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China Energy/Power Technology, Strategic Layout of Resources: News & Discussions

我就喜欢你这种低调朴实的炫耀。

yes, I fully agree with your point. We should seize the current chances, where the overall factor cost is still relatively low, to complete all the important infrastructures!
Wuhan has only finished 50% of the total infrastructure plan.
Give us another 20 years!
Our GDP per capita will increase from 16000 dollars (30000 PPP, though we never brag about this number) to 50k dollars.

Even in provinces like Zhejiang, Jiangsu and Guangdong, they need 2-3 decades!
Energy projects, welfare facilities, sport facilities, intercity HSRs, schools....
There are so many things to be done!

Even in established cities like Shenzhen, they have just finished less than 30% of their metro plan.
wtf so slow??? What are they doing???
屏幕快照 2016-11-11 12.33.32.jpg
 
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Sinochem may profit as US finds massive oil deposit
By Li Yan (People's Daily Online) 16:30, November 17, 2016

Sinochem, a Chinese state-owned group, may profit from a newly discovered oil camp, uncovered by the U.S. Geological Survey (USGS). USGS claims that it is the largest deposit of untapped oil ever found.

An estimated 20 billion barrels of oil and 1.6 billion barrels of LNG are available in the Wolfcamp shale, which is located in the Midland Basin portion of Texas's Permian Basin, according to the report. Based on current crude oil prices, those deposits are together worth about $900 billion.

In 2013, Sinochem spent $1.7 billion to buy 40 percent equity of the oil-gas project from a natural resources company in the U.S., according to earlier reports.

China's grid-connected wind power capacity increases
Xinhua, November 20, 2016

China's grid-connected wind power capacity continued to pick up, but the utilization rate was waning after years of capacity expansion, the latest data from the National Energy Administration (NEA) showed.

China's total installed capacity of wind power generation facilities connected to the power grid reached 139 million kilowatts by the end of September, up 28 percent from a year earlier, according to the NEA.

The growth rate outpaced that of the nation's total power use, a key barometer of economic activity, which totaled 4.5 percent year on year for the first nine months, official data showed.

The first nine months also saw newly added grid-connected wind power generation capacity of 10 million kilowatts, said the NEA.

However, those power generation facilities had average utilization hours of 1,251 in the first nine months, declining by 66 hours from a year earlier.

Of all provincial areas, southwest China's Yunnan Province registered the largest gain in grid-connected wind power capacity of 2.26 million kilowatts in the first nine months.

China, the world's second largest economy, has been trying to develop a clean energy network and pursue green growth in recent years.
 
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China's first 750kV powerline above glaciers

The high-voltage line, which extends 353.7 km, is now operational in China's far western Xinjiang region.



New China TV
Published on Nov 24, 2016
China's first 750kV powerline above glaciers. The high-voltage line, which extends 353.7 km, is now operational in China's far western Xinjiang region.
 
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This 750kV line is a good addition to the grid, and it's built on glaciers, excellent engineering marvel. Let's continue to complete the national grid of high voltage backbones.

Power Play: China’s Ultra High Voltage Technology and Global Standards
Inaugural paper in a new series of "Paulson Papers on Standards" uses China’s development of indigenous UHV technologies as a prism through which to view China’s emerging role as a global standard-setter.

uhv-grids-in-china-via-futurism-jpg.348111

20140721151718139-jpg.348527


As a matter of government policy and corporate strategy, China has been intensifying its effort to set indigenous standards for homegrown ultra-high voltage (UHV) transmission technology. The country also aims to contribute to UHV standards internationally. Indeed, this process of standard setting, influenced by both economics and politics, will have ramifications far beyond China’s borders. The potential internationalization of China’s domestic UHV standards will almost certainly affect the global market share for both Chinese manufacturers and dominant multinational companies.

Two factors are creating a window of opportunity for Chinese UHV technologies to gain international acceptance and become the de facto global standard: first, China is the only country currently deploying UHV technology on a large scale; second, no international UHV standard has yet prevailed. China’s effort to internationalize its own UHV standards, then, could yield greater global market share for Chinese UHV technologies.

In fact, China has already made some modest progress in becoming the default standard-setter for UHV projects outside its borders, in part by growing its global market share. One example is the joint development of a Sino-Brazilian UHV project. Another is the successful effort to promote three indigenous Chinese UHV AC standards as international standards of the global Institute of Electrical and Electronics Engineers (IEEE).

This paper delves deeply into these developments. It explores China’s UHV standardization process and the myriad challenges it faces, from a technical, economic, and political standpoint. But beyond simply detailing China’s strategy in pushing out its own UHV technology to the domestic and international markets, the paper discusses how China’s ambition for its indigenous technology could ultimately pose a considerable challenge to global competitors who hope to sell comparable products. The paper concludes by outlining several potential scenarios for how China’s UHV standardization process, and its relationship to global standard setting, may ultimately evolve.

Read more:
http://www.paulsoninstitute.org/wp-content/uploads/2015/04/PPS_UHV_English.pdf
http://www.paulsoninstitute.org/wp-content/uploads/2015/04/PPS_UHV_Chinese.pdf
 
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This 750kV line is a good addition to the grid, and it's built on glaciers, excellent engineering marvel. Let's continue to complete the national grid of high voltage backbones.

Power Play: China’s Ultra High Voltage Technology and Global Standards
Inaugural paper in a new series of "Paulson Papers on Standards" uses China’s development of indigenous UHV technologies as a prism through which to view China’s emerging role as a global standard-setter.

uhv-grids-in-china-via-futurism-jpg.348111

20140721151718139-jpg.348527


As a matter of government policy and corporate strategy, China has been intensifying its effort to set indigenous standards for homegrown ultra-high voltage (UHV) transmission technology. The country also aims to contribute to UHV standards internationally. Indeed, this process of standard setting, influenced by both economics and politics, will have ramifications far beyond China’s borders. The potential internationalization of China’s domestic UHV standards will almost certainly affect the global market share for both Chinese manufacturers and dominant multinational companies.

Two factors are creating a window of opportunity for Chinese UHV technologies to gain international acceptance and become the de facto global standard: first, China is the only country currently deploying UHV technology on a large scale; second, no international UHV standard has yet prevailed. China’s effort to internationalize its own UHV standards, then, could yield greater global market share for Chinese UHV technologies.

In fact, China has already made some modest progress in becoming the default standard-setter for UHV projects outside its borders, in part by growing its global market share. One example is the joint development of a Sino-Brazilian UHV project. Another is the successful effort to promote three indigenous Chinese UHV AC standards as international standards of the global Institute of Electrical and Electronics Engineers (IEEE).

This paper delves deeply into these developments. It explores China’s UHV standardization process and the myriad challenges it faces, from a technical, economic, and political standpoint. But beyond simply detailing China’s strategy in pushing out its own UHV technology to the domestic and international markets, the paper discusses how China’s ambition for its indigenous technology could ultimately pose a considerable challenge to global competitors who hope to sell comparable products. The paper concludes by outlining several potential scenarios for how China’s UHV standardization process, and its relationship to global standard setting, may ultimately evolve.

Read more:
http://www.paulsoninstitute.org/wp-content/uploads/2015/04/PPS_UHV_English.pdf
http://www.paulsoninstitute.org/wp-content/uploads/2015/04/PPS_UHV_Chinese.pdf

Excellent development from China. Very good to know that China is leading in this important energy infrastructure segment. I can't wait for China indigenous home-grown UHV standards to become the defacto global standards.

On a side note, China has published its HSR standards for various classes/speed. China is king in this area. If any country wants the best (fastest, smoothest, most advanced, energy efficient,...) HSR with value for money, there is only one country to talk to, i.e. China. China is also leading in 5G mobile standards, quantum communications, satellite, etc. etc. Just too many to mention.
 
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Excellent development from China. Very good to know that China is leading in this important energy infrastructure segment. I can't wait for China indigenous home-grown UHV standards to become the defacto global standards.

On a side note, China has published its HSR standards for various classes/speed. China is king in this area. If any country wants the best (fastest, smoothest, most advanced, energy efficient,...) HSR with value for money, there is only one country to talk to, i.e. China. China is also leading in 5G mobile standards, quantum communications, satellite, etc. etc. Just too many to mention.

Yes, this is very important. Grid loss is a major factor in energy waste. With better (faster, bigger and with less loss) transmission, China can ensure safe, reliable and fast energy infrastructure for business, military and civilian use; cut down on waste and thus spend less on energy generation; and finally contribute to national and global environment.
 
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Shanghai trading platform will support energy market reform

By Li Xuanmin Source:Global Times

Published: 2016/11/27 21:08:40

The first national-level energy trading center in China, the Shanghai Petroleum and National Gas Exchange (SHPGX), officially began operation on Saturday, an important step in the country's energy market reform and a way to extend its influence on global commodity pricing, analysts said.

The trading center is a platform for spot trading of natural gas, crude oil, liquefied petroleum gas, refined oil and other energy products, the Xinhua News Agency reported on Sunday. Member dealers can trade either at posted prices or through bidding. The platform has 269 member dealers, domestic news portal ifeng.com reported on Sunday.

The center will regularly publish multiple trading price indexes for those energy products, serving as references for the industry.

It is estimated that natural gas transactions via the platform will exceed 15 billion cubic meters this year, representing 8 percent of China's total gas consumption, Xu Shaoshi, the chairman of the National Development and Reform Commission (NDRC), the country's top economic planner, was quoted as saying in a statement on the website of the NDRC on Saturday.

The SHPGX is expected to "connect suppliers with buyers, make market transactions more efficient and provide an open and transparent pricing mechanism," Lin Boqiang, director of the Center for Energy Economics Research at Xiamen University, told the Global Times on Sunday. "In the past, there was information asymmetry between buyers and sellers, but the platform will end that."

The center's opening comes as the government is pursuing market-oriented price reforms in the energy sector to raise the industry's competitiveness, Lin noted. "The price of natural gas used to be set uniformly by the NDRC, but Chinese authorities have been stepping up efforts to introduce market players, and the SHPGX is an example."

The SHPGX will develop into an Asia-Pacific oil and gas pricing and center, the NDRC's statement said.

The platform was established in the China (Shanghai) Pilot Free Trade Zone in March 2015 with registered capital of 1 billion yuan ($144 million), the statement noted.

It started trial operations in July 2015, and it has 10 shareholders, including the three major State-owned oil giants: Petro China, Sinopec Co and China National Offshore Oil Corp.

http://www.globaltimes.cn/content/1020543.shtml
 
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New nuclear R&D center opened in east China
2016-11-29 20:47 | Xinhua | Editor: Mo Hong'e

A new research and development center was opened Tuesday in eastern China's Shandong Province, aiming to solve technical challenges in China's domestic nuclear projects.

The center was jointly built in the coastal city of Yantai by three of China's state-owned nuclear power companies -- China General Nuclear Power Corporation, China National Nuclear Corporation and State Power Investment Corporation -- and privately-owned Yantai Taihai Group.

Ten research institutes established by the center will focus on a variety of areas, including utilization of nuclear power, radiation protection, energy storage and nuclear-waste treatment, according to Shu Guogang, the center's director.

The research will address the technical problems of mass production in China's third-generation domestic nuclear power projects, such as the Hualong One reactors, Shu said.

China's ranks third in the world for its output of nuclear-generated electricity, with key equipment for the country's third-generation nuclear power projects domestically manufactured, according to Zhang Huazhu, head of the China Nuclear Energy Association.
 
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China to invest 700 billion RMB in wind energy projects
(People's Daily Online) November 30, 2016

FOREIGN201611301442000027479711564.jpg


(File photo)

By 2020, China will see new wind power projects providing 80 million kilowatts of energy to the country. The total investment of those projects will exceed 700 billion RMB, according to a recent blueprint from the national energy authority.

According to the 13th Five-Year Plan on wind energy development, issued by the National Energy Administration, the new wind power projects will be concentrated in central, eastern and southern China. The development plan will also work to guarantee that a minimum amount of wind power-generated electricity be purchased from local authorities in order to protect wind power projects.

Wind energy has become the nation's third largest electricity source, following coal-burning and hydropower.

"Judging from the current situation, it may still be difficult for local authorities to rely less on thermal power and more on wind power, given the surplus of thermal power projects. The development scale and growth rate of wind power projects in northern China will be limited," Qin Haiyan, a wind power expert with China Renewable Energy Society, warned Economic Information Daily.
 
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China to invest 700 billion RMB in wind energy projects
(People's Daily Online) November 30, 2016

FOREIGN201611301442000027479711564.jpg


(File photo)

By 2020, China will see new wind power projects providing 80 million kilowatts of energy to the country. The total investment of those projects will exceed 700 billion RMB, according to a recent blueprint from the national energy authority.

According to the 13th Five-Year Plan on wind energy development, issued by the National Energy Administration, the new wind power projects will be concentrated in central, eastern and southern China. The development plan will also work to guarantee that a minimum amount of wind power-generated electricity be purchased from local authorities in order to protect wind power projects.

Wind energy has become the nation's third largest electricity source, following coal-burning and hydropower.

"Judging from the current situation, it may still be difficult for local authorities to rely less on thermal power and more on wind power, given the surplus of thermal power projects. The development scale and growth rate of wind power projects in northern China will be limited," Qin Haiyan, a wind power expert with China Renewable Energy Society, warned Economic Information Daily.

10-20% of the total should be invested in battery storage systems. :rolleyes:
 
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10-20% of the total should be invested in battery storage systems. :rolleyes:

:enjoy:

September 29, 2016
Nine Updates on China’s 2016 Energy Storage Industry

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In the first half of this year we observed some positive signs: China’s increasing electricity system reforms, the rise of the “energy internet,” and growing activity in frequency regulation and peak-load shifting in China’s North. We also saw some less positive developments such as increases in wind and solar curtailments. Good and bad alike, all of these developments underline the importance of energy storage in a wide array of fields, from renewable energy, distributed generation and microgrids, as well as in setting electricity prices. From the beginning of 2016 to present, China’s energy storage industry took steps forward in project planning, policy support, and increasing product capacity.

Here are nine highlights:

1) Large-Scale Storage Projects Increased
According to CNESA’s project database, storage project installations continued to increase. In the first half of 2016, newly operating projects totaled 28.5 MW, principally focused on renewable energy grid integration in Northwestern China. The nine newly operating projects include Golmud (Tibet) City Solar Storage Station and Kelu Electronics Solar Storage in Yumen, Gansu province.

In addition to the projects in operation, in the first half of 2016, China also announced storage project construction plans adding up to over 400 MW in scale (CNESA project database). System integrator companies Samsung SDI-Sungrow, Dalian Rongke, Narada Battery, were the main enterprises involved. Technologies involved include Li-ion, flow, and lead storage batteries. Principal applications include ancillary services, large scale renewable energy grid integration, and distributed energy and microgrids. CNESA forecasts that these projects will gain momentum in the upcoming years.

2) New Energy Policies Emphasized Energy Storage
As China enters its 13th Five Year Planning Period in the midst of the energy revolution, the State Council, National Development and Resource Council (NDRC), and National Energy Administration (NEA) have all geared policy efforts towards adjusting China’s energy systems, innovation of new technology, manufacturing equipment, constructing smart grids, and developing renewable energy. CNESA predicts future policies will be focus on the energy internet, ancillary services, and microgrids, all increasing applications for energy storage technology.

Energy storage was mentioned in numerous policy documents including, “Innovation in the Energy Storage Technology Revolution: New Action Plan (2016-2030),” “Outline for the Strategy of Driving National Innovation,” and “Made in China 2025—Plan for Installation of Power Equipment.” Such policy documents clearly outlined roadmaps for development and innovation in the energy storage, project demonstrations, and how to tackle key problems in the industry.

The importance and application value of energy storage technology also appeared in the policy document “Guiding Opinions on Implementing the ‘Internet+’ Smart Energy Development.” Energy storage is related to internet, electricity storage, heat storage, hydrogen cells, and gas storage. Through different forms of storage, electric power, heat, traffic, and oil and gas applications all interconnect.

3) Power System Reforms Granted More Marketing Opportunities for Energy Storage
New rounds of electricity system reforms aim at transmission & distribution price reforms, the creation of an electricity market, sell-side reforms, and launching demand response. Increasing the degree of electricity marketization will allow the latent market potential of energy storage to open up, expanding storage business models, and bring about a turning point in the industry. As electricity retailers throughout China are established, the reforms will go into effect, introducing a flexible and diverse pricing system, thus creating spaces for the use of user-sited energy storage.

Distributed storage set-ups for industrial users were also a hot topic. At present, companies like BYD, Zhonhen, and GSL System Integration Technology Co. have already began targeting industrial parks for planning large scale distributed energy storage systems. Optimizing differences in peak and off-peak electricity prices is the primary goal, along with balancing PV use levels, participating in demand response, delaying upgrades to electricity system infrastructure, and providing in ancillary services. Given current peak and off-peak price conditions, increasing off-peak consumption and decreasing peak consumption in industrial areas can result in investment returns of five years.

4) Energy Storage Can Play a Chief Role in Providing Ancillary Services in Northern China
In June of 2016, the NEA formally issued a policy in favor of electricity systems peak-load shifting and frequency regulation titled, “Notification on Promoting Energy Storage in China’s Northern Regions Ancillary Services Compensating (Market) Mechanisms Trial Project.” This is the final release of the document after the NEA solicited opinions in May earlier this year.

The first part of this document discusses how to formulate substantive policies supporting the energy storage industry, how to employ energy storage in ancillary services cost sharing mechanisms, and how to demonstrate electricity storage technology’s superiority in peak-load shifting and frequency modulation. First of all, the document states that policy must first clearly give stand-alone energy storage an important position in electricity markets. Energy storage also needs a recognized identity similar to that of ancillary services, generator storage, retailers, and electricity users. Next, policy must encourage energy storage diversification by encouraging investment diversification. Policy should also support both concentrated energy storage in renewable energy generation and distributed energy storage facilities in smaller districts, buildings, industries, as well as user-sited distributed storage facilities. Storage’s use in peak balancing, and fast response, will encourage the recognition of its value. Additionally, the document states policy must promote not only power plants, but also user-sited storage facilities to participate in peak-load shifting ancillary services together with grid companies.

5) Rapid Investments in Battery Companies are Driving Energy Storage
The rising popularity of electric cars is driving domestic demand for batteries to the point where supply doesn't meet demand. In the first half of 2016, companies like BYD, Lishen, and China Aviation Lithium Battery Co., Hefei Guoxuan High-Tech Power Energy Co., and Optimum Nano, drove the domestic battery industry forward introducing several rounds of investment plans. Lead battery manufacturers such as Menshine, Shuangdeng, and Narada Power represent enterprises also vigorously investing in Li-ion battery systems.

According to CNESA’s statistics, in the first half of 2016, domestic enterprises already announced an increase of 120 GWh in newly added production capacity for power Li-ion batteries. If operations begin smoothly, by 2018, the domestic market can potentially be faced with the pressures of a supply exceeds demand scenario. In addition to current applications in electric cars, electric bikes, and the electric tools markets, battery storage will become a key industry for battery manufacturers and focus point in future markets.

6) New, Specialized Energy Storage Companies Entered the Market
From 2015 to the first half of 2016, many new companies specializing in energy storage entered the market, with a combined planned storage capacity exceeding 100 MWh. These new businesses largely aim at developing user storage products, providing energy storage systems solutions services. The newly founded companies comprise two main types:

A) Battery manufacturer and PCS companies launching partnerships with system integrators. Examples include:

a. Sungrow Power and Samsung SDI: The joint venture has already accrued more than $170 million USD in investments In July of 2016 the two officially launched energy storage equipment production. They expect an annual production capability of 2000 MWh in storage equipment.

b. Shenzhen Clou Electronics and LG Chem: The two have set up a new joint venture enterprise, Shenzhen Kele New Energy Technologies Ltd., at a registered cost $3.5 million USD. The planned yearly production capacity is set for over 400 MWh, with assembly lines set to begin operations starting in early 2017

c. EVE Lithium Batteries and Neovoltaic: EVE recently purchased a 12.5% share in Neovoltaic. Neovoltaic mostly focuses on PV storage, energy management services, and internet in the Australian and German markets. This move will help EVE expand its storage user base.

B) Traditional PV enterprises along with PV system integrators opening up storage-focused companies. Examples include:

a. Suzhou GCL Integrated Storage Technology Co.: This company, set up by GCL System Integration Technology, was founded with expected annual production of 500 MWh in battery capacity. At present, they have already developed and are taking orders for their first storage product, the E-KwBe NC-S Series. In the future the company will move toward distributed PV, industrial storage, and grid storage.

b. Trina Energy Storage: Trina Solar established Trina Storage Co. as a system integrator company to provide storage solutions for industrial users as well as public utility grid storage, residential storage, off-grid storage, communications systems, and vehicles.

7) Chinese Companies Target Foreign Residential Storage Markets
In recent years, the distributed residential storage market has developed in countries like Germany, Australia, the U.S., and Japan. Local governments overseas have drawn up storage installation subsidies, tax credits, and other demand response incentive mechanisms in order to expand the storage user base and bring about viable business models.

While companies like Tesla, Sonnenbatterie, and LG Chem, release residential storage products all over the word, Chinese storage technology companies are targeting the Australian and German residential storage markets. Since 2016, Shenzhen Clou Electronics, Neovoltaics, China Aviation Lithium Battery Co., GCL Integrated Storage, Pylontech, and Trina Storage, have all released products for residential PV + storage users with capacities ranging from 2.5 kWh to 7 kWh, mainly employing Li-ion battery technology complete with smart energy management systems solutions. Chinese storage enterprises, with technology and production capacity in Li-ion and lead-acid batteries, are looking to establish business partnerships with PV installers and storage system integrators in the Australian, German, and American residential storage markets.

8) Chinese Regional Governments Have Taken Measures to Support the Growing Domestic Storage Industry
As the storage market grows, local and regional governments have grasped the importance of the emerging energy storage industry. In 2016 the governments of Dalian City, Qinghai Province, and Bijie City have all initiated planning efforts for the storage industry, preparing for industrialization and constructing demonstration centers.

Dalian City (Liaoning Province)

In March of 2016, the Dalian City local government issued a policy document “Dalian City People’s Government Opinions on Advancing the Energy Storage Industry,” declaring the city a research and manufacturing center of vanadium-flow and Li-ion batteries. The policy outlines a supply chain involving local materials preparation and system integration, estimating that both the storage and related industries worth at nearly 50 billion CNY. In April of 2016, the NEA approved Dalian’s National Chemical Storage Peak Load-Shifting Station demonstration project, with a scale of 200 MW/800MWh. This signifies the first time that the NEA has approved a national scale chemical storage demonstration project and ensures enormous benefits for Dalian’s flow battery industry.

Qinghai Province

In the 13th Five-Year Plan, Qinghai Province will classify lithium batteries as a “key industry.” The province has confirmed that its lithium reserves constitute over 80% of the entire national supply. At present, Qinghai Province plans to construct a vertical supply chain including lithium extraction from salt pools, synthesis of lithium carbonate, and manufacturing of positive and negative electrode material, membranes, power and storage batteries, power control systems, and electric vehicles. The government also plans to expand the electric vehicle user base in the cities of Xining and Haidong. They list primary storage applications as combining the PV and wind operations in Haixi, Hainan, and Haibei.

Bijie City (Guizhou Province)

Beginning in 2014, China began its first compressed air storage/multiple energy source demonstration project in Bijie City, Guizhou Province with 1.5 MW capacity. Next, in 2016, Bijie also became the site of China’s first large scale physical storage national research and development center, the first of its kind to be established in Bijie. After construction is completed, it will be the largest in Asia, gearing to produce world-class research.

8) Electric Vehicle Battery Recycling Presents Both Opportunities and Risks
As electric vehicles become more and more widespread, a large scale influx of retired batteries can also be expected in upcoming years. In 2016, China’s Ministry of Industry and Information Technology issued “Policy on Uses for Recycled Electric Vehicle Batteres (2015 edition)” pointing out that producers should be responsible for implementing systems to recycle and reuse electric vehicle batteries. Electric vehicle manufacturers should take on primary responsibility for the recycling of used batteries, while battery manufactures should take responsibility for after-sales service systems. Vehicle and Li-ion battery manufacturers alike have both started paying close attention to the battery waste chain.

According to the CNESA research team, domestic power battery enterprises have already began technology research and demonstrations with the battery second-use mind. Confronted with the enormous market capacity of second-life batteries, the domestic battery industry has many questions that need to be answered yet, such as how to set reasonable market prices, how to choose suitable applications, how to establish quality standards.

All in all, considering proven application value, strengthening in supporting policies, as well as increasing industry investment, the present developments in the domestic storage industry are stable and favorable. We look forward even more progress in the remainder of the year.

***

The brilliant author of the article:

Li Daixin

Li Daixin's research focuses on the technology, application, business models, and policies surrounding the energy storage, electric vehicle, and fuel cell industries. She holds a master's degree from Nankai University in Materials Science and Engineering.
 
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'Green' sector to be 3% of GDP by 2020: official
2016-12-05 14:25 | chinadaily.com.cn | Editor: Xu Shanshan

The energy conservation and environmental protection plan for the 13th Five-Year Plan period (2016-2020) will be unveiled soon, China Business Journal reported on Sunday, citing a senior official from the National Development and Reform Commission.

By 2020, the added value of the energy conservation and environmental protection industry is estimated to account for 3 percent of gross domestic product, becoming one of the pillar industries for the domestic economy, the newspaper said.

Lv Wenbin, vice-director of the Department of Resource Conservation and Environmental Protection under the National Development and Reform Commission, made the remarks at the China Listed Environmental Company Summit held on Saturday.

As of 2015, the added value of the energy conservation and environmental protection sector reached 4.5 trillion yuan ($653.22 billion) Lv said, adding that the added value of the industry accounted for 2.1 percent of gross domestic product, creating more than 30 million jobs.

During the 13th Five-Year Plan period, the total investment of the environmental protection industry will reach an estimated six to 10 trillion yuan, the newspaper said quoting Wang Jinnan, vice-director and chief engineer of the Chinese Academy for Environmental Planning.

In recent years China's cabinet, the State Council, has released several plans on the prevention and control of soil pollution, water pollution and air pollution.

A new guideline for environmental protection during the 13th Five-Year Plan period was approved at a State Council executive meeting on Nov 15, presided over by Premier Li Keqiang.

China will improve environmental protection and restoration to ensure a greener, more sustainable development, according to the guideline.

The new guideline also set the goals of a more environmentally friendly way of living, considerable reduction of major pollutants, and a sounder ecological system by 2020.

Xinhua contributed to this story.
 
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The other cleaner, cheaper and safer nuclear energy technology that can potentially transform the world
December 06, 2016

I repeat some contextual information about molten salt nuclear reactors for those who are finding out about molten salt nuclear for the first time. Molten salt reactors have been built and operated in the 1960s. Unlike nuclear fusion, which has not had reactors built that operate for more than a few hundred seconds and have not produced net power (more power out than is input) Compared with solid-fuelled reactors, MSR systems with circulating fuel salt are claimed to have lower fissile inventories, no radiation damage constraint on fuel burn-up, no requirement to fabricate and handle solid fuel or solid used fuel, and a homogeneous isotopic composition of fuel in the reactor. Actinides are less-readily formed from U-233 than in fuel with atomic mass greater than 235. These and other characteristics may enable MSRs to have unique capabilities and competitive economics for actinide burning and extending fuel resources. Safety is high due to passive cooling up to any size. Also, several designs have freeze plugs so that if excessive temperatures are reached, the primary salt will be drained by gravity away from the moderator into dump tanks configured to prevent criticality.

Molten salt nuclear represents a technically achievable breakthrough in lowering energy costs on a global scale while improving safety.


* initial early simpler molten salt designs can be cheaper than coal and natural gas. ITER would not achieve energy breakeven and the tokamak path will not achieve energy that is lower cost than existing energy
* advanced designs could be several times cheaper
* units would be more compact and could be several times smaller than submarine nuclear reactors for the same power. This would transform nuclear powered ships and vehicles
* would use uranium or thorium in a far more efficient way. This would mean less unburned fuel (aka waste)
* this is a technically and commercially viable technology for transforming the world to abundant, cleaner, cheaper and safer energy

China is making a few 2-10MW prototype reactors. There is a Chinese thorium molten salt reactor project. China plan is to use these systems to close the uranium fuel cycle (aka no nuclear waste).

There was a recent Molten salt nuclear reactor conference. There was information about improvements and advancement of the different designs and projects.








China's MSR has the biggest budget. China seems to have the will and funds to deliver on the "All of the above" development of energy options. (Molten Salt - yes and two types, pebble bed - yes, super-critical water -yes, breeder reactors - yes, advanced pressure water - yes, various solar, various wind, ultracritical coal, gas, hydro, etc...)

Terrestrial energy has raised about C$20 million in funding and grants which is enough for the engineering design. Funds are being used to support the Company’s pre-construction and pre-licensing engineering, and further engagement with industry, governments and nuclear regulators. Terrestrial Energy design and project choices are all towards simplifying the development of a first commercial device and the regulatory approval. Terrestrial Energy looks like they could achieve the first successful commercial system

Transatomic TAP also has $2.5 million in funding

In January 2016, the United States Department of Energy announced a $80m award fund to develop Generation IV reactor designs. One of the two beneficiaries, Southern Company will use the funding to develop a Molten Chloride Fast Reactor (MCFR), a type of MSR developed earlier by British scientists. Thorcon is working on a feasibility study with Indonesia.

There is enough money and separate interests (energy needs of different countries, security needs, military needs) to see various options built.

The European Union has a 5 million Euro molten salt project which is mainly looking at theoretical safety and design refinement. There are several European molten salt reactor startup companies (Moltex, Copenhagen Atomics ...)

http://www.nextbigfuture.com/2016/12/the-other-cleaner-cheaper-and-safer.html
 
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China is nearing completion of the high temperature pebble bed reactor and will test it before generating power starting about Nov 2017

February 11, 2016

China’s Nuclear Engineering Construction Corporation plans to start up a high-temperature, gas-cooled pebble-bed nuclear plant in 2017 in Shandong province, south of Beijing. The twin 105-megawatt reactors—so-called Generation IV reactors that would be immune to meltdown—would be the first of their type built at commercial scale in the world.

Construction of the plant is nearly complete, and the next 18 months will be spent installing the reactor components, running tests, and loading the fuel before the reactors go critical in November 2017.


If it’s successful, Shandong plant would generate a total of 210 megawatts and will be followed by a 600-megawatt facility in Jiangxi province. Beyond that, China plans to sell these reactors internationally; in January, Chinese president Xi Jinping signed an agreement with King Salman bin Abdulaziz to construct a high-temperature gas-cooled reactor in Saudi Arabia.

“This technology is going to be on the world market within the next five years,” Zhang predicts. “We are developing these reactors to belong to the world.”

Pebble-bed reactors that use helium gas as the heat transfer medium and run at very high temperatures—up to 950 °C—have been in development for decades. The Chinese reactor is based on a design originally developed in Germany, and the German company SGL Group is supplying the billiard-ball-size graphite spheres that encase thousands of tiny “pebbles” of uranium fuel. Seven high-temperature gas-cooled reactors have been built, but only two units remain in operation, both relatively small: an experimental 10-megawatt pebble-bed reactor at the Tsinghua Institute campus, which reached full power in 2003, and a similar reactor in Japan.

One of the main hurdles to building these reactors is the cost of the fuel and of the reactor components. But China’s sheer size could help overcome that barrier. “There have been studies that indicate that if reactors are mass-produced, they can drive down costs,” says Charles Forsberg, executive director of the MIT Nuclear Fuel Cycle Project. “The Chinese market is large enough to make that potentially possible.”

China is also working on
  • a molten-salt reactor fueled by thorium rather than uranium (a collaboration with Oak Ridge National Laboratory)
  • a traveling-wave reactor (in collaboration with TerraPower, the startup funded by Bill Gates)
  • a sodium-cooled fast reactor being built by the Chinese Institute for Atomic Energy
  • a supercritical water cooled reactor

Nextbigfuture has been covering all of Chinas nuclear reactor projects for many years.




Fuel Fabrication

Technology of 5g U/fuel to 7g U/fuel has been demonstrated.
* INET demo production facility has been finished,
* Manufacturing of irradiated fuels, finished.
* Fuel irradiation tests are underway.
* Engineering and licensing of a new pebble bed fuel plant is finished, construction soon starts.




There have been detailed cost estimates made of the chinese pebble bed reactor compared to the low costs (half or less of the western cost) for pressurized water reactors (PWR - current standard reactors).

Estimates show that the capital costs of an Nth-of-akind HTR-PM plant with multiple NSSS modules should be in the range of 90–120% of the costs of a PWR. Further reductions are expected to be possible.

China is pretty sure that they can get the HTR-PM in the range of the price of their PWR and they will produce heat (higher temperature than PWR) that allows the HTR-PM to be a drop in replacement for coal plants. The HTR-PM would also be able to compete for smaller projects in the 210 to 420 MWe range.


http://www.nextbigfuture.com/2016/02/china-is-nearing-completion-of-high.html
 
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