Infinite Life: Trapped in a lifetime

Technical limitations make the theoretical design of a heavy nuclear fusion demonstration reactor necessarily complex and huge.

Many problems require twists and turns, and can be solved or avoided after many twists and turns.

늀 Just as the Research Institute and heavy nuclear fusion technology are facing each other across a mountain, there are countless problems in the middle.

From the most macro perspective, by climbing over this ‘mountain’, heavy nuclear fusion technology can be realized.

But when you actually set foot on this high mountain, you need to consider many issues. You need to be unable to go straight because of the "mountain height", so you can only walk around the mountain, and you need to stretch out your hands to clear the "weeds and branches" on the road.

Due to technical limitations, we had to go through twists and turns.

However, Modao controls the overall situation, which is equivalent to the theoretical results at the moment. From a higher perspective, it always guides the entire research team's path forward.

Even if this work of theoretical design goes ruggedly, it will not lose its way in the end.

…

The second half of 1985 and the whole year of 1986.

A group of researchers in the research team of the Heavy Nuclear Fusion Project of the Research Institute, bursting with the strongest enthusiasm, spent an extremely fulfilling time.

For many researchers, they have waited too long for this moment.

I just hope that the final moment of the heavy nuclear fusion project can come as soon as possible.

The theoretical design work of the entire heavy nuclear fusion demonstration reactor,

In addition to Mo Dao, there are more than 100 core researchers in the Qiusu Research Institute, several full-time researchers are involved, and the number of assistant researchers is even more exaggerated.

At the same time, a considerable part of Suigu's total computing power was mobilized.

A complex, huge, theoretical design plan for a heavy nuclear fusion demonstration reactor was gradually improved under the leadership and participation of Mo Dao and the participation of a large number of relevant researchers from the entire Qiusuo Research Institute.

final,

Design work of heavy nuclear fusion demonstration reactor,

Completed in '87.

The scale of the final theoretical design plan was so huge that Mo Dao could only grasp a large framework and context.

If you go deep into every system and every detail of every part in the theoretical design, the amount of information will obviously be exaggerated and a little scary.

For the completion of the design of such an extremely complex system,

The researchers were both happy and a little nervous.

Even if I believe that Mo Yuan is in control of the overall situation, the final plan will definitely not be a big problem.

But I am still worried about whether this extremely complex system can be stable in actual operation.

As soon as the theoretical design is completed,

The same ancient intelligence has used the huge computing power of today's human society,

A simulation run was carried out on this theoretical design plan.

final,

The result naturally did not disappoint all the researchers.

"...It is reported that the heavy-nuclear fusion technology researched by Chief Mo has made new progress. The theoretical design work of the heavy-nuclear fusion demonstration reactor has been completed recently and passed the simulated operation test in Suigu."

"...After that, the Qiusuo Research Institute will start the actual construction of the heavy nuclear fusion demonstration reactor. The construction site of the demonstration reactor was finally selected in the lunar surface free zone, and will be completed mainly relying on the lunar surface industrial center."

"Let us wait and see and look forward to the birth of the third generation of controllable nuclear fusion technology."

China News Service reported on the progress made in research on heavy nuclear fusion technology at the Qiusuo Research Institute.

Other media followed up at the same time, and the Internet this year was extremely busy.

…

After the theoretical design work is completed and the experiments are run through simulations,

Qiusuo Research Institute did not waste any time in the actual construction of the heavy nuclear fusion demonstration reactor.

The construction work of the demonstration reactor was still directly handed over to Suigu.

As soon as Suigu received the order, he began to design a plan based on this huge and complex theory.

Deploy intelligent industrial clusters and produce various equipment and components involved in the demonstration reactor.

Build this equally large heavy-nuclear fusion demonstration reactor.

The location of this heavy nuclear fusion demonstration reactor is on the moon.

At this time on the moon, especially on the side facing the Earth, there is not much free space.

The lunar base can also be said to be the giant cabin cluster of the lunar interstellar city covering an area.

In the future, we will continue to increase the number of computing unit clusters covering an area.

뀪And the smart industrial cluster that has formed an important part of the Earth-Moon Industrial Center also occupies a large area.

Even with the moon behind me, I can still find a suitable, large vacated place.

The construction of the heavy nuclear fusion demonstration reactor was also carried out here.

…

Researchers working on the heavy nuclear fusion research project of the Qiusuo Research Institute are either waiting and nervously paying attention to the construction progress of the heavy nuclear fusion demonstration reactor, or they are assisting in the construction of some heavy nuclear fusion demonstration reactors that Suigu is responsible for.

During this period of time, Mo Dao paid more attention to the Proximity series electric propulsion system project.

For Mo Dao, the research work on heavy nuclear fusion technology has been basically completed the moment the theoretical design is completed.

Even if it is built later and there are still some unsatisfactory places, that is already a problem.

In this case, it is natural to consider what will happen after the realization of heavy nuclear fusion technology.

For example, the linkage problem between heavy nuclear fusion reactors and the Proximity series of electric propulsion.

On a long-distance spacecraft, these two technologies must be used at the same time.

In fact, these two technologies are inseparable and will affect each other.

The two technologies are fully combined to form a truly complete long-distance spacecraft propulsion system.

Perhaps, it should be called a 'heavy nuclear fusion electric propulsion system'.

Heavy nuclear fusion provides energy support for electric propulsion engines, and electric propulsion engines convert the energy produced by heavy nuclear fusion into a driving force for interstellar navigation.

At this moment, it is also necessary to implement an important point in this electric propulsion system, which is the previous idea of ​​the working fluid required by the Qiusuo Research Institute research team and Mo Dao for the electric propulsion system.

Use the by-products of heavy nuclear fusion reactors as the working fluid of the electric propulsion system.

Greatly improve the actual thrust-to-weight ratio of the electric propulsion system throughout its entire operating cycle.

In the previous design of the Proxima series electric propulsion system, Mo Dao and the project research team left room for changes in the working fluid.

In these years,

when Mo Dao focused on the research of heavy nuclear fusion technology, the research team of the Proxima series electric propulsion system research project did not stop.

At this moment, when Mo Dao turned his focus back, he had already laid a further research foundation on this issue.

And the advancement of the research progress of heavy nuclear fusion technology has already provided a clear answer to the byproducts of the reaction in the heavy nuclear fusion reactor.

So,

during the construction of the heavy nuclear fusion demonstration reactor,

Mo Dao led the research team of the Proxima series propulsion system of the Qiusuo Institute,

and also implemented the most important idea of ​​the Proxima series propulsion system.

The research work on the new modification of the Proxima series propulsion system was carried out.

…

In the remaining months of 1987,

the construction of the heavy nuclear fusion demonstration reactor and the research work on the new modification of the Proxima series propulsion system were promoted at the same time.

The entire Qiusuo Institute was busy with these two super projects.

Then, time went from 1987 to 1988, and then from 1988 to the beginning of 1989.

The new modification of the Proxima series propulsion system was not as difficult to improve as the original Proxima series propulsion system.

The heavy nuclear fusion demonstration reactor built a prototype in one step.

Although the heavy nuclear fusion demonstration reactor was much more difficult to build than the previous experimental reactor and experimental device,

it was not long before the construction was completed.