User's Manual

ManualsBrandsGraco ManualsSprayersGraco Reactor E-10hp

AW2222

AR2020

(000)

AR4242

(01)

AR2929

(00)

E-10

E-10hp/120V

E-10hp/230V

PRESSURE PSI (Bar)

3500

(241)

3000

(207)

2500

(172)

2000

(138)

1500

(103)

1000

(69)

500

(34)

FLOW gpm (lpm)

PRESSURE vs FLOW — E-10hp, E-10 with various mix chambers

Material Output

0 0.2

(.75)

0.4

(1.5)

0.6

(2.3)

0.8

(3.0)

(3.8)

1.2

(4.5)

E-10

E-10hp

-120V

E-10hp-230V

MACHINES

MIX CHAMBERS

AR2020

(000)

AW2222

AR2929

(00)

AR4242

(01)

MAXIMUM SPRAY TEMPERATURE °F

(

°C

)

(assuming 1 gpm ﬂow)

60°

(16)

80°

(27)

100°

(38)

120°

(49)

140°

(60)

160°

(71)

180°

(82)

TIME (minutes)

0 10 3020 40 50 60 70

Reactor E-10hp

Reactor E-10

MACHINES

230V

120V

230V

120V

MAX SPRAY TEMPERATURE vs TIME — E-10hp, E-10

Recirculation Times

∆ = 30°F (17°C)

∆ = 27°F (15°C)

∆ = 26°F (14°C)

∆ = 45°F (25°C)

Grow your business with polyurea applications

The Reactor E-10hp

™

is an ideal entry-level system and is great for coating

projects such as balconies, pools, waterprooﬁng and bedliner applications.

It’s a smart, affordable investment that will help your business grow.

And even though it’s an entry-level system, it still packs plenty of power. The Reactor

E-10hp adds high pressure to give you the power and performance you need to

spray polyurea coatings. This compact unit is lightweight and portable – and even

runs on residential power so you don’t need to invest in a generator.

Boost heat for fast, 20-minute startup 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 a fraction

of the time, compared to over an hour startup time on a standard Reactor E-10

™

The boost heat uses the extra available power from the motor circuit when the

machine is recirculating and applies that extra power to additional heater rods.

Which means that during recirculation mode, you have additional total heater

amperage for faster material heating.

Material Output

This chart determines material output based

on pressure and selected mix chamber.

Examples:

• At 2200 psi with a AW2222 mix chamber,

output is nearly 0.9 gpm

• At 1800 psi with a AR2929 mix chamber,

output is nearly 1 gpm

Recirculation Times

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 the line represents Delta T

of primary heaters

To calculate necessary tank temperatures, subtract Delta T

from your desired spray temperature.

Examples:

• You want to spray the 230V E-10hp at 170°F (77°C).

Subtract 45°F (25°C) (Delta T) from 170°F (77°C) for a tank

temperature of 125°F (52°C). It will take about 20 minutes

of recirculation time to reach a tank temp of 125°F (52°C).

• You want to spray the 120V E-10hp at 150°F (66°C).

Subtract 30°F (17°C) (Delta T) from 150°F (66°C) for a tank

temperature of 120°F (49°C). It will take about 24 minutes

of recirculation time to reach a tank temp of 120°F (49°C).

* Startup time is 20 minutes with the 230V model.

Power, pressure and performance