There are so many new refrigerants that have been made in recent years. The reason for their appearance is because of the removal of Freon as an option for refrigeration related devices. Whether you are operating a refrigerator, freezer, or an air conditioning unit, Freon was typically installed. Coolants are used within these devices to extract the heat from the air, but if they ever leaked, this substance, also called R-22, would circulate high into the atmosphere. Once it reached the stratosphere, it would interact with what is called the ozone layer. It would begin to cause ozone to break apart. This is one of the most important layers of the atmosphere, protecting all of us from substantial amounts of ultraviolet radiation sent from the sun, and there were notable holes in this layer on the southern portion of the earth. Detractors had claimed that this was simply a natural part of the process, but scientists were not deterred. Once they had determined that chlorofluorocarbons were a primary contributor to the ozone problem, aerosol cans, and subsequently Freon, were to be a thing of the past. Aerosol cans were bands, and by the year 2020, R-22 cannot be used in any type of refrigeration device. The new coolants that were made were derived from several different chemical combinations. Many of these are extremely efficient, capable of even helping with lowering CO2 emissions which are causing the greenhouse effect to get worse. Here is a brief overview of the performance and suitability of certain refrigerants that are on the market today.
Popular Refrigerants That Many Businesses Are Using
There are quite a few new refrigerants that are being utilized by companies to quickly replace Freon as a coolant. For those that currently have some type of refrigeration device, the R-22 needs to be extracted and replaced with something else. Unfortunately, some of these are not fully compatible with the machines they will be used in. Physical modifications are often done to resolve the problem. However, there are some that are exceptional, those that mimic the capabilities of chlorofluorocarbons, yet they will not affect the ozone layer. A few of those include TDX 20, R-134A, and R-410A. The chemicals that they use include difluoromethane, 1,1,1,2-tetrafluoroethane, pentafluoroethane and many others. Researchers were able to determine what chemical combinations would also work good together. That’s why many of the best ones are utilizing a multitude of different chemicals to create a replacement for Freon.
A Comparison Of Different Refrigerants That Can Replace R-22
Starting with R-407C, this is used by many companies. It has very similar thermodynamic properties to Freon. R-134A is known as a how the cane refrigerant. It is one that is commonly used, but if this is going to replace Freon, all of the R-22 needs to be extracted as mixing these two refrigerants can cause problems. At the top of the list is a refrigerant called TDX 20 from Bluon. This business combined many different chemicals, far more than many of their competitors, using hexaflouraopropan, difluoromethane, pentafluoroethane and several other chemicals. Tetrafluoroethane is one of those chemicals, also known as R-134A, which is sometimes used by itself. However, Bluon realize that by combining this with the many other chemicals that have been mentioned, it would have a multitude of positive benefits. Therefore, if you are looking for a replacement for R-22, you may want to consider this as an alternative. The benefits are numerous, including the ability to remove moisture, absorb heat energy, and also help the machines to run more smoothly.
The Top Three Benefits Of TDX 20
There are three primary benefits that are worth noting about this particular coolant. One has already been mentioned. It makes it possible for the machines to run more smoothly, virtually removing any type of aberrant vibrations. Second, it’s can absorb heat very efficiently, even at a lower pressure. Inside of these refrigeration units, compressors are used to compress the coolant, causing it to become a gas, which allows it to absorb heat. Since this particular refrigerant can be more efficient than Freon at a lower pressure, the compressor will not have to do as much work. This means that less energy will be used, and as a byproduct, less CO2 emissions will be released. Finally, since less energy is used to operate these devices, the electricity bill for these companies that utilize them will be as much as 25% less. This is why many people turn to this particular coolant over all others because of these added benefits.
What If You Have Existing Refrigeration Units With Freon?
By law, you must soon have all of the R-22 in your existing units removed. It must be done by an HVAC professional. As mentioned earlier, if there is any cross-contamination between Freon and the new refrigerant, this could cause significant problems. These professionals will be able to extract R-22 very efficiently, eliminating the possibility of cross-contamination. This will allow the new coolant, whichever one you choose, to function to the best of its capabilities. For many people, this is going to be a very time-consuming process. They could be the owners of multiple machines, all of which need to be serviced. With just a short time left before 2020, it is imperative that businesses, as well as individuals with refrigeration units, to have this procedure done. Once the Freon is removed, they will also insert the new coolant and then test all of the machines. Based upon their evaluation, you will know if this process has been successful.
By looking at this comparison, it is clear that there are many competing refrigerants, all of which will successfully replace Freon. However, based upon the evaluation of these top coolants, it is clear that TDX 20 is one of your better options. If you would like to not only have better performance with your machines, but also use less electricity to run them, this might be at the top of your list. Even better, CO2 emissions will be diminished, helping to offset the detrimental effects of the greenhouse effect.