Major milestone demonstrates CANDU's fuel cycle flexibility
BEIJING, March 23 /CNW/ - Atomic Energy of Canada Limited (AECL) announced today that the first-ever fuel bundle to directly use recovered uranium from light water reactors was successfully placed in the Qinshan CANDU Unit 1 Pressurized Heavy Water Reactor (PHWR) on Monday, March 22.
A ceremony to commemorate the event was held at the Qinshan site and was attended by senior Chinese government officials along with representatives from AECL and its Chinese partners Third Qinshan Nuclear Power Company (TQNPC), Nuclear Power Institute of China (NPIC) and China North Nuclear Fuel Corporation (CNNFC).
Over the next six months, a total of 24 Natural Uranium Equivalent (NUE) fuel bundles will be inserted into two separate fuel channels at the Qinshan Unit 1 reactor in Haiyan, China. NUE fuel is made by mixing recovered uranium from spent fuel of light water reactors with depleted uranium from enrichment plant tails. The irradiation of all 24 NUE bundles will be completed in approximately 12 months.
"This commercial demonstration of NUE fuel is a first-of-a-kind advanced fuel collaborative effort for the parties and highlights the beginning of the engineering application of CANDU advanced fuel cycles," stated AECL President and Chief Executive Officer, Hugh MacDiarmid. "It establishes CANDU's ability to utilize alternative fuel cycles and demonstrates the strong synergy between CANDU technology and light water reactor technology."
The commercial demonstration of NUE fuel in the CANDU reactor is the final phase of a three-phase joint research project between AECL and its three Chinese partners, TQNPC, NPIC and CNNFC. The project was initiated in 2008 to explore the use of recovered uranium from light water reactors in a CANDU reactor and to prove that it is the simplest, most cost-effective and environmentally-friendly process to utilize alternative fuel sources.
AECL's Chief Technology Officer Dr. Anthony De Vuono added, "As a proven commercial power reactor, our Enhanced CANDU 6 has the highest neutron efficiency compared to other competing technologies and consumes about 30% less natural uranium. Our NUE fuel cycle opens up a sustainable development path leading to an overall extension of uranium fuel resources while, at the same time, reusing the spent fuel from light water reactors."
In December 2009, an expert panel comprised of representatives from China's leading nuclear academic, government, industry and R&D organizations unanimously recommended that China consider building two new CANDU units to take advantage of CANDU's unique capabilities in utilizing alternative fuels.
The existing Qinshan Phase III nuclear power plant includes two 728 MWe CANDU 6 PHWR reactors designed by AECL and built in cooperation with TQNPC. The two CANDU units are ranked among the top performing nuclear power stations in China.
Atomic Energy of Canada Limited is a full-service nuclear technology company, providing services to nuclear utilities around the world. Established in 1952, AECL is the designer and builder of CANDU technology including the CANDU 6, one of the world's top-performing reactors. AECL's 5,000 employees deliver cutting edge nuclear services, R&D support, design, and engineering, construction management, specialized technology, refurbishment, waste management and decommissioning in support of CANDU reactor products. More information on AECL and CANDU reactor technology can be found at www.aecl.ca.
Third Qinshan Nuclear Power Company Ltd., incorporated in February 1997, is the owner and operator of the Third Qinshan Nuclear Power Plant at Haiyan County of Zhejiang Province, which has two CANDU 6 reactors in operation since 2003. More information about TQNPC can be found at www.tqnpc.com.
China North Nuclear Power Company Ltd., a fully owned subsidiary company of CNNC, is one of China's leading nuclear fuel processing and manufacturing companies and owns and operates a plant for producing CANDU nuclear fuel bundles for the Third Qinshan Nuclear Power Plant, located in Baotou, Inner Mongolia Autonomous Region, China. More information about CNNFC can be found at www.btgh.com.cn.
Nuclear Power Institute of China, a fully owned subsidiary institute of CNNC, has comprehensive research, development, design and testing capabilities and facilities in support of the development of pressurized light-water reactor power plant technology, especially in the design of nuclear steam supply systems. More information about NPIC can be found at www.npic.ac.cn.
For further information: For further information: Dale Coffin, Director, Corporate Communications, AECL, 1-866-886-2325