How Does Snow and Ice Affect Your HVAC System?

You’re experienced and conversant with the regular wintertime routine… After a snowfall, there are massive piles of it everywhere, and also the ice covers everything in sight. However the build-up of ice and also snow on your HVAC component can cause troubles inside your home. Here are ways your HVAC is affected by the chilly temperatures and how to make sure the effects don’t run further into the springtime or summer weeks.

Machine Works Harder

Snow and also ice may cause your system to work twice as hard as it should as it restricts its air flow. This may cause the HVAC system to short circuit and also burn out faster.

Whole System With Inefficient Operation

When ice and then snow encases the HVAC system, an emergency shut-off may then be triggered as the component freezes up. The freezing could also result in burst pipes while splitting off the heat connection inside your home.

If you have a boiler or gas furnace, the melting snow may seep into the pipes and then re-freeze inside causing the furnace to shut down.

Loud Noises in Air Handler

Ice and also snow build up on the coil fins and the aluminum fan can cause them to slowly bend. This will then result in big loud noises while operating and also may eventually burst the coil fins.

How can you protect your ailing furnace?

Be sure to shovel away any snow build-up—In addition to simply shoveling away the snow, melt away the ice with warm water and also inspect the gutters to make sure they aren’t dripping into any parts of the outdoor system.

Clear the debris near outdoor components—You also need to carefully clear any debris that’s gathered on top or around the unit

Cover the HVAC unit—What you choose to use to cover your system will depend on where the heating component is installed in your home! Nonetheless, you should ensure that there is free flow of air to prevent fire and also other hazards, and you can put up a small roof over the system or construct a freestanding shelter around the unit as well.

read here