With the help of the companies we visited,such as Migliani, we knew that some compromises would be necessary regarding the measurements of our product, mainly due to the fact that the batteries could not be exposed to humidity, and as such some space would be needed for the batteries to be able to "breathe."
Therefore, in order to obtain the ideal measurements of our product, we used a linear system that allowed us to reach these same measurements.
To do this, we took these nuances into account:
Decision Variables:
In this model, the decision variables are:
b – Length of the base of the hyperboloid
x – Battery length after restoration
h – Height of the hyperboloid
y – Battery height after restoration
Equations and their explanation
I. The difference between the length of the base of the hyperboloid and the length of the battery after restoration must be 10 cm, as through some studies, linked to precision engineering, it was possible to reach the conclusion that this measurement is ideal taking into account This takes into account the safety aspect, as it allows adequate cooling of the battery.
Equation: b – x = 10
II. The difference of 2 cm between the length of the base of the curved surface and the height of the stack is essential, since the shape of the curved surface, that is, the hyperboloid, becomes more “narrow”. So, this extra space of 2 cm is necessary to ensure that the stack, which is inside this curved shape, does not touch it. This is essential to maintain the safety and good operation of the battery inside the housing.
Equation: b – x – y = 2
III. The 1cm difference between the height of the hyperboloid and the height of the restored battery
plays an important role in design. This difference is strategically placed
to prevent the battery from being directly glued to the top of the hyperboloid. This distance is
very important, as it serves to prevent moisture from threatening the integrity of the battery.
Thus, the exact height distinction between the hyperboloid and abateria plays a role
important in maintaining the functionality and useful life of the storage battery.
solar energy.
Equation: h – y = 1
IV. For the sake of practicality and efficiency in space management, we decided
establish that the length of the base would be equal to twice the height of the batteries. That
strategic choice aims to simplify the design formulation, transforming it into a
rectangular configuration that most effectively adjusts to our needs. It is
approach contributes to a more efficient and simplified management of space as a
all.
Equation: x – 2y = 0
So we conclude that the right measurements for our product are: hyperboloid base length: 26; battery length after reset: 16; hyperboloid height: 9; battery height after reset: 8.
Comments