What is a splitter damper used for?

What is a splitter damper used for?

Splitter damper hardware is used there’s a main rectangular duct line that splits into two other duct lines; the splitter Damper is in the main duct line and is used to close off one of the other duct lines or to reduce the flow into one of them.

What is a turning vanes in ductwork?

HVAC turning vanes are sheet metal devices inside of mechanical ductwork used to smoothly direct air inside a duct where there is a change in direction, by reducing resistance and turbulence.

How do you damper ducts?

To open the damper, you should turn the lever at a position where it’s paralleled with the duct. This allows the air to flow through the ducts to its fullest. Then, adjust the lever to a position horizontal to the duct to close it.

What is damper position?

Dampers are the mechanism used to do so. The further the damper is open, the more hot or cold air flows into the room depending on whether you are heating or cooling the room. As the temperature fluctuates, the damper position will dynamically adjust to automatically regulate the temperature.

Where are dampers in ductwork?

Typically in most homes, your HVAC dampers are located in the main supply trunks. The supply trunks are the parts of the ductwork that are blowing warm air or cold air depending on the season.

Do you need turning vanes in return duct?

Turning Vanes are a necessary and important component to the HVAC system. “When Airflow changes direction in a duct that lacks turning vanes, the walls of the duct must absorb the sudden impact of the air in order to reorient the airflow to the direction desired.

How turning vanes help reduce turbulence in an air duct?

The largest amount of turbulence occurs when air traveling through the system hits a 90-degree elbow. Turning vanes use a radius to direct air through a 90-degree turn, reducing both turbulence and friction in the elbow. Installing turning vanes correctly ensures air moves through the elbow without disruption.

How does a damper work?

A damper has a piston which moves inside a sealed, oil-filled cylinder with the up-and-down movement of the wheel. There are narrow control passages and one-way valves in the piston, which allow oil to flow through it from one chamber to another – but only very slowly.

What is damper control?

An electronic damper simply controls the air flow (and therefore the temperature) by adjusting its position. The installation of damper control is very simple: Put the dampers into the duct, usually where the ductwork makes branches to the individual rooms.

How do I know if my duct damper is open or closed?

If you are looking at a duct that is coming off the furnace and going straight up like it is going to the upstairs, and the wing is in the same direction as the duct, it is open. If the wing is in the opposite or vertical position to the ductwork, then the damper is closed.

What is the difference between volume control damper and splitter?

Rather than splitter, volume control damper is preferred. Turning vanes are vanes present in ducts when the direction of air has to be changed. They are present to reduce the turbulence of air pattern when direction changes. If installation is not proper, it might increase in static loss. Turning vanes are used generally in elbows.

Turning vanes are vanes present in ducts when the direction of air has to be changed. They are present to reduce the turbulence of air pattern when direction changes. If installation is not proper, it might increase in static loss.

What are balancing dampers used for?

Since air travels to the path of least resistance, balancing dampers are used to equalize the air flow. In order to truly balance the air, you will first need what’s called a manual D. A manual D is what is used to properly design duct work installations using industry proven methods.

Why do small ducts have lower velocity than large ducts?

Since most of the friction associated with moving air through a straight duct is related to the interaction of the air with the duct wall at the perimeter, then a small duct must operate at a lower velocity than a larger duct of the same aspect ratio if the friction rate is to be held constant.

https://www.youtube.com/watch?v=g5NRq8CbAYw