Innovation and collaborative, synchronized program management for new programs
Operational excellence and innovation are critical requirements to lead and succeed in today’s chemical and petrochemical processing industries. Our integrated simulation solutions for multi-physics and test will enable your engineering teams to predict process performance, optimize for energy and process efficiency, reduce byproducts and waste, and troubleshoot sub-optimal processes.
Operational excellence and innovation are critical requirements to lead and succeed in today’s chemical and petrochemical processing industries. Our integrated simulation solutions for multi-physics and test will enable your engineering teams to predict process performance, optimize for energy and process efficiency, reduce byproducts and waste, and troubleshoot sub-optimal processes.
Chemical & Process Industry Special Report
Maintaining profitability in the chemical and process industry requires a sustained focus on operational excellence and innovation. Multiphysics simulation is a key enabling technology for achieving operational excellence, and leading companies have deployed simulation across several areas of their businesses. The articles in this Special Report highlight a few examples of this, covering a range of applications that demonstrate the value of simulation in the industry.
Operational excellence is the key to increasing profitability in the chemical process industries. With the constant demand for innovative new materials, every step of the process to convert raw materials into higher value products requires a deep understanding of complex multiphase and reaction phenomena. Your goal may be to improve under-performing equipment or to replace it with entirely new designs that reduce waste and energy consumption with increased yields. Or perhaps you're looking to evolve your processes to be more sustainable and environmentally friendly.
To outperform in today’s competitive process industry, engineers need tools that enable them to develop the most complete understanding of the complex physical and chemical processes occurring in the equipment they design and troubleshoot; levels of understanding far beyond those provided by experiments or basic engineering principles.
Our portfolio of solutions combines:
Together they provide a virtual engineering and analysis environment for predicting overall process performance, validating designs, or troubleshooting sub-optimal processes allowing engineering teams to achieve operational excellence, faster.
Explore the key areas of this solution.
Design and optimize processes involved in extrusion, co-extrusion, thermoforming, coating, fiber drawing and concrete shaping for non-Newtonian materials with complex rheological characteristics.
From cyclone and electrostatic separators to distillation columns, our simulation solutions allow you to track a wide range of performance indicators to design and optimize flow distribution, separation equipment and processes.
Increase combustion and thermal efficiency to reduce energy consumption while increasing yield, selectivity, and sustainability. Meet government regulations without compromising profit or process efficiency.
Leverage sophisticated multiphysics simulations to improve energy efficiency, increase throughput, reduce the cost of process scale-up, and make complex phase interactions feasible for innovative reaction schemes.
Use multiphysics simulations of particulate transport processes to save energy and increase operational efficiency while scaling up, and to attain the performance efficiency required to maintain product quality.
The use of computer-aided engineering (CAE) significantly reduces workload while ensuring reliability and improving medical device designs. Enginee...
Achieving Operational Efficiency in High Temperature Processes
CFD & System Simulation play key roles in Tetra Pak’s end-to-end food processing and packaging solutions
Solve complex multiscale problems faster using advanced simulation