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“Dear President, how can we help your country?” - AIIB

“Dear President, how can we help your country?” - AIIB


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Bro, I am waiting for my coach for She County 10 minutes laterqqqwAaea. First time here, another well organized hub. South station, south coach station, suburban bus port, two metros, raid bus to two airports. And they are all connected by underground passages and endless shops, restaurants and outlets. If some passengers are a little late, the radio will announce. It's not that type of chaotic bus port in my memory 10 years ago in Shanghai, but a paradigm indeed.
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The drawbacks are also obvious: too small, especially today on Saturday when people are going home or like me going for an spring outing. And I'm a little worried about the paucity of security here.
View attachment 213991

Now, one minute before scheduled time. The bus driver is checking, and making sure everyone buckles up.
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9:37 not a single minute late
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Now, I'd like to say urgently to Mr. President, pls design more small or big transportation hub not just in China but in other coutures. Roads, railway stations and exporting our dragon bus(Now I am in Golden Dragon, the same coach I have mentioned in my previous thread that were exported to our African partners), shall be integrated into a package.

Yes bro, other than the mega Hongqiao Hub (almost like a small aerotropolitan city), Shanghai has a number of medium-small hubs like this that comprises of HSR, Metro, Coach (long-haul buses), etc. These are probably more appropriate samples for other smaller countries that have less traffic volume.

South Station (上海南站) is the 1st hub in Shanghai that adopts a round-shape architectural design.

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You are right, not just the HSR, here bus operations are also managed very professionally, as accurate as clock-work!
 
Electricity Production
  • By now the world has a total electricity production capacity over 23,127,000 GWh per year. Other than EU which produces 14.1% of world total, 16 other countries have annual production capacity over 200,000 GWh per year. China tops the world at 5,649,500 GWh (24.4% of world total), followed by USA at 4,260,400 GWh (18.4%).
Elec-production.png
  • In terms of electricity production by renewable sources e.g. hydro, wind, biomass & waste, solar and geothermal, China is the only country that exceeds 1,000,000 GWh per year and leads the world in this arena, followed by EU, and US.
renewab;e.png
  • On nuclear generated electricity, China by now has 23 reactors under operation, with an capacity of 19,007 MW (IAEA 2014 statistics) ranking sixth in the world (after US, France, Japan, Russia and SK). China has massive plans to increase both capacity and share of nuclear energy in the whole picture, with advanced reactor technology at the very center of the whole plan. By now, only seven countries can provide advanced reactors (generation III and beyond), including China (CNNC, CGN), US (Westinghouse, GE), Canada (Candu), Japan (Hitachi, Mitsubishi, Toshiba), Russia, South Korea and France (Areva, previously Framatone), and even fewer go on generation IV designs. Below is a list of world's advanced reactors:
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Electricity Production
  • By now the world has a total electricity production capacity over 23,127,000 GWh per year. Other than EU which produces 14.1% of world total, 16 other countries have annual production capacity over 200,000 GWh per year. China tops the world at 5,649,500 GWh (24.4% of world total), followed by USA at 4,260,400 GWh (18.4%).
  • In terms of electricity production by renewable sources e.g. hydro, wind, biomass & waste, solar and geothermal, China is the only country that exceeds 1,000,000 GWh per year and leads the world in this arena, followed by EU, and US.
  • On nuclear generated electricity, China by now has 23 reactors under operation, with an capacity of 19,007 MW (IAEA 2014 statistics) ranking sixth in the world (after US, France, Japan, Russia and SK). China has massive plans to increase both capacity and share of nuclear energy in the whole picture, with advanced reactor technology at the very center of the whole plan. By now, only seven countries can provide advanced reactors (generation III and beyond), including China (CNNC, CGN), US (Westinghouse, GE), Canada (Candu), Japan (Hitachi, Mitsubishi, Toshiba), Russia, South Korea and France (Areva, previously Framatone), and even fewer go on generation IV designs. Below is a list of world's advanced reactors:
This photo I took yesterday is compromised of several elements related this thread
1. Expressway(G60, Shanghai-Kunming, 2730km)
2. HSR (Shanghai-Kunming HSR, Shanghai-Hangzhou Intercity)
3. High voltage transmission. (near Qinshan Nuclear Power Plant)
I personally like this sort of design, a corridor of transportation and energy.
屏幕快照 2015-04-12 18.01.58.png


G56 National Expressway is too busy(8-10 lanes), more lanes are under construction.
屏幕快照 2015-04-12 18.03.03.png


A typical village in mountainous Zhejiang.
1, Solar water heater on every roof
2, Power transmission tower on the mountain, transmitting electricity to the deep mountains
3, Village road
屏幕快照 2015-04-12 18.10.35.png
 
This photo I took yesterday is compromised of several elements related this thread
1. Expressway(G60, Shanghai-Kunming, 2730km)
2. HSR (Shanghai-Kunming HSR, Shanghai-Hangzhou Intercity)
3. High voltage transmission. (near Qinshan Nuclear Power Plant)
I personally like this sort of design, a corridor of transportation and energy.
View attachment 214362

G56 National Expressway is too busy(8-10 lanes), more lanes are under construction.
View attachment 214363

A typical village in mountainous Zhejiang.
1, Solar water heater on every roof
2, Power transmission tower on the mountain, transmitting electricity to the deep mountains
3, Village road
View attachment 214364

ICSG201209023-01_300dpi.jpg


Good observation bro! After electricity is generated, you need power grid to get it delivered. By now China is a world leader in advancing its massive power grid. China is top leader in UHV transmission already (China willing to share UHV experience with other countries and also focus on smart grid.

Smart Grid Development Status

Since the 2010, China has surpassed US in smart grid investment, far exceeding Japan, South Korea, Spain & Germany.
Untitled15.png

In 2013, global spending on grid modernization was nearly $15 billion, in which China tops the world and spent $4.3 billion (29% share of global) on smart grid investments, while the U.S. spent $3.6 billion (24% share of the world), according to new figures from Bloomberg New Energy Finance (BNEF). China is anticipated to spend more than any other country on smart grid developments for several years at least. As China establishes standards, seeks equipment, and develops its own technologies, it will play a central role in setting the tone of smart grid development worldwide, through the sheer size of its smart grid activities.

As a national priority, with completion planned for 2020, the State Grid Corporation of China (SGCC), which controls electricity distribution, announced that construction will begin on major nationwide grid upgrades in 2011. Cost of the projects is estimated to be $100 billion through 2020. The SGCC, the largest single electric power entity in China, has a multi-stage 10-year plan for the deployment of smart grid.

The initial phase of the plan calls for pilot programs and planning initiatives through 2010.
  • Set technical and management standard
  • Develop technology and equipment
  • Set development plans and initiate pilot projects
  • Specifically, in 2010, China started construction on the "Two Vertical, Two Horizontal" plan and reach interregional transmission capability of 12.9 GW by the end of the year.
The second phase, undertaken concurrently, consists of development of standards through 2014 and construction projects beginning in 2011 and running through 2015.
  • Construct UHV grid and urban-rural distribution grid
  • Construct smart grid operation/control and interactive service system
  • Key technological breakthroughs and their applications
  • By 2015, UHV and other intra-regional transmission capacity will be 240 GW. Distribution and power provision will reach a reliability rate of 99.915% or higher in the cities and 99.73% or higher in rural areas. Smart meters will be in widespread use and EV charging stations will have been deployed in numbers that will satisfy demand
The final phase of the plan focuses on system upgrades that will begin in 2016 and culminate in 2020
  • Complete a strong, smart grid
  • Become world leaders in management, technology and equipment
  • By 2020, UHV and other intra-regional transmission capacity will reach 400 GW, enough to connect all planned coal, hydro, nuclear and wind power to areas with high demand
101001B01.jpg


Key Projects / Programs
  • Smart Community Demonstration Project: The project, consisting of 655 households and 11 buildings, is the first demonstration community built by North China Power Grid as well as the first project constructed under SGCC's guideline on smart communities. The project is located at the Xin'ao Golf Garden residential complex in Langfang, Heibei province, and was completed in September 2010. The project includes a low-voltage electricity network, power usage information collection, an interactive service platform, smart household installment, electric automobile charging facilities, distributed power generation and energy storage, automatic electricity distribution, integrated network using low-voltage fiber optic cables, and AMI meters for electricity, gas and water.
  • National Wind Power Integration Research and Test Center of China: The project centers on the development of renewable energy and clean energy storage. Toward that goal, the SGCC is installing 30 wind turbines with at least 78 MW of generating capacity, 640 kW of solar photovoltaic (PV) capacity, and 2.5 MW of energy storage. Prudent Energy is providing vanadium redox batteries. When it is completed, the testing center will be the largest facility of its kind in t
  • Power System Digital Real-Time Simulation Device: This research project developed the first large-scale power system real-time simulation device. The device can simulate a power system with up to 1,000 generators and 10,000 bus bars. The development of this device will contribute to the safe operation of the power grid by researching the access of new large-scale equipment and enhancing power system incident analysis. The device will also allow equipment tests such as the safe and stable operation and control of a large AC/DC hybrid transmission system.
  • 1000-kV Jindongnan Nanyang-Jingmen Ultra High Voltage (UHV) AC Pilot Project: Construction of a single circuit line of 640 kilometers, with a capacity of 6,000 MVA, and an operational voltage of 1,100 kV.
  • Xiangjiaba-Shanghai +/- 800-kV UHV DC Transmission Pilot Project: Construction of an advanced UHV DC high capacity, long distance, DC transmission line.
  • Ningdong-Shandong +/- 660-kV DC Project: Approved in November 2010 as a key project in the development of the West to East transmission project designed to move both hydro and thermal power from generation sites in the West to demand centers in the East.
  • Qinghai-Tibet 750-kV/+/-400-kV AC/DC Grid Interconnection Project: Construction of a 750-kV AC project and a +/-400- kV DC power transmission project from Qinghai to Tibet, allowing the integration for the first time of all provinces in SGCC’s service area. The project is expected to be put into operation by the end of 2011 or in 2012.
  • Advanced metering infrastructure, often referred to as smart meters, are still driving investment in next-generation grid technologies, but other categories of spending will dominate in the future. According to a report by In-Stat, China is currently on track to deploy 280 million smart meters by 2016, making China the largest smart meter installer in the world.
  • SGCC plans to implement 11 different types of smart grid projects, including building smart substations, installing 50 million smart meters, accommodating the integration of 20 GW of wind power, increasing electric vehicle recharging facilities by 7-fold, formulating 88 standards on smart grid, and completing construction of the integrated smart grid demonstration project in Sino-Singapore Tianjin Eco-City. The Eco-City, which is being developed in partnership with Singapore as an environmentally friendly city, is located east of Tianjin’s city center.
  • Fujian Electric Power Company’s 15.77 billion Yuan ($2.47 billion) investment in smart grid projects in the inland areas of Fujian province. In addition to 35 110-kV substations, the investment will include 9 electric vehicle battery replacement stations, 9 battery distribution stations, and 1,070 AC charging poles.
@Yizhi @Nihonjin1051 @Gufi @Horus
 
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Other than smart grid, China leads the world in UHV transmission. Below is an artcile from last year. Like HSR (@AndrewJin ), China leads the tech and can offer assistance to other countries.

Column - Super-grid: China masters long-distance power transmission| Reuters

Thu Jun 19, 2014 8:59am EDT
LONDON | By John Kemp

F201112181002022079612039.jpg


LONDON (Reuters) - China’s power engineers have become world leaders in ultra-high-voltage transmission systems connecting far-off power sources with cities hungry for electricity.

China already has seven ultra-high-voltage (UHV) lines in operation, more than any other country, carrying power over thousands of kilometers at around 800,000 or even 1 million volts.

In April, the government gave the go-ahead to build another line operating at 1 million volts between rural Anhui province and the cities of Nanjing and Shanghai.

The National Energy Administration, which is part of the powerful National Development and Reform Commission, the country’s top economic regulator, has ambitious plans for as many as 12 inter-regional ultra-high-voltage transmission corridors spanning the country.

Most of the existing and planned transmission lines run broadly west to east and are intended to take power from western and central regions, where there are abundant hydro, coal, gas, solar and wind resources, to major industrial cities near the east coast.

With so many projects planned, State Grid Corp of China (SGCC) is looking forward to a “golden era” of UHV development at home and likens its UHV experience to a “golden business card” to help it win business overseas., according to a company release (“China enters a golden era of UHV development”, May 16).

CUTTING POLLUTION


State Grid says UHV will give China a unified national electricity market for the first time as well as helping to meet booming electricity demand and cut pollution.

UHV is intended to link the country’s existing regional grids in a national network. But it is also meant to herald much bigger changes in the way China uses energy.

SGCC wants the coal- and oil-fired boilers used in factories, offices and district heating systems across northern China to be replaced by electric heating to cut the air pollution that kills millions of people every year.

Much of the electricity for the grid would still be generated from coal, a source of greenhouse emissions as well as air pollution.

But large central power stations are likely to be more efficient than the small and old boilers used in many northern areas to provide winter heating, and it would be easier to fit them with scrubbers and other technology to cut pollution.

Shifting from coal to electric heating would also enable China to integrate more clean sources of power such as wind and solar into the energy mix.

State Grid calls it the “coal-to-electricity” program and says it would help meet many of the government’s plans for increasing energy efficiency, cutting pollution, and reducing dependence on imported oil.

Coal-to-electricity aims to replace coal-burning stoves for industrial and residential purposes with electric ones to curb air pollution, SGCC Executive Vice-President Yang Qing told a conference on green electricity in November 2013.

Oil-to-electricity could help develop the market for electric vehicles and electric irrigation in rural areas, to cut reliance on gasoline and diesel, Yang explained (“SGCC proposes coal-to-electricity to control smog”, Xinhua, Nov. 8, 2013).

Under a program launched last year, SGCC intends to replace many district heating boilers with large-scale heat pumps, according to Xinhua.

SGCC’s strategy for cleaning up China’s pollution problem and cutting greenhouse emissions is essentially similar to the climate plans being pursued by governments in Europe and North America.

The strategy consists of two separate transitions: electrification and decarbonization. It would shift more energy consumption away from direct use of fossil fuels onto the electricity grid, then cut emissions from power plants by replacing fossil fuels with more renewables and nuclear power.

timthumb.php


LOST IN TRANSMISSION


China’s problem is that main sources of fossil fuels and renewables for power generation are hundreds and even thousands of kilometers from where the electricity is most needed.

All transmission systems lose energy between generation and the end consumer as the electricity encounters resistance in the wires along the way and some energy is lost as heat.

On average, about 6 percent of the electrical energy transmitted and distributed in the United States was lost between 1990 and 2012, according to the U.S. Energy Information Administration.

The further electricity is transmitted, the more is lost. Economic considerations therefore tend to cap transmission distances.

One reason why solar power stations in North Africa and the Sahara cannot currently be used to supply electricity to Northern Europe is that the transmission losses would be too great.

But it is possible to reduce the proportion of energy lost by stepping up the voltage, which is why China and a number of other countries have begun developing ultra-high-voltage systems to carry power over much longer distances.

In the United States, most long-distance transmission lines operate at 230kV, 345kV, 400kV or sometimes 500kV, where kV stands for thousand volts. In Britain, most of the National Grid operates at 275kV or 400kV. But China’s existing UHV systems mostly operate at 800kV, nearly twice as high, or even 1,000 kV in some cases.

1100kV-UHV-AC-hybrid-GIS-designed-by-ABB-Jinmeng-substation-China-20140203.png


GOLDEN ERA OF UHV

Operating at extremely high voltages creates technical challenges as transformers, towers, cables and relays must run safely in a more demanding environment than normal.

Much of the early work on UHV systems was done by electrical engineering companies such as Siemens and ABB. However, SGCC has mastered the technology and says 90 percent of the engineering work has now been localized.

China’s existing UHV lines have delivered more than 160 terrawatt-hours of electricity since they were commissioned, about the same as the annual consumption of the state of Ohio or half what Britain uses in a year.

The company says its UHV lines have successfully withstood extreme weather, including heat, cold and storms.

Now China wants to export that expertise to other developing and developed countries looking to build long-distance transmission lines or super-grids.

In February, a consortium led by SGCC won a 30-year concession to build and operate a 2,000-km (1,240-mile), 800kV UHV line in Brazil. The transmission system will carry power from the Belo Monte dam in northern Brazil to the major consumption centers in the southeast.

“The successful bid fully reflects the company’s advantages in this area and will promote China’s technology, equipment and experience on UHV transmission into Brazilian and other overseas markets,” SGCC trumpeted in a statement (“SGCC won the bid of Brazil’s Belo Monte Hydropower UHV Transmission Project”, Feb. 11).

In the past, some policymakers have expressed concerns about linking up China’s entire electricity network in one giant super-grid, fearing more interconnectedness would also increase the risk of nationwide power blackouts.

But according to SGCC, top officials, including Chinese Premier Li Keqiang, endorsed the UHV super-grid strategy at a meeting in April.

“The Premier's stance ended the argument of whether to construct UHV. The answer is YES and MORE. This year will be a golden era of approving and constructing lots of UHV projects.”

In practice, not all these projects are likely to be approved. SGCC has had its plans scaled back before. But enough will go into construction in the next few years to transform China’s electricity industry radically.
 
Other than smart grid, China leads the world in UHV transmission. Below is an artcile from last year. Like HSR (@AndrewJin ), China leads the tech and can offer assistance to other countries.

Column - Super-grid: China masters long-distance power transmission| Reuters

Thu Jun 19, 2014 8:59am EDT
LONDON | By John Kemp

F201112181002022079612039.jpg


LONDON (Reuters) - China’s power engineers have become world leaders in ultra-high-voltage transmission systems connecting far-off power sources with cities hungry for electricity.

China already has seven ultra-high-voltage (UHV) lines in operation, more than any other country, carrying power over thousands of kilometers at around 800,000 or even 1 million volts.

In April, the government gave the go-ahead to build another line operating at 1 million volts between rural Anhui province and the cities of Nanjing and Shanghai.

The National Energy Administration, which is part of the powerful National Development and Reform Commission, the country’s top economic regulator, has ambitious plans for as many as 12 inter-regional ultra-high-voltage transmission corridors spanning the country.

Most of the existing and planned transmission lines run broadly west to east and are intended to take power from western and central regions, where there are abundant hydro, coal, gas, solar and wind resources, to major industrial cities near the east coast.

With so many projects planned, State Grid Corp of China (SGCC) is looking forward to a “golden era” of UHV development at home and likens its UHV experience to a “golden business card” to help it win business overseas., according to a company release (“China enters a golden era of UHV development”, May 16).

CUTTING POLLUTION


State Grid says UHV will give China a unified national electricity market for the first time as well as helping to meet booming electricity demand and cut pollution.

UHV is intended to link the country’s existing regional grids in a national network. But it is also meant to herald much bigger changes in the way China uses energy.

SGCC wants the coal- and oil-fired boilers used in factories, offices and district heating systems across northern China to be replaced by electric heating to cut the air pollution that kills millions of people every year.

Much of the electricity for the grid would still be generated from coal, a source of greenhouse emissions as well as air pollution.

But large central power stations are likely to be more efficient than the small and old boilers used in many northern areas to provide winter heating, and it would be easier to fit them with scrubbers and other technology to cut pollution.

Shifting from coal to electric heating would also enable China to integrate more clean sources of power such as wind and solar into the energy mix.

State Grid calls it the “coal-to-electricity” program and says it would help meet many of the government’s plans for increasing energy efficiency, cutting pollution, and reducing dependence on imported oil.

Coal-to-electricity aims to replace coal-burning stoves for industrial and residential purposes with electric ones to curb air pollution, SGCC Executive Vice-President Yang Qing told a conference on green electricity in November 2013.

Oil-to-electricity could help develop the market for electric vehicles and electric irrigation in rural areas, to cut reliance on gasoline and diesel, Yang explained (“SGCC proposes coal-to-electricity to control smog”, Xinhua, Nov. 8, 2013).

Under a program launched last year, SGCC intends to replace many district heating boilers with large-scale heat pumps, according to Xinhua.

SGCC’s strategy for cleaning up China’s pollution problem and cutting greenhouse emissions is essentially similar to the climate plans being pursued by governments in Europe and North America.

The strategy consists of two separate transitions: electrification and decarbonization. It would shift more energy consumption away from direct use of fossil fuels onto the electricity grid, then cut emissions from power plants by replacing fossil fuels with more renewables and nuclear power.

timthumb.php


LOST IN TRANSMISSION


China’s problem is that main sources of fossil fuels and renewables for power generation are hundreds and even thousands of kilometers from where the electricity is most needed.

All transmission systems lose energy between generation and the end consumer as the electricity encounters resistance in the wires along the way and some energy is lost as heat.

On average, about 6 percent of the electrical energy transmitted and distributed in the United States was lost between 1990 and 2012, according to the U.S. Energy Information Administration.

The further electricity is transmitted, the more is lost. Economic considerations therefore tend to cap transmission distances.

One reason why solar power stations in North Africa and the Sahara cannot currently be used to supply electricity to Northern Europe is that the transmission losses would be too great.

But it is possible to reduce the proportion of energy lost by stepping up the voltage, which is why China and a number of other countries have begun developing ultra-high-voltage systems to carry power over much longer distances.

In the United States, most long-distance transmission lines operate at 230kV, 345kV, 400kV or sometimes 500kV, where kV stands for thousand volts. In Britain, most of the National Grid operates at 275kV or 400kV. But China’s existing UHV systems mostly operate at 800kV, nearly twice as high, or even 1,000 kV in some cases.

1100kV-UHV-AC-hybrid-GIS-designed-by-ABB-Jinmeng-substation-China-20140203.png


GOLDEN ERA OF UHV

Operating at extremely high voltages creates technical challenges as transformers, towers, cables and relays must run safely in a more demanding environment than normal.

Much of the early work on UHV systems was done by electrical engineering companies such as Siemens and ABB. However, SGCC has mastered the technology and says 90 percent of the engineering work has now been localized.

China’s existing UHV lines have delivered more than 160 terrawatt-hours of electricity since they were commissioned, about the same as the annual consumption of the state of Ohio or half what Britain uses in a year.

The company says its UHV lines have successfully withstood extreme weather, including heat, cold and storms.

Now China wants to export that expertise to other developing and developed countries looking to build long-distance transmission lines or super-grids.

In February, a consortium led by SGCC won a 30-year concession to build and operate a 2,000-km (1,240-mile), 800kV UHV line in Brazil. The transmission system will carry power from the Belo Monte dam in northern Brazil to the major consumption centers in the southeast.

“The successful bid fully reflects the company’s advantages in this area and will promote China’s technology, equipment and experience on UHV transmission into Brazilian and other overseas markets,” SGCC trumpeted in a statement (“SGCC won the bid of Brazil’s Belo Monte Hydropower UHV Transmission Project”, Feb. 11).

In the past, some policymakers have expressed concerns about linking up China’s entire electricity network in one giant super-grid, fearing more interconnectedness would also increase the risk of nationwide power blackouts.

But according to SGCC, top officials, including Chinese Premier Li Keqiang, endorsed the UHV super-grid strategy at a meeting in April.

“The Premier's stance ended the argument of whether to construct UHV. The answer is YES and MORE. This year will be a golden era of approving and constructing lots of UHV projects.”

In practice, not all these projects are likely to be approved. SGCC has had its plans scaled back before. But enough will go into construction in the next few years to transform China’s electricity industry radically.
Everyone is entitled to electricity, the basic necessity of a modern society.
I remembered in 1990s when I was little, there were quite a lot of power failures in Wuhan during summer, every district one afternoon per week at least. You know how hot it is in Wuhan during summer.:cry: The only happy thing was I could eat up all the ice-cream we stored in our refrigerator.
No matter where I travel, in the remotest regions in the west, or on an island in the east, not a single power failure now.
 
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Communications network is also a critical infrastructure for a country, an important measure is the ...

upload_2015-4-15_1-22-9.jpeg


Fixed Broadband Access

Refers to high-speed fixed (wired) access to the public Internet at downstream speeds equal to, or greater than, 256 kbit/s. This includes cable modem, DSL, fibre-to-the-home/building, and other fixed (wired) broadband subscriptions. The totals are measured irrespective of the method of payment. Here are the top 20 countries in number (household):
Statistics

broadband.png

Fiber to the home (FTTH)

Is the delivery of a communications signal over optical fiber from the operator’s switching equipment all the way to a home or business, thereby replacing existing copper infrastructure such as telephone wires and coaxial cable. Fiber to the home is a relatively new and fast growing method of providing vastly higher bandwidth to consumers and businesses, and thereby enabling more robust video, internet and voice services. Current fiber optic technology can provide two-way transmission speeds of up to 100 megabits per second. Further, as cable modem and DSL are struggling to squeeze increments of higher bandwidth out of their technologies, ongoing improvements in fiber optic equipment are constantly increasing available bandwidth without having to change the fiber. That’s why fiber networks are also called “future proof."

According to the FTTH Council (Fiber to the Home Council : Building Fiber-to-the-Home Communities Together, Feb 2012), the top economies in terms of the number of FTTH/B connections are:

#1 Japan (22.2 million)
#2 China (16.9 million)
#3 South Korea (10.4 million)
#4 the United States (9.6 million) and
#5 Russia (4.5 million).​

It now includes 30 economies worldwide that have at least one percent of their households connected to FTTH/B. In terms of FTTH penetration, by December 2012:

UAE top the penetration followed by 4 East Asian nations of South Korea (#2), Hong Kong (#3), Japan (#4) & Taiwan (#5).

Other major G20 economies include Russia (#12), China (#17), US (#19), Tukey (#26) & France (#27).

While consuming about 50% of world's total volume of optic fiber (251 million km, 2012 data) and optic cable (236 million km, 2013 data), China is expected to continue increasing FTTH household penetration, reaching ~30% (Taiwan's current level of penetration, world's #5 highest) by 2020.

FTTH Dec2012.png
 
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China Pilots a Small Smart Electric Grid

China has begun testing smart-grid technology that could eventually be deployed nationwide to make the delivery of electricity more reliable and efficient. It might also serve as a way to deliver high-speed Internet, TV, and telephony to the farthest reaches of the country. The State Grid Corporation of China (SGCC) is running the smart-grid project using passive optical networking (PON) technology — a high-bandwidth data wiring that can be run inside electric power cables without interference. Around 80% of premises in Zhuhai (Guangdong Province) have so far been connected to the grid.

zhuhai-banner-en.jpg

City of Zhuhai, Guangdong Province, China

With a developing economy, China prioritizes low carbon emission and clean energy; smart grids are an important part of China's policy to develop and use energy in a way that is responsible, secure, and reliable. Accordingly, China Southern Power Grid, which provides electricity to 230 million people, piloted a smart grid empowered by wireless broadband.

Huawei was called on to build a wireless broadband smart grid solution, which enabled China Southern Power Grid to deploy the world's first wireless distribution communication network at a frequency of 1.8GHz. As the first 4G TD-LTE enabled smart distribution network, it features automatic distribution and measurement, as well as video surveillance of the distribution network etc. This makes the grid smarter. Furthermore, it can provide China Southern Power Grid with higher wireless bandwidth for distribution automation data collection, control and video surveillance, as well as emergency communication, distribution network online monitoring, BYOD and other value-added services.

The smart grid can not only save energy and reduce emissions, but also increases power supply reliability, and lays the foundation for smart homes. The success of the smart grid proves the feasibility and superiority of eLTE in power distribution automation.

High capacity and bandwidth: To support massive user access to the smart grid, Huawei eLTE maximizes the allowed number of LTE terminals; a single sector can support as many as 1200 online users at one time; besides, Huawei also introduced data a collection terminal, and communication access points have been increased tenfold with 350 points per square kilometer in dense urban areas; at the same time, a 10MHz urban scenario at this density can reach an average throughput of 20Mbps, with a single BTS covering an area four kilometers in diameter.

Access latency below 100ms: Huawei TD-LTE uses the access delay minimization plan, which keeps the access latency lower than 100ms. In pilot testing, downlink latency maxed out at 11ms, while uplink latency never surpassed 59ms.

Multi-level QoS guarantee: Huawei adapted an LTE QoS mechanism to satisfy electricity supply business demands, developed prioritized strategies according to different business electricity supply needs. As a result, transmission of the key data and remote control of distribution network automation is ensured.

zhuhai-feature.jpg


Wireless broadband smart grid solution


Leveraging 4G TD-LTE technologies and industry-exclusive wireless spectrum (1785MHz-1805MHz), the solution is designed for the demands of automatic power distribution and measurement, as well as video surveillance of distribution networks and so on. This solution provides the capabilities of high bandwidth wireless data access, including data collection, control, and video surveillance, as well as emergency communication, distribution network online monitoring, BYOD, and other value-added services.
 
the top economies in terms of the number of FTTH/B connections are:

#1 Japan (22.2 million)
#2 China (16.9 million)
#3 South Korea (10.4 million)
#4 the United States (9.6 million) and
#5 Russia (4.5 million).

Does China has a plan to replace all copper network with fiber optics?
 
Does China has a plan to replace all copper network with fiber optics?
Hope so. I normally need 5-10 seconds to download a 4-Mb song, too damn slow! And I pay 80 yuan($13) for my shitty broadband monthly,they told me it was 5-10 Mb/s!
 
Hope so. I normally need 5-10 seconds to download a 4-Mb song, too damn slow! And I pay 80 yuan($13) for my shitty broadband monthly,they told me it was 5-10 Mb/s!
I think it's not that slow :). I still can play video streaming without buffering with 10Mbps (max 720p).
Live closer to the exchange and you'll get faster speed.
That's the weakness with copper... longer distance from the exchange get slower speed.
 
India can execute its own infrastructure projects, we have the capability !

Who says we don't have the capability what we need is funds & that's is what being discussed here

We are just decade and half behind China !

Add another decade

Electricity Production
  • By now the world has a total electricity production capacity over 23,127,000 GWh per year. Other than EU which produces 14.1% of world total, 16 other countries have annual production capacity over 200,000 GWh per year. China tops the world at 5,649,500 GWh (24.4% of world total), followed by USA at 4,260,400 GWh (18.4%).
  • In terms of electricity production by renewable sources e.g. hydro, wind, biomass & waste, solar and geothermal, China is the only country that exceeds 1,000,000 GWh per year and leads the world in this arena, followed by EU, and US.
  • On nuclear generated electricity, China by now has 23 reactors under operation, with an capacity of 19,007 MW (IAEA 2014 statistics) ranking sixth in the world (after US, France, Japan, Russia and SK). China has massive plans to increase both capacity and share of nuclear energy in the whole picture, with advanced reactor technology at the very center of the whole plan. By now, only seven countries can provide advanced reactors (generation III and beyond), including China (CNNC, CGN), US (Westinghouse, GE), Canada (Candu), Japan (Hitachi, Mitsubishi, Toshiba), Russia, South Korea and France (Areva, previously Framatone), and even fewer go on generation IV designs. Below is a list of world's advanced reactors:

Lots of people this that you can solve power situation in a country by simply adding more capacity however in many developing countries like a India this is not the case
Transmission & distribution infra has not kept up pace with power generation & we need investment in this sector,the govt of Indians new policy has renewed focus on this sector & tackling power theft.this is one area where we can use AIIB funding.
 
Does China has a plan to replace all copper network with fiber optics?

Yes. Current fiber optic technology can provide two-way transmission speeds of up to 100 megabits per second. Further, as cable modem and DSL are struggling to squeeze increments of higher bandwidth out of their technologies, ongoing improvements in fiber optic equipment are constantly increasing available bandwidth without having to change the fiber. That’s why fiber networks are also called “future proof."

However despite having surpassed the US in absolute size and penetration %, it would take quite some years for China to catch up with world leading countries like Taiwan, Japan & South Korea & Hong Kong given the massive geographical span of the country.

Country-wise, China is the top most fiber optics market for products as a consumer, taking up 45% of the world's total volume, while globally it is also the largest market for fiber optics products growing at a CAGR higher than the global average till 2019. The Fiber Optics Markets in China research report says China's demand for fiber optics has grown at a fast pace in the past decade. In the next five years, both production and demand will continue to grow.

Global & China Fiber Optics Market 2019 Growth Forecasts in 2014 Research Reports - Yahoo Finance
 
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Yes. Current fiber optic technology can provide two-way transmission speeds of up to 100 megabits per second. Further, as cable modem and DSL are struggling to squeeze increments of higher bandwidth out of their technologies, ongoing improvements in fiber optic equipment are constantly increasing available bandwidth without having to change the fiber. That’s why fiber networks are also called “future proof."

However despite having surpassed the US in absolute size and penetration %, it would take quite some years for China to catch up with world leading countries like Taiwan, Japan & South Korea & Hong Kong given the massive geographical span of the country.

Country-wise, China is the top most fiber optics market for products as a consumer, taking up 45% of the world's total volume, while globally it is also the largest market for fiber optics products growing at a CAGR higher than the global average till 2019. The Fiber Optics Markets in China research report says China's demand for fiber optics has grown at a fast pace in the past decade. In the next five years, both production and demand will continue to grow.

Global & China Fiber Optics Market 2019 Growth Forecasts in 2014 Research Reports - Yahoo Finance
Today I found this ad in my neighbourhood.
屏幕快照 2015-04-20 14.39.24.png

50Mbps only 90yuan per month
100Mbps only 100yuan per month.
If I order 3 years, 100Mbps is 60yuan per month($9.7) with free online TV!!!
I am a little "turned on".
 
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