This image displays a **top-down view** of the **SYOGM Sluice Set, Model 2024-NO22**, specifically highlighting its **“Fine Gold Recovery Stage #1”** — as indicated by the wooden sign mounted above the unit. ### Visual Description: - **Overall Structure**: The sluice is constructed with a bright red metal frame base, providing structural support and contrast to the other components. - **Recovery Matting**: Three parallel green-colored riffle mats (or screens) are installed across the length of the sluice channel. These mats feature a fine mesh or grid pattern designed to trap fine gold particles during processing. - **Dividers**: Between each green mat are white or translucent plastic dividers, likely serving to create separate recovery zones or to guide water flow evenly across the mats. - **Side Channeling**: On the left side, there’s a yellow plastic component that appears to be part of the side rail or water guide system, helping to maintain flow and prevent material spillage. - **Wooden Signage**: Mounted on top is a rustic-style wooden sign with black lettering reading: > **“Fine Gold Recovery Stage #1”** This indicates this is the first stage in a multi-stage gold recovery system, optimized for capturing very fine gold particles that may escape earlier coarser stages. - **Design Intent**: The combination of green matting, segmented channels, and dedicated signage suggests this model is engineered for high-efficiency fine gold capture — particularly valuable in placer mining where gold particle size varies significantly. --- ### Contextual Note: In gold recovery systems like the SYOGM Sluice Set, “Stage #1” typically refers to the initial point where material enters the sluice — here, it’s configured to immediately begin trapping fine gold via the specialized green mats. The top-view perspective allows clear observation of the mat alignment, divider spacing, and overall layout critical for optimizing recovery efficiency. This unit exemplifies modular, color-coded design for ease of assembly, maintenance, and performance tracking in field operations.