The most effective method of cleaning micro channel coils has elicited a variety of responses from readers. However, in order to properly clean them, it is necessary to gain a better understanding of what they are made of. The following sections provide an overview of micro channel technology, as well as information on how to properly clean multi port tube and other related topics.
It can also be stated that oils are composed of flat tubes that have tiny channels or tunnels running through them along their entire length. These tunnels are in charge of transporting the refrigerant throughout the system. Coils used in conventional refrigeration, on the other hand, were made up of only one larger tube, which was generally round, and carried the refrigerant, making them less energy efficient. Through the use of this method, it is possible to significantly increase the surface volume of the tube's interior, which is particularly useful for flat tubes that have multiple tunnels in them. As a result of the optimization, the system is able to operate at a significantly higher level of efficiency than it was previously. Aluminum is also used in the manufacture of these coils at the moment, as it provides corrosion protection that is superior to that provided by other materials, such as copper or copper/aluminum alloys. For more in-depth information on what micro channel coil technology is and what it is used for, visit the carrier's website by clicking on the provided link.
When it comes to cleaning micro channel coils, what is the most efficient method to employ?
When faced with this situation, caution should be exercised. The effectiveness of this method is the most important factor to consider. Before you begin using any coil cleaner chemicals, double-check that they are neither too acidic nor too alkaline in nature. Coil cleaners that foam, such as SpeedyFoam, or coil cleaners that are pH-neutral, such as Power Coil Clean from BBJ, which is available in a variety of sizes, are your best bets for cleaning coils.
Make certain that you are using a machine or nozzle that is specifically designed for the task at hand the second time you intend to use pressurized water or a water/cleaner mixture. To effectively clean thick micro channel coils (those with a diameter greater than 1 inch), a combination of medium water pressure and high water volume when cleaning condenser units is the most effective combination for thick micro channel coils. The water volume required for cleaning smaller micro channel coils (less than 1 inch in diameter) is less, but a peak cleaning pressure of at least 100 psi is required for proper cleaning of these coils. It is possible for your fins to be folded as a result of direct spray pressures greater than 140 pounds per square inch applied without the use of a spray pattern nozzle designed specifically for this purpose.
While it is preferable to use a coil cleaner that uses as little water as possible while still providing 100 psi or more pressure when cleaning the evaporator coils, this is not always possible. In spite of the fact that it has a great deal of cleaning power, it will not put a strain on your condensate pans or pumps. This is the bottom line: when cleaning micro channel coils, always use the right tool for the job. You want to direct your spray directly onto the fins and in a fan pattern, which is the general rule for spraying fins. Cleaning coils is a cost-effective procedure because it increases the efficiency and longevity of the heating system, making it more efficient and longer lasting. It is not a hypothesis in this instance, but rather a scientifically proven fact.
The manufacturer's instructions should always be read and followed carefully when using commercially available cleaners, according to him
When it comes to coil cleaning, the majority of manufacturers recommend that the coils be thoroughly rinsed to ensure that all detergent and debris have been removed from the coils
As a further precaution, he advised that only coil cleaners that are specially formulated for coils should be used, as some coil cleaners that are not specifically formulated for coils can be harsh and attack copper or aluminum within the coil
The most important thing to remember, according to Gurley, is to keep the coils as clean as possible
If they become clogged with dirt, they will be unable to exchange heat as effectively as they should
When it comes to coils, it takes more than just dumping water on them to get them clean
Diverse cleaning methods should be used in order to achieve the best possible results, depending on the type of coil being cleaned, the type of debris present, and the type of system being cleaned
Small-diameter copper tube coils are intended to provide many of the same advantages as aluminium micro channel tube, including their small size, light weight, low material costs, high heat transfer coefficients, and low refrigerant charge
micro channel tube are intended to provide many of the same advantages as small-diameter copper tube coils
In many ways, are similar to small-diameter copper tube coils in that they are intended to provide many of the same benefits
Small-diameter copper tube coils are designed to provide many of the same advantages as microchannel coils, including their small size, light weight, low material costs, high heat transfer coefficients, and low refrigerant charge
In addition to their small size, light weight, low material costs, high heat transfer coefficients, and low refrigerant charge, small-diameter copper tube coils are designed to provide many of the same advantages as , including their small size, light weight, low
These coils must be kept clean in the same way that microchannel coils must be kept clean, but the procedures for doing so are slightly different due to the difference in construction methods used in their manufacture. For example, round-tube plate-fin coils, which have round tubes as opposed to the flat tubes, which have a name that refers to their flat shape, are examples of this type of coil.