Updated: 2012-09-16

If Cai Siqiang takes care of business matters, Duke doesn't have to worry about it.

Duke is now preparing to transform a new seawater desalination equipment based on the second generation of Lotus Reactor. This new carrier that can use uranium spent fuel to increase uranium utilization to a new level. In this case, the waste produced is very radiant, which greatly reduces the difficulty and cost of handling nuclear fuel waste. From the perspective of comprehensive performance, the second generation of Lotus Reactor has almost utilized the nuclear reaction of uranium to the extreme.

It is precisely because of such a powerful energy conversion ability that Duke dared to intercept some of the energy for other purposes. He designed a strange seawater pretreatment device for the lotus pile, which even Professor Zhu Yunqian couldn't understand. To be honest, this seawater nuclear fuel refining technology and technology are provided by Bileme, and Duke is just a picture of the cat.

The only difference is that Duke has added some new functions to eliminate some free ions in seawater and greatly reduces highly corrosive ions before seawater enters the nuclear reactor circulation pipeline. This technology alone can greatly reduce the damage to the nuclear reactor circulation pipeline by seawater and greatly improve the effective use time of the circulation pipeline.

This feature is directly reflected in the low cost of the Lotus Reactor’s later maintenance. It is because various key components can guarantee a long service life and even do not need to be replaced during the effective operation of the nuclear reactor.

If desalinated seawater is to be directly drunk, Duke also needs to complete more work on this pretreatment device and find ways to remove harmful substances in the seawater. This work is a bit huge. After Duke started the research and development of seawater desalination, he recruited a research team of thousands of domestic and foreign experts at the Lotus Base to study and respond to various challenges in seawater desalination.

Fortunately, the industry has accumulated a lot of knowledge, and it is relatively easy to find relevant talents at home and abroad. With Duke's current reputation and the generous treatment of R&D personnel at the Lotus Base, recruiting people is now an easy task. As long as a recruitment advertisement is published, many R&D personnel will take the initiative to come.

The annual salary of talents engaged in R&D positions at the Lotus Base is no less than 500,000 yuan, even the personnel from national research institutions led by Zhu Yunqian are the same. Therefore, the enthusiasm of R&D personnel here is completely unthinkable in other places in the country, because this treatment cannot be given by other places.

Therefore, working at the Lotus Base, the salary of R&D personnel has reached the international standard. With this international salary, even those high-end talents who originally wanted to find a foreign research institute after studying abroad will change their choice to work at the Lotus Base.

Because these researchers have complex sources, both domestic and European and American, the management of the Lotus Base began to be managed in zoning. Fortunately, when choosing this place, Duke placed a large piece of land in the local area under the banner of the military. Of course, in the early stage of the base construction, the scary thing of the nuclear reactor also allowed the locals to cooperate with the locals to move out within a radius of 30 kilometers, giving Duke's Lotus Base an excellent development space.

The second phase of the Lotus Base, which was expanded on the basis of the first phase, is closely linked to the construction of the first phase project, and the reserved location for the second-generation experimental reactor of the Lotus Drop. Another lotus flower can be formed. This design is actually more from the perspective of aesthetics. Engineering designers can choose other methods to implement it, although the second-generation Lotus Drop can also have multiple power generation equipment of different power.

Compared with the first generation of lotus piles, there are many more pipeline designs because the seawater desalination function is also considered. The engineers also artistically made these pipelines, which looked like the pipeline network in the air like a streamer of a new lotus. For these artistic effects, the engineers waste a lot of pipeline materials. The water flow channel that could be realized by straightening was designed to be tortuous and round.

In other projects, such designs are obviously criticized, but this design is taken for granted on the Lotus Base, after the phase one by one, artistic and gardening are also regarded as one of the important features of the Lotus Drill. Each Lotus Drill nuclear power plant strives to build it into a landscape locally and achieve harmonious unity of humanities and benefits.

With such a good environment, the research on seawater desalination engineering is progressing very smoothly. Various mature technologies are introduced through this group of top technicians. In conjunction with the top production processes that experts can design, Dushi Heavy Industry has the ability to manufacture. Compared with other companies, this complete technology industry chain has too great advantages.

In traditional design, designers will involuntarily consider manufacturing limitations, such as precision requirements, whether manufacturing complexity is suitable for large-scale production and other off-site factors, which imprisons the imagination of design. Now Duke wants them to break this limitation and design in the ideal way they think. As long as they pass computer simulation verification, production and manufacturing will be left to the Dushi Heavy Industry team for consideration.

With the support of cloud application R&D system and the complete authorization mechanism, Duke's companies can now completely overcome spatial and geographical restrictions and achieve coordinated work of tens of thousands of R&D personnel. With phased results in the seawater desalination engineering design, Duchess Heavy Industry's manufacturing process research team can see these results and then study the manufacturing production process, so that the entire design process flow is not delayed at all. After the current design is finalized, the back-end manufacturing process design is often completed, without delaying any matters.

If any link in between, problems that this project team cannot solve will rise to Duke's support expert group for research. If they can't handle it, they will hand it over to Duke again. Often Duke will quickly propose solutions or key solutions so that the R&D work can be carried out smoothly.

This unique R&D method has given Duke's various R&D institutions terrible R&D efficiency, and the development efficiency of similar products is several times higher than that of competitors.

Because according to the 28th Law, 80% of R&D time is spent on 20% of the key or difficult technology, and Duke is now the key to solving the more critical 20% of these 20% of the key problems, which can greatly reduce the time wasted on these key issues and thus improve R&D efficiency.

With this unique R&D mechanism, Duke's R&D projects have made very rapid progress, especially those projects with better foundations, which have made rapid progress and achieved results.

(Thanks to book friends for "When the sun loses you", "liovaqu" and "maple leaves flutter" for the reward!)
Chapter completed!