Exhaust

Exhaust filtration efficiencies can affect the paint booth operation by impacting booth balance, booth maintenance, cleaning costs and the liability associated with paint deposits on adjacent properties. With emissions standards governed by several factors, most paint exhaust systems now include multi-stage filtration products. A.J.Dralle specializes in creating systems that will meet or exceed all government and state paint filtration regulations.

Listed below are our exhaust filtration products. For filters specific to your industry, click aerospace, industrial, or automotive.
 

Andreae

Andreae Industry: Industrial, Automotive
Uses: Exhaust paint overspray

Andrea filters are accordion style, pleated paper filters for spray booth exhaust. They are an economical, efficient alternative to common overspray collection filters. The v-shaped front wall prevents overspray bounce back and particle migration. A deeper v-shape back wall captures overspray and deposits it outside of the airflow. Filter exhaust holes are positioned to maintain constant airflow during the loading phase. Static pressure increases slowly with the accumulation of overspray resulting in uniform airflow.

CG100 Bag

CG100 Bag Industry: Aerospace and Industrial
Uses: Paint Overspray

The CG100 Paint Overspray Collection System has the highest efficiency and lowest resistance of any product of this kind yet developed. Designed as the second stage in the paint overspray collection system, it should be pre-filtered with PAG or CPA media.

CPA

CPA Industry: Aerospace and Industrial
Use: Paint Overspray

CPA paint overspray media is composed of multi-layered, graduated density polyester.

CPA Gold

CPA Gold Industry: Aerospace and Industrial
Use: Paint Overspray

CPA Gold paint overspray media is composed of multi-layered, graduated density polyester.

Fiberglass

Fiberglass Industry: Automotive
Uses: Exhaust paint overspray

All A.J. Dralle’s fiberglass exceeds NESHAP 6H standards. Available in various weights and thicknesses, with or without poly. Fiberglass can be cut to meet specific needs.

HEPA-XFP™

HEPA level paint booth overspray filtration system for aerospace applications

HEPA-XFP™

First Stage

The CPA pre-filter is a multi-layered polyester media constructed of lofted denier and heavier densified fiber. The air leaving side is inkjet printed for identification and proper installation.

Second Stage

The ME/PT pre-filter is constructed of two different layers of tackified polyester media, RF heat-sealed together. Additional face sealing secures the two layers. Each layer is constructed of a multi-layered, multi-density polyester with heavy, non-migrating tackifier on the air-leaving side.

Third Stage

The first patented HEPA level achieving filtration system designed for aerospace applications. The HEPA-XFP™ 6 Pocket Bag Filter is constructed using 2 plies of electrostatic medias. The first and second plies are a composite of melt blown and spun bound polyester fibers. The third, air leaving ply, is constructed of polypropylene and acrylic media.

ME Series: ME, ME4, ME/PT

ME-4 Panel Industries: Aerospace, Industrial, Automotive, and HVAC
Uses: Air intake, dry paint overspray collection

ME is a universal media used for both air intake systems as well as overspray collection for dry or powder paints. ME air filtration media is manufactured with multi-layered polyester and tackifier. With high efficiency and dust-holding capacity, the ME makes an excellent pre-filter for higher efficiency systems, or for upgrading existing systems. ME media has exceptional results when used for dry and powder paint overspray collection. ME is often combined with other medias to create industry specific filters. The ME/PT is used for Aerospace applications and ME4 for air intake in all industries.

PAG

PAG

Industries: Automotive and Industrial
Uses: Exhaust and Paint Overspray

PAG paint overspray media is made from multi-layered, multi-density polyester. High efficiency and paint-holding capacity make the PAG paint overspray media is a cost-effective replacement for any paint booth. Similar construction to the CPA. PAG is a cost-effective replacement for fiberglass.

Paper Mesh

Paper MeshThe Research Products line of paper mesh paint arrestors is manufactured with slit and expanded paper or slit and expanded paper with polyester. The air intake side has larger openings than the exit side, allowing for depth loading and maximum service life.

PPA

PPA Industry: Automotive and Industrial
Uses: Paint Overspray and Exhaust

 

PPA paint overspray media is made from multi-layered, multi-density polyester. High efficiency and paint holding capacity make PPA paint overspray media an economical replacement for any paint booth. Composed of 20% recycled polyester fibers, PPA is a cost-effective alternative to paper, paper/poly and fiberglass rolls or pads.

Wave Media

Wave MediaIndustry: Aerospace, Industrial, Automotive
Uses: Exhaust paint overspray

The Wave media has a convoluted surface designed to create a maximum surface area of filtration with exceptional depth loading ability. This filtration media not only removes overspray from the spray booth’s exhaust air flow, the “Waves” capture and retain overspray within the media, reducing run-off.

The Wave has excellent paint removal efficiency to minimize particulate emissions. It accommodates all paints and a wide array of spray applications from clear coats to high solids and beyond.

XFP 6000 Bag

XFP 6000 Bag

XFP-6000: 3-stage paint booth overspray system for aerospace application

A state-of-the-art 3-stage paint overspray system specifically designed for the collection of aerospace chromate coating overspray. Can also be easily adapted to older, two-stage paint finishing lines.

First Stage

The CPA pre-filter is a multi-layered polyester media constructed of lofted denier and heavier densified fiber. The air leaving side is inkjet printed for identification and proper installation.

Second Stage

The ME/PT pre-filter is constructed of two different layers of tackified polyester media, RF heat-sealed together. Additional face sealing secures the two layers. Each layer is constructed of a multi-layered, multi-density polyester with heavy, non-migrating tackifier on the air-leaving side.

Third Stage

The XFP-6000 pocket bag filter is constructed using 2 plies of electrostatic medias. The first and second plies are a composite of melt blown and spun bound polyester fibers.