Up to the third-generation nuclear reactors, no substantial progress was made in improving the safety of nuclear power technology, but only limited decrease in order of magnitude of the probability of core fusion. While the fourth-generation reactors, in terms of design philosophy, have undergone subversive advancement. Theoretically, the fourth-generation reactor will not have a core fusion, and it has achieved a leap-forward development in terms of inherent safety. The fourth-generation reactor is more economical, and because of its higher parameters, its converting efficiency is even comparable to gas-fired generators, which leads to significantly reduced cost and lower risk level of capital under the same power generation target requirements. ... more >>
Tsinghua University - High Temperature Gas-cooled Reactor (HTR-PM) The modular high-temperature gas-cooled reactor has higher inherent safety, simpler system, higher efficiency, wider range of uses and excellent economic competitiveness, which has received extensive attention worldwide. It is one of the fourth-generation reactors that can adapt to future energy market demand. Tsinghua University has mastered the core technology of high-temperature gas-cooled reactors. In January 2003... more >>
The main characteristic of a fast neutron reactor is that it can proliferate nuclear fuel, by burning one fuel nucleus and it can produce more than one fuel nucleus. In theory, it can convert all uranium resources into fuel. With an appropriate breeding rate, fast neutron reactors can increase the utilization rate of uranium resources from less than 1% (the level of ordinary thermal neutron reactors) to 60%-70%, thereby effectively preventing the threat of depletion of uranium resources.... more >>
As an innovative autonomous third-generation modular small reactor, ACP100 adopts integrated reactors, high-efficiency steam generators, shielded main pumps, intrinsical safety and “passive” safety, and modular technologies, etc. It passed GRSR on April 22, 2016, becoming the world's first small reactor model to pass the IAEA.... more >>
mPower adopts light water reactor type with 180MW design power and modular construction philosophy, which lead to not only shorter construction period ,lower cost, but even that it can be transported by truck or train within a short distance. The experience of safe operation of light water reactors for decades has made lighter water reactors more secure in terms of safety performance. In the design of the nuclear steam supply system, the “integrated” pressurized water reactor design was adopted, that is, all the equipment of the primary circuit was centrally ... more >>
The company developed a small reactor backed by submarine reactor technology with installed capacity of 220-440 MW. The reactor can be mass-built in the factory. The reactor module is 16 meters high and 4 meters in diameter. It can be transported by trucks, railways and ships. Modular design is the core of SMR power station in the United Kingdom. After the module is ... more >>
We focus on the improvement of our advantages. On the basis of our own senior international financial experts, we have employed lots of experts and scholars in the nuclear power industry as technical consultants. And the strategic guidance provided by “One Belt and One Road” think tank is pushing the launch of our new nuclear power projects.
Our strategic positioning is "professional new nuclear power technology mergers and acquisitions promotion service providers", that is to fully master the acquisition and promotion of nuclear power technology, to have efficient nuclear power technology resource allocation capabilities, investment and financing project management capabilities and financial services innovation capabilities.
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