As the Hong Kong and Macao special administrative regions (SAR) are adjacent to Guangdong Province, the public in Hong Kong and Macao pay close attention to the nuclear energy development in China's mainland. Since 1992 Guangdong Province and the Hong Kong SAR have reached consensus on a number of issues in relation to nuclear emergency preparedness associated with the Daya Bay and Ling Ao nuclear power plants in Guangdong. The state nuclear emergency management organ has, on more than one occasion, organized promotional activities in conjunction with Guangdong Province and the Hong Kong SAR to further enrich the contents of their collaborative mechanism on nuclear emergency preparedness, refine the communication platform for nuclear emergency preparedness between Guangdong and Hong Kong, and respond to public concerns in a timely manner to allay any misgivings. The relevant departments of the central government have held special training sessions focusing on various disciplines in conjunction with the departments concerned of Hong Kong and Macao SAR governments with a view to raising the professional level of the local public, therefore contributing positively to maintaining the prosperity and stability of both Hong Kong and Macao.

As the safe use of nuclear energy is a major issue bearing on the safety of both life and property of people across the Taiwan Straits, both sides of the Straits lay great store by it. In October 2011 the Association for Relations across the Taiwan Straits and Straits Exchange Foundation signed the Cross-straits Nuclear Power Safety Cooperation Agreement. Under the framework of this agreement, a communication mechanism has been put in place between the two sides across the Straits on nuclear emergency matters, and positive achievements have reaped in expanded exchange and cooperation in such areas as regulations and standards concerning nuclear power safety, emergency reporting on nuclear power plant accidents, environmental radiation monitoring for nuclear power plants, and emergency response and preparations for nuclear power plant accidents.

VII. Scientific and Technological Innovations in Nuclear Emergency Preparedness

China has worked out a national plan for nuclear emergency preparedness work, which has clearly defined the targets, mechanism, training of professionals, main tasks and safeguard measures for scientific and technological innovation in the field of nuclear emergency preparedness. New achievements have been made, and some of them have even reached the international advanced level.

Development of nuclear accident consequence evaluation and decision-making support system. By insisting on the combination of technology introduction and self-reliant innovations, China's relevant universities and R&D institutes have made achievements in such technological areas as accident source term estimation, wind field diagnosis and forecast, airborne radioactive material dispersion, radioactive material dispersion in water bodies, nuclear radiation medicine emergency classification and treatment, radioactive dose estimation, etc., which have provided technical support for the state in decision making related to national nuclear emergency preparedness.

Basic research in nuclear emergency preparedness. Research in nuclear emergency preparedness technologies and management for third and fourth generation of nuclear power technologies, such as HPR1000, AP1000 (US Advanced Pressurized Water Reactor), EPR (European Pressurized Water Reactor), High Temperature Gas-cooled Reactors and fast reactors has been carried out. Studies are continuing on important subjects such as simultaneous common-mode failure for multiple units, severe accident source term analysis for inland nuclear power plants, inter-regional nuclear emergency preparedness, nuclear fuel cycle facility emergency preparedness and emergency response to nuclear and radiological terrorist attacks, and some achievements have been made, uplifting as a whole the level of China's basic technologies concerning nuclear emergency preparedness.

Research and development of nuclear emergency special equipment. Priority is given to the R&D (research and development) and SI (system integration) of equipment for nuclear emergency radiation monitoring, radiation protection, medical treatment and decontamination. Independently developed equipment includes vehicle (vessel)-mounted detection equipment, aviation radiation monitoring system, radiation monitoring and accident response robots and vehicle (vessel)-mounted nuclear emergency command system, and nuclear emergency medical assorting and monitoring platform and medical support system. Each level of nuclear emergency rescue team is equipped with such equipment and systems. All gate-frame walk-through radiation detectors used by China Customs are developed by domestic enterprises.