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R&D of nuclear reactor signifies big milestone
By ZHONG NAN | China Daily | Updated: 2020-10-09 09:54
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The booth of State Power Investment Corp at an industry expo in Beijing. [Photo by Da Wei/For China Daily]

Third-generation nuclear reactor technology has broken foreign monopolies in many fields and will enable China to own independent intellectual property rights and harness export potential, said senior executives of State Power Investment Corp.

Their comments came after SPIC, one of China's three nuclear power developers and operators, announced the completion of research and development of the country's third-generation nuclear reactor project called CAP1400, or Guo He One, early last week.

The CAP1400 R&D is the latest achievement in China's nuclear power technology development and industrial innovation.

Based on the third-generation nuclear technology of AP1000, imported in 2007, the CAP1400 has made great technological innovations over 12 years of hard work by more than 26,000 Chinese technology engineers from 477 Chinese companies with various specializations, said Zheng Mingguang, chief designer of the CAP1400 nuclear reactors.

In addition to technologies, equipment is critical to the sustainable growth of nuclear projects, he said.

About 90 percent of the CAP1400's equipment is domestically made. All its key parts and materials, like the reactor coolant pumps, squib valves, steam generators, reactor pressure vessel internals, control rod drive mechanisms, large forgings and nuclear-grade welding material, are all domestically designed and manufactured, he said.

In comparison with the second-generation version, the new reactor, with a design life of 60 years, extends the non-manual intervention time from 30 minutes to 72 hours, and dramatically improves safety performance against natural disasters like earthquakes and floods by 100 times, said Lu Hongzao, SPIC's assistant president.

"The CAP1400 nuclear reactors will be powerful electricity suppliers," said Lu. "For instance, each reactor can provide 1.5 million kilowatt-hours of electricity to the grid. Therefore, it is able to provide nearly 13 billion kilowatt-hours on a yearly basis."

As this technology is competitive in the global market with a relatively high degree of safety and lower costs, SPIC is promoting the CAP1400 for exports. It is discussing potential partnerships with countries such as South Africa and Turkey, said Hao Hongsheng, general manager of the company's nuclear energy department.

He said because the construction cost for the reactors can be cut by 20 percent after achieving mass production, the group is optimistic about the long-term export potential of the CAP1400.

The annual generating capacity of a single CAP1400 unit can meet the electricity needs of over 22 million residents and reduce greenhouse gas emissions such as carbon dioxide by more than 9 million metric tons a year, he said.

China had 13 nuclear power units under construction, with a total installed capacity of 13.87 million kW by the end of 2019, ranking first in the world.

It is estimated that by 2025, the country's installed nuclear power capacity in operation will reach 70 million kW, with 30 million kW already under construction, according to the Beijing-based China Nuclear Energy Association.

A number of nuclear power plants of SPIC are under construction or already in operation. Prominent among them are the Hongyanhe nuclear power plant in Northeast China's Liaoning province, and Haiyang and Rongcheng nuclear power plants in East China's Shandong province.

SPIC also has reserved several project sites in both inland and coastal areas of China.

It has built a presence in 41 countries and regions such as Japan, Australia, Malta, India, Turkey, South Africa, Pakistan and Brazil.

Its businesses cover power project investment, technical cooperation, and engineering, procurement and construction.

The Beijing-based State-owned enterprise has 115 mW of controllable overseas projects in operation and 10.05 gW under construction.

By expanding its energy markets at home and abroad, SPIC aims to become an international innovative and integrated energy group and modern SOE, which is driven by innovation of nuclear power and other advanced energy technologies.

Ma Yu, a senior researcher at the Beijing-based Chinese Academy of International Trade and Economic Cooperation, said the focus of nuclear project construction across the globe is expected to shift from developed to developing countries, especially to many economies related to the Belt and Road Initiative.

Advanced nuclear projects are already under development in inland provinces. China's third-generation nuclear reactor technologies will strongly ensure the healthy growth and integrated development of the Yangtze River Delta, the Guangdong-Hong Kong-Macao Greater Bay Area and the Beijing-Tianjin-Hebei region as well as the Hainan Free Trade Port in the future.
 
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Tianwan unit 6 enters commissioning phase
09 October 2020

Cold functional testing has been completed at unit 6 of the Tianwan nuclear power plant in China's Jiangsu province, China National Nuclear Corporation (CNNC) has announced. The ACPR1000 reactor is scheduled to enter commercial operation by the end of 2021.

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A worker in the control room of Tianwan unit 6 (Image: CNNC)

Cold functional tests are carried out to confirm whether components and systems important to safety are properly installed and ready to operate in a cold condition. They are the first comprehensives tests to check the performance of the entire reactor. The main purpose of these tests is to verify the leak-tightness of the primary circuit and components - such as pressure vessels, pipelines and valves of both the nuclear and conventional islands - and to clean the main circulation pipes.

CNNC noted the completion of the tests on 4 October marks the transfer of Tianwan 6 from the equipment installation stage to the commissioning stage.

Units 5 and 6 at Tianwan - Tianwan Phase III - both feature ACPR1000 reactors. First safety-related concrete was poured for unit 5 on 27 December, 2015, with that for unit 6 poured on 7 September, 2016. Tianwan 5 entered commercial operation last month, with unit 6 expected to follow by the end of next year.

The first four units at the site - which began commercial operation between June 2007 and December 2018 - are Gidropress VVER units supplied by Russia, as will be the seventh and eighth, for which a general contract was signed in March.

When all eight units are in operation Tianwan would become the largest nuclear power plant in the world with eight units and a total generating capacity of about 8100 MWe.

The Tianwan plant is owned and operated by Jiangsu Nuclear Power Corporation, a joint venture between CNNC (50%), China Power Investment Corporation (30%) and Jiangsu Guoxin Group (20%).

Researched and written by World Nuclear News
 
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High-temperature, gas-cooled reactor achieves milestone | CNNC
Updated: 2020-04-29

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The high-temperature gas-cooled reactor demonstration project at Shidaowan nuclear power plant. [Photo/CNNC]

A major milestone was achieved at the high-temperature gas-cooled reactor, also known as the HTGR project -- located at the Shidaowan nuclear power plant in Weihai city, in East China's Shandong province -- according to local officials.

They said the reactor is a key national science and technology project.

Officials said the steam generator shell, hot gas duct shell and reactor pressure vessel shell of the No 1 reactor in the demonstration project were successfully paired on April 28.

Experts explained that the precise pairing marked that the point where project will welcome the installation of the main helium fan -- and has laid a solid foundation for cold performance tests that are scheduled to be completed this year.

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Workers get busy with the steam generator shell, hot gas duct shell and reactor pressure vessel shell pairing of the No 1 reactor of the HTGR. [Photo/CNNC]

The HTGR is a China-developed fourth generation of advanced nuclear energy technology, with a wide range of advantages that include inherent safety, a high localization rate of equipment, modular design, adaptability to small and medium power grids and the capability for extensive use.

According to experts, they have the utmost confidence that a reactor core meltdown accident will not happen in any accident situation.

This will fully meet the higher requirements for nuclear safety these days and realize the efficient and multi-purpose utilization of nuclear energy, they added.

【石岛湾核电首堆冷试一次成功】中国能源网讯,10月19日17时42分,华能石岛湾核电高温气冷堆示范工程首台反应堆冷态功能试验一次成功,标志着我国具有完全自主知识产权的国家科技重大专项高温气冷堆核电站示范工程通过了针对反应堆性能的首次全面考验,取得了全面进入调试阶段以来重大节点的首战胜利。据悉,华能石岛湾高温气冷堆核电站是全球首座将四代核电技术成功商业化的示范项目,也是中国“十二五”获批的第一个核电项目,更是全球首座球床模块式高温气冷堆示范项目。项目位于威海市荣成石岛湾,预计2021年并网发电。O网页链接

Southern Energy Watch
Today at 15:00 from Weibo


[The first cold function test of the Shidaowan nuclear power reactor was successful]

At 17:42 on October 19, the first cold functional test of the first reactor of the Huaneng Shidaowan Nuclear Power High Temperature Gas-cooled Reactor Demonstration Project was successful, marking China full IP's "National Science and Technology major projects - The high-temperature gas-cooled reactor nuclear power plant demonstration project" passed the first comprehensive test for reactor performance and achieved the first milestone since the full commissioning stage.

It is reported that the Huaneng Shidaowan High Temperature Gas-cooled Reactor Nuclear Power Plant will be the world’s first demonstration project that successfully commercialize fourth-generation nuclear power technology.

It is the first nuclear power project approved in China’s “Twelfth Five-Year Plan” period, and also the world’s first pebble bed module high temperature gas-cooled reactor demonstration project. The project is located in Shidaowan , Rongcheng, Weihai City and is expected to be connected to the grid for power generation in 2021. O网页链接
 
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Cold tests completed at first HTR-PM reactor
20 October 2020

China National Nuclear Corporation (CNNC) has announced completion of cold functional tests at the first reactor of the demonstration high-temperature gas-cooled reactor plant (HTR-PM) in Shandong province. Cold testing of the second unit at the plant has now begun. A further 18 such HTR-PM units are proposed for the same site in Shidaowan.

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The HTR-PM demonstration project at Shidaowan (Image: CNNC)

Construction of the demonstration HTR-PM plant - which features two small reactors and a turbine - began in December 2012. China Huaneng is the lead organisation in the consortium to build the demonstration units (with a 47.5% stake), together with CNNC subsidiary China Nuclear Engineering Corporation (CNEC) (32.5%) and Tsinghua University's Institute of Nuclear and New Energy Technology (20%), which is the research and development leader. Chinergy, a joint venture of Tsinghua and CNEC, is the main contractor for the nuclear island.

The pressure vessel of the first reactor was installed within the unit's containment building in March 2016. The vessel - about 25 metres in height and weighing about 700 tonnes - was manufactured by Shanghai Electric Nuclear Power Equipment. The second reactor pressure vessel was installed later that year. The demonstration plant entered the commissioning phase on 25 July this year.

The aim of the cold tests, which began at the first reactor on 6 October and were completed yesterday, is to verify the reactor's primary loop system and equipment as well as the strength and tightness of its auxiliary pipelines under pressure higher than the design pressure. CNNC noted the tests "mark the first comprehensive test of reactor performance".

Cold functional tests at other types of reactors use water, while those at the HTR-PM reactor used compressed air and a small amount of helium as the test medium. This air and helium was pressurised in stages to a maximum pressure of 8.9 MPa during the primary loop pressure boundary strength performance test. The leakage rate of the primary circuit was measured whist the pressure was maintained at 8.0MPa for more than 24 hours. At the same time, the deformation and displacement of the primary circuit pressure vessel under pressure was investigated, and the effectiveness of the supporting system verified.

CNNC said the test results "show that all indicators of the first reactor of the demonstration project meet the design requirements, effectively verifying the reliability of the manufacturing and installation quality of the nuclear island equipment."

The demonstration plant's twin HTR-PM reactors will drive a single 210 MWe turbine. Helium gas will be used as the primary circuit coolant. The steam generator transfers heat from helium coolant to a water/steam loop. The design temperature of the HTR-PM reaches 750 degrees Celsius.

Beyond HTR-PM, China proposes a scaled-up version called HTR-PM600, which sees one large turbine rated at 650 MWe driven by some six HTR-PM reactor units. Feasibility studies on HTR-PM600 deployment are under way for Sanmen, Zhejiang province; Ruijin, Jiangxi province; Xiapu and Wan'an, in Fujian province; and Bai'an, Guangdong province.

Researched and written by World Nuclear News
 
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The World's First Hualong One Reactor Begins to Load Fuel
04 Sep 2020 by World-Energy

On the afternoon of September 4, the Ministry of Ecology and Environment issued a license for operation of Fuqing Nuclear Power Unit 5 to China National Nuclear Corporation Fujian Fuqing Nuclear Power Co., Ltd. in Beijing. At 15:30, the first fuel loading of Hualong One in the world’s first reactor of China National Nuclear Corporation's Fuqing Nuclear Power Unit 5 officially began. With the successful installation of the first group of fuel assemblies, this unit has entered the nuclear commissioning stage of the main system and is now completed. An important step has been taken in production.

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#华龙一号全球首堆首次达到临界状态#】10月21日15时09分,华龙一号全球首堆中核集团福清核电5号机组首次达到临界状态,标志着机组正式进入带功率运行状态,向建成投产迈出了重要一步。核电站核反应堆临界类似常规火电厂锅炉的点火过程,也如同心脏起搏。临界后,作为反应堆的“心脏”——堆芯将开始持续“跳动”,反应堆处于带核平衡运作状态。华龙一号是我国完全具备自主产权的三代核电技术,是我国核电走向世界的“国家名片”。目前,中核集团华龙一号海内外工程进展有序进行,建设工程安全和质量处于良好受控状态。​

China National Nuclear Corporation
Today at 18:25 from Weibo weibo.com


[World’s first Hualong No.1 reactor reaches critical condition for the first time]

At 15:09 on October 21st, the world's first Hualong One - China National Nuclear Corporation's Fuqing Nuclear Power Unit 5 reached criticality for the first time, this marks that the unit has officially entered the state of power operation and has reach an important step towards completion and commissioning.

The criticality of nuclear reactors in nuclear power plants is similar to the ignition process of conventional thermal power plant boilers. It is also like heart pacing. After reaching the criticality, the "heart" of the reactor - the reactor core will begin to "beat" continuously, and the reactor will be in a state of nuclear equilibrium operation.

Hualong No. 1 is China's third-generation nuclear power technology with fully independent property rights, and is China's "national business card" for nuclear power to go global. At present, China National Nuclear Corporation Hualong project is progressing in an orderly manner at home and abroad, and the safety and quality of the construction project are under good control.

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#华龙一号全球首堆首次达到临界状态#】10月21日15时09分,华龙一号全球首堆中核集团福清核电5号机组首次达到临界状态,标志着机组正式进入带功率运行状态,向建成投产迈出了重要一步。核电站核反应堆临界类似常规火电厂锅炉的点火过程,也如同心脏起搏。临界后,作为反应堆的“心脏”——堆芯将开始持续“跳动”,反应堆处于带核平衡运作状态。华龙一号是我国完全具备自主产权的三代核电技术,是我国核电走向世界的“国家名片”。目前,中核集团华龙一号海内外工程进展有序进行,建设工程安全和质量处于良好受控状态。​

China National Nuclear Corporation
Today at 18:25 from Weibo weibo.com


[World’s first Hualong No.1 reactor reaches critical condition for the first time]

At 15:09 on October 21st, the world's first Hualong One - China National Nuclear Corporation's Fuqing Nuclear Power Unit 5 reached criticality for the first time, this marks that the unit has officially entered the state of power operation and has reach an important step towards completion and commissioning.

The criticality of nuclear reactors in nuclear power plants is similar to the ignition process of conventional thermal power plant boilers. It is also like heart pacing. After reaching the criticality, the "heart" of the reactor - the reactor core will begin to "beat" continuously, and the reactor will be in a state of nuclear equilibrium operation.

Hualong No. 1 is China's third-generation nuclear power technology with fully independent property rights, and is China's "national business card" for nuclear power to go global. At present, China National Nuclear Corporation Hualong project is progressing in an orderly manner at home and abroad, and the safety and quality of the construction project are under good control.

People's Daily, China @PDChina
China state-affiliated media

China's first nuclear power unit using Hualong One technology, a domestically developed third-generation reactor design, was connected to the grid and started to generate electricity on early Friday morning in Fuqing, southeast China's Fujian Province.

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10:31 AM · Nov 27, 2020

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