I have lived in Boston for almost 4 years and I still find myself visiting and discovering new places. Last week I had the great opportunity to go,with all my classmates, to a nuclear reactor here in Boston, inside the MIT campus (see picture below). I have to confess that I didn’t realize how significant it was to have this opportunity. It was until the moment that we were checking ourselves in and we were receiving some basic safety instructions that I realized that we will be exposed to some lower radiation levels. Each of us were handed in a small device that we had to carry with us all time throughout the tour. The initial value of the device was recorded; and after the tour was over another final measurement was taken; ideally the difference between final and initial values would be very close or equal to zero. Also before exiting the reactor we re tested with a special machine that detects any tarce of radioactive dust in our shoes or hands and arms.
You may already know that nuclear reactors are another way of generating electricity; in case of the MIT – Nuclear reactor, this is not the case; this reactor is not used to generate electricity and contribute to the grid. This reactor is used for experimental purposes; which means that the reactor does not have to be kept on critical state (you have enough uranium so that I can produce heat by itself) for long periods of time but only for the time that is necessary for experimentation. This reactor receives samples and experiments to perform for multiple research and health institutions such as Mass General Hospital.
During our tour session we learned a great amount of things. For example. The MIT reactor “ is a heavy-water reflected, light-water cooled and moderated nuclear reactor that utilizes flat, plate-type, finned, aluminum-clad fuel elements” [1]. One of the main aspects that caught my attention was the water that gets used to heat and cool down the reactor; lucky for us this water is reused and controlled so it doesn’t get spilled or gets in contact with the outside. In fact, this facility is designed in a way that in case of high level of radiation or any accident, nothing will be able to get in contact with the outside. And how is this possible ? The reactor is contained inside an close air-locked concrete structure. In order to enter to the reactor you will have to go through an 2 door air vacuum hall that will lower the pressure level and make sure the inside and outside of the reactor doesn’t get contaminated.
Inside the dome, where the reactor is located; we were able to observe different interesting things. Personally, the most interesting one was the crane located in the ceiling. This crane has 360 degrees access and it is used to open the reactor, move heavy object such as the tanks of gas or any other substances. The second most interesting point was the control room (see picture below). This room is where the magic happens and where every single step is being carefully monitored. It is here were it possible to determine if the reactor has reached its critical state. This room also counts with non digital devices; meaning that in case of a power failure while the reactor was being used , these devices will continue to show the readings since they are not operated by a computer.
Finally, we also learned about some radioactive experiments that have been going on. One of the most significant one is treatment of a cancerogenous tissue by inserting radioactive cells that will attack the infected cells. This kind of treatment can only be applied to specific areas since the radioactive cells have a low half-life and therefore they will not stay radioactive for a long period of time.
I am glad to say that upon exiting the reactor and returning the device that was provided to me, the difference between the final and initial measurements was zero .
Sources
[1]http://web.mit.edu/nrl/www/reactor/reactor.htm
I love that photo of a control room that you have!
Nuclear reactors are really interesting. It’s something you could really see from a television show or a movie. However, seeing it in person also showed us that they’re not really something that need to be feared. So much in the media is hype over radiation and public danger, when they actually can be places of great medical research and more.
This tour totally opened up my eyes to what really goes on at those kinds of facilities!