in the Territory at the 2011 Census...
. a city in which buses cater to sixty percent of the city's transportation needs. Together with Delhi Metro
Delhi Metro
Delhi Metro is a rapid transit system serving Delhi, Gurgaon, Noida and Ghaziabad in the National Capital Region of India. It is one of the largest metro networks in the world. The network consists of six lines with a total length of with 142 stations of which 35 are underground...
and soon to be introduced Delhi Monorail
Delhi Monorail
-Lines:There are three lines proposed in phase I are as follows:*From Rohini Sector 21 to Red Fort via Wazir Pur - Shakti Nagar - Anand Parbat - Ajmeri Gate - Delhi Gate Length of this line would be 28.5 km...
and Delhi Light Rail, it will be part of an integrated multi-modal transport system. Introduction of bus rapid transit was sped up in time for the 2010 Commonwealth Games
2010 Commonwealth Games
The 2010 Commonwealth Games, officially known as the XIX Commonwealth Games, were held in Delhi, India, from 3 to 14 October 2010. A total of 6,081 athletes from 71 Commonwealth nations and dependencies competed in 21 sports and 272 events, making it the largest Commonwealth Games till date...
in Delhi.
Like other bus-rapid transit systems, Delhi BRT aims to make public transport more convenient. Delhi BRT is not grade-separated: the buses run at the same level as normal traffic and share the same traffic signals.
Introduction
In the last decade, a number of flyovers and underpasses were built to increase the mobility of commuters.. With the city’s buoyant economy, cars replaced buses on the roads and cyclists switched to motorcycles. Pedestrians became marginalized by increased numbers of vehicles on the road which also increased the pollution level, journey time and fuel consumption.In 2002, Supreme Court issued an order to convert all diesel buses to compressed natural gas
Compressed natural gas
Compressed natural gas is a fossil fuel substitute for gasoline , diesel, or propane/LPG. Although its combustion does produce greenhouse gases, it is a more environmentally clean alternative to those fuels, and it is much safer than other fuels in the event of a spill...
(CNG) to reduce air pollution
Air pollution
Air pollution is the introduction of chemicals, particulate matter, or biological materials that cause harm or discomfort to humans or other living organisms, or cause damage to the natural environment or built environment, into the atmosphere....
. However, in less than a decade, the gains from the CNG program were lost: by August 2008, the average total suspended particulate (TSP) level in Delhi was 378 micrograms per cubic meter — approximately five times the World Health Organization’s (WHO) annual average standard. It is estimated that over 3000 metric tons of air pollutants are emitted in Delhi .
The red colored buses are air-conditioned, while the green colored buses are not air-conditioned.
Traffic scenario in Delhi
The transportation network in Delhi is predominantly road based with 1,284 km of road per 100 km2. The number of vehicles on Delhi’s road increased by 212% in the 18 years from 1.923 million in 1991 to over 6 million by 2008. Roads in Delhi occupy 21% of the city, thus there is little scope of future expansion. The length of roads in Delhi increased from 22,487 km in 1991 to 31,183 km in 2008, a modest increase of 17% in the same period. To accommodate the increasing vehicular population, additional space is increasingly sought to be created either over or beneath the road, such as flyovers and underpasses. GNCTD built more than 15 flyovers on Ring Road to increase the throughput but not mobility: Ring Road has become completely signal-free, but not congestion-free.Increasing vehicle population is co-related with road accidents: every year road accidents cost India about 3% of its gross domestic product, which was more than $1 trillion in 2007.
Delhi Metro, approved in 1998 with an aim to improve the traffic condition and mobility of commuters, operates around 90 trains and carrying approx. 80 000 passenger per day but can not completely replace the bus system on all routes, due to higher capital cost, low capital returns and large gestation period.
Corridors planned
A total 26 BRT corridors are planned, covering a total length of 310 km by the year 2020. This will be in addition to more than 400 km of metro train coverage by 2020 and further coverage by Monorail and Light Rail.Phase | Corridors | Length (km) |
---|---|---|
I (2005–2010) | 7 | 115.5 |
II (2010–2015)7 | 3 | 28.0 |
III (2015–2020) | 16 | 166.0 |
Total | 26 | 310 |
Delhi BRT system
BRT means giving right of way to buses and safeguarding cyclists and pedestrians by encouraging lane driving on engineered road spaces along large and wide corridors and link them to metros and other main roads for easy access. Besides giving priority to buses, the system also provides dedicated lanes for pedestrian and non-motorized vehicles like cycles and rickshaws etc.Implementation
In 2004, GNCTD appointed RITES and Indian Institute of Technology Delhi (IIT Delhi) for designing and implementing the first corridor from Dr. Ambedkar Nagar to Delhi Gate. RITES has been appointed the Project Management Consultant and TRIPP IIT Delhi the technical and conceptual advisors. In 2006, GNTCD established Delhi Integrated Multi-Modal Transit System (DIMTS), a Special Purpose Vehicle to oversee the establishment of public transport systems in Delhi. DIMTS is currently entrusted with the operation and maintenance of the existing corridor as the Corridor Manager.In October 2006, construction work on the corridor started. The stretch from Dr. Ambedkar Nagar to Moolchand is under trial run since April 20, 2008.
Technical details
The first corridor start by BRT in Delhi, from Ambedkar Nagar to Delhi Gate, is 14.5 km long with right of way width varying from 28 meters to 51.5 meters. The bus laneBus lane
A bus lane or bus only lane is a lane restricted to buses, and generally used to speed up public transport that would be otherwise held up by traffic congestion...
is in the middle of the road with a width of 3.3 meters. Other motor vehicle
Motor vehicle
A motor vehicle or road vehicle is a self-propelled wheeled vehicle that does not operate on rails, such as trains or trolleys. The vehicle propulsion is provided by an engine or motor, usually by an internal combustion engine, or an electric motor, or some combination of the two, such as hybrid...
lanes are is on the side of bus lane with a width of 6.75 meters. Separate lanes are provided for non-motorized vehicles and pedestrians.
Operation management
The corridor manager looks after operations and maintenance of the BRT Corridor, including traffic management, bus operation, public relations, enforcement, recovery of disabled vehicles, cleaning etc. The Operational Control Centre (OCC) at Kashmere Gate and a camp office at DTC Khan Pur Depot monitor the daily progress.Third-party service providers meet specific requirements. 180 road marshals are deployed on the corridor to guide bus passengers, help children and old people to cross the road, manage traffic, instruct people to follow traffic rules and perform other corridor management activities.
The company also employs security guard
Security guard
A security guard is a person who is paid to protect property, assets, or people. Security guards are usually privately and formally employed personnel...
s at the bus platforms on a 24-hour basis and a crane to remove disabled vehicles from the corridor: since April 2008, on average 3 vehicles break down on the corridor each day and all disabled vehicles including buses are removed in about 10 minutes response time.
The company uses Passenger information system
Passenger information system
A passenger information [display] system is an electronic information system which provides real-time passenger information. It may include both predictions about arrival and departure times, as well as information about the nature and causes of disruptions...
displays on all bus shelters. Global Positioning System
Global Positioning System
The Global Positioning System is a space-based global navigation satellite system that provides location and time information in all weather, anywhere on or near the Earth, where there is an unobstructed line of sight to four or more GPS satellites...
is installed in the new low-floor buses on four routes – 419, 423, 521 and 522.
Traffic volume
Traffic volume on the BRT corridor is very high. The corridor is situated along some of the prime 'colonies' (urban districts) in South Delhi and is the main connecting road to the large commercial development in Gurgaon. On the stretch from Dr. Ambedkar Nagar to Moolchand, there are 6 key intersections, of which Chirag Delhi and Moolchand are the busiest ones. According to a DIMTS Survey, Chirag Delhi is one of the busiest junctions in Delhi.More than 1.35 million vehicles cross the junction in a typical 16-hour day. Motorised vehicles consisting of cars, two wheelers and auto rickshaws constitute more than 90% of the vehicle traffic, of which the number of cars/Jeeps constitute around 35-40% of total motorized vehicles. These, however, carry only 15-20% of the total commuters. On the other hand, buses account only for 2.0-2.5% of total vehicles, but carry around 55-60% of the total commuters, thus using road space more democratically.
Approximately 200-250 buses move on Chirag Delhi Junction (the busiest section) during peak hour, catering to passenger load of about 11,000-12,000 on an average day. It has been observed that net throughput of all kinds of vehicles have significantly improved after the implementation of the BRT and bus and cycle transit time through the corridor has reduced.
Commuter socioeconomic profile
According to a DIMTS commissioned socio-economic survey at BRT Corridor, more than 60% of commuters use BRT Corridor mainly for work. Most of the respondents showed their discontent with the iprevious public transportation system. Respondents preferred to use their private vehicles due to inflexibility and unreliability of the bus system.Mre than 50% of respondents desired timeliness of bus service, clean bus and well behaved staff and certainty of bus service. The research agency also enquired about the willingness of the respondents to use the BRT System. Interestingly, 85% of the respondents, who were currently not using public transport system, showed their willingness to use new BRT system if it is good.