Control performance drifts under real operating conditions
Atlas identifies the cause and restores stable control performance within your existing ecosystems.
Madhur Bedre
President, Small Business Person of the Year, West Virginia
Madhur Bedre
President, Small Business Person of the Year, West Virginia
"The gap between expected and actual performance is where most plants lose value. Closing that gap requires discipline, context, and collaboration under real operating conditions."
"The gap between expected and actual performance is where most plants lose value. Closing that gap requires discipline, context, and collaboration under real operating conditions."
Performance degradation doesn’t happen in one place. It develops across the process, control system, and operating layer.
This is where plants lose performance. Atlas identifies where it’s happening and corrects it within existing systems.
Performance degradation doesn’t happen in one place. It develops across the process, control system, and operating layer.
This is where plants lose performance. Atlas identifies where it’s happening and corrects it within existing systems.
Who we are
Engineers at the intersection of the petrochemical industry, process control, and AI
Engineers at the intersection of the petrochemical industry, process control, and AI
We work inside operating plants to restore and sustain control performance
We work inside operating plants to restore and sustain control performance
Atlas works within existing control systems to identify performance gaps and correct them using process expertise, advanced process control, and AI.
The focus is stability, variability reduction, and sustained performance in live operating plants.
Atlas works within existing control systems to identify performance gaps and correct them using process expertise, advanced process control, and AI.
The focus is stability, variability reduction, and sustained performance in live operating plants.
80%
Faster root cause identification
50%+
Reduction in off-spec production
400+
Additional production hours per year
What we do
Software, project delivery, and ongoing support
Software, project delivery, and ongoing support
Engagement models for sustained control performance
Engagement models for sustained control performance
Atlas supports plants through a combination of software, project delivery, and ongoing operational support.
Atlas supports plants through a combination of software, project delivery, and ongoing operational support.
What plant teams and partners say about Atlas
“Atlas has differentiated itself as a key provider of both services and digital technology solutions.”
R&D Director, Global Polyolefins Licensor
Process Engineer, Global Chemical Company
Technology Manager, Global Polyolefins Licensor
R&D Director, Global Polyolefins Licensor
What plant teams and partners say about Atlas
“Atlas has differentiated itself as a key provider of both services and digital technology solutions.”
R&D Director, Global Polyolefins Licensor
Process Engineer, Global Chemical Company
Technology Manager, Global Polyolefins Licensor
R&D Director, Global Polyolefins Licensor
Where we work
Petrochemical, polymer, and specialty chemicals
Petrochemical, polymer, and specialty chemicals
Process environments where control performance matters
Process environments where control performance matters
Atlas works in complex, continuous process environments where control performance directly impacts stability, throughput, and economics.
Atlas works in complex, continuous process environments where control performance directly impacts stability, throughput, and economics.
Continuous chemical processes
Polymer & petrochemical
Oil & Gas
Batch & specialty chemicals
Continuous chemical processes
Complex, highly coupled processes where control performance directly impacts stability, throughput, and energy efficiency.
Reactor and separation system control
APC performance and constraint management
Variability and disturbance handling
Continuous chemical processes
Complex, highly coupled processes where control performance directly impacts stability, throughput, and energy efficiency.
Reactor and separation system control
APC performance and constraint management
Variability and disturbance handling
Polymer & petrochemical
Large-scale systems with strong process interactions and sensitivity to operating conditions.
Reactor stability and grade transitions
Heat transfer and fouling effects
Model alignment over time
Oil & Gas
Integrated systems where small inefficiencies propagate across units.
Constraint handling and optimization
Throughput vs stability tradeoffs
Cross-unit performance interactions
Batch & specialty
Dynamic processes with frequent transitions and variability challenges.
Batch consistency and repeatability
Transition optimization
Operator dependency reduction
Continuous chemical processes
Complex, highly coupled processes where control performance directly impacts stability, throughput, and energy efficiency.
Reactor and separation system control
APC performance and constraint management
Variability and disturbance handling
Polymer & petrochemical
Large-scale systems with strong process interactions and sensitivity to operating conditions.
Reactor stability and grade transitions
Heat transfer and fouling effects
Model alignment over time
Oil & Gas
Integrated systems where small inefficiencies propagate across units.
Constraint handling and optimization
Throughput vs stability tradeoffs
Cross-unit performance interactions
Batch & specialty
Dynamic processes with frequent transitions and variability challenges.
Batch consistency and repeatability
Transition optimization
Operator dependency reduction
Polymer & petrochemical
Polymer & petrochemical
Large-scale systems with strong process interactions and sensitivity to operating conditions.
Reactor stability and grade transitions
Heat transfer and fouling effects
Model alignment over time
Oil & Gas
Oil & Gas
Integrated systems where small inefficiencies propagate across units.
Constraint handling and optimization
Throughput vs stability tradeoffs
Cross-unit performance interactions
Batch & specialty chemicals
Batch & specialty
Dynamic processes with frequent transitions and variability challenges.
Batch consistency and repeatability
Transition optimization
Operator dependency reduction