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20-08-2016

‪#‎Economy‬:Bullish on India's growth, major French companies will be investing about EUR 8 billion in the country in next few years. French majors had already invested EUR 20 billion in the country accounting for the third largest FDI inflow from the European country.

‪#‎Finance‬:Country's forex exchange reserves surged by $73.2 million to touch a life-time high of $365.82 billion in the week to August 12, helped by increase in foreign currency assets.

‪#‎Deduction‬ u/s 35AC of the Income Tax Act will only be available till 31-03-2017, in respect to the payments made to association or institution approved by the National Committee for carrying-out any eligible project or scheme.

‪#‎Govt‬ ready with policies to promote electric two-wheeler.The Govt is facilitating equity capital for investors under various mechanism including India Aspiration Fund while calling upon the big industries to invest in the electric two-wheelers sector.

‪#‎Mera‬ Bharat Mahaan:The National Pharmaceutical Pricing Authority (NPPA) has revised the prices of 22 scheduled drugs. These drugs are for treating malaria, HIV, asthma, breast cancer, among others. While the drug price controller keeps revising prices of drugs, it has now taken up the task of working out the prices of stents as well. Stents are now officially considered drugs and come under the ambit of NPPA.

भारत माता की जय
 
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:Bullish on India's growth, major French companies will be investing about EUR 8 billion in the country in next few years. French majors had already invested EUR 20 billion in the country accounting for the third largest FDI inflow from the European country.

@Vergennes
:cheers:
 
. .
Ok as promised, here is a technical article explaining where did the Horse-power rating of locomotives for DFC have come from. I'm writing it down in number of posts owing to image limitation.

PART 1

Definitions
Locomotive capability and Train Resistance Curve
A locomotive has a limited pulling capacity (referred to as Traction effort or TE hereafter), which is usually measured in terms of kilo newtons (kN) or Tons (T) (1 Ton=10 kN). This capability however is not fixed and varies with speed. This can be visualized when you drive a car. At low gearing, torque generated by engine is high, which allows you to climb on a steep road or carry heavier load but at a slow speed. Alternately if you want to drive faster, you have to lower the weight.
A locomotive works similarly and the reason for that is that at higher speeds, the resistance from train tries to slow down the train. The resistance is a function of v^2 (where v is the velocity).
When you plot down the Traction Effort with speed, you get a curve which is called TE curve for a locomotive.
upload_2016-8-20_19-36-45.png

this is TE curve for our WDG 4 (4500 HP 3 phase diesel locomotive)
On the same curve if you plot Train Resistance (TR) curve, you'll get something like this.

steam-train-forces.png


Please note here that TR is a function of slope of track and load. In railway terms, slope is called gradient and is usually defined as 1:abc (where abc is a number). This means a slope equal to an angle of sine (inverse) (1/abc). So bigger is abc (denominator, gentler is the slope or gradient).
Higher the gradient or load, steeper will be TR curve.
tractive-effort-statistics-zoom.jpg


Balancing Speed
Now the point where TR arc cuts TE curve is the speed, that locomotive can run at maximum. Essentially this is the maximum speed a locomotive can sustain on a certain slope and load. This speed is called Balancing Speed.
In above picture, where ever the colored lines are cutting Thick black line (TE curve), the corresponding value on x axis is Balancing Speed.
& in continuation of above, higher the load and/or gradient, lower will be the balancing speed.

Starting Tractive Effort and Continuous Tractive Effort

When a train starts from standstill, it has to break down the rolling friction. At this point the pulling force provided by locomotive is highest and is called Starting TE. As speed increases, we shift to right and the applied force reduces (as TR increases). Usually based on friction or wheel adhesion, a lower value of tractive effort is always available and this is called Continuous Tractive effort. This value lies usually on the curved part of TE curve.
upload_2016-8-20_20-0-26.png

Effort details for WDG 4

The above definitions will help us understand how a locomotive is selected based on track conditions (Gradient and adhesion), load to be carried and maximum speed required.

PART 2

Dedicated freight Corridor Requirements

DFC is designed for much higher axle load (initially 25 Tons and upgradable to 30 tons later). What this means is that each axle of a bogie can bear higher load and at higher speed. This means two things. Assume two trains of equal bogies (say 10 each). One track allows 20T axle load (Train A) and other 25 tons (Train B). Each bogie consists of 4 axles (typical Indian Freight wagon).
Train A will be able to carry 20*4*10 (Axle load*No. of Axles*number of Bogies)=800 Tons.
Train B will carry 25*4*10=1000 Tons.
So you can note that by simply increasing axle load by 5 tons, train capacity increases by 25% ..........(i)


Now assume Train A moves at a speed of 30 kph (Typical average speed of Indian Freight Train)and Train B at 65 kph (proposed average speed for DFC). Now between points X and Y, Train B (remember it already is carrying more load) will take half the time as compared to Train A. Simply put, by the time Train A reaches from point X to Y, Train B would have covered its round journey from point X to Y and back to X. So heavier load moved in lesser time. In railway terminology this is called Throughput. The heavier and Faster moving train will always create a higher capacity of load movement of higher Throughput. ............(ii)

upload_2016-8-20_20-19-12.png


If you combine (i) and (ii), this is exactly what DFC is trying to achieve.
& what it would mean is that the cost of transportation would come down as heavier freight can be moved quickly. No wonder DFC is speculated to add atleast 1% to GDP when fully functional.

upload_2016-8-20_20-20-34.png


upload_2016-8-20_20-21-5.png
 
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Ok as promised, here is a technical article explaining where did the Horse-power rating of locomotives for DFC have come from. I'm writing it down in number of posts owing to image limitation.

PART 1

Definitions
Locomotive capability and Train Resistance Curve
A locomotive has a limited pulling capacity (referred to as Traction effort or TE hereafter), which is usually measured in terms of kilo newtons (kN) or Tons (T) (1 Ton=10 kN). This capability however is not fixed and varies with speed. This can be visualized when you drive a car. At low gearing, torque generated by engine is high, which allows you to climb on a steep road or carry heavier load but at a slow speed. Alternately if you want to drive faster, you have to lower the weight.
A locomotive works similarly and the reason for that is that at higher speeds, the resistance from train tries to slow down the train. The resistance is a function of v^2 (where v is the velocity).
When you plot down the Traction Effort with speed, you get a curve which is called TE curve for a locomotive.
View attachment 327450
this is TE curve for our WDG 4 (4500 HP 3 phase diesel locomotive)
On the same curve if you plot Train Resistance (TR) curve, you'll get something like this.

View attachment 327448

Please note here that TR is a function of slope of track and load. In railway terms, slope is called gradient and is usually defined as 1:abc (where abc is a number). This means a slope equal to an angle of sine (inverse) (1/abc). So bigger is abc (denominator, gentler is the slope or gradient).
Higher the gradient or load, steeper will be TR curve.
View attachment 327457

Balancing Speed
Now the point where TR arc cuts TE curve is the speed, that locomotive can run at maximum. Essentially this is the maximum speed a locomotive can sustain on a certain slope and load. This speed is called Balancing Speed.
In above picture, where ever the colored lines are cutting Thick black line (TE curve), the corresponding value on x axis is Balancing Speed.
& in continuation of above, higher the load and/or gradient, lower will be the balancing speed.

Starting Tractive Effort and Continuous Tractive Effort

When a train starts from standstill, it has to break down the rolling friction. At this point the pulling force provided by locomotive is highest and is called Starting TE. As speed increases, we shift to right and the applied force reduces (as TR increases). Usually based on friction or wheel adhesion, a lower value of tractive effort is always available and this is called Continuous Tractive effort. This value lies usually on the curved part of TE curve.
View attachment 327463
Effort details for WDG 4

The above definitions will help us understand how a locomotive is selected based on track conditions (Gradient and adhesion), load to be carried and maximum speed required.

PART 2

Dedicated freight Corridor Requirements

DFC is designed for much higher axle load (initially 25 Tons and upgradable to 30 tons later). What this means is that each axle of a bogie can bear higher load and at higher speed. This means two things. Assume two trains of equal bogies (say 10 each). One track allows 20T axle load (Train A) and other 25 tons (Train B). Each bogie consists of 4 axles (typical Indian Freight wagon).
Train A will be able to carry 20*4*10 (Axle load*No. of Axles*number of Bogies)=800 Tons.
Train B will carry 25*4*10=1000 Tons.
So you can note that by simply increasing axle load by 5 tons, train capacity increases by 25% ..........(i)


Now assume Train A moves at a speed of 30 kph (Typical average speed of Indian Freight Train)and Train B at 65 kph (proposed average speed for DFC). Now between points X and Y, Train B (remember it already is carrying more load) will take half the time as compared to Train A. Simply put, by the time Train A reaches from point X to Y, Train B would have covered its round journey from point X to Y and back to X. So heavier load moved in lesser time. In railway terminology this is called Throughput. The heavier and Faster moving train will always create a higher capacity of load movement of higher Throughput. ............(ii)

View attachment 327496

If you combine (i) and (ii), this is exactly what DFC is trying to achieve.
& what it would mean is that the cost of transportation would come down as heavier freight can be moved quickly. No wonder DFC is speculated to add atleast 1% to GDP when fully functional.

View attachment 327497

View attachment 327499

(referred to as Traction effort or TE hereafter)

Minor correction:

In Railways parlance, in this context, there exist two things:
Braking effort & tractive effort.
No such term as traction effort.

Australian trains here are using disc brakes (as in automotives) ABS.
The shiney & polished discs are clearly visible from far away.
 
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Railway Ministry Takes Major Step Towards Scientific and Technical Collaboration Among Major Government Technical and Scientific Agencies for Development of Special Material and Technologies for Improving Railway Rolling Stock

by admin | posted in: General, Rolling Stock | 0

First Round-Table Meeting Chaired by Minister of State for Railways Shri Manoj Sinha, convened on 25th April 2016 to discuss the Issue- “Scientific and Technical Collaboration Among Major Government Technical and Scientific Agencies for Development of Special Material and Technologies for Improving Railway Rolling Stock”


Heads Of ISRO, CSIR, DRDO, RDSO, Deptt. of Science and Technology and Deptt. of Defence Production Attended the Round-Table Meeting

Decision Taken to Create a Permanent Mechanism of “Standing Intra-Government Technical Collaboration Panel” (SITCOP)

The Move will Give Impetus to Creation of New Technologies Within Indian and hence is seen as a Major Boost for Govt. of India’s Make in India Initiative

As a major boost for Government of India’s Make In India initiative, Minister for Railways, Shri Suresh Prabhakar Prabhu has envisioned unprecedented approach for creation of a Scientific & Technological Collaboration Forum among major Government Technical and Scientific agencies for development of special material and technologies for improving railway rolling stock for providing safer, more comfortable, more efficient and economical services to its customers. The aim is to reduce Indian Railways dependence on other countries and give impetus to creation of new technologies within India by creating an organized synergy between major government bodies in the field of scientific and technological research and production. This will help in developing systems for Indian Railways which are best suited to the country’s local conditions and needs. Also, it would create a constantly evolving rolling stock technology development process to create exportable products like coaches, locomotive, wagons, cranes, special vehicles etc.

As a first step in this direction, Ministry of Railways convened a round table session on 25th April, 2016 at Rail Bhawan with Heads of ISRO, CSIR, DRDO, RDSO, Deptt. of Science and Technology and Deptt. of Defence Production. The meeting was chaired by Shri Manoj Sinha, Minister of State for Railways. The areas in which Indian Railways sought collaboration were structural material, paneling material for coaches, germicidal and wear resistant furnishing material, coating and special paints with better cleaning properties and pest control capability, noise and thermal insulation material, fog vision technologies, embedded systems for onboard condition monitoring of rolling stock, facial and gesture recognition software for security cameras on trains, solar heat engines, etc. DRDO made a detailed presentation about special material developed by them for use in defense and space applications which included special high strength alloys of steel and aluminium. Also, special technologies for developing Fog vision and for detection of obstructions on track using laser based imaging systems were shared. Special coatings which have been developed for use on naval warships by DRDO were also shared for possible use by Railways.

Development of Maglev and special alloy aluminium coaches were identified as areas for cooperation for development of prototypes.

The meeting ended with announcement of a permanent mechanism of “Standing Intra-Government Technical Collaboration Panel” (SITCOP) to converge Government’s internal capabilities to create better and futuristic rolling stock for Indian Railways with minimal foreign dependence in critical areas. The SITCOP shall meet twice a year to review progress on collaborative projects assigned to inter-area action teams assigned by the body.

http://www.blog.indianrailways.gov....-special-material-and-technologies-for-impro/










@anant_s

you views on ICF made Bombardier EMU's ?

what went wrong?
 
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PART 3

Locomotive Requirement for DFC

The two proposed DFCs Western and Eastern are designed to cater Container Traffic and Bulk Commodities respectively. Both are Electrified and Western DFC is designed with high rise Catenary to allow double stack container movement. Eastern DFC on other hand will carry longer and heavier trains.
upload_2016-8-20_21-44-57.png


upload_2016-8-20_21-45-42.png



Now we can note that while trains are running heavier and faster on DFC, the gradient is lower as compared to elsewhere in India (1:200 as against 1:100). So the trains will move on relatively flatter tracks which will reduce TR curve.

Capability requirement for Locomotives on DFC

Based on above load and speed requirements, DFC locos are required to fulfill following technical requirements.

upload_2016-8-20_21-50-10.png


Our current workhorses WAG 7 (5000 HP) and WAG 9 (6000 HP) have relatively limited capabilities as they are designed to suit existing tracks. The capability curves are as follows:
upload_2016-8-20_21-53-41.png

We can notice that if we put these locos on service for trains envisaged for DFC the speeds for WAG 9 will be 47 and 43 kph (with 4000 T and 6000 T trains) and for WAG 7 38 kph and 20 kph (with 4000 T and 6000 T trains). These values are way short of required speed limits.

HP requirement for Western DFC

For Western railways locomotive HP requirement of 9000 HP (~7000 kW) has been selected. The reason for that is as follows:
upload_2016-8-20_21-59-31.png


We can notice that green line (1:200 gradient) at 65 kph corresponds to 9000 HP (on y axis). So a loco of 9000 HP rating will take a 4500 Ton train at 65 kph on 1:200 gradient (which is steepest slope) and at lower gradients upto 100 kph, meeting original requirements.

HP requirements for Eastern DFC

A value of 12000 HP is selected for Eastern DFC with speed requirements same as that of WDFC.

upload_2016-8-20_22-3-23.png


we can see from curve that a requirement of 12000 HP (or 9000 kW) is required to meet DFC requirements. Trains on EDFC are longer and heavier than the ones on WDFC.
 
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. . .
The Talgo Trials

Posted by: theevandi in All About Indian Railways, Opinions and Ideas August 16, 2016 3 Comments 766 Views
Three score and nine years ago, our forefathers brought forth upon this continent, a new system of railways, conceived in socialism, and dedicated to the proposition that all trains are created equal. Since then, all trains had indeed been equal: so equal that we decided the system should live on forever. Ever since the Swiss Car and Elevator Manufacturing Company of Switzerland designed our train coaches in 1956, they have remained mostly the same. The Integral Coach Factory in Perambur, Chennai, has been exercising its monopoly and continuing to churn out these coaches with little or no change since then, like a photocopier. The greatest improvement these “ICF” coaches have seen in these 60 years was CFLs and LEDs replacing light bulbs and the addition of mobile charging points. The LHB coaches were a big step forward in design and aesthetics, but they were in essence, only an upgraded version of the ICF coaches rather than altogether new technology if you discount their lightweight, high-speed FIAT bogies which were the only radical technology change Indian passenger railway coaches have ever seen.

In such a context, when Indian trains have been stuck in the stone age since forever, the buzz and excitement around the Talgo coaches currently on trial in India is understandable. Everyone seems to be going hyper chanting “Talgo, Talgo”, including the dumb media, who have been reinforcing the widely known fact that they know jack when it comes to railways, by calling them Bullet trains and such and by gushing at its “swanky” interiors, which are really only the standard cattle class of Europe. So, what are these modern age wonders?


Talgo Avril High-Speed Train (Currently under testing)

Talgo is a Spanish conglomerate specializing in railway stuff: they build and maintain very high-speed trains, high-speed trains, Intercity trains, locomotives, coaches and equipment, and invent awesome train technology for railways across the world. They are known for their innovations like wheelsets and variable gauge coaches. Apart from Spain, Talgo trains are also in service in USA, Germany, Switzerland, Kazakhstan, Uzbekistan, etc. And now, they have set sights on India, whose railway manufacturing and service industry, currently 100% nationalized, is probably the world’s largest remaining untapped market. In 2014, Talgo proposed to bring a train of theirs for testing in India, which they claimed can be run in India without any alteration to running infrastructure (permanent way, rails, signaling etc) at speeds and comfort levels much higher than our 1960’s trains. All transport and testing would be done completely at Talgo’s cost. The Indian government shrugged and said, “go ahead!” This decision was historical because for the first time in the history of the country would railway coaches not made or intended to be made in India by the government run on Indian rails. It was also momentous because ordinary Indians could for the first time see in real and not through pictures on how “real” trains looked and felt like.


The Talgo trials were intended to demonstrate the ability of Talgo’s coaches to run on Indian tracks at much higher speeds than conventional Indian trains with no modifications to existing tracks.
Talgo’s products include the Talgo Avril, Talgo 350 and Talgo 250, bidirectional powercar-hauled trainsets for high speeds. The Avril and 350 are High-Speed “Bullet Trains” while the Talgo 250 is used for semi-high-speed Intercity services. Talgo also produces “Talgo Pendular” independent train coaches, any number of which can be hauled by a locomotive, which are also used in the Talgo 250 trainsets, and which also came to India for testing, probably some out of RENFE‘s out-of-service coaches. Indian locomotives were used for testing, mostly a WDP4 or a WAP5. They were tested both empty and fully loaded at maximum speeds of 180 kph because that is what conventional (non-Bullet-Train) tracks can support, as anything above 200 kph will require specially built tracks and signaling systems. The Talgo was not intended to be a High Speed “Bullet” train but to be used for intercity services at 150 to 180 kph. DO NOT believe the bullshit the media peddles saying Talgo trains will run at 250 kph in India. They are capable of doing that, but not here.


screenshot-24coaches.com 2016-08-21 01-04-49.png

The Talgo coaches were shipped from Spain to India by sea and after arriving at Mumbai port they were transferred to Izzatnagar workshop in UP by road. There they were retrofitted to “suit Indian conditions” and tested on the Bareilly – Moradabad route as special trains. They were then run at speeds reaching up to 180 kph on the Mathura-Palwal route, on which the Gatimaan Express runs at 160 kph. The most extended tests took place in the entire Delhi – Mumbai stretch with an attempt to beat the timings of the Rajdhani Express, and which it did! The Talgo coach-WDP4 locomotive hybrid train became the fastest train on Indian tracks, ever. So, this seems to be good enough to induct Talgo trains into our network, right? Not really.

Before going into their pros and cons, let us see how the Talgo coaches were able to run on Indian railway tracks without any modification to the track or the coaches. Also, the question arises as anyway the tracks, signals and the congestion on them remain the same why we just can’t make our regular trains run as fast as Talgos instead of spending money on them? Fair question, since speeds of trains depend on the track more than the equipment being used. A track section certified for 120 can have trains running on them only at a maximum speed of 120 kph and not more. On the Delhi-Mumbai route, the “King” Rajdhani already runs at the top speed allocated for each track section, reaching 130-140 kph top speeds where the tracks allow it. So, if both our trains and the Talgos can run at the same speed, how can the Spaniard be faster overall and reduce up to four hours of travel time? Surely it does not run faster than the Rajdhani, that is, at speeds higher than what the tracks allow?

15812530959_6b994c19a2_b.jpg


It does not. Though it might be allowed to run marginally faster than the Rajdhani, the Talgos’ top speeds will more or less equal to the Raj’s when it comes to regular services. We know that Indian trains have low average speeds and hence high travel times not just because of lack of top speed but because they are unable to maintain high top speeds over long periods of time as factors like track conditions, congestion and shortcoming of equipment keep slowing it down, just like 200 kph-capable cars on our roads are forced to run at high speeds only in bursts because of road conditions and congestion. Talgo coaches are able to overall run faster than the Rajdhani because they do have the handicaps that slow our trains down, which is their high weight and rigidness. Talgos’ light weight and low center of gravity enable them to accelerate and decelerate much faster and take turns without slowing down, both which our trains cannot. And all this is made possible by Talgo’s unique wheel model.

The “Independent” Talgo Wheel


The most radical feature of Talgo trains is their wheels which are unlike any other train anywhere in the world. To know more how the Talgo wheels let us first look at the other major types of wheel assemblies used in trains worldwide. The wheelset assembly is called a bogie. The railway vehicle in which you travel in is NOT a bogie, that is a coach or compartment or carriage or car.

Fixed Bogies: The model most railways and trains follow for their coaches is to have two ‘wheelsets’ of four wheels connected by two axles each, present towards either end of the coach. This is simple to build and maintain, easy to run and very stable. All Indian trains use this type. In our trains, the bogie is independent of the coach shell and not integral, Everything about the wheels of the coach ends with the bogie; all suspension, dampening etc has to take place within the bogie.
Shared Bogies: Also called Jakob’s bogies, these are majorly used in European trains. Just like our bogies, these have four wheels connected by two axles. But instead of fixed entirely under one coach, these bogies are shared between two coaches with each coach end sitting on one-half of a bogie, getting one axle and two wheels and two axles and four wheels in total. So, such trains have only one bogie per coach with four wheels in essence. Suspension systems for these bogies extend into the coaches, which enable smoother and more comfortable rides, while also lowering the center of gravity enabling high-speed turns and tilting.


SBahn453DBJakobsBogie1.png



Talgo Independent Wheels: Talgo train coaches are different from both of these in that do not even have bogies at all. They are like Jakob’s bogies that wheels are shared by coaches, but, in this case, there are just two wheels, one each side, sitting at the junction between coaches, shared by two coaches! These two wheels are “independent” that they are not even connected by an axle in the traditional sense. From eight wheels per coach for our trains, we have come to two wheels per coach for the Talgo.


Here are some cross-section views of a Talgo coach end, you can see how the coaches are connected.


See those pillar-like things? Those are vertical dampeners (suspension). While traditional railways believe in total separation of wheels and coach, Talgo coaches have integrated wheels into the coach itself with their suspension end buttressing the roof of the coach! And the wheels are independently rotating, leading to higher stability.

This independent wheel model of the Talgo enable all of its greatest advantages:

Weight: Our trains are terribly overweight. An LHB AC Chair Car weighs 39.5 tons or 16.8 tons for every ten meters, while ten meters of Talgo coach weigh just 9.3 tons at a weight per seat ratio of only 341 kg, making Talgo coaches 45% lighter than LHB coaches. As Talgo coaches do not have bogies, axles and only 1.5 wheels per coach as opposed to two bogies, four axles and eight wheels per LHB coach, a lot of weight and the need for lugging all that weight (one FIAT-SIG bogie used in LHB coaches weighs 6.6 tons, and two of them put together weigh as much as an entire Talgo coach!) as well as the rotational inertia of all those axles and wheels. In all, this means much, much faster acceleration and braking and everything.

Efficiency: Railway vehicles energy efficiency is measured by their weight-per-seat ratio. Our LHB coaches have a weight per seat ratio of 506 kg, while Talgo coaches have a weight per seat ratio fo only 341 kg, meaning a Talgo coach uses much less energy to move the same load, which makes it much more energy efficient than our heavy coaches. Talgo trains, overall, have the least weight-per-seat ratios in the world.

Taking Curves: While most trains today achieve tilting to tackle curves without slowing down by mechanically “raising” one edge of the coach body using hydraulics controlled by a computer, Talgo’s trains just let nature do the job, and have no additional equipment installed for this. The absence of bogies and high suspension create extremely low centers of gravity and high rotational center, enabling Talgo coaches to achieve tilting ‘automatically’ by ‘naturally’ utilizing forces of inertia.

Talgo 350 “Pato” (“Duck”) on an AVE service with RENFE
 

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Are Talgo Trains Suitable for India?

The Talgo trials were not just a test of coach compatibility but also a phase in India’s search for modern trains that look better, feel better, run faster to replace its ancient fleet. The Talgo seems to fit the bill, but are they those trains India is looking for? Talgo coaches not just are able to run on Indian tracks, but can do so at good speeds. But the coaches cannot be inducted into Indian Railways based on speed trials alone, there are a number of other parameters to be considered before it can be decided if Talgo trains can run in India. Speed is good, looks are good, but all that will not matter if they can not do what they are supposed to do, like capacity, for instance.
The biggest advantage and disadvantage of Talgo coaches is their independent wheelset model. While this ensures high speeds on curves, greater passenger comfort, and the least energy consumption it also severely limits the length of coaches and hence their carrying capacity. If at all Talgos were to come to India, it would surely not be the Talgo 250 trainset that can have only a maximum of 11 coaches and 299 passengers. This sounds laughable in India where our trains regularly have 22 coaches and we seat 300 passengers in just three coaches (or sometimes in a single coach)! Obvious questions of financial viability aside, putting aside precious shared track space for such a small train will be a tremendous waste. So, since using the coaches as a trainset would not work, we could replace our existing coaches with Talgo coaches. Would that work? We have already seen that they are compatible with our locomotives and tracks. To see how they perform in capacity-wise, let us compare Indian Railways’ LHB coaches and Talgo Pendular coaches in the AC Chair Car configuration.


View attachment 327558

Comparison of Talgo and LHB coaches show that two Talgo coaches are only three meters longer, have an area of just one square meter more and can seat only six fewer people compared to a single LHB coach, meaning that Talgo coaches have almost the same capacity of our LHB coaches, unlike many European trains when it comes to seating configuration. So, Talgo coaches are of the same dimensions and capacity as our coaches and can run faster and are more comfortable than our trains. So why not just go for them?

14929297637_11b8a68c62_b.jpg

28 Talgo Pendular coaches (14 LHB coaches) hauled by a locomotive
There is something everyone seems to be forgetting. All Talgo coaches provided are of seating format, the most used train coach format all over the world. However, this AC Chair Car format is a premium service in India and commands only a minuscule portion of the market, limited to just 50 Shatabdi Expresses and a couple of Durontos. Because of the size of India, its economics, demographics and low train speeds, Indian railways is one of the few operators in the world that run predominantly sleeper trains, with non-AC sleeper coaches making up a huge majority of IR’s express train coaches. The So, if any coach format has to be replaced, it is the non-AC Sleeper car. And, no manufacturer in the world makes those coaches, including Talgo, who does have Sleeper coaches are of European spec, spacious, luxurious and very low-capacity of only 20 couchettes (Europe-speak for sleeper berths) per coach. They could probably replace our AC 2 tier coaches. So, even if the Talgo coaches were to be adopted, they would be enough only to serve a very, very small percentage of the market.

And Talgo coaches are of course not compatible with our coaches, we there is no question of mixing them. Then there are other things working against Talgo such as the height of the coaches. Talgo trains sit very low because of their absence of bogies. The current problem of our platforms being too low for our trains will be reversed. Then there are questions of theirs toughness, suitability to our extreme and varying climates and even things like standing passengers and luggage carrying capacity. And Talgos are not EMUs, and the two power cars are a waste of space and capacity we could do without when moving to a new system. Talgo coaches cannot be easily attached and detached, they need workshops with complicated machinery to do that.



Indian Railways’ plan to replace our old coaches with swanky new trains had found life with its “Trainset Project“, aimed at purchasing 15 EMU trainsets to replace our existing coaches and locomotives for running Rajdhani and Shatabdi services. The Project is currently stuck because bidders believe 316 coaches is too less a quantity to be profitably produced and want the number to be increased to 1000. Talgo was one of the bidders, and the idea for these trials came from that tender. But, if they are aiming to sell 1000 or more Talgo coaches, they will be mistaken because the market for their product is definitely low in this country. They would have to produce a lot of non-AC coaches, sleeper and sitting, and also AC sleeper coaches confirming to our capacity standards. Talgo’s sleeper coaches should accommodate atleast 30 people instead of the 20 it does now. They will even have to come up with a new product altogether. This brings us back to where we started with the trainset project.


The best train model for India still remains high-capacity EMU trainsets with multiple axles powered, custom built for Indian conditions. While Talgo coaches can be serious contenders with their unique wheels and light weight, their scope is, unfortunately, way too limited. If at all Talgo coaches were to be adopted, Indian Railways will have to initiate either one of two massive policy shifts. Either we have to convert a lot of sleeper trains into seating ones, or we have make all our trains air-conditioned like they are everywhere in the world. How about that?


http://24coaches.com/the-talgo-train-trials-india/
 
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This was an older documentary I think from the mid 90s sometime I believe. :tup:

yup 1995

Did you read the article I posted above?
This article alone solved 100's of queries I had in my mind not just about TALGO but about Indian railways as a whole.

I recommend everyone to read this article for better understanding of Indian railways rolling stocks.
A gem of an article.
Kudos to the guy who wrote it.

I also suggest to check http://24coaches.com/ . It contains tons of valuable information under one roof.
 
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