What's new

China HSR News And Information: Original Translation

What's new in 2015?
9,000 kilometers of new track into operation

(a double-track railway is counted twice)
002vw9uNzy6YtRMU7Vyec&690.jpeg

7c1fcccfjw1enso3q6mrmj20rs0gugnx.jpg
002gVMFFzy6TJsF6Jo92d&690.jpeg


What's new in 2015?
Standardised CRH on trial!
7c1fcccfjw1etmj4gpwyhj20rs0ijafq.jpg
7c1fcccfjw1etolvfh4opj20rs0ii79i.jpg
7c1fcccfjw1etmf0eqhxdj20rs0ijtfx.jpg


What's new in 2015?
Export to dozens of countries

Photo of a China-made train on the Mitre commuter route in Buenos Aires, Argentina. .jpg

5d88e188gw1ey07nx5fjkj20ms0fddhk.jpg


View attachment 286376
@AndrewJin

I really like how China is taking security so seriously for its HSR.

When I was there, it causes a tiny little bit of inconvenience but no a problem.

I am happy with the extra security which ensues.

After all, HSR are expensive which needs to be guarded carefully.

Actually, taking a HSR in China is just like taking a plane. The two distinctive features are the size of the stations which looks like airport terminals and the security checks.
Not just HSR.
Since Chinese railway is not serving suburban commuters unlike Japanese or Indian trains, all railway stations, no matter what type of trains there are, require security check and ID check. Chinese citizens are obligated to show their ID card or family Hukou, passport for foreigners.
 
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Goodbye to the last non-A/C slow train in Guangdong Province
Staff members hold a banner commemorating the departure of the last green train from Shenzhen, South China's Guangdong province, Jan 9, 2016. Train No 1204 running between Shenzhen West and Xinyang railway stations covered a distance of 1,532 kilometers in more than 22 hours. As the last slow-speed green train in Guangdong province departed for the last time on Saturday many boarded it to bid it farewell. It was replaced by A/C train no. K824 since Jan 10.

I love u, goodbye!
d8cb8a5155b017fd45f10e.jpg

d8cb8a5155b017fd427b05.jpg

d8cb8a5155b017fd42da06.jpg

d8cb8a5155b017fd434e09.jpg

@anant_s
 
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Guangzhou railway group, Guangzhou communications department, say that from January 31 to February 5th (Chinese lunar calendar, 22 to 27), there will be a special highspeed train everyday for those who ride motocycle going home on festive holiday previously,.and in order to transport their motocycles, a free cargo train is ready on 27th Janu from station guangzhou to foshan, guigang; the owners can get their motocycles in the gas station near the railway station.

and 1st, Feb speical train is free too, the cost is donated by the local enterprises.
View attachment 286087

This is also slightly related:

***

Sinopec offers free refuelling service for migrants
January 12, 2016

Sinopec's subsidiary in Guangdong province will offer free refuelling services for migrant workers going home by motorcycle or minibus during the upcoming annual travel rush, known as "chunyun."

A total of 10,000 free "refuelling packages" will be given out to motorists, with free pumping, accident insurance and warm clothes included, the company said on Monday, 13 days before chunyun begins.

In addition, the company will offer 1,000 more free refuelling items to those going home by minibus, according to the company's general manager, Chen Chengmin. The engine displacement of each minibus must not exceed 1.3 liters.

The service will be offered in the provinces of Guangdong and Hunan, and South China's Guangxi Zhuang autonomous region, but only those working in Guangdong will be eligible to apply.

The applicants must have household registration in Guangxi, Guizhou, Yunnan, Sichuan, Hunan or Jiangxi, the six localities with the largest number of migrant workers.

China's transportation system will carry a record number of passengers during the upcoming peak travel period around the Lunar New Year Festival, with up to 2.91 billion trips to be made via road, railway, air and water between Jan. 24 and March 3.

With intense competition for train tickets, many of the country's more than 260 million migrant workers choose to go home by motorcycle or minibus before the lunar new year, or Spring Festival, which is often a once-a-year chance for them to reunite with family.

Guangdong has one of the country's biggest migrant worker populations. It is the fourth consecutive year that state-run oil and gas giant Sinopec has offered the service in Guangdong.

The company started to take registrations via its official website and WeChat account on Monday. The application period will last until Jan 21.
 
.
@AndrewJin @TaiShang @cirr
I'm not sure if you guys realize, but this task of chronicling the early part of HST induction in China by means of photography is indeed a praiseworthy and noble work.
Many years from now when HST will become norm, next generation of railfans, can look back at these pictures and appreciate how it all began, thanks to hardwork put by all of you.
I wish you all best wishes!
 
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@AndrewJin @TaiShang @cirr
I'm not sure if you guys realize, but this task of chronicling the early part of HST induction in China by means of photography is indeed a praiseworthy and noble work.
Many years from now when HST will become norm, next generation of railfans, can look back at these pictures and appreciate how it all began, thanks to hardwork put by all of you.
I wish you all best wishes!

Indeed it is a praiseworthy archiving effort, my friend. I myself am just a distant observer but the work done by @AndrewJin , @cirr , @ahojunk and many others is really monumental as reference for future.

It's a really good point that you raised.
 
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China's new high-speed rail now accounts for 60% of all trains
Starting from Jan 9, 2016 at 0 o'clock, the new railway operation diagram will take effect. The number of high-speed trains will be 1980.5 pairs, which accounts for more than 60 percent of all trains. [Photo/Xinhua]
View attachment 286155 View attachment 286154 View attachment 286156




Fujian to pilot 'Expresspay Card' on high speed railways
Fujian province plans to pilot the "China Railway Banking Expresspay" on its 60 CRH trains during the Spring Festival travel peak in 2016.

Passengers will be able to simply swipe their "China Railway and Banking Expresspay" cards at turnstiles to board trains traveling between Fuzhou-Xiamen, Longyan-Xiamen and Hefei-Fuzhou, without buying tickets in advance.

The trains will reserve some seats for the card holders. The ticket fare will be deducted directly from the card balance. Passengers can apply for the card at railway stations in Fuzhou. Each card costs 30 yuan ($4.55) plus a necessary first-time charge of at least 300 yuan.

The "China Railway Banking Expresspay" card, issued by the China Railway Corporation and the Bank of China, is expected to enable passengers to board high speed trains more conveniently. The card contains each holder's personal information such as their name and ID number.


There are 80-100 trains per day from Fuzhou to Xiamen on a off-peak day,
connecting Fujian Province' 2 biggest cities.
Fuzhou South Railway Station, capital of Fujian Province
View attachment 286167

Xiamen North Railway Station
View attachment 286166 View attachment 286168

HSR Network of Southeastern China
View attachment 286171


Is there any timeline by which HSR will return to its designed operation speed of 350 km/h?
 
.
What's new in 2015?
9,000 kilometers of new track into operation

(a double-track railway is counted twice)
View attachment 286377



What's new in 2015?
Standardised CRH on trial!
View attachment 286384



Not just HSR.
Since Chinese railway is not serving suburban commuters unlike Japanese or Indian trains, all railway stations, no matter what type of trains there are, require security check and ID check. Chinese citizens are obligated to show their ID card or family Hukou, passport for foreigners.

Nice Map, Thanks bro :-)
btw, there is any plan about High Speed Railway in Qinghai-Tibet Railway?
That's would be Amazing !

Vote for "The Golden" CRH 0305 :smitten:
 
.
Nice Map, Thanks bro :-)
btw, there is any plan about High Speed Railway in Qinghai-Tibet Railway?
That's would be Amazing !

Vote for "The Golden" CRH 0305 :smitten:
The current plan is to build the second track and electrify the railway.
@cirr Correct?
The second phase of Qinghai-Tibet Railway(Golmud-Lhasa) is a single-track non-electrified railway.
This second parallel track will have a operational speed at 160km/h with a preserved speed at 200km/h.

Glomud-Xining(the first phase) is double-track and electrified, having the longest railway tunnel in China, 32645m long.

Qinghai-Tibet railway along Qinghai Lake(first phase)
IMG_9779-HXD1D牵引青藏特快列车高速通过青海湖畔3.jpg


In 2014, New Guanjiao Tunnel was opened, which meant the second track project of Qinghai-Tibet Railway's first section was finally finished. It is the longest railway tunnel in China(32km) and the longest tunnel on high-alttude regions in the world(3-3.5km above the sea-level).

Before the inauguration of this tunnel, hundreds of railway fans and photographers traveled there and captured the final moments of the magnificent railway loops.:cry:

zigzag vs tunnel
2 hours vs 20 minutes
2.jpg

a71ea8d3fd1f4134ad8a48e5271f95cad0c85eef.jpg


IMG_2236-青藏铁路公路光轨_3.jpg
IMG_5240_3.jpg
IMG_9589_3.jpg
IMG_5547_3.jpg

IMG_0676_3.jpg

@anant_s @ahojunk @Nan Yang @Daniel808
 
Last edited:
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More about Qinghai-Tibet railway before the inauguration of Guanjiao Tunnel
Historic moments!
IMG_2465_3.jpg
IMG_2784_3.jpg
IMG_2789_3.jpg
IMG_7573_3.jpg
IMG_2681_3.jpg


Is there any timeline by which HSR will return to its designed operation speed of 350 km/h?
Rumours have it...

This is also slightly related:

***

Sinopec offers free refuelling service for migrants
January 12, 2016

Sinopec's subsidiary in Guangdong province will offer free refuelling services for migrant workers going home by motorcycle or minibus during the upcoming annual travel rush, known as "chunyun."

A total of 10,000 free "refuelling packages" will be given out to motorists, with free pumping, accident insurance and warm clothes included, the company said on Monday, 13 days before chunyun begins.

In addition, the company will offer 1,000 more free refuelling items to those going home by minibus, according to the company's general manager, Chen Chengmin. The engine displacement of each minibus must not exceed 1.3 liters.

The service will be offered in the provinces of Guangdong and Hunan, and South China's Guangxi Zhuang autonomous region, but only those working in Guangdong will be eligible to apply.

The applicants must have household registration in Guangxi, Guizhou, Yunnan, Sichuan, Hunan or Jiangxi, the six localities with the largest number of migrant workers.

China's transportation system will carry a record number of passengers during the upcoming peak travel period around the Lunar New Year Festival, with up to 2.91 billion trips to be made via road, railway, air and water between Jan. 24 and March 3.

With intense competition for train tickets, many of the country's more than 260 million migrant workers choose to go home by motorcycle or minibus before the lunar new year, or Spring Festival, which is often a once-a-year chance for them to reunite with family.

Guangdong has one of the country's biggest migrant worker populations. It is the fourth consecutive year that state-run oil and gas giant Sinopec has offered the service in Guangdong.

The company started to take registrations via its official website and WeChat account on Monday. The application period will last until Jan 21.
Very sweet!
Migrant workers are the backbone of China's economy.
Without them, factories and service sector in the city can never work.
 
Last edited:
.
The current plan is to build the second track and electrify the railway.
@cirr Correct?
The second phase of Qinghai-Tibet Railway(Golmud-Lhasa) is a single-track non-electrified railway.
This second parallel track will have a operational speed at 160km/h with a preserved speed at 200km/h.

Glomud-Xining(the first phase) is double-track and electrified, having the longest railway tunnel in China, 32645m long.

Qinghai-Tibet railway along Qinghai Lake(first phase)
View attachment 286622

In 2014, New Guanjiao Tunnel was opened, which meant the second track project of Qinghai-Tibet Railway's first section was finally finished. It is the longest railway tunnel in China(32km) and the longest tunnel on high-alttude regions in the world(3-3.5km above the sea-level).

Before the inauguration of this tunnel, hundreds of railway fans and photographers traveled there and captured the final moments of the magnificent railway loops.:cry:

zigzag vs tunnel
2 hours vs 20 minutes
View attachment 286625
View attachment 286624

View attachment 286626 View attachment 286627 View attachment 286628 View attachment 286629
View attachment 286630
@anant_s @ahojunk @Nan Yang @Daniel808


Nice Progress !
Thanks so much for the Explanation, bro :-)

Lol, It's must be very Amazing to ride train in that Beautiful Mountain Scenery.
Congrats for the new Tunnel. :p:

Qinghai-Tibet Railway must be one of the Wonders of the Modern World.
 
.
Develop the 'brain' of high-speed rail

Develop the 'brain' of high-speed rail- China.org.cn
By Xu Ying
China.org.cn, January 12, 2016

As a child, Chang Zhenchen, born in 1965, dreamed of becoming an engineer. His dream came true. Chang is now deputy chief engineer of Changchun Railway Vehicles Co., Ltd, a manufacturing and research subsidiary of China CNR Corporation Limited.

7427ea210acc17fee28b12.png

A Changchun Railway Vehicles Co., Ltd employee at work on December 8, 2014, on the manufacture of a high-speed train.


The company that Chang serves has 14,000 staff and is famous for its design and manufacturing of high-speed trains and city rail vehicles. Chang is a leader in the research and development of rail network control systems, which he believes are like the "brain and the nervous system" of high-speed rail.

In December, 2012, the CRH5 high-speed rail network control system development project headed by Chang passed an important examination and evaluation. In June, 2014, the team's research results passed the intellectual property evaluation process, crediting China with the capability to produce the "brain" of high-speed rail.

Today, China's high-speed rail operating mileage has reached 19,000 km, with 1,800 multiple-unit trains in service that carry 910 million passengers every year. China is endeavoring to promote its high-speed rail capacity, with the aim of expanding its progress in this field to other parts of the world.

Devoted to high-speed rail development

Since 1905, when pioneering Chinese railroad engineer Zhan Tianyou built the Beijing-Zhangjiakou Railway across the mountainous area of northern Beijing, many patriotic Chinese with a broad vision have focused on train and railroad construction as a good starting point to realize their dreams of making China a stronger country.

Chang studied agricultural automation until his doctorate degree graduation in 2004. He then became a postdoctoral fellow of the scientific research work station at Changchun Railway Vehicles, where he worked for two years.

It was in 2004 that China rolled out the Mid-to-Long Term Rail Network Plan, which set the goal of constructing a fast passenger rail network totaling more than 12,000 km. The guiding principle is "bringing in cutting-edge technology to combine with domestic design and production to create China's own brands."

At that time, Changchun Railway Vehicles, in cooperation with France-based Alstom, introduced the CRH high-speed train that could run at 200 km/h. Chang, a newcomer to the company, was assigned the task of learning and absorbing the technology of the CRH high-speed rail network control system. To understand the structure and operation of the multiple-unit (MU) trains, Chang voluntarily applied to participate in the test run of the Changbaishan train.

As a symbol of China's high-speed rail capacity, the Changbaishan train, with a production cost exceeding RMB 100 million and a designed speed of 210 km/h, was co-developed by Changchun Railway Vehicles and Canada-based Bombardier. The Changbaishan train boasted the highest level of independent development in China before the debut of the CRH series.

During an experiment in September, 2004, the Changbaishan set a record of 254.5 km/h, a great surprise to Chang. But the tests did not always run smoothly. At one point the train lost traction after a software update and was pulled out for a thorough examination. "We found that the failure was caused by an incorrect wheel diameter. The error was 10 millimeters, which may seem small but denoted a serious malfunction." Chang recalled.

Following the 60-day long experiment, Chang not only acquired a deep understanding of the structure and operating principles of MU trains, but also realized that China's technology lagged far behind that of advanced Western countries.

The historic Changbaishan train went operation along the Shenyang-Dalian line in February, 2007. However, by 2012 a dearth of spare parts left the train idle.

According to Chang, the company was able to learn lessons from the Changbaishan in terms of traction as well as interior design while creating the CRH1 electric MU train, the first generation of the CRH series. In fact, some believe the Changbaishan launched the high-speed rail era in China.

The Changbaishan experiment marked the end of Chang's work as a postdoctoral researcher. Faced with many options, he chose to devote his time to high-speed rail, which he believed had the most potential for development.

A hard nut to crack

In January, 2007, Chang led a seven-member work team in a two-month-long training program on train control systems at an Alstom factory in Italy. The team's major task was to learn the mechanisms of the train network control system and its interaction with various sub-systems.

However, Alstom did not include this into the training plan for the visiting Chinese engineers, despite it being stipulated in the contract the two sides signed.

"After several rounds of negotiation, we finally acquired the 3,000 pages of research materials that illustrated the mechanism of the train network control system, but it was in Italian," said Chang. It was the first time Chang had come into contact with the core technology of the world's most advanced MU train. But he first they had to tackle the problem of deciphering the Italian wording.

For confidentiality reasons, they were not allowed to hire translators. The seven Chinese technicians, who had never studied Italian before, armed themselves with an Italian-Chinese dictionary and cracked the toughest nut of their careers. It took them eight months to read all the materials.

On April 18, 2007, the CRH5 high-speed train that runs from Beijing to Harbin was formally operated. The train was named Hexie in Chinese, meaning harmony. Meanwhile, the country launched its sixth round of the "Speed-up" campaign and rolled out a new train timetable. The campaign raised the speed to 200-250 km/h on busy trunk lines. China's high-speed rail has since entered a new development phase.

After his time in Italy, Chang joined the testing team in the operation of the CRH5 train. An era of large-scale high-speed rail production thus dawned.

As far as Chang can recall, the production cycle for high-speed trains was quite tight. A design defect in the Alstom method and insufficient consideration of the operation environment in China caused a series of breakdowns in the initial period of the MU train's operation.

The train normally left Harbin at dawn and reached its final destination at 11 p.m. But that wasn't the end of Chang and his team's working day; they had to carry out maintenance and examination after each operation.

After eight months of analysis and experiment, Chang's team not only mastered the mechanisms of the CRH5 control system, but also ironed out the design defects and made their own suggestions for improvement.

The whole control network is made up of more than 1,000 different software programs. Technicians needed to design, develop and test each one and replace the foreign software with a local equivalent, one by one. They then had to conduct exhaustive tests, including static tests, above ground tests, and dynamic tests. It took a total of five years for Chang's team to finish all the development work.

Global ambition

In the spring of 2009, the CRH5 high-speed train between Beijing and Taiyuan went into operation. Chang continued to conduct research on the traveling train but was eventually hospitalized due to exhaustion.

That time was considered as a "sprint" period for China's rail transport development. Chang and his team broadened their vision to the whole country by developing a network system that was suitable for China's geographical conditions. They dealt with technical difficulties one by one and conducted corresponding experiments.

Changchun Railway Vehicles started to develop independently the CRH380CL train with a service speed of 380 km/h, the highest in the world at that time. From Chang's point of view, this project signaled a steady step forward in China's independent research and development.

By 2010, China's high-speed rail network had hit 8,358 km, with nearly 1,200 MU trains operating daily.

Amid this triumphant advance, the Wenzhou rail crash occurred on July 23, 2011, making high-speed rail, which was intended to be built into a national brand, a target of public criticism.

"At that time I was busy with after-sales service work in Beijing. I was shocked at the accident and felt very bad," Chang recalled. The public began by questioning the train control system, which meant that Chang was partially quoted, attacked, and even framed. However, the final investigation result showed that the major fault lay in the management.

Although Changchun Railway Vehicles was not held responsible for the accident, the company volunteered to obtain a safety integrity certificate for its train network control system, and adopted stricter standards.

A year later, on August 23, 2012, the train network control system independently developed by Changchun Railway Vehicles obtained the relevant European safety certification.

"Today, Chinese engineers are paying greater attention to safety and reliability than ever before in the development of high-speed rail systems. Therefore, all multiple-unit trains designed and produced in China feature an 'automatic safety control' mode, which means that if any failure occurs, the system automatically ensures the train's safety," Chang said.

Since 2012, China has implemented a strategy of going global with its high-speed rail and comprehensively replacing the major systems of high-speed trains to ensure they are all home produced.

Chang said that the domestically produced train network control system features improved self-check functions and is more convenient for use and maintenance. The software can be adjusted according to customers' needs and the cost for making the system is relatively low. These factors have enhanced the competitiveness of China-made railway vehicles.

By the end of November, 2013, the world's high-speed rail operating mileage, excluding China's contribution, stood at 11,605 km, about the same as the figure for China. Starting from zero, it took only 10 years for China to achieve half of the proportion of the world's total. Now, the train network control system is made domestically, rather than relying heavily on foreign technology.

However, intense international competition in the high-speed rail sector keeps Chang and his team members on their toes. They are currently working on developing industrial Ethernet, which features a significantly increased transmission capability, the transmission speed rising 1,000-fold, greatly boosting the rate of information transmission between trains.

"This technology is also at its initial stage in foreign countries. I hope China can seize the initiative in this regard through the joint efforts of our team," Chang said.
 
.
Develop the 'brain' of high-speed rail

Develop the 'brain' of high-speed rail- China.org.cn
By Xu Ying
China.org.cn, January 12, 2016

As a child, Chang Zhenchen, born in 1965, dreamed of becoming an engineer. His dream came true. Chang is now deputy chief engineer of Changchun Railway Vehicles Co., Ltd, a manufacturing and research subsidiary of China CNR Corporation Limited.

7427ea210acc17fee28b12.png

A Changchun Railway Vehicles Co., Ltd employee at work on December 8, 2014, on the manufacture of a high-speed train.


The company that Chang serves has 14,000 staff and is famous for its design and manufacturing of high-speed trains and city rail vehicles. Chang is a leader in the research and development of rail network control systems, which he believes are like the "brain and the nervous system" of high-speed rail.

In December, 2012, the CRH5 high-speed rail network control system development project headed by Chang passed an important examination and evaluation. In June, 2014, the team's research results passed the intellectual property evaluation process, crediting China with the capability to produce the "brain" of high-speed rail.

Today, China's high-speed rail operating mileage has reached 19,000 km, with 1,800 multiple-unit trains in service that carry 910 million passengers every year. China is endeavoring to promote its high-speed rail capacity, with the aim of expanding its progress in this field to other parts of the world.

Devoted to high-speed rail development

Since 1905, when pioneering Chinese railroad engineer Zhan Tianyou built the Beijing-Zhangjiakou Railway across the mountainous area of northern Beijing, many patriotic Chinese with a broad vision have focused on train and railroad construction as a good starting point to realize their dreams of making China a stronger country.

Chang studied agricultural automation until his doctorate degree graduation in 2004. He then became a postdoctoral fellow of the scientific research work station at Changchun Railway Vehicles, where he worked for two years.

It was in 2004 that China rolled out the Mid-to-Long Term Rail Network Plan, which set the goal of constructing a fast passenger rail network totaling more than 12,000 km. The guiding principle is "bringing in cutting-edge technology to combine with domestic design and production to create China's own brands."

At that time, Changchun Railway Vehicles, in cooperation with France-based Alstom, introduced the CRH high-speed train that could run at 200 km/h. Chang, a newcomer to the company, was assigned the task of learning and absorbing the technology of the CRH high-speed rail network control system. To understand the structure and operation of the multiple-unit (MU) trains, Chang voluntarily applied to participate in the test run of the Changbaishan train.

As a symbol of China's high-speed rail capacity, the Changbaishan train, with a production cost exceeding RMB 100 million and a designed speed of 210 km/h, was co-developed by Changchun Railway Vehicles and Canada-based Bombardier. The Changbaishan train boasted the highest level of independent development in China before the debut of the CRH series.

During an experiment in September, 2004, the Changbaishan set a record of 254.5 km/h, a great surprise to Chang. But the tests did not always run smoothly. At one point the train lost traction after a software update and was pulled out for a thorough examination. "We found that the failure was caused by an incorrect wheel diameter. The error was 10 millimeters, which may seem small but denoted a serious malfunction." Chang recalled.

Following the 60-day long experiment, Chang not only acquired a deep understanding of the structure and operating principles of MU trains, but also realized that China's technology lagged far behind that of advanced Western countries.

The historic Changbaishan train went operation along the Shenyang-Dalian line in February, 2007. However, by 2012 a dearth of spare parts left the train idle.

According to Chang, the company was able to learn lessons from the Changbaishan in terms of traction as well as interior design while creating the CRH1 electric MU train, the first generation of the CRH series. In fact, some believe the Changbaishan launched the high-speed rail era in China.

The Changbaishan experiment marked the end of Chang's work as a postdoctoral researcher. Faced with many options, he chose to devote his time to high-speed rail, which he believed had the most potential for development.

A hard nut to crack

In January, 2007, Chang led a seven-member work team in a two-month-long training program on train control systems at an Alstom factory in Italy. The team's major task was to learn the mechanisms of the train network control system and its interaction with various sub-systems.

However, Alstom did not include this into the training plan for the visiting Chinese engineers, despite it being stipulated in the contract the two sides signed.

"After several rounds of negotiation, we finally acquired the 3,000 pages of research materials that illustrated the mechanism of the train network control system, but it was in Italian," said Chang. It was the first time Chang had come into contact with the core technology of the world's most advanced MU train. But he first they had to tackle the problem of deciphering the Italian wording.

For confidentiality reasons, they were not allowed to hire translators. The seven Chinese technicians, who had never studied Italian before, armed themselves with an Italian-Chinese dictionary and cracked the toughest nut of their careers. It took them eight months to read all the materials.

On April 18, 2007, the CRH5 high-speed train that runs from Beijing to Harbin was formally operated. The train was named Hexie in Chinese, meaning harmony. Meanwhile, the country launched its sixth round of the "Speed-up" campaign and rolled out a new train timetable. The campaign raised the speed to 200-250 km/h on busy trunk lines. China's high-speed rail has since entered a new development phase.

After his time in Italy, Chang joined the testing team in the operation of the CRH5 train. An era of large-scale high-speed rail production thus dawned.

As far as Chang can recall, the production cycle for high-speed trains was quite tight. A design defect in the Alstom method and insufficient consideration of the operation environment in China caused a series of breakdowns in the initial period of the MU train's operation.

The train normally left Harbin at dawn and reached its final destination at 11 p.m. But that wasn't the end of Chang and his team's working day; they had to carry out maintenance and examination after each operation.

After eight months of analysis and experiment, Chang's team not only mastered the mechanisms of the CRH5 control system, but also ironed out the design defects and made their own suggestions for improvement.

The whole control network is made up of more than 1,000 different software programs. Technicians needed to design, develop and test each one and replace the foreign software with a local equivalent, one by one. They then had to conduct exhaustive tests, including static tests, above ground tests, and dynamic tests. It took a total of five years for Chang's team to finish all the development work.

Global ambition

In the spring of 2009, the CRH5 high-speed train between Beijing and Taiyuan went into operation. Chang continued to conduct research on the traveling train but was eventually hospitalized due to exhaustion.

That time was considered as a "sprint" period for China's rail transport development. Chang and his team broadened their vision to the whole country by developing a network system that was suitable for China's geographical conditions. They dealt with technical difficulties one by one and conducted corresponding experiments.

Changchun Railway Vehicles started to develop independently the CRH380CL train with a service speed of 380 km/h, the highest in the world at that time. From Chang's point of view, this project signaled a steady step forward in China's independent research and development.

By 2010, China's high-speed rail network had hit 8,358 km, with nearly 1,200 MU trains operating daily.

Amid this triumphant advance, the Wenzhou rail crash occurred on July 23, 2011, making high-speed rail, which was intended to be built into a national brand, a target of public criticism.

"At that time I was busy with after-sales service work in Beijing. I was shocked at the accident and felt very bad," Chang recalled. The public began by questioning the train control system, which meant that Chang was partially quoted, attacked, and even framed. However, the final investigation result showed that the major fault lay in the management.

Although Changchun Railway Vehicles was not held responsible for the accident, the company volunteered to obtain a safety integrity certificate for its train network control system, and adopted stricter standards.

A year later, on August 23, 2012, the train network control system independently developed by Changchun Railway Vehicles obtained the relevant European safety certification.

"Today, Chinese engineers are paying greater attention to safety and reliability than ever before in the development of high-speed rail systems. Therefore, all multiple-unit trains designed and produced in China feature an 'automatic safety control' mode, which means that if any failure occurs, the system automatically ensures the train's safety," Chang said.

Since 2012, China has implemented a strategy of going global with its high-speed rail and comprehensively replacing the major systems of high-speed trains to ensure they are all home produced.

Chang said that the domestically produced train network control system features improved self-check functions and is more convenient for use and maintenance. The software can be adjusted according to customers' needs and the cost for making the system is relatively low. These factors have enhanced the competitiveness of China-made railway vehicles.

By the end of November, 2013, the world's high-speed rail operating mileage, excluding China's contribution, stood at 11,605 km, about the same as the figure for China. Starting from zero, it took only 10 years for China to achieve half of the proportion of the world's total. Now, the train network control system is made domestically, rather than relying heavily on foreign technology.

However, intense international competition in the high-speed rail sector keeps Chang and his team members on their toes. They are currently working on developing industrial Ethernet, which features a significantly increased transmission capability, the transmission speed rising 1,000-fold, greatly boosting the rate of information transmission between trains.

"This technology is also at its initial stage in foreign countries. I hope China can seize the initiative in this regard through the joint efforts of our team," Chang said.
What'll be like 5 years later when the 13th 5-year plan is finished?

30,000+km high-speed rail by 2020
150,000+km railway by 2020


trunk high-speed rail network
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Beijing-HK HSR in suburban Wuhan
在以一座气势恢宏的双塔公铁两用斜拉桥——武汉天兴洲长江大桥跨越长江后,武广高铁抵达武汉.jpeg
不得不佩服帝都地铁的客流量 从北京站到北京西站只剩下半条命 G6743回庄.jpg
 
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What'll be like 5 years later when the 13th 5-year plan is finished?

I wonder, when the unification finally is completed, what sort of transportation scheme would be laid out between the Mainland and Taiwan in addition to air transport...

A friend of mine said a bridge would not be feasible because of the very strong currents in the Strait.
 
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I wonder, when the unification finally is completed, what sort of transportation scheme would be laid out between the Mainland and Taiwan in addition to air transport...

A friend of mine said a bridge would not be feasible because of the very strong currents in the Strait.
A tunnel is likely to be build. Taiwan strait is not very deep.
First, let's build the tunnel linking Yantai and Dalian across Bohai Sea!
100+km
9CD1FA532035C5BEA7C4871459D3E753.jpg
 
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