Последние тайны СССР – Проект Марс 88
Шрифт:
Andrey was an onboard engineer of the manned spaceship of М-88 project and at the same time – a USSR KGB officer. He was not included in the crew because the omnipotent Committee was looking for CIS or MI-6 spies even in the space or because he had to shoot down, for example, the crew captain under certain circumstances. There was even no gun or any weapon on the spaceship at all.
It was just a personal wish of General Secretary… In the course of one of rare meetings with the project Coordinator he suddenly said: servicemen, scientists, doctors – all of them were in space, we sometimes even take foreigners there! And we have never included a single KGB officer in the crew!
The Coordinator was a bit surprised, but answered: Yuri Vladimirovich, that’s an interesting thought, but it would be better if he had some other profession besides being an officer. The crew is almost complete – there is a place for an onboard engineer, and considering the peculiarities of the spaceship – we need a specialist on compact nuclear power systems. Do you have someone of this kind in the Committee?
In the Committee of that time there were specialists in practically any sphere, especially in promising trends, let alone those connected with the atom.
They found Andrey… He graduated from a minor institute in Moscow where best graduates were distributed to closed military laboratories, design offices and KGB…
In general, people were not sent to the Committee, the Committee kindly invited them to work. One could refuse with no bad consequences to follow. Why should a person be compelled if he does not want to? Compulsory labor is not always efficient.
The nuclear power facility of the spaceship was surprisingly efficient, and the main thing, it was compact. It took almost 25 years to create it. The question of reduction of nuclear facilities in size and weight appeared from the moment when the first atomic bombs appeared and was in many ways solved by the beginning of 80s. Even real nuclear briefcases appeared, but not those carried after different Heads and Presidents…
Many nuclear things, big and small, were created for military reasons, and there even was no desire to use all that stuff for the intended purposes.
People became a little cleverer, a little more polite and civilized, and understood that hitting themselves with nuclear clubs was not right or humane.
They decided to use something from this nuclear arsenal for peaceful purposes.
There was no sense in constructing large, labor-consuming and expensive nuclear power stations, considering the huge territory of the USSR and the peculiarities of its climate. There were hundreds of thousands of rivers, but the construction of hydro-electric power stations is not that cheap…
Then they remembered about compact or portable low power nuclear devices. A project was conceived to create small, reliable, and the main thing – one hundred times cheaper nuclear power stations. It was planned to build such a station in practically each of the remote regions…After all, the country occupied 1/6 of the land; but the project was suspended…
The question of portability, weight and, the main thing, the weight of fuel was the most acute in space industry. It was the trend with the highest priority for the Soviet Union. The majority of the most talented scientists worked for the space. Solar batteries were cumbersome and produced little electricity, the first compact nuclear power facilities were developed and used for the satellites – for the only purpose of providing energy to the devices…
The work on the nuclear propulsion engine for rockets was finished back in 1981. The trial runs were mainly carried out on the same launch site where military atomic shells and bombs were tested – near Semipalatinsk.
The project was successful and almost complete, but… it was closed. There were a lot of reasons for that, but the main thing was connected with the start of the rocket from earth cosmodromes: due to a great amount of radiation emitted, a new launch pad or desk would have to be built for each new launch.
And problems with protection of the rocket’s living module seemed practically unresolvable back then…
The designer of MS 88 found a little different way to solve these problems.
The nuclear propulsion engine started as far from the Earth as possible, being the second or third stage engine of the spaceship. And it did not work directly, so its radiation background was just one and a half or two times higher than natural values.
Protection of the crew from such relatively low level of radiation was also simplified and was solved in three years. It took a couple more years for final breaking-in, fine tuning and trial. So in six years after closure of the first project, the second one was successfully completed. It is true that it had a lot of principal differences, but it was the same in essence.
The problem of energy and heat supply to the spaceship on the whole was successfully resolved. And the main thing, now there was an opportunity to use practically the whole volume and weight of the rocket for more important tasks…
Andrey was the KGB supervisor of this design office. First of all he was responsible for the project secrecy, and a little less for its successful final result.
The result was dimly shining behind the 50 cm partition of the energy compartment, transforming the energy of arms-grade plutonium into quite peaceful electrojet one, which pushed the spaceship closer and closer to Mars.
Andrey’s shift always started with examination of the propulsion component monitoring unit and a visual check-up via a distance video camera. He did this even though he did not need to control or even provide maintenance for anything there.
The device was reliable and compact like a Kalashnikov gun, the famous AK-47.
The fuel could last for 5 years of continuous work, and recharging was available in case of need. There were only three propulsion engines, and now just one of them was working. Surely, all the three could be started at once, but it was to be done only when the spaceship started from the Mars surface on the way back…
Nuclear briefcases were so successful and compact that 8 of them were crammed in the rocket! Each of them weighed about 100 kg and had four massive handles… but it was not important in the space, and even the handles were not necessary.
Three of them were for the replacement of the main propulsion engines in case of need, and three were a little smaller and had to supply heat and energy to a small living module installed on Mars. One would be more than enough; the other two were just a reserve.