Hybrid Process Overview MITSUBISHI CHEMICAL ENGINEERING CORPORATION
- Plant Engineering & Construction (EPC)
- Energy Creation & Conservation
- Environmental Equipment
- Recycling & Resource Circulation
- Process Design, Facility Design, Engineering
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Target Sector (English)
・For customers in various plants and factories considering energy efficiency improvements.
・For customers seeking solutions to achieve carbon neutrality.
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Use Scenes (English)
Separation of large-scale process streams with azeotropic or close-boiling components in energy-intensive processes.
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Sales point (English)
Overview of the Hybrid Process
Energy-intensive processes such as distillation continue to play a vital role as highly effective separation operations. However, they are also a major source of CO₂ emissions in manufacturing processes.
Mitsubishi Chemical Engineering leverages the unique advantages of each separation technology to propose optimized hybrid processes, contributing to energy savings and CO₂ reduction for our customers.
| Notices (English) | Benefits of Implementing Mitsubishi Chemical Engineering’s Hybrid Process. 1.Achieves energy savings by combining distillation and membrane separation. 2.Optimizes operating and capital costs. (OPEX & CAPEX) 3.Minimizes energy use leveraging the strengths of each process. → By incorporating membrane separation, energy consumption can be reduced by ~50% vs. conventional distillation. |
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MITSUBISHI CHEMICAL ENGINEERING CORPORATION
https://www.mec-value.com/- Japan exhibitors
- Real
- Plant Show 2026
- Plant Show
- Booth number 2-C18
