Terminal Automation
Our terminal automation systems offer unmatched flexibility and virtually limitless customization options for remotely accessing and managing your terminals.
Take Complete Control Of Your Operation
Dearman handles hardware interfaces, process control, and secure-access management for your bulk petroleum, chemical, renewable fuels, aviation, liquified natural gas (LNG) or liquified petroleum gas (LPG) terminal.
Supported Measurement Types
Weigh Scales

Volume &
Mass Metering

Manual Loading

Dearman's Terminal Automation Systems
We have out-of-the-box solutions for small operators as well as fully-customizable systems for large-scale operations.
RTG - Ready-To-Go Terminal Automation
For small to medium sized operations, RTG is designed to be remotely installed and comes in standard communication configurations (2-port or 4-port) depending on the number of devices you need to control.
TAS.net
Highly scalable and customizable, TAS.net can connect to an unlimited number of instruments to fully integrate your terminal operations.
What is a Terminal Automation System?
Terminal Automation is a solution by which software automates certain manual processes in a terminal. The software is flexible and open to integration with the overall business processes and system for process control / monitoring systems (PLC and other automation equipment). It bridges the gap between the Enterprise Resource Planning (ERP) and Supervisory Control and Data Acquisition (SCADA) systems.
Enterprise Resource Planning
Terminal Automation System

SCADA
Controls (PLC)
Field Devices and Instruments
Key Benefits
Reduce Engineering and Maintenance Costs and Time
Increase Productivity and Make Operators More Effective
Improve Customer Experience
Better Protect People, Facility Assets, and the Environment
Terminal Graphics Builder
Utilizing drag and drop technology, the Dearman Terminal Graphics Builder software creates a graphical representation of the distributed process lines employed within your facility and integrates the PLCs, process controllers, pumps, and motor operated valves of those process lines into a fully interactive system. With control over the individual subsystems, the overall process can then be managed centrally and represented graphically as a complete system.
