Hospital Medical Waste Treatment
Suitable for on-site and centralized hospital waste sterilization systems.
The Steam-Microwave System is an innovative medical waste treatment technology developed by EASE Canada, combining the synergistic effects of saturated steam and microwave energy to achieve rapid and highly efficient sterilization.
Unlike conventional steam-only or microwave-only systems, this patented technology integrates external thermal penetration (steam) with internal volumetric heating (microwave), enabling simultaneous inside-out and outside-in sterilization of medical waste.
Combined steam and microwave energy enables simultaneous internal and external heating, significantly reducing sterilization time to as low as 5 minutes.
Steam provides external thermal transfer while microwaves penetrate directly into waste mass, ensuring uniform and complete sterilization.
Lower sterilization temperature prevents material adhesion, improving post-treatment sorting and recycling efficiency.
High-vacuum air extraction improves thermal efficiency and ensures stable sterilization conditions throughout the cycle.
Suitable for on-site and centralized hospital waste sterilization systems.
Ideal for regional medical waste treatment plants requiring high throughput and efficiency.
Supports downstream recycling processes through improved sterilization quality and material separation.
The Steam-Microwave System represents the next generation of hybrid sterilization technology, integrating thermal, microwave, and vacuum engineering into a single intelligent platform. EASE continues to advance this technology toward fully automated operation, higher energy efficiency, and global deployment across decentralized healthcare systems.
The Steam-Microwave System integrates steam and microwave sterilization technologies to deliver high-efficiency, low-temperature, and fully controlled medical waste treatment. Developed by EASE Canada, USA, and China, the system provides a compact, flexible, and highly efficient solution for global healthcare waste challenges.