Vietnam Mixed MSW Project
The project covers 1.5 hectares with a total investment of 400 million RMB, processing 300 tons of mixed waste daily. It adopts a 'shredding + multi-stage sorting + drying + fine shredding' process.
Case Overview
The project covers 1.5 hectares with a total investment of 400 million RMB, processing 300 tons of mixed waste daily. It adopts a “shredding + multi-stage sorting + drying + fine shredding” process, using mechanical sorting and optoelectronic technology to separate metals, inorganic materials, and PVC. After drying to reduce moisture and sorting combustibles, SRF fuel is ultimately produced. Output includes ferromagnetic metals, non-ferrous metals, inert materials, PVC, fine sand, low-value combustibles, and finished SRF, transported to power plants for incineration or sold externally.
Project Parameters
| Parameter | Details |
|---|---|
| Application Scenario | Material Recovery and Sorting Center |
| Project Location | Taiwan, China |
| Processing Capacity | 300 tons/day |
Project Background and Treatment Objectives
The Vietnam Mixed MSW Project belongs to the material recovery and sorting center scenario, located in Taiwan, China, with a processing capacity of 300 t/d.
The project covers 1.5 hectares with a total investment of 400 million RMB, processing 300 tons of mixed waste daily. It adopts a “shredding + multi-stage sorting + drying + fine shredding” process, using mechanical sorting and optoelectronic technology to separate metals, inorganic materials, and PVC. After drying to reduce moisture and sorting combustibles, SRF fuel is ultimately produced.
Output includes ferromagnetic metals, non-ferrous metals, inert materials, PVC, fine sand, low-value combustibles, and finished SRF, transported to power plants for incineration or sold externally.
Process Route and System Configuration
Centered around project treatment objectives, the solution focuses on process organization, core equipment coordination, and material sorting pathways, forming a stable treatment and resource recovery flow.
Adopting a “shredding + multi-stage sorting + drying + fine shredding” process, using mechanical sorting and optoelectronic technology to separate metals, inorganic materials, and PVC. After drying to reduce moisture and sorting combustibles, SRF fuel is ultimately produced.
Sorted Output and Resource Recovery Value
The project’s value is reflected in material resource recovery, final output, environmental compliance, and operational efficiency.
Adopting a “shredding + multi-stage sorting + drying + fine shredding” process, using mechanical sorting and optoelectronic technology to separate metals, inorganic materials, and PVC. After drying to reduce moisture and sorting combustibles, SRF fuel is ultimately produced.
Output includes ferromagnetic metals, non-ferrous metals, inert materials, PVC, fine sand, low-value combustibles, and finished SRF, transported to power plants for incineration or sold externally.
