As shown in the artist rendering, duct balloons are always installed on the “safe side” of the dampers. The space in between the damper and the duct balloon should be ventilated by cutting access holes in the duct work in order to relieve any pressure that could build up in this area. This is known as “double block and bleed” and should always be incorporated when using any type of temporary barrier in this manner. Always consult your company's safety department or the person in responsible charge before making a decision to use ANY type of temporary barrier!

SCR catalyst materials can be very hygroscopic. Atmospheric moisture drawn by the hygroscopic characteristics of any accumulated fly ash can react with any fly ash already accumulated, and form a concrete-like coating on it and inside the catalyst elements.

Even though the balloon material can be rated to 500ºF (205ºC) insulation between the damper and the balloon may be required to protect it from any high heat surfaces for which it could come in contact.

The duct balloon is brought into the duct work at the desired installation location and placed into position prior to inflating it. Grab handles are sewn into the balloon to provide a means to maneuver it in place. The inflation tube is permanently attached to the balloon at a location specified by the customer, usually near the man way. The end of the inflation tube is then connected to the blower system, which is normally placed outside the SCR or FGD system on the floor grating. Once the blower is activated the balloon will inflate in about 5-10 minutes depending on its size.

Duct balloons for these applications can be as large 20’0” high x 100’0” wide. But even a large duct balloon of this size could be made in sections with the weight not to exceed more than 100 lbs pounds per section. Each section could be made so that it would be able to be installed through an existing man way as small as 24” x 30”.

Duct Balloon

Inflatable Isolation Barriers