Industrial tanks are essential for large companies that handle liquid products for their production, and require storage of large volumes of liquids or semi solids, such as the soft drink industry, petrochemical, wastewater treatment, fertilizer, among others. many others.
The tanks are not used only for the storage of water, which is one of the most common uses when there is no regular water supply in the area or it is simply required to store the water and then distribute it, as in the companies for the purification of water. Water; but, depending on the material with which the tanks are built, they can store chemical elements, hydrocarbons, acids, among other elements.
The fiberglass in the industrial tanks has many benefits, since it is a material that combines the resistance of glass and the polymers with which it is mixed, which is usually polyurethane. This allows the tanks that use fiberglass to be highly resistant to shocks and struggles. Its mechanical resistance is superior to that of materials such as polyurethane and iron itself.
We can mention many advantages, unlike other materials, glass fiber does not contain any element that can be oxidized, does not allow corrosive processes to act or wear with most of the elements used in the industry. This prevents the stored materials from becoming contaminated, as happens with steel tanks. This same characteristic makes them highly hygienic, so they can be used in food industries for their safety, ensuring that the liquids inside them will be totally clean.
The materials reinforced with fiberglass are ideal for the food industry, since they have a very high resistance and thermal insulation, in addition to not allowing the passage of light, which makes the proliferation of bacteria and microorganisms that contaminate the water impossible or other products used in food processes. Despite not allowing the passage of light, you can easily visualize the level of liquid inside each fiberglass tank, which facilitates the logistics and control of the content of each tank.
Another great advantage of industrial fiberglass tanks is that they are very resistant to sudden changes in temperature, so they can be in very hot places, as well as in very cold places, without affecting their efficiency, contrary to the tanks metallic ones that usually expand and contract with the changes of temperature, same process that happens with the tanks of concrete, although in these it is more risky, since cracks can be formed.
A further positive aspect is that fiberglass can be molded to the shape that is needed with great ease, so tanks of different types can be made to adapt to the required spaces and the technical needs of each process. In fact, they are very common to be manufactured in a personalized way for each client. This also allows for a simpler installation, since when making the specific size, the placement does not require major changes in the infrastructure.
One more advantage that we can highlight from industrial fiberglass tanks is that it is a material that can be repaired easily. It is one of the advantages that makes them stand out from other materials that when damaged, it is necessary to replace the entire tank to avoid compromising the structural integrity, but with fiberglass a repair of cracks or breaks is very simple, it is only necessary to empty the tank during maintenance.
Fiberglass also has other positive aspects, such as acoustic resistance, absorption of vibrations and also that it is not a material that is harmful to the environment, since it can be recycled easily once the end of its useful life has been reached. If all these advantages are taken into account, you can notice how fiberglass is the best choice as material for industrial use tanks, such as plastic, iron or concrete.
Besides that it is one of the most economical materials, compared with all the advantages and features offered in the industry. Therefore, if they require tanks for their industries, fiberglass should be their first choice since it is the superior material and the best option for long-term use, even with very dense materials and high temperatures.