Dryer Vent Hose Length Calculator

The length of a dryer vent hose is an important factor to consider in the performance of the dryer. The length of the dryer vent hose will impact how well the dryer performs it’s task. If the dryer vent hose is too long, or if it include too many turns along its route from the dryer to the exhaust hood, the hose will create back pressure within the dryer.

The dryer’s blower motor was not designed to overcome such back pressure. As a result, the clothes in the dryer will remain damp for longer periods of time, and the heater will have to cycle on longer to properly dry the clothes. Additionally, lint can accumulate within the dryer vent hose in various locations.

How Dryer Vent Length Affects Your Dryer

To understand the total length of the dryer vent hose and its components, one should count each straight section, the number of fittings, and the length of the exit hood. The calculator allows a person to perform the necessary calculations to determine the total length of the dryer vent hose. The length of the straight duct sections can be measured with a tape measure.

However, it is common for individuals to underestimate the length of any hidden sections of the dryer vent hose. Such hidden sections may include the short connector behind the dryer, any section within a wall, and the length of the hose from the last fitting to the termination point of the hose. Each foot of rigid metal duct the calculator considers to be one foot of resistance.

This value will be used to calculate the total resistance of the dryer vent hose once the elbows and the exit hood add in the resistance. Elbows within the dryer vent hose will increase the resistance of the vent hose. Each elbow within the dryer vent hose forces the air to change direction.

Such changes in the direction of the air create friction along the hose. Both 45-degree and 90-degree elbows will create friction, but a 45-degree elbow will create less friction then a 90-degree elbow. The 90-degree elbows will require the air to change the direction of its movement more often.

Additionally, some styles of hoods will increase the resistance of the dryer vent hose. A wide-mouth wall cap will create less resistance than a hood with a roof jack or a hooded exhaust with a pest control cage. The reason for the increased resistance created by a hood with a pest control cage is that the air will have to move through a narrower opening in order to exit the dryer vent hose.

The material from which the dryer vent hose is made will impact the resistance of the hose. Rigid metal dryer vent hose is the best material because metal has a smooth interior that allows for the movement of air with minimal friction. Semi-rigid aluminum dryer vent hose can be used, though it is not ideal due to the tendency for lint to collect along the corrugations of the aluminum.

Flexible foil dryer vent hose is a poor choice for dryer vents due to the turbulence that the ribs along the hose create. Additionally, the flexible nature of the duct may allow the dryer vent hose to sag within the walls of a structure. Lastly, plastic or vinyl flex is the worst material choice for dryer vent hoses.

Plastic and vinyl tend to create more resistance to the movement of air than metal dryer vent hoses. Additionally, plastic or vinyl may melt if the dryer reaches overheating temperatures. Each of these materials have a multiplier associated with their resistance to the movement of air through the dryer vent hose.

This value may be used to calculate the total length of the dryer vent hose. The vertical rise of the dryer vent hose will also increase the resistance to the movement of air. The air must overcome the force of gravity in moving from the dryer to the exit point.

The longer the vertical rise of the dryer vent hose, the more resistance will be created. A number of feet of rise will increase the total length of the dryer vent hose by a certain number of feet; this value can be entered in the calculation in order to provide an accurate calculation of the total length of the dryer vent hose. Additionally, the diameter of the dryer vent hose may impact the total length of the dryer vent hose; the smaller the diameter of the dryer vent hose, the more greater the resistance that will be created for the movement of the air.

Most dryers has a four-inch dryer vent hose. However, if the vent hose that is to be utilized has a three-inch or three-and-a-half inch diameter, the total length will increase. A lint allowance can be entered into the calculator to account for the fact that lint will accumulate within the dryer vent hose over time.

The allowance can be used to provide for the accumulation of lint after one or two years of using the dryer. The amount of lint that can accumulate within the dryer vent hose may be added to the total length in the allowance field. An “equivalent length” will represent the total length of the dryer vent hose.

The equivalent length will be compared to the length of the dryer vent hose that is specified by the dryer and its manufacturer. If the equivalent length is less than the length of the dryer vent hose that is manufactured by the dryer, the length of the vent hose will remain within normal parameters. However, if the length is near that of the limit of the dryer, the dryer will work harder to move the air through the dryer vent hose.

Additionally, if the length of the dryer vent hose is over that of the limit of the manufacturer, the dryer will work harder to move the air through the vent hose, and there is a risk of the dryer overheating. A house may have various layouts for the dryer vent hose that may or may not be represented in the dryer’s installation manual. For instance, the layout of a laundry room in a basement may require the vent hose to make turns in order to exit the structure.

Alternatively, the dryer may have to exit the structure through a second-floor closet. Each of these potential paths for the dryer vent hose will have a cost associated with the resistance within the path. The calculator can help to compare each of these alternatives to determine the path of the vent hose that will be utilized for installation.

Some common mistakes may be made in installing the dryer vent hose. For instance, individuals may only measure the length of the dryer vent hose between two walls in the house, but fail to measure for the length of the elbows. Additionally, an individual may opt to use flexible dryer vent hose for the entire length of the hose.

Such flexible duct will increase the resistance to the movement of air through the dryer. Additionally, some individuals may leave behind the original foil connector for the dryer; this also indicates resistance in the system. The type of exit hood that is used for the dryer vent hose may also impact the resistance of the vent hose.

For instance, a wall cap that has wide flaps will allow air to exit the dryer vent hose with less resistance than a hood with a bird guard or with a screen of fine mesh. The reason for the increased resistance of the hoods with the screen guard is that lint will tend to adhere to the screen, effectively restricting the exit of air. Eventually, lint will accumulate within the dryer vent hose.

Regardless of the calculations that are performed for determining the length of the dryer vent hose, lint will accumulate over time within the system. The longer the dryer vent hose, the more locations where lint can accumulate. Periodic cleaning of the vent hose will ensure that the actual length and resistance of the vent hose remains close to the calculated length.

It may not be the goal of an individual to create the shortest possible dryer vent hose. Instead, the length of the dryer vent hose may have to be long to exit in a certain location within the house. In such instances, the dryer vent hose calculator may help an individual to determine in what path the dryer vent hose should follow so that the installation of the vent hose is both effective and efficiently.

Each option for the dryer vent hose has a cost associated with it. The dryer vent hose calculator allows for an individual to consider each of these costs before purchasing the materials required to install the dryer vent hose.