Modular Chemical Processing Intensification makes use of new technology that’s smaller, safer, and more energy-efficient, and/or combining multiple operations into fewer ones.
Benefits
Modular chemical processing intensification pays off at both molecular and process levels. At the process level, it can drive many economic, safety, and environmental benefits, including:
- Increasing efficiency by reducing process size and complexity, and number of barriers
- Lowering capital costs and raw material usage
- Reducing energy consumption by introducing low-energy technology and reducing the equipment number and space needed for operations
- Improving process safety by employing smaller processes and requiring less chemical inventories
- Lowering negative environmental impacts by producing less waste and pollutants
At the molecular level, it can maximize molecular interactions that result in reactions, create a consistent processing experience, enhance driving forces at every level, and introduce multifunctionality, which can offer additional advantages.
Applications
- Chemical Manufacturing
- Power Industry
- Biofuels
- Water Treatment and Recycling
- Oil and Gas Extraction
- Petroleum Refining
The Argonne Advantage
Initiating and optimizing process intensification are complex feats, requiring deep and diverse knowledge tools. Argonne is among the few places that unites both the right knowledge and the right tools needed to innovate and gain a competitive edge. Argonne capabilities that can be leveraged to advance modular chemical process intensification include expertise and facilities that enable:
- Process simulation
- Process development and scale-up (bench-to-pilot and field-scale)
- Synthesis of advanced hierarchal materials and catalysts
- High performance computing
- Computational fluid dynamics
- Techno-economic assessment
- Life-cycle analysis