"The impact force generated by the explosion directly expanded the half plane by five times. Coupled with the expansion carried out by the energy input of the element furnace, the whole half plane has expanded seven or eight times more than before."
"As long as the magic power pollution is removed, this half plane can be built as the logistics base of floating city!" Hathaway said with a smile.
"Those space cracks still need to be repaired. Coupled with pollution, our half plane can't be used in a short time," Suellen shook his head and said.
"I have a method," Chris said suddenly at this moment.
"Oh, what do you think?" Su Lun asked with some interest.
"Although this half plane has pollution and space storms, although ordinary people can't survive, there are still other creatures that can survive, at least those high-level demons in the bottomless abyss," Chris explained.
The environment of the bottomless abyss is very bad. It is clear that sulun has been there. The environment in many places of the bottomless abyss is worse than that of the half plane.
Since demons can live in the bottomless abyss, they can naturally live in this half plane.
"Of course, ordinary demons can't survive in this environment, so our goal is high-level demons. My current ability can enslave about ten high-level demons," Chris nodded.
"This is really a good way, and the strength of these demons is also good, and they also have a classification spell ability. It is very feasible to use these demons to repair the half plane."
"Hathaway, Alex, how many high-level demons can you enslave?" sullen asked directly.
"I can enslave about five," said Hathaway
"I can enslave three." Alex was embarrassed.
"Add up to 18, not bad." Su Lun nodded: "I can not have about six, a total of 24 high-level demons."
"Now the area of the half plane is ten times larger than before, with a radius of ten kilometers. The area is not too large. Twenty four high-level demons are enough."
"That's it!" Su Lun thought about it and decided directly.
"By the way, Hathaway, the specific causes of the element furnace explosion should be summarized as soon as possible. Although the test failed, there are still a lot of gains in the test."
"When the operation load of the element fusion furnace is 80%, the operation is still very stable. Of course, there are still many shortcomings, but I believe with this failure experience, we can successfully manufacture a real element fusion furnace in a short time!"
"I will. Although the experiment failed in the end, on the whole, our idea is no problem. I believe we can succeed after several experiments!" Hathaway said with a smile.
"How many more tests!" Su Lun shook his head. "We spent nearly two million ginals on this element fusion furnace test. If we do it again, it is estimated that Zhenbei city will go bankrupt!"
"Giggle, don't worry. The explosion in this test is the first time. It's normal to have this problem, but after this experience, we will pay attention to the next test." Hathaway said with a smile.
It's also a little guilty to directly explode 2 million jinnars in a test, and these 2 million jinnars are only the material of the element furnace. Among them, the various Rune array defense measures in the half plane are still the same, and the funds needed to repair the half plane after that need at least another 2 million jinnars.
If two or three million ginals are exploded in each test, even if there is a golden mountain, it can't keep up with the consumption.
In the next few tests, in addition to the cost of a lot of money and materials for remaking the element furnace, it is impossible to explode again as long as you are careful. The subsequent tests are to improve these element furnaces.
Su Lun got the best lava last time. Spar is an important material for making the element furnace. Although the temperature in the element furnace can reach tens of millions of degrees, even steel will be gasified in an instant at such a high temperature, the element furnace can withstand this high temperature without damage.
Of course, in fact, the element furnace will not directly withstand such a high temperature, tens of millions of degrees. As far as sulun knows, there is no metal that can withstand such a high temperature.
The element furnace does not directly bear such high temperature. There is a combustion chamber inside the element furnace, and the element fuel is ignited in the combustion chamber. This combustion chamber cooperates with the energy binding force field to bind the element fuel for element fission reaction in a space.
This is equivalent to a small sun. The energy released by element fission will be collected and transformed by the nearby energy conversion Rune array, and these energy will be transmitted through the element energy channel.
In fact, the theoretical knowledge of this element furnace has long been completed, but the difficulty lies in the materials. Although the materials that can withstand tens of millions of degrees of high temperature are not used, the materials that can make combustion chambers are still very precious.
In addition to the materials, there is also the rune array. The materials required by the energy binding array are also very precious. You know, the energy required by the energy binding array is extremely amazing.
After the fission reaction of elemental fuel, the energy released every minute can reach a nine ring spell or even higher.
Such energy is constantly impacted. If the energy binding array is not bound by enough force, the small sun will be out of control, and a large amount of energy will rush out of the combustion chamber directly, and the combustion chamber will be damaged by high temperature in an instant.
After destroying the combustion chamber, other parts of the element furnace can not bear such a high temperature. As a result, the element furnace will explode directly like the previous experimental body.
The materials needed to make the energy bound Rune array are very precious, which requires more than a dozen high-quality magic gemstones, as well as mountain copper, secret silver and other metals. Generally speaking, such a bound energy array needs 300000 to 500000 ginals.
After many simulation experiments, Hathaway finally produced such an energy bound array. However, there are still some problems in this experiment, which need to be improved. However, this time, the energy bound array can reach more than 80% power. In addition, there are not many places that need to be modified.
In fact, the element furnace prepared by Suellen and Hathaway has been slightly higher than the standard from the beginning of design, so that even if the element furnace can only reach 90% of the load power, it can be practical.