Oxide Experts

Barton Reactor Oxide Systems

Battery performance is dependent upon the quality of lead oxide used. Eagle’s Barton Reactor Oxide Systems are designed to produce high-quality battery oxide for a wide range of battery types.

Eagle’s knowledge of lead oxides, equipment design and build makes us a leading expert to assist customers in selecting the best system for the battery type to be produced. This knowledge along with a dedicated team of support staff will carry on the Eagle tradition of superior assistance after installation and start-up to ensure your operation meets all requirements.

Three Systems to Choose from Depending on Production Requirements

EOS 500

350 to 450 Kg/Hr

700 to 900 lbs/Hr (10-Ton/Day)

EOS 1000

750 to 950 Kg/Hr

1600 to 2000 lbs/Hr (24-Ton/Day)

EOS 1200

1000 to 1200 Kg/Hr

2200 to 2600 lbs/Hr (30-Ton/Day)

EOS 500	EOS 1000	EOS 1200
350 to 450 Kg/Hr	750 to 950 Kg/Hr	1000 to 1200 Kg/Hr
700 to 900 lbs/Hr (10-Ton/Day)	1600 to 2000 lbs/Hr (24-Ton/Day)	2200 to 2600 lbs/Hr (30-Ton/Day)

Automatically Control Oxide Specifications Range

Our mechanical and electrical control systems automatically control and maintain critical operating conditions to ensure oxide quality meets specifications. With Eagle’s unique temperature monitoring and PLC control algorithms; our systems easily allow operators to produce a selected ratio of tetragonal PbO crystal structures, ranging from 68% to 82% with very little variability.

Oxide Specification

Tetragonal Crystal of Pb0

Total Free Lead

Apparent Density

Acid Absorption

Particle Size

Range

68 to82%

18 to 32%

1.2 to 1.8 g/cm3

160 to 210 mg/g

3.5 to 4.5 micron

Oxide Specification	Range
Tetragonal Crystal of PbO	68 to 82%
Total Free Lead	18 to 32%
Apparent Density	1.2 to 1.8 g/cm3
Acid Absorption	160 to 210 mg/g
Particle Size	3.5 to 4.5 micron

Key System Component Energy & Water Consumption Under Normal Operation

Cost of operation is always a consideration in any equipment purchase and Eagle’s Barton Reactor Oxide Systems are the most efficient in the industry. Environmental conditions and ease of use for the operator are demanding elements in any processing equipment. Eagle understands these requirements and has developed a control system that provides operators with single Start-Up and Shut-Down buttons for the entire system. The control also monitors multiple sensors and will automatically shut down the system and alert the operator of any critical issue.

The following chart indicates energy consumption of key components of the system and overall average per hour during normal operation. (*The kW numbers are based on 460V service; values at other voltages should be calculated.)

Utility Use Device

Lead Melt Pot

Reactor Pre-Heat

Electric Motors in System

Water Feed System

Avg. Consumption/Hr*

EOS 500

30 kW

33 kW

45 kW

50 liters/hr max.

45 kW

EOS 1000

60 kW

63 kW

55 kW

75 liters/hr max.

90 kW

EOS 1200

75 kW

65 kW

100 liters/hr max.

110 kW

Utility Use
Device

Lead Melt
Pot

Reactor
Pre-Heat

Electric
Motors

Water Feed System

Avg. Consumption
/Hr*

EOS
500

30 kW

33 kW

45 kW

50 liters/
hr max.

45 kW

EOS
1000

60 kW

63 kW

55 kW

75 liters/
hr max.

90 kW

EOS
1200

75 kW

65 kW

100 liters/
hr max.

110 kW

Utility Use Device	EOS 500	EOS 1000	EOS 1200
Lead Melt Pot	30 kW	60 kW	75 kW
Reactor Pre-Heat	33 kW	63 kW	75 kW
Electric Motors in System	45 kW	55 kW	65 kW
Water Feed System	50 liters/hr max.	75 liters/hr max.	100 liters/hr max.
Avg. Consumption/Hr*	45 kW	90 kW	110 kW