eLearning courses
- ELA300: RAPID's Fundamentals of Process Intensification
- ELA301: RAPID's Intensified Reaction Processes
- ELA302: Process Intensification in Separation Processes
- ELA303: Fundamentals of Intensified Heat and Mass Transfer
- ELA304: Intensified Distillation Processes
- ELA306: Introduction to Process Safety for Process Intensification and Modular Chemical Process Intensification
- ELA350: Process Design for Process Intensification
- ELA351: Modeling and Simulation for Process Intensification
- ELA352: Introduction to Modular Chemical Process Intensification
- ELA354: A Practical Guide to Life Cycle Assessment (LCA) and Life Cycle Thinking
- ELA355: A Practical Guide to Techno-Economic Analysis
Face-to-Face Courses
- CH375: Modular Chemical Process Intensification Boot Camp
- CH376: Emerging Membrane Processes for Water Purification
Webinars
- Engineering for Bankability
- RAPID Success Stories: Lessons Learned in Developing Plant-Based Surfactants
- Generating Outrageously Good Ideas
- Distributed Processing Series: Taking Advantage of Feedstocks
- Smart Manufacturing for the Process Industries
- Distributed Processing Series: Business Case for Resilience by Design
- Batch to Continuous Processing in the Pharmaceutical Industry
- Chemical Process Electrification: An Overview
- Process Intensification – Breakthrough in Design, Industrial Innovation Practices, and Education
- Computational Catalysis: A Process Intensification Tool
- Computer-Aided Process Intensification: Challenges, Trends and Opportunities
- Process Intensification in the Pulp & Paper Industry
- The Link Between Process Safety and Process Intensification
- Time-Scale Analysis: A Process Intensification Tool
- Design, Application & Economics of Process Intensification
- Modular Chemical Process Intensification: Discovering Opportunities and Overcoming Challenges
- Modular Carbon Capture
- Sustainable Development through Process Intensification
- The Value of Process Intensification for Module Manufacturing
- How to Do Process Intensification: Methodology for PI Equipment Selection
- PI Principles: Time - Focus on Oscillatory Baffled Reactors
- PI Principles: Time – PI in the Temporal Domain
- PI Principles: Synergy – Focus on Reactive Distillation
- PI Principles: Synergy – PI in the Functional Domain
- PI Principles: Energy - Dynamic Continuous Flow Reactors
- PI Principles: Energy – PI in the Thermodynamic Domain
- PI Principles: Structure - Focus on Micro- and Millireactors
- PI Principles: Structure - PI in the Spatial Domain
- Intro to PI Principles and Approaches: Structure, Energy, Synergy and Time