Scholar’s Advanced Technological System

These days, Lu Zhou is basically in meetings.

"Have you ever studied mechanical drawing?"

Considering that the full name of the 863 plan is "Recommendations on Tracking the World's Strategic High-Tech Development", the projects tracked were basically popular research directions in the international academic community at that time. From this, it is not difficult to see that in the international academic community at that time, magnetism Fluid power generation technology can be said to be hot at the moment.

Among them are internal meetings at the Jinling Institute for Advanced Study, meetings at the STAR Stellar Simulator Research Institute, and even meetings at cooperative units...

The helium gas generated by the "D+T" fusion reaction in the stellarator itself exists in the form of plasma with a high temperature of more than 100 million degrees!

Academician Wang: "But you can't deny that boiling water is still the most efficient way."

If the mathematics level strengthens the learning of mathematical knowledge, sensitivity to numbers and calculation ability, then the engineering level not only improves the absorption of engineering knowledge, but also further strengthens the concreteness of abstract concepts into language, The ability to describe using graphics, numbers, etc. tools.

These days, Lu Zhou is basically in meetings.

As if he expected Academician Wang to say this, Lu Zhou smiled and continued.

Upon hearing this explanation, Academician Wang had an expression of disbelief.

Just like now.

Therefore, he no longer needs to do these repetitive research tasks. He only needs to let people or institutions engaged in research in this field get enough project funds to continue in-depth research and find ways to use it in the design of stellarators. Just go.

He already has a rough blueprint in his mind on how to realize a controllable fusion reactor, but he alone cannot realize this blueprint.

Among them are internal meetings at the Jinling Institute for Advanced Study, meetings at the STAR Stellar Simulator Research Institute, and even meetings at cooperative units...

Although this technology is undoubtedly useless when used in coal-fired, oil-fired or even nuclear fission power generation, when applied to nuclear fusion power generation, it is simply tailor-made for it!

As the person in charge and chief designer of this large-scale scientific research project, he must split this huge subject into small parts and then assign them to suitable candidates. He must also isolate those difficult-to-solve parts and concentrate his efforts on them. Get rid of.

In other words, they no longer need to spend more energy heating the ionized gas, they only need to utilize these plasmas carrying huge energy!

As we all know, the principle of magnetic fluid power generation is to heat easily ionized gas to a high temperature of 2000 degrees, ionize it into a conductive plasma beam, and make it flow at high speed in a magnetic field, cutting magnetic lines of force and generating induced electromotive force.

"Can I take this sketch back with me?"

It is not that there are no magnetic fluid generators. Many laboratories can also make them, some are coal-fired and some are oil-fired. However, almost no one can achieve an energy conversion efficiency of more than 20%.

Drawing on the design ideas of high-temperature gas-cooled reactors, this device can also be used for nuclear fusion power generation.

For example, in the design of generator sets.

"Oh?" A surprised expression appeared on Academician Wang's face, and he turned his questioning gaze to Lu Zhou, "How do you say it?"

To give a random example, such as "tritium recovery and deuterium-tritium fuel supply in plasma exhaust gas" and "tritium safety containment", you can know that the Chinese Academy of Sciences has already conducted similar research by reviewing the literature.

"Have you ever studied mechanical drawing?"

Just like now.

Among them are internal meetings at the Jinling Institute for Advanced Study, meetings at the STAR Stellar Simulator Research Institute, and even meetings at cooperative units...

Therefore, he no longer needs to do these repetitive research tasks. He only needs to let people or institutions engaged in research in this field get enough project funds to continue in-depth research and find ways to use it in the design of stellarators. Just go.

"No," Lu Zhou smiled lightly and said casually, "Maybe it's because he drew more pictures when he was studying geometry problems."

Thinking of this, Academician Wang stared at the sketch, and excitement gradually appeared in his eyes.

Such skillful strokes would be impossible to achieve without three to five years of experience.

Rather, it would be a waste to use those high-temperature plasmas to boil water.

Even from a timeline perspective, this concept was first proposed together with "Gas-Steam Turbine Combined Cycle Technology (GTCC)".

Seeing Lu Zhou's drawing movements, Academician Wang squinted his eyes, a look of surprise flashed across his pupils.

Lu Zhou shook his head: "Not necessarily."

As for the more difficult topics such as "first wall cladding materials", "neutron irradiation resistant materials", "tritium extraction from the breeding cladding", "and tritium retention", Lu Zhou left it to Jinling He personally led the team to conquer the Institute for Advanced Study.

However, Lu Zhou did not give any explanation. He just took a piece of A4 paper and spread it on the table. Then he picked up a ballpoint pen and drew a sketch on it.

Although the experience accumulated in fission reactors may not be completely applicable to fusion reactors, they are both nuclear power plants, and there are similarities between the two parties.

Regarding how to convert the heat energy generated by the reactor into electrical energy, the old academician brought a design sketch.

Lu Zhou shook his head: "Not necessarily."

In the 1980s, magnetic fluid power generation technology was even included as a key project of the 863 plan, and in terms of importance, it was placed alongside nuclear fission power generation technology.

The third day after the project started.

To give a random example, such as "tritium recovery and deuterium-tritium fuel supply in plasma exhaust gas" and "tritium safety containment", you can know that the Chinese Academy of Sciences has already conducted similar research by reviewing the literature.

Just like now.

Thinking of this, Academician Wang stared at the sketch, and excitement gradually appeared in his eyes.

Staring at more and more clear lines on the picture, Academician Wang gradually saw some clues and raised his eyebrows with interest.

He already has a rough blueprint in his mind on how to realize a controllable fusion reactor, but he alone cannot realize this blueprint.

"Of course," Lu Zhou nodded happily, "I'm looking forward to your good news."

Although he has not professionally trained the ability to draw, and has only read relevant books, the muscles of his arms seem to have memorized these movements. Even if he strokes casually, they are like rulers and compasses. As standard as the picture.

In the STAR Stellar Simulator Research Institute, Lu Zhou met the working group sent by the Huaguo Nuclear Industry Construction Group.

Rather, it would be a waste to use those high-temperature plasmas to boil water.

Although the experience accumulated in fission reactors may not be completely applicable to fusion reactors, they are both nuclear power plants, and there are similarities between the two parties.

However, after briefly looking at the sketch, Lu Zhou put it down.

As for the more difficult topics such as "first wall cladding materials", "neutron irradiation resistant materials", "tritium extraction from the breeding cladding", "and tritium retention", Lu Zhou left it to Jinling He personally led the team to conquer the Institute for Advanced Study.

As the person in charge and chief designer of this large-scale scientific research project, he must split this huge subject into small parts and then assign them to suitable candidates. He must also isolate those difficult-to-solve parts and concentrate his efforts on them. Get rid of.

"That's true for nuclear fission, but not necessarily for nuclear fusion."

As we all know, the principle of magnetic fluid power generation is to heat easily ionized gas to a high temperature of 2000 degrees, ionize it into a conductive plasma beam, and make it flow at high speed in a magnetic field, cutting magnetic lines of force and generating induced electromotive force.

Leading the team is Academician Wang Zengguang, chief engineer of the Nuclear Industry Group. This veteran academician has worked in the nuclear industry for many years and has rich experience in the design of fission reactors and nuclear power generators.

To give a random example, such as "tritium recovery and deuterium-tritium fuel supply in plasma exhaust gas" and "tritium safety containment", you can know that the Chinese Academy of Sciences has already conducted similar research by reviewing the literature.

The helium gas generated by the "D+T" fusion reaction in the stellarator itself exists in the form of plasma with a high temperature of more than 100 million degrees!

Just like now.

"Have you ever studied mechanical drawing?"

Although he has not professionally trained the ability to draw, and has only read relevant books, the muscles of his arms seem to have memorized these movements. Even if he strokes casually, they are like rulers and compasses. As standard as the picture.

For example, in the design of generator sets.

Although the experience accumulated in fission reactors may not be completely applicable to fusion reactors, they are both nuclear power plants, and there are similarities between the two parties.

Then, he looked at the sketch again.

In other words, they no longer need to spend more energy heating the ionized gas, they only need to utilize these plasmas carrying huge energy!

The helium gas generated by the "D+T" fusion reaction in the stellarator itself exists in the form of plasma with a high temperature of more than 100 million degrees!

For example, in the design of generator sets.

To give a random example, such as "tritium recovery and deuterium-tritium fuel supply in plasma exhaust gas" and "tritium safety containment", you can know that the Chinese Academy of Sciences has already conducted similar research by reviewing the literature.

Lu Zhou shook his head: "Not necessarily."

Regarding how to convert the heat energy generated by the reactor into electrical energy, the old academician brought a design sketch.

"That's true for nuclear fission, but not necessarily for nuclear fusion."

"Magnetic fluid power generation?"

If the mathematics level strengthens the learning of mathematical knowledge, sensitivity to numbers and calculation ability, then the engineering level not only improves the absorption of engineering knowledge, but also further strengthens the concreteness of abstract concepts into language, The ability to describe using graphics, numbers, etc. tools.

Regardless of whether Academician Wang believed it or not, there was no need for Lu Zhou to make any explanations on such inconsequential matters. He just focused on the work at hand wholeheartedly.

Drawing on the design ideas of high-temperature gas-cooled reactors, this device can also be used for nuclear fusion power generation.

Then, he looked at the sketch again.

Like controllable fusion technology, magnetic fluid power generation technology is not a particularly new concept, and it can even be said to have a long history.

Staring at this sketch, Academician Wang shook his head: "With all due respect, magnetic fluid power generation technology is not yet perfect, and using it to generate electricity is probably not a suitable choice. Today's nuclear fission reactors in the world are mainly pressurized water reactors. , I have never heard of any nuclear power plant using magnetic fluid power generation technology to output electricity."

Among them are internal meetings at the Jinling Institute for Advanced Study, meetings at the STAR Stellar Simulator Research Institute, and even meetings at cooperative units...

The helium gas generated by the "D+T" fusion reaction in the stellarator itself exists in the form of plasma with a high temperature of more than 100 million degrees!

However, after briefly looking at the sketch, Lu Zhou put it down.

Therefore, he no longer needs to do these repetitive research tasks. He only needs to let people or institutions engaged in research in this field get enough project funds to continue in-depth research and find ways to use it in the design of stellarators. Just go.

"Magnetic fluid power generation?"

In the STAR Stellar Simulator Research Institute, Lu Zhou met the working group sent by the Huaguo Nuclear Industry Construction Group.

Staring at more and more clear lines on the picture, Academician Wang gradually saw some clues and raised his eyebrows with interest.

In the STAR Stellar Simulator Research Institute, Lu Zhou met the working group sent by the Huaguo Nuclear Industry Construction Group.

In the STAR Stellar Simulator Research Institute, Lu Zhou met the working group sent by the Huaguo Nuclear Industry Construction Group.

"It's rare to have such advanced technology. It would be too wasteful to continue boiling water."

"That's right." Lu Zhou stopped the pen in his hand, looked at the sketch, and nodded with satisfaction, "With my level, I can only draw to this extent. The specific design is still troublesome. You are the experts.”

As if he expected Academician Wang to say this, Lu Zhou smiled and continued.

Although he has not professionally trained the ability to draw, and has only read relevant books, the muscles of his arms seem to have memorized these movements. Even if he strokes casually, they are like rulers and compasses. As standard as the picture.

Although this technology is undoubtedly useless when used in coal-fired, oil-fired or even nuclear fission power generation, when applied to nuclear fusion power generation, it is simply tailor-made for it!

Just like now.

Therefore, he no longer needs to do these repetitive research tasks. He only needs to let people or institutions engaged in research in this field get enough project funds to continue in-depth research and find ways to use it in the design of stellarators. Just go.

Lu Zhou shook his head: "Not necessarily."

However, Lu Zhou did not give any explanation. He just took a piece of A4 paper and spread it on the table. Then he picked up a ballpoint pen and drew a sketch on it.

Academician Wang: "But you can't deny that boiling water is still the most efficient way."

In the STAR Stellar Simulator Research Institute, Lu Zhou met the working group sent by the Huaguo Nuclear Industry Construction Group.

Although this technology is undoubtedly useless when used in coal-fired, oil-fired or even nuclear fission power generation, when applied to nuclear fusion power generation, it is simply tailor-made for it!

In contrast, although magnetic fluid technology has seemingly more attractive prospects, it is difficult to realize due to technical reasons, and the economic benefits cannot keep up with market demand. It has not been able to produce decent results for decades, so it has gradually been dismissed. Abandoned by the mainstream of academia and industry.

Then, he looked at the sketch again.

In the STAR Stellar Simulator Research Institute, Lu Zhou met the working group sent by the Huaguo Nuclear Industry Construction Group.

Lu Zhou shook his head: "Not necessarily."

In the STAR Stellar Simulator Research Institute, Lu Zhou met the working group sent by the Huaguo Nuclear Industry Construction Group.

The third day after the project started.

Hearing this, Academician Wang's expression changed slightly, and he immediately looked at the sketch again and reacted quickly.

Hearing this, Academician Wang's expression changed slightly, and he immediately looked at the sketch again and reacted quickly.

These days, Lu Zhou is basically in meetings.

"No," Lu Zhou smiled lightly and said casually, "Maybe it's because he drew more pictures when he was studying geometry problems."

Although he has not professionally trained the ability to draw, and has only read relevant books, the muscles of his arms seem to have memorized these movements. Even if he strokes casually, they are like rulers and compasses. As standard as the picture.

Academician Wang did not speak, but waited for Lu Zhou to continue.

For example, in the design of generator sets.

As the person in charge and chief designer of this large-scale scientific research project, he must split this huge subject into small parts and then assign them to suitable candidates. He must also isolate those difficult-to-solve parts and concentrate his efforts on them. Get rid of.

"If it were nuclear fusion, we wouldn't have this problem at all." Looking at Academician Wang's questioning expression, Lu Zhou smiled and continued, "After all, the nuclear waste produced by DT fusion is itself hundreds of millions of degrees of helium. .”

However, Lu Zhou did not give any explanation. He just took a piece of A4 paper and spread it on the table. Then he picked up a ballpoint pen and drew a sketch on it.

If the mathematics level strengthens the learning of mathematical knowledge, sensitivity to numbers and calculation ability, then the engineering level not only improves the absorption of engineering knowledge, but also further strengthens the concreteness of abstract concepts into language, The ability to describe using graphics, numbers, etc. tools.

However, Lu Zhou did not give any explanation. He just took a piece of A4 paper and spread it on the table. Then he picked up a ballpoint pen and drew a sketch on it.

"That's right." Lu Zhou stopped the pen in his hand, looked at the sketch, and nodded with satisfaction, "With my level, I can only draw to this extent. The specific design is still troublesome. You are the experts.”

Lu Zhou shook his head: "Not necessarily."

Upon hearing this explanation, Academician Wang had an expression of disbelief.

Although he has not professionally trained the ability to draw, and has only read relevant books, the muscles of his arms seem to have memorized these movements. Even if he strokes casually, they are like rulers and compasses. As standard as the picture.

As the engineering level reached LV4, after a period of adaptation, he finally gradually realized the ability-improving effect brought by the engineering level.

"Of course," Lu Zhou nodded happily, "I'm looking forward to your good news."

Like controllable fusion technology, magnetic fluid power generation technology is not a particularly new concept, and it can even be said to have a long history.

As the engineering level reached LV4, after a period of adaptation, he finally gradually realized the ability-improving effect brought by the engineering level.

Although he had never studied mathematical problems, he knew even with his feet that drawing in engineering and drawing in mathematics were completely different.

But if it's nuclear fusion...

In the STAR Stellar Simulator Research Institute, Lu Zhou met the working group sent by the Huaguo Nuclear Industry Construction Group.

"Oh?" A surprised expression appeared on Academician Wang's face, and he turned his questioning gaze to Lu Zhou, "How do you say it?"

If the mathematics level strengthens the learning of mathematical knowledge, sensitivity to numbers and calculation ability, then the engineering level not only improves the absorption of engineering knowledge, but also further strengthens the concreteness of abstract concepts into language, The ability to describe using graphics, numbers, etc. tools.

Leading the team is Academician Wang Zengguang, chief engineer of the Nuclear Industry Group. This veteran academician has worked in the nuclear industry for many years and has rich experience in the design of fission reactors and nuclear power generators.

Regarding how to convert the heat energy generated by the reactor into electrical energy, the old academician brought a design sketch.

Thinking of this, Academician Wang stared at the sketch, and excitement gradually appeared in his eyes.

Staring at more and more clear lines on the picture, Academician Wang gradually saw some clues and raised his eyebrows with interest.

Such skillful strokes would be impossible to achieve without three to five years of experience.

Just like now.

But if it's nuclear fusion...

It is not that there are no magnetic fluid generators. Many laboratories can also make them, some are coal-fired and some are oil-fired. However, almost no one can achieve an energy conversion efficiency of more than 20%.

Although he has not professionally trained the ability to draw, and has only read relevant books, the muscles of his arms seem to have memorized these movements. Even if he strokes casually, they are like rulers and compasses. As standard as the picture.

Academician Wang did not speak, but waited for Lu Zhou to continue.

If the mathematics level strengthens the learning of mathematical knowledge, sensitivity to numbers and calculation ability, then the engineering level not only improves the absorption of engineering knowledge, but also further strengthens the concreteness of abstract concepts into language, The ability to describe using graphics, numbers, etc. tools.

Just like now.

"No," Lu Zhou smiled lightly and said casually, "Maybe it's because he drew more pictures when he was studying geometry problems."

The third day after the project started.

Like controllable fusion technology, magnetic fluid power generation technology is not a particularly new concept, and it can even be said to have a long history.

Seeing Lu Zhou's drawing movements, Academician Wang squinted his eyes, a look of surprise flashed across his pupils.

As if he expected Academician Wang to say this, Lu Zhou smiled and continued.

"Have you ever studied mechanical drawing?"

Although he had never studied mathematical problems, he knew even with his feet that drawing in engineering and drawing in mathematics were completely different.

In contrast, although magnetic fluid technology has seemingly more attractive prospects, it is difficult to realize due to technical reasons, and the economic benefits cannot keep up with market demand. It has not been able to produce decent results for decades, so it has gradually been dismissed. Abandoned by the mainstream of academia and industry.

"Have you ever studied mechanical drawing?"

He already has a rough blueprint in his mind on how to realize a controllable fusion reactor, but he alone cannot realize this blueprint.

If the mathematics level strengthens the learning of mathematical knowledge, sensitivity to numbers and calculation ability, then the engineering level not only improves the absorption of engineering knowledge, but also further strengthens the concreteness of abstract concepts into language, The ability to describe using graphics, numbers, etc. tools.

Lu Zhou: "The difficulty of magnetic fluid power generation technology is nothing more than the ionization of the gas. It is usually difficult to heat the gas to a high temperature of 2,000 degrees and form a plasma beam, and even if it is done, this process is likely to be Accompanied by a large amount of heat energy loss, it is difficult for the cycle efficiency of magnetic fluid power generation technology to reach more than 20%... Am I right?"

The helium gas generated by the "D+T" fusion reaction in the stellarator itself exists in the form of plasma with a high temperature of more than 100 million degrees!

"No," Lu Zhou smiled lightly and said casually, "Maybe it's because he drew more pictures when he was studying geometry problems."

The third day after the project started.

Academician Wang nodded and agreed: "It's basically like this."

It is not that there are no magnetic fluid generators. Many laboratories can also make them, some are coal-fired and some are oil-fired. However, almost no one can achieve an energy conversion efficiency of more than 20%.

As if he expected Academician Wang to say this, Lu Zhou smiled and continued.

Seeing Lu Zhou's drawing movements, Academician Wang squinted his eyes, a look of surprise flashed across his pupils.

The third day after the project started.

Upon hearing this explanation, Academician Wang had an expression of disbelief.

Although he has not professionally trained the ability to draw, and has only read relevant books, the muscles of his arms seem to have memorized these movements. Even if he strokes casually, they are like rulers and compasses. As standard as the picture.

As the engineering level reached LV4, after a period of adaptation, he finally gradually realized the ability-improving effect brought by the engineering level.

But if it's nuclear fusion...

Academician Wang did not speak, but waited for Lu Zhou to continue.

Although he had never studied mathematical problems, he knew even with his feet that drawing in engineering and drawing in mathematics were completely different.

But if it's nuclear fusion...

"That's true for nuclear fission, but not necessarily for nuclear fusion."

"If it were nuclear fusion, we wouldn't have this problem at all." Looking at Academician Wang's questioning expression, Lu Zhou smiled and continued, "After all, the nuclear waste produced by DT fusion is itself hundreds of millions of degrees of helium. .”

"Magnetic fluid power generation?"

Lu Zhou shook his head: "Not necessarily."

Staring at this sketch, Academician Wang shook his head: "With all due respect, magnetic fluid power generation technology is not yet perfect, and using it to generate electricity is probably not a suitable choice. Today's nuclear fission reactors in the world are mainly pressurized water reactors. , I have never heard of any nuclear power plant using magnetic fluid power generation technology to output electricity."

Drawing on the design ideas of high-temperature gas-cooled reactors, this device can also be used for nuclear fusion power generation.

However, as we entered the second half of the twentieth century, the situation changed.

Such skillful strokes would be impossible to achieve without three to five years of experience.

Although this technology is undoubtedly useless when used in coal-fired, oil-fired or even nuclear fission power generation, when applied to nuclear fusion power generation, it is simply tailor-made for it!

Considering that the full name of the 863 plan is "Recommendations on Tracking the World's Strategic High-Tech Development", the projects tracked were basically popular research directions in the international academic community at that time. From this, it is not difficult to see that in the international academic community at that time, magnetism Fluid power generation technology can be said to be hot at the moment.

Lu Zhou: "The difficulty of magnetic fluid power generation technology is nothing more than the ionization of the gas. It is usually difficult to heat the gas to a high temperature of 2,000 degrees and form a plasma beam, and even if it is done, this process is likely to be Accompanied by a large amount of heat energy loss, it is difficult for the cycle efficiency of magnetic fluid power generation technology to reach more than 20%... Am I right?"

Regardless of whether Academician Wang believed it or not, there was no need for Lu Zhou to make any explanations on such inconsequential matters. He just focused on the work at hand wholeheartedly.

Although he had never studied mathematical problems, he knew even with his feet that drawing in engineering and drawing in mathematics were completely different.

He raised his head and looked at Lu Zhou again, and he spoke in a cautious tone.

As for the more difficult topics such as "first wall cladding materials", "neutron irradiation resistant materials", "tritium extraction from the breeding cladding", "and tritium retention", Lu Zhou left it to Jinling He personally led the team to conquer the Institute for Advanced Study.

He already has a rough blueprint in his mind on how to realize a controllable fusion reactor, but he alone cannot realize this blueprint.

For example, in the design of generator sets.

Lu Zhou: "The difficulty of magnetic fluid power generation technology is nothing more than the ionization of the gas. It is usually difficult to heat the gas to a high temperature of 2,000 degrees and form a plasma beam, and even if it is done, this process is likely to be Accompanied by a large amount of heat energy loss, it is difficult for the cycle efficiency of magnetic fluid power generation technology to reach more than 20%... Am I right?"

First, the outline of the stellarator was simply outlined with lines, and then based on this, the structure of the generator set was simply outlined.

It is not that there are no magnetic fluid generators. Many laboratories can also make them, some are coal-fired and some are oil-fired. However, almost no one can achieve an energy conversion efficiency of more than 20%.

As the engineering level reached LV4, after a period of adaptation, he finally gradually realized the ability-improving effect brought by the engineering level.

He raised his head and looked at Lu Zhou again, and he spoke in a cautious tone.

"Can I take this sketch back with me?"

Staring at more and more clear lines on the picture, Academician Wang gradually saw some clues and raised his eyebrows with interest.

Hearing this, Academician Wang's expression changed slightly, and he immediately looked at the sketch again and reacted quickly.

Although other problems also exist, this is undoubtedly the most important.

"Magnetic fluid power generation?"

Regardless of whether Academician Wang believed it or not, there was no need for Lu Zhou to make any explanations on such inconsequential matters. He just focused on the work at hand wholeheartedly.

As if he expected Academician Wang to say this, Lu Zhou smiled and continued.

In contrast, although magnetic fluid technology has seemingly more attractive prospects, it is difficult to realize due to technical reasons, and the economic benefits cannot keep up with market demand. It has not been able to produce decent results for decades, so it has gradually been dismissed. Abandoned by the mainstream of academia and industry.

As the person in charge and chief designer of this large-scale scientific research project, he must split this huge subject into small parts and then assign them to suitable candidates. He must also isolate those difficult-to-solve parts and concentrate his efforts on them. Get rid of.

"Oh?" A surprised expression appeared on Academician Wang's face, and he turned his questioning gaze to Lu Zhou, "How do you say it?"

Hearing this, Academician Wang's expression changed slightly, and he immediately looked at the sketch again and reacted quickly.

Although he had never studied mathematical problems, he knew even with his feet that drawing in engineering and drawing in mathematics were completely different.

"That's right." Lu Zhou stopped the pen in his hand, looked at the sketch, and nodded with satisfaction, "With my level, I can only draw to this extent. The specific design is still troublesome. You are the experts.”

Considering that the full name of the 863 plan is "Recommendations on Tracking the World's Strategic High-Tech Development", the projects tracked were basically popular research directions in the international academic community at that time. From this, it is not difficult to see that in the international academic community at that time, magnetism Fluid power generation technology can be said to be hot at the moment.

As the person in charge and chief designer of this large-scale scientific research project, he must split this huge subject into small parts and then assign them to suitable candidates. He must also isolate those difficult-to-solve parts and concentrate his efforts on them. Get rid of.

Lu Zhou shook his head: "Not necessarily."

"That's right." Lu Zhou stopped the pen in his hand, looked at the sketch, and nodded with satisfaction, "With my level, I can only draw to this extent. The specific design is still troublesome. You are the experts.”

In the STAR Stellar Simulator Research Institute, Lu Zhou met the working group sent by the Huaguo Nuclear Industry Construction Group.

Academician Wang did not speak, but waited for Lu Zhou to continue.

However, as we entered the second half of the twentieth century, the situation changed.

Like controllable fusion technology, magnetic fluid power generation technology is not a particularly new concept, and it can even be said to have a long history.

Lu Zhou shook his head: "Not necessarily."

The third day after the project started.

Lu Zhou shook his head: "Not necessarily."

But if it's nuclear fusion...

"Can I take this sketch back with me?"

Seeing Lu Zhou's drawing movements, Academician Wang squinted his eyes, a look of surprise flashed across his pupils.

Staring at more and more clear lines on the picture, Academician Wang gradually saw some clues and raised his eyebrows with interest.

Even from a timeline perspective, this concept was first proposed together with "Gas-Steam Turbine Combined Cycle Technology (GTCC)".

Academician Wang: "But you can't deny that boiling water is still the most efficient way."

Staring at more and more clear lines on the picture, Academician Wang gradually saw some clues and raised his eyebrows with interest.

In the 1980s, magnetic fluid power generation technology was even included as a key project of the 863 plan, and in terms of importance, it was placed alongside nuclear fission power generation technology.

"What you said makes sense... It seems to be possible in theory, but I can't give you an accurate answer now. I need to go back and discuss it with other experts in the team."

In other words, they no longer need to spend more energy heating the ionized gas, they only need to utilize these plasmas carrying huge energy!

"If it were nuclear fusion, we wouldn't have this problem at all." Looking at Academician Wang's questioning expression, Lu Zhou smiled and continued, "After all, the nuclear waste produced by DT fusion is itself hundreds of millions of degrees of helium. .”

If the mathematics level strengthens the learning of mathematical knowledge, sensitivity to numbers and calculation ability, then the engineering level not only improves the absorption of engineering knowledge, but also further strengthens the concreteness of abstract concepts into language, The ability to describe using graphics, numbers, etc. tools.

These days, Lu Zhou is basically in meetings.

Considering that the full name of the 863 plan is "Recommendations on Tracking the World's Strategic High-Tech Development", the projects tracked were basically popular research directions in the international academic community at that time. From this, it is not difficult to see that in the international academic community at that time, magnetism Fluid power generation technology can be said to be hot at the moment.

Regarding how to convert the heat energy generated by the reactor into electrical energy, the old academician brought a design sketch.

Lu Zhou: "The difficulty of magnetic fluid power generation technology is nothing more than the ionization of the gas. It is usually difficult to heat the gas to a high temperature of 2,000 degrees and form a plasma beam, and even if it is done, this process is likely to be Accompanied by a large amount of heat energy loss, it is difficult for the cycle efficiency of magnetic fluid power generation technology to reach more than 20%... Am I right?"

However, as we entered the second half of the twentieth century, the situation changed.

Therefore, he no longer needs to do these repetitive research tasks. He only needs to let people or institutions engaged in research in this field get enough project funds to continue in-depth research and find ways to use it in the design of stellarators. Just go.

For example, in the design of generator sets.

The third day after the project started.

The aerospace and arms race have led to the rapid development of engine technology and gas application technology. GTCC technology has learned a lot of experience from them, and finally achieved the counterattack of overtaking in corners.

But if it's nuclear fusion...

It is not that there are no magnetic fluid generators. Many laboratories can also make them, some are coal-fired and some are oil-fired. However, almost no one can achieve an energy conversion efficiency of more than 20%.

In contrast, although magnetic fluid technology has seemingly more attractive prospects, it is difficult to realize due to technical reasons, and the economic benefits cannot keep up with market demand. It has not been able to produce decent results for decades, so it has gradually been dismissed. Abandoned by the mainstream of academia and industry.

Hearing this, Academician Wang's expression changed slightly, and he immediately looked at the sketch again and reacted quickly.

Although he had never studied mathematical problems, he knew even with his feet that drawing in engineering and drawing in mathematics were completely different.

"Magnetic fluid power generation?"

Staring at this sketch, Academician Wang shook his head: "With all due respect, magnetic fluid power generation technology is not yet perfect, and using it to generate electricity is probably not a suitable choice. Today's nuclear fission reactors in the world are mainly pressurized water reactors. , I have never heard of any nuclear power plant using magnetic fluid power generation technology to output electricity."

The third day after the project started.

Staring at more and more clear lines on the picture, Academician Wang gradually saw some clues and raised his eyebrows with interest.

First, the outline of the stellarator was simply outlined with lines, and then based on this, the structure of the generator set was simply outlined.

However, Lu Zhou did not give any explanation. He just took a piece of A4 paper and spread it on the table. Then he picked up a ballpoint pen and drew a sketch on it.

Leading the team is Academician Wang Zengguang, chief engineer of the Nuclear Industry Group. This veteran academician has worked in the nuclear industry for many years and has rich experience in the design of fission reactors and nuclear power generators.

Thinking of this, Academician Wang stared at the sketch, and excitement gradually appeared in his eyes.

Such skillful strokes would be impossible to achieve without three to five years of experience.

"It's rare to have such advanced technology. It would be too wasteful to continue boiling water."

As if he expected Academician Wang to say this, Lu Zhou smiled and continued.

The third day after the project started.

He already has a rough blueprint in his mind on how to realize a controllable fusion reactor, but he alone cannot realize this blueprint.

Thinking of this, Academician Wang stared at the sketch, and excitement gradually appeared in his eyes.

As the engineering level reached LV4, after a period of adaptation, he finally gradually realized the ability-improving effect brought by the engineering level.

These days, Lu Zhou is basically in meetings.

As the person in charge and chief designer of this large-scale scientific research project, he must split this huge subject into small parts and then assign them to suitable candidates. He must also isolate those difficult-to-solve parts and concentrate his efforts on them. Get rid of.

Drawing on the design ideas of high-temperature gas-cooled reactors, this device can also be used for nuclear fusion power generation.

"That's true for nuclear fission, but not necessarily for nuclear fusion."

Leading the team is Academician Wang Zengguang, chief engineer of the Nuclear Industry Group. This veteran academician has worked in the nuclear industry for many years and has rich experience in the design of fission reactors and nuclear power generators.

Hearing this, Academician Wang's expression changed slightly, and he immediately looked at the sketch again and reacted quickly.

As if he expected Academician Wang to say this, Lu Zhou smiled and continued.

In the 1980s, magnetic fluid power generation technology was even included as a key project of the 863 plan, and in terms of importance, it was placed alongside nuclear fission power generation technology.

"Oh?" A surprised expression appeared on Academician Wang's face, and he turned his questioning gaze to Lu Zhou, "How do you say it?"

These days, Lu Zhou is basically in meetings.

He already has a rough blueprint in his mind on how to realize a controllable fusion reactor, but he alone cannot realize this blueprint.

Lu Zhou: "The difficulty of magnetic fluid power generation technology is nothing more than the ionization of the gas. It is usually difficult to heat the gas to a high temperature of 2,000 degrees and form a plasma beam, and even if it is done, this process is likely to be Accompanied by a large amount of heat energy loss, it is difficult for the cycle efficiency of magnetic fluid power generation technology to reach more than 20%... Am I right?"

As if he expected Academician Wang to say this, Lu Zhou smiled and continued.

Lu Zhou: "The difficulty of magnetic fluid power generation technology is nothing more than the ionization of the gas. It is usually difficult to heat the gas to a high temperature of 2,000 degrees and form a plasma beam, and even if it is done, this process is likely to be Accompanied by a large amount of heat energy loss, it is difficult for the cycle efficiency of magnetic fluid power generation technology to reach more than 20%... Am I right?"

"Can I take this sketch back with me?"

Upon hearing this explanation, Academician Wang had an expression of disbelief.

Just like now.

These days, Lu Zhou is basically in meetings.

Considering that the full name of the 863 plan is "Recommendations on Tracking the World's Strategic High-Tech Development", the projects tracked were basically popular research directions in the international academic community at that time. From this, it is not difficult to see that in the international academic community at that time, magnetism Fluid power generation technology can be said to be hot at the moment.

Leading the team is Academician Wang Zengguang, chief engineer of the Nuclear Industry Group. This veteran academician has worked in the nuclear industry for many years and has rich experience in the design of fission reactors and nuclear power generators.

As we all know, the principle of magnetic fluid power generation is to heat easily ionized gas to a high temperature of 2000 degrees, ionize it into a conductive plasma beam, and make it flow at high speed in a magnetic field, cutting magnetic lines of force and generating induced electromotive force.

Upon hearing this explanation, Academician Wang had an expression of disbelief.

Academician Wang nodded and agreed: "It's basically like this."

Rather, it would be a waste to use those high-temperature plasmas to boil water.

Academician Wang: "But you can't deny that boiling water is still the most efficient way."

However, after briefly looking at the sketch, Lu Zhou put it down.

Although other problems also exist, this is undoubtedly the most important.

Like controllable fusion technology, magnetic fluid power generation technology is not a particularly new concept, and it can even be said to have a long history.

As the engineering level reached LV4, after a period of adaptation, he finally gradually realized the ability-improving effect brought by the engineering level.

Rather, it would be a waste to use those high-temperature plasmas to boil water.

Staring at this sketch, Academician Wang shook his head: "With all due respect, magnetic fluid power generation technology is not yet perfect, and using it to generate electricity is probably not a suitable choice. Today's nuclear fission reactors in the world are mainly pressurized water reactors. , I have never heard of any nuclear power plant using magnetic fluid power generation technology to output electricity."

Although other problems also exist, this is undoubtedly the most important.

As we all know, the principle of magnetic fluid power generation is to heat easily ionized gas to a high temperature of 2000 degrees, ionize it into a conductive plasma beam, and make it flow at high speed in a magnetic field, cutting magnetic lines of force and generating induced electromotive force.

It is not that there are no magnetic fluid generators. Many laboratories can also make them, some are coal-fired and some are oil-fired. However, almost no one can achieve an energy conversion efficiency of more than 20%.

For example, in the design of generator sets.

Seeing Lu Zhou's drawing movements, Academician Wang squinted his eyes, a look of surprise flashed across his pupils.

The aerospace and arms race have led to the rapid development of engine technology and gas application technology. GTCC technology has learned a lot of experience from them, and finally achieved the counterattack of overtaking in corners.

Academician Wang nodded and agreed: "It's basically like this."

Leading the team is Academician Wang Zengguang, chief engineer of the Nuclear Industry Group. This veteran academician has worked in the nuclear industry for many years and has rich experience in the design of fission reactors and nuclear power generators.

But if it's nuclear fusion...

"Magnetic fluid power generation?"

He already has a rough blueprint in his mind on how to realize a controllable fusion reactor, but he alone cannot realize this blueprint.

Considering that the full name of the 863 plan is "Recommendations on Tracking the World's Strategic High-Tech Development", the projects tracked were basically popular research directions in the international academic community at that time. From this, it is not difficult to see that in the international academic community at that time, magnetism Fluid power generation technology can be said to be hot at the moment.

As we all know, the principle of magnetic fluid power generation is to heat easily ionized gas to a high temperature of 2000 degrees, ionize it into a conductive plasma beam, and make it flow at high speed in a magnetic field, cutting magnetic lines of force and generating induced electromotive force.

However, after briefly looking at the sketch, Lu Zhou put it down.

"If it were nuclear fusion, we wouldn't have this problem at all." Looking at Academician Wang's questioning expression, Lu Zhou smiled and continued, "After all, the nuclear waste produced by DT fusion is itself hundreds of millions of degrees of helium. .”

But if it's nuclear fusion...

"What you said makes sense... It seems to be possible in theory, but I can't give you an accurate answer now. I need to go back and discuss it with other experts in the team."

"Can I take this sketch back with me?"

Upon hearing this explanation, Academician Wang had an expression of disbelief.

"Oh?" A surprised expression appeared on Academician Wang's face, and he turned his questioning gaze to Lu Zhou, "How do you say it?"

"Of course," Lu Zhou nodded happily, "I'm looking forward to your good news."

Hearing this, Academician Wang's expression changed slightly, and he immediately looked at the sketch again and reacted quickly.

Hearing this, Academician Wang's expression changed slightly, and he immediately looked at the sketch again and reacted quickly.

Lu Zhou shook his head: "Not necessarily."

Although he has not professionally trained the ability to draw, and has only read relevant books, the muscles of his arms seem to have memorized these movements. Even if he strokes casually, they are like rulers and compasses. As standard as the picture.

As we all know, the principle of magnetic fluid power generation is to heat easily ionized gas to a high temperature of 2000 degrees, ionize it into a conductive plasma beam, and make it flow at high speed in a magnetic field, cutting magnetic lines of force and generating induced electromotive force.

In other words, they no longer need to spend more energy heating the ionized gas, they only need to utilize these plasmas carrying huge energy!

He raised his head and looked at Lu Zhou again, and he spoke in a cautious tone.

But if it's nuclear fusion...

"Of course," Lu Zhou nodded happily, "I'm looking forward to your good news."

"No," Lu Zhou smiled lightly and said casually, "Maybe it's because he drew more pictures when he was studying geometry problems."

In the STAR Stellar Simulator Research Institute, Lu Zhou met the working group sent by the Huaguo Nuclear Industry Construction Group.

The helium gas generated by the "D+T" fusion reaction in the stellarator itself exists in the form of plasma with a high temperature of more than 100 million degrees!

Although this technology is undoubtedly useless when used in coal-fired, oil-fired or even nuclear fission power generation, when applied to nuclear fusion power generation, it is simply tailor-made for it!

Although other problems also exist, this is undoubtedly the most important.

In other words, they no longer need to spend more energy heating the ionized gas, they only need to utilize these plasmas carrying huge energy!

Like controllable fusion technology, magnetic fluid power generation technology is not a particularly new concept, and it can even be said to have a long history.

Staring at this sketch, Academician Wang shook his head: "With all due respect, magnetic fluid power generation technology is not yet perfect, and using it to generate electricity is probably not a suitable choice. Today's nuclear fission reactors in the world are mainly pressurized water reactors. , I have never heard of any nuclear power plant using magnetic fluid power generation technology to output electricity."

If the mathematics level strengthens the learning of mathematical knowledge, sensitivity to numbers and calculation ability, then the engineering level not only improves the absorption of engineering knowledge, but also further strengthens the concreteness of abstract concepts into language, The ability to describe using graphics, numbers, etc. tools.

Although this technology is undoubtedly useless when used in coal-fired, oil-fired or even nuclear fission power generation, when applied to nuclear fusion power generation, it is simply tailor-made for it!

Although he had never studied mathematical problems, he knew even with his feet that drawing in engineering and drawing in mathematics were completely different.

"If it were nuclear fusion, we wouldn't have this problem at all." Looking at Academician Wang's questioning expression, Lu Zhou smiled and continued, "After all, the nuclear waste produced by DT fusion is itself hundreds of millions of degrees of helium. .”

"Have you ever studied mechanical drawing?"

"Have you ever studied mechanical drawing?"

Hearing this, Academician Wang's expression changed slightly, and he immediately looked at the sketch again and reacted quickly.

"Have you ever studied mechanical drawing?"

Such skillful strokes would be impossible to achieve without three to five years of experience.

Rather, it would be a waste to use those high-temperature plasmas to boil water.

As for the more difficult topics such as "first wall cladding materials", "neutron irradiation resistant materials", "tritium extraction from the breeding cladding", "and tritium retention", Lu Zhou left it to Jinling He personally led the team to conquer the Institute for Advanced Study.

Drawing on the design ideas of high-temperature gas-cooled reactors, this device can also be used for nuclear fusion power generation.

"Magnetic fluid power generation?"

Therefore, he no longer needs to do these repetitive research tasks. He only needs to let people or institutions engaged in research in this field get enough project funds to continue in-depth research and find ways to use it in the design of stellarators. Just go.

Lu Zhou shook his head: "Not necessarily."

Rather, it would be a waste to use those high-temperature plasmas to boil water.

Therefore, he no longer needs to do these repetitive research tasks. He only needs to let people or institutions engaged in research in this field get enough project funds to continue in-depth research and find ways to use it in the design of stellarators. Just go.

Thinking of this, Academician Wang stared at the sketch, and excitement gradually appeared in his eyes.

Drawing on the design ideas of high-temperature gas-cooled reactors, this device can also be used for nuclear fusion power generation.

As the person in charge and chief designer of this large-scale scientific research project, he must split this huge subject into small parts and then assign them to suitable candidates. He must also isolate those difficult-to-solve parts and concentrate his efforts on them. Get rid of.

Among them are internal meetings at the Jinling Institute for Advanced Study, meetings at the STAR Stellar Simulator Research Institute, and even meetings at cooperative units...

Then, he looked at the sketch again.

Therefore, he no longer needs to do these repetitive research tasks. He only needs to let people or institutions engaged in research in this field get enough project funds to continue in-depth research and find ways to use it in the design of stellarators. Just go.

Drawing on the design ideas of high-temperature gas-cooled reactors, this device can also be used for nuclear fusion power generation.

Lu Zhou shook his head: "Not necessarily."

Rather, it would be a waste to use those high-temperature plasmas to boil water.

He raised his head and looked at Lu Zhou again, and he spoke in a cautious tone.

As the engineering level reached LV4, after a period of adaptation, he finally gradually realized the ability-improving effect brought by the engineering level.

It is not that there are no magnetic fluid generators. Many laboratories can also make them, some are coal-fired and some are oil-fired. However, almost no one can achieve an energy conversion efficiency of more than 20%.

As if he expected Academician Wang to say this, Lu Zhou smiled and continued.

It is not that there are no magnetic fluid generators. Many laboratories can also make them, some are coal-fired and some are oil-fired. However, almost no one can achieve an energy conversion efficiency of more than 20%.

It is not that there are no magnetic fluid generators. Many laboratories can also make them, some are coal-fired and some are oil-fired. However, almost no one can achieve an energy conversion efficiency of more than 20%.

"Oh?" A surprised expression appeared on Academician Wang's face, and he turned his questioning gaze to Lu Zhou, "How do you say it?"

Staring at more and more clear lines on the picture, Academician Wang gradually saw some clues and raised his eyebrows with interest.

"Magnetic fluid power generation?"

"What you said makes sense... It seems to be possible in theory, but I can't give you an accurate answer now. I need to go back and discuss it with other experts in the team."

The third day after the project started.

Considering that the full name of the 863 plan is "Recommendations on Tracking the World's Strategic High-Tech Development", the projects tracked were basically popular research directions in the international academic community at that time. From this, it is not difficult to see that in the international academic community at that time, magnetism Fluid power generation technology can be said to be hot at the moment.

First, the outline of the stellarator was simply outlined with lines, and then based on this, the structure of the generator set was simply outlined.

Among them are internal meetings at the Jinling Institute for Advanced Study, meetings at the STAR Stellar Simulator Research Institute, and even meetings at cooperative units...

"That's right." Lu Zhou stopped the pen in his hand, looked at the sketch, and nodded with satisfaction, "With my level, I can only draw to this extent. The specific design is still troublesome. You are the experts.”

Although he had never studied mathematical problems, he knew even with his feet that drawing in engineering and drawing in mathematics were completely different.

Then, he looked at the sketch again.

The aerospace and arms race have led to the rapid development of engine technology and gas application technology. GTCC technology has learned a lot of experience from them, and finally achieved the counterattack of overtaking in corners.

He raised his head and looked at Lu Zhou again, and he spoke in a cautious tone.

He already has a rough blueprint in his mind on how to realize a controllable fusion reactor, but he alone cannot realize this blueprint.

Although this technology is undoubtedly useless when used in coal-fired, oil-fired or even nuclear fission power generation, when applied to nuclear fusion power generation, it is simply tailor-made for it!

Staring at this sketch, Academician Wang shook his head: "With all due respect, magnetic fluid power generation technology is not yet perfect, and using it to generate electricity is probably not a suitable choice. Today's nuclear fission reactors in the world are mainly pressurized water reactors. , I have never heard of any nuclear power plant using magnetic fluid power generation technology to output electricity."

Upon hearing this explanation, Academician Wang had an expression of disbelief.

"Can I take this sketch back with me?"

Leading the team is Academician Wang Zengguang, chief engineer of the Nuclear Industry Group. This veteran academician has worked in the nuclear industry for many years and has rich experience in the design of fission reactors and nuclear power generators.

Staring at more and more clear lines on the picture, Academician Wang gradually saw some clues and raised his eyebrows with interest.

Therefore, he no longer needs to do these repetitive research tasks. He only needs to let people or institutions engaged in research in this field get enough project funds to continue in-depth research and find ways to use it in the design of stellarators. Just go.

Just like now.

The third day after the project started.

"Of course," Lu Zhou nodded happily, "I'm looking forward to your good news."

"Magnetic fluid power generation?"

Just like now.

In the STAR Stellar Simulator Research Institute, Lu Zhou met the working group sent by the Huaguo Nuclear Industry Construction Group.

The aerospace and arms race have led to the rapid development of engine technology and gas application technology. GTCC technology has learned a lot of experience from them, and finally achieved the counterattack of overtaking in corners.