Check Out The Heritage Themed AMTS Lal Darwaja Bus Station In Amdavad

The Amdavad Municipal Transport Service (AMTS)-run Lal Darwaja bus station, which was built in 1955 at the heart of the city was shut down in 2021 to undergo a major renovation in order to match up with its surroundings, the historic city of Old Ahmedabad which was designated a UNESCO World Heritage City in 2017.

Originally proposed in the 2000s under the Walled City Revitalisation Project by then Chief Minister Narendra Modi, the project’s plans saw multiple changes including the addition of administrative offices in the upper level before the plan was shelved. Under the Vijay Rupani government, it finally received a green signal along with a budgetary sanction of ₹5.72 crore in 2017 but was delayed due to lack of approvals from the Archeological Survey of India (ASI), whose approval was necessary due to the presence of several monuments within a 2,000 metre radius.

The foundation stone was laid on 8 April 2017 by Rupani. After numerous delays, the project got ahead in 2021 and was to be complete by 2022 but was finally inaugurated by Chief Minister Bhupendra Patel on 5 June 2023.

Lal Darwaja Bus Station (DeshGujarat/Twitter)
Lal Darwaja Bus Station (DeshGujarat/Twitter)

Spread over 11,583 square metres, the bus station is a two-storeyed structure with lighting to match the aesthetics. A proper drainage system and reinforced cement concrete (RCC) roads were also laid. The stone –Bansi Pahadpur stone – for the building have come from Bharatpur in Rajasthan which helps in lowering the temperature inside the bus terminal. Seating arrangements involve decorative bus shelters. LED display-based Passenger Information Systems (PIS) have also been installed. Facilities for administrative purposes such as a control room, a meeting hall as well as solar power have also been set up. 35 closed-circuit television (CCTV) cameras for security have been installed. The revamped terminal has a capacity of 503 buses with nearly 80 routes touching it. Nearly 1.95 lakh passengers are expected to use Lal Darwaza daily.

The tiles in the bus station have been carved to resemble the Siddi Saiyyed Jali which is the unofficial symbol of the city. The pillars are round and have been designed in the style of those present at havelis while lighting is provided by lanterns and railings are leaf-patterned.

The building is six metres tall and permission from the ASI has been secured to increase the height to 12 metres if expansion is required.

You can watch a walk through of the bus terminal (in Hindi) on YouTube thanks to Youtuber DeepsBeenHere:

Featured Image: Front facade of the Lal Darwaja Bus Station tweeted by Bhupendra Patel.

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From Ferry Tale to Ferry Go Round

Ferries. No, not Fairies. And most certainly, not them Purple Faeries.

Water transport is something that defines most coastal cities. New York has one of the most comprehensive Water Transport networks. In India, Kerala, with its backwaters, has a huge Boat-based transport network. Kochi even has an integrated, Road-Rail-Water Transit Hub in the form of the Vytilla Mobility Hub.

Now, when I talk of water transport in this article, I’m talking of Boats and Catamarans. Higher-end vehicles like Hovercrafts will be dealt with separately. I am mainly talking of passenger traffic, since I’m looking at it from an Urban perspective.

Union Minister for Shipping, Road Transport and Highways, Nitin Gadkari has repeatedly called for greater emphasis on water-based transport.  This resulted in the passing of the National Waterways Act, 2016. The fundamental reason behind this being the fact that it is cheaper. However, there are multitude of other reasons that work out in favour of water-based transport over road or rail.

Ferries, can run faster than trains, which run faster than buses. Ferries can carry a greater load of people than buses and and in the long run are more reliable. Will the Electronic Boat recently launched by Prime Minister Narendra Modi, it’s high time, India took up water based transport seriously.

Now, the focus of this post is going to be on four specific cities; Mumbai, Chennai, Pune and Ahmedabad, mainly because of my experience in them. They can emulated to other cities too, such as Hyderabad and Bengaluru.

The Kerala State Water Transport Department owns and operates boats and ferries as well as the infrastructure. The Maharashtra Government started planning for this in the right way by getting the Maharashtra State Road Development Corporation and Maharashtra Maritime Board to set up the necessary infrastructure, while private agencies would operate the services.

Mumbai

BEST Ferry across the Manori Creek.
BEST Ferry across the Manori Creek. Image copyright Nichalp, CC-BY-SA 2.5 Generic, available on the Wikimedia Commons.

Mumbai, as stated earlier, has several rivers flowing through the city, as well as in the vicinity. The Mithi, Oshiwara, Poisar and Dahisar lie entirely on the island, while the Ulhas River flows around the island.

Barring the stretch which passes under the runway of the Chhatrapati Shivaji International Airport, the Mithi, once dredged, cleaned of toxic sludge, as well as encroachments, can provide connectivity from Terminal 2 of the airport, Marol, and Seepz Village. Similarly, the Oshiwara can provide connectivity from Oshiwara Depot to Oshiwara Station, the Poisar from Poisar Depot to Malwani, and the Dahisar river can connect Ram Mandir in Borivali to the Dahisar Bridge Bus Station. The major hurdles on this stretch would be clearing encroachments, widening the river, dredging it, and ensuring that pollutants don’t enter it. Another major hurdle would be to demolish low lying bridges and have them replaced by higher ones.

The Ulhas river, which meanders through the Pune, Raigad and Thane district, empties into the Thane Creek. The towns of Kalyan-Dombivali, Karjat, Neral, Badlapur, and Ulhasnagar lie on the banks of the Ulhas. In rural pockets, the Ulhas provides water for agriculture. The rest of it, is filthy, much like the Mithi. Back in 2014, a Shiv Sena MP has asked the MMRDA to conduct a feasibility study for Water-based transport from Kalyan to Mumbai and Virar using the Ulhas river. If planned properly, this can link the far flung town of Karjat to the Versova Bridge via the above mentioned cities and Reti Bunder, thus making travel in the MMR easier. This has been notified as National Waterway 53.

Periodic maintenance of these water bodies will also help prevent another 26th July in future.

Today, the only existing mode of transport is in the form of boats and catamarans connecting Ferry Wharf and Gateway of India to Elephanta Island, Rewas, and Mandwa on one side, and Madh Island, Marve, Manori. The former is operated by private bodies while the latter is operated by BEST.

Chennai

The city of Chennai, has two major rivers and one canal linking these two. The Cooum river runs on the north of the city, the Adyar through the Central portion,and the Buckingham Canal connects to two while also providing connectivity to Kakinada in the North and Cuddalore in the South.

The Cooum, passing through the fringe areas of the Core city, such as Poonamallee, Maduravoyal, Koyambedu, Anna Nagar, Kilpauk, Egmore and Park is polluted for most of the year. The Adayar, passes through less denser areas such as Ekkaduthangal, Adayar, Mylapore, Guindy, etc and is less polluted.  It also passes beneath the Runway of the Chennai International Airport. The Buckingham Canal, meanwhile is relatively cleaner in the Northern fringes of Chennai, and south of Thiruvanmiyur. The section between the two, mostly passing through Central Chennai is pretty much unnavigable because of two reasons: Chennai Central station sort of sits on top of the Canal; The pillars of the MRTS line almost eat away the canals width.

The remaining section of both rivers and the Canal can be utilised for transport in and around the city of Chennai.

The Cooum, by virtue of running parallel to both Poonamallee High Road for most of its part and partly with the Egmore-Beach Railway track, can decongest both the road and the track, as well as the upcoming Metro. The Adayar can connect the Airport, Nandambakkam, Ikkaduthangal, Little Mount, Kotturpuram, Adayar, and terminate at the Theosophical Society.

The Buckingham Canal, on the other hand, can connect Ennore, Wimco Nagar with Basin Bridge on the North, and Thiruvanmiyur to Lattice Bridge, Kannaki Nagar and Sholinganallur in the South. Part of this is part of National Waterway 4.

Like Mumbai, Low Level Bridges would need demolition, the entire water bodies widened and reinforced, and dredged. Periodic maintenance would prevent Chennai from being inundated like in 2015.

Pune

The city of Pune has three major rivers flowing through it, The Mula, The Mutha and the Pavana. The Pavana flows through Northen Wakad, and Chinchwad before merging into the Mula at Kasarwadi. The Mula flows north of Balewadi, separating Pune from Pimpri-Chinchwad at Aundh and Khadki. The Mutha flows from Warje towards Deccan and Shaniwarwada, separating Old and New Pune. The Mula and Mutha meet each other at Sangamwadi from where they flow as the Mula-Mutha.

All three rivers feature a few low lying bridges, most predominantly on the Mutha, which would need be demolished.

The Mula can provide connectivity from Hinjewadi, Wakad, Balewadi, Aundh, Khadki, to Sangamwadi. The Pavana can connect Punawale, Ravet, Chinchwad, Sangvi and Kasarwadi. The Mutha can connect Warje, Kothrud, Karvenagar, Erandwane, and Shaniwarwada. From Sangamwadi, they can provide connectivity to Koregaon Park, Kalyani Nagar, Mundwa, etc.

Ahmedabad

Sabarmati Riverfront Project.
Sabarmati Riverfront Project. Image copyright Harshit Gohil, CC-BY-SA 3.0 Unported, available on the Wikimedia Commons.

Possibly the best city in India in the matters of Riverine management, Ahmedabad stands out in an interesting way. It is possibly the only city in India without low level bridges, and doesn’t need dredging.

The Sabarmati River, which originates in the Aravalis of Rajasthan, runs dry for most of the year. The Sabarmati Riverfront Development Project, under the Ahmedabad Municipal Corporation, involved construction of a concrete wall and concrete basin for the river within the city limits, to control its course, as well as facilitate easy maintenance. Part of the river width was reduced to provide for a Promenade and a Riverside Project. There are barrages at regular intervals on the river to regulate the flow of water. The river receives its water via a canal which brings water from the Narmada river at the Sardar Sarovar Dam. This Narmanda Canal flows under the Sabarmati River at their meeting point.

The Riverfront extends to The Torrent Power Park in the North and near Khodiyarnagar in the South. Plans are afoot to further extend it up North to Gandhinagar via GIFT City. There are two Boating Stations on the banks, used for joyrides on the river. This can be converted into a serious transport station, which in future can be extended up to Gandhinagar.

 

This article was mainly to highlight inner-city, river-based transport options. The benefits of running transport ops are it would help keep the river clean, and keep water flowing, thus, reducing chances of deluges.

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Shooting a Bullet from Mumbai to Ahmedabad

The Bullet train is an often talked about thing these days, for good reasons too.

Officially known in Japan as the Shinkansen, meaning “New Trunk Line”, the Bullet Train got this name because of the shape of the train which initially resembled that of a bullet.

The original Shinkansen 0 Series 'Bullet Train' in 1967.
The original Shinkansen 0 Series ‘Bullet Train’ in 1967. Image copyright Roger Wollstadt, CC-BY-SA 2.0 Generic, available on the Wikimedia Commons

Of course, there are many detractors, all with pointless reasons to oppose the project. Some say it is financially nonviable, some say that it is redundant in the age of air travel, some say it will be expensive to travel on.

Let’s just go thru the Shinkansen that operates in Japan, and compare it with India.

Proposals for high speed rail had been going on since the 1930s. Prior to the Shinkansen, Japan’s rail system consisted of 1067mm Narrow Gauge railway lines which took roundabout routes due to difficult terrain. In 1957, the 3000 Series SE Romancecar, capable of attaining a record breaking high speed of 145km/hr for  Narrow Gauge was introduced. Banking on the success of an NG train achieving such speeds, Japan decided to build a High Speed Rail system that would run on a 1435mm Standard Gauge track.

With Government sanctions secured in the end of 1958, Construction began at the end of the first quarter of the following year [April 1959]. The cost then was estimated to be ¥200billion, which came in the form of Government loans, Railway Bonds, and a low-interest World Bank loan of $80million. The 550km line from Tokyo to Osaka was thrown open in October 1964 for the General Public, just before the Tokyo Olympics. The existing Limited Express train covered the distance in 6hours and 40 mins. At 210 km/hr, the Shinkansen took four hours for the same, a journey which then took 3hours by 1965 thanks to increased speeds. Today, the line is capable of handling a high speed of 285km/hr, thereby reducing the journey time between the two cities to 2hours and 22minutes!

The fare from Tokyo to Shin-Osaka is ¥14,104 for adults on the Hikari and Kodoma services, and ¥14,450 on the faster Nozomi service. This translates to roughly ₹7715 and ₹7,911 respectively which works out to an average of 25 yen per kilometre, or 14 rupees per kilometre.

Now what does the Shinkansen have that makes it so fast?

Route

All Shinkansen tracks, while at grade for most part, do not have any crossings with roads. They are completely grade separated, have tunnels and bridges thru obstacles and rough terrain, and are cut off from the regular tracks. This means, that slow trains, freight trains, all have no impact on the Shinkansen. This would make it a super win-win situation in Mumbai itself because of the severe congestion on the Western Railway network.

Track

Shinkansen track at Toyohashi station.
Shinkansen track at Toyohashi station. Image copyright Tennen-Gas, CC-BY-SA 3.0 Unported, available on the Wikimedia Commons.

Shinkansen tracks are 1435mm wide in comparison to the Japanese Narrow Gauge of 1067mm. India traditionally uses 1676mm Broad Gauge on Indian Railways. Metre Gauge tracks of 1000mm width are slowly being phased out in favour of Broad Gauge, also known as Indian Gauge. Line 1 of the Kolkata Metro and the Red, Yellow and Blue Lines of the Delhi Metro are rapid transit systems in India that run on Broad Gauge, while all other Rapid Transit Systems use the 1435mm Standard Gauge. The Shinkansen network uses a combination of both ballasted as well as ballastless tracks, with the latter being used in sections such as viaducts and tunnels.

Signalling

Automatic Signalling is used. All operations are automated at a Central Control Room, eliminating trackside signals that are used conventionally. As of now, advanced signalling is only used on Metro corridors in India.

Traction

The Shinkansen operates on a 25kiloVolt Alternating Current system of electrification. This is the same as Indian Railways and most Metro Railway projects, thus making it the simplest of Shinkansen features to implement in India.

Trains

All trains are Electrical Multiple Units [EMUs]. They are lightweight and air-sealed for greater speeds and stability. All axles are powered in the train, enabling higher acceleration and lesser time wastage during stoppages.

 JR East Shinkansen Lineup at Niigata.
JR East Shinkansen Lineup at Niigata. Image copyright Rsa, CC-BY-SA 3.0 Unported, available on the Wikimedia Commons.

Now, coming back to India

Mumbai is situated at an altitude of 14m above mean sea level, while Ahmedabad is located at 54m. Between the two cities, there is no rough terrain, but a simple incline. Rivers on this route include the Ulhas River, the Narmada, the Tapi, the Mahi and the Sabarmati. Major cities on the route, not counting the fact that the Southern termini is the Financial Capital of India, include Surat, India’s Diamond Hub and Vadodara.

The distance between Mumbai Central and Ahmedabad Junction is 493km, and presently takes 6 hours 25 minutes at a cost of ₹1000 for an AC chair car and ₹1900 in an AC Executive Chair Car in the fastest train on the route – The Shatabdi Express. Between Mumbai Central and Borivali, it runs slower than a Fast Local, taking 29 minutes for the journey, while a local takes 27 minutes, mainly due to congestion on the network. There are around 70 trains on this route at present. The High-Speed Rail corridor will be 508km long and will feature a 21km undersea tunnel North of the Thane Creek towards Virar before coming back up and continuing elevated.

The impact of this line is something most detractors fail to see. Critics say that the line is being favoured because the Prime Minister and Railway Minister hail from these two states.  What they forget is that Mumbai to Ahmedabad is among the highest density corridors of passenger transport in a day. Apart from this, this route is part of the Delhi-Mumbai Industrial Corridor. The Government must seriously consider the extension of this line from Mumbai to Pune as well, thus connecting the two most important cities of both Maharashtra and Gujarat.

Further, the feasibility study has recommended that fares along this route should be the 1.5 times First Class AC fares, which is approximately ₹2200 right now on the Mumbai-Ahmedabad Duronto Express. This is quite reasonable for the distance, given the time it achieves this in.

In comparison, taking Private Metro Lines into consideration; we see that the two most expensive lines are Mumbai Metro 1, which charges ₹45 for 11km, Rapid Metro Gurgaon, which charges a ₹20 flat fare for 5km. It is obvious that the High Speed Rail will cost less than most skeptics assume.

A study by IIM-Bangalore has come to the conclusion that in order to break even and prepay loans, the train would have to carry 88,000 to 118,000 passengers per day, at an approximate travel cost of ₹5 per km per passenger. This, with a little extra calculations, results in a single one way journey coming up to ~₹2600.

A while ago, Delhi Chief Minister, Arvind Kejriwal, the man who came up with the brilliant Odd-Even formula for Delhi, estimated that it would cost ₹75,000 for a one-way ticket for this journey, one which multiple people have tried to justify from an economic viewpoint on Quora. Both are wrong, for reasons known to all. For starters, Kejriwal is the CM of Delhi, not Maharashtra or Gujarat, where the line is to come up, nor is he the Railway Minister or an Economist. Two, the deal that Japan and India have agreed to is not what everyone is using for their calculations.

Japan is giving India a loan of ₹79,000crore at an interest rate of 0.1%, with India having to pay back this loan over a 50 year period with a 15 year moratorium prior to that. In common language, India starts paying the loan back 15 years after the loan period begins. This is cheaper than the Delhi Metro’s JICA loan. A propaganda article by Troll.in, sometimes masquerading as Scroll.in calls it a Wasteful Expenditure. Why? It fails to mention that the money will be spent over 7 years, and not one year as the article claims. As stated, haters will continue to hate, in spite this particular corridor having been sanctioned by the previous government.

Why not Conventional Rail?

The Bhopal Shatabdi Express, with LHB Coaches, is the fastest train in India with a top speed of 150km/hr.
The Bhopal Shatabdi Express, with LHB Coaches, is the fastest train in India with a top speed of 150km/hr. Image copyright Ayushrocks, Public Domain.

This is an often asked question. People ask, why not improve the existing rail network?

Simple, Japan is offering the loan for export of the Shinkansen ONLY. It will also transfer some Technology to us so that we can use it for future lines. This money cannot be used for any other purpose.

This does not meant that the Conventional Railway Network will take a backseat or be discontinued. It just means both will coexist. Like a Bus Transport company has Regular and AC services.

But then, why not Maglev?

Shanghai Maglev Train.
Shanghai Maglev Train. Image copyright JakeLM, CC-BY-SA 2.5 Generic, available on the Wikimedia Commons.

Another often asked question here is: Why not Magnetic Levitation aka Maglev, which offers speeds of upto 431km/hr against the Shinkansen high speed of 320km/hr?

China uses a Maglev in in Shanghai. The line is a completely elevated one connecting the city and its airport. In a Maglev, the tracks are designed in such a manner that the train glides over it. Thus, the entire system is automated and both the tracks and the train itself are run by Computers. The Shanghai Transrapid was built by many companies. The tracks were built by local Chinese firms, while the train itself is German, having been built by ThyssenKrupp and Siemens.

Cost of investment is high, as high or higher than the Shinkansen, but not at the same cost of the Shinkansen, keeping in mind the loan and the associated conditions.

The Bottom Line

The Bullet Train between Mumbai and Ahmedabad is crucial for the Nation. It would help in redrawing the lifestyle and work culture of India, as well as restructure Western India as a transport hub. The biggest beneficiary of this would be Diamond Merchants in Surat, and along with that, the Smart City projects of GIFT City, DREAM City, and the Dholera SEZ.

Other routes that should be considered:

  • Chennai – Bangalore – Mangalore
  • Chennai – Coimbatore – Cochin
  • Delhi -Gurgaon – Jaipur
  • Pune – Hyderabad – Vijaywada

Also Read: What The Mumbai-Ahmedabad Bullet Train Means For The Region on Swarajya.

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