Reactor E-10hp

  • Created
    Sunday, 13 December 2020
  • Created by
    Super User
  • Last modified
    Sunday, 13 December 2020
  • Revised by
    Super User
  • Voting
    Average rating
    • 1
    • 2
    • 3
    • 4
    • 5
  • Favourites
    19 Reactor E-10hp /index.php/content_page/item/19-reactor-e-10hp
  • Categories
    Reactor Proportioners

Reactor E-10hp 

High-Pressure Coating Equipment for Polyurea
Entry-level system for pure and hybrid polyurea coatings

 

20130515_174156_sm

Grow your business with polyurea projects

If you'd like to add polyurea projects to your lineup, the Reactor E-10hp High Pressure Proportioner is a smart, affordable investment that can help your business grow.

The Reactor E-10hp provides the high pressure power and performance you need to spray polyurea coatings. It's lightweight and portable – and runs on residential power so you don’t need to invest in a generator.

 

Fast start-up times

With the system’s innovative boost heat and insulated tanks, material heats up fast so you’re up and running sooner. In fact, you're ready to spray in 20 minutes*, compared to over an hour startup time on a standard Reactor E-10. See chart below.

*With a 240V model

 

 

Related Links

  • Sign Up for Updates
 
  • Features
  • Resources
  • Specifications
  • Materials
  • Applications
  • Industries
  • Related Products
  • Ideal for small to medium projects such as terraces, pools, balconies,
    tanks, truck bedliners, secondary containment and waterproofing
  • Heats material fast for better productivity
  • Portable, compact and easy to maneuver
  • Easy to use
  • Uses standard residential electrical outlet
  • Affordable 
 

 

chart_Pres_Flow
 

This chart determines material output based on pressure and selected mix chamber. For example:

  • At 2200 psi with an AW2222 mix chamber, output is nearly 0.9 gpm
  • At 1800 psi with an AR2929 mix chamber, output is nearly 1 gpm 
 
 

 

 

E10h_chart_MaxTemp

Use this chart to determine which Reactor E-10 model is best suited for your application needs. This chart determines recirculation times and tank temperatures necessary to achieve your final spraying temperature.

  • Curved portion of line represents tank temperature.
  • Straight vertical portion of line represents Delta T of primary heaters.

To calculate necessary tank temps, subtract Delta T from your desired spray temperatures.