Effective solids handling is paramount in achieving a free-flowing food waste disposal system. As in any process in which solids and debris are present in a liquid stream, food waste can be a particularly challenging medium for pumps and other process equipment to handle without properly conditioning the liquid. Properly conditioned liquids will be homogenous in consistency, and any floatable solids will be reduced to a size that is compatible with downstream pumps, process components and dewatering devices. Any hard foreign objects will have been captured and removed from the liquid stream before contacting downstream components.
It is often not realistic to properly condition the liquid in one step. Figure 1 shows a complete solids handling system composed of multiple grinders and a positive displacement rotary lobe pump to provide flow. In food waste handling, two major designs are commonly specified—the twin-shaft solids grinder and the inline macerator. Depending on the waste being processed, one design may be better suited than the other. In some cases, a combination may be the most effective choice. In the most challenging scenarios, solids can be reduced in steps through a series of grinders, ranging from coarse to fine.
Figure 1. The anatomy of a complete solids handling system
Moving from left to right in Figure 1, the first component that the liquid encounters is a twin-shaft grinder. This device reduces large, solid objects to a size suitable for the inline macerator to reduce to a designated size. The twin-shaft grinder, in this case, would provide a coarse grind to reduce the solids somewhat closer to their intended final size.
After the twin-shaft grinder, the liquid is drawn into the inline macerator, a precision grinding device that delivers a cut solid to a specified size. Because of the intense rotation of the cutting elements, the liquid is also homogenized during grinding. Homogenizing the liquid improves the flow characteristics of the overall system and reduces the likelihood of a downstream clog or pulsation.
In addition to solids reduction, the inline macerator will provide solids separation. Separation would occur when a hard solid object is flowing in the liquid stream. Hard solids are typically non-organic objects—such as stones or metal fragments—that find their way into a waste stream. Although they get pushed along with the liquid, they will sink at the first opportunity. The inline macerator features a collection pot, in which hard solids are captured and removed from the liquid stream. In Figure 1, metal objects would be collected in the pot of the inline macerator and periodically flushed out through the port located at the bottom of the pot. Removing hard objects prevents damage to downstream pumps and processing devices and is ideal for overall system efficiency.
After being drawn through the inline macerator, the liquid enters the pump and flows through to the discharge side of the process. In this example, the liquid is pumped into a second inline macerator. The grinder on the discharge side provides a finishing grind on the liquid, in cases in which tight tolerances are required, to achieve the intended result.
Inline Twin-Shaft Grinders
Figure 2. Inline twin-shaft grinders
As the name suggests, two cutting elements are fitted on the opposing shafts of the twin-shaft grinder (see Figure 2). The teeth of each cutting element are intermeshed so that any solid entering the device will be forced through the cutters. The size of the solid is determined by the gap between the tip of the cutter and the opposing shaft. When choosing a twin-shaft grinder, selecting a model that uses a cutting element machined out of a single piece of steel is recommended. The alternative involves stacking individual cutting elements along the shaft. Although both designs function in the same way, the stacked version requires factory service for repairs and maintenance.
A positive quality of twin-shaft grinders is that they grind everything in the liquid stream. Everything that goes in comes out much smaller. In food waste applications, which can contain large, hard objects—such as bones, hooves or wood fragments—the twin-shaft grinder is a good choice as long as the downstream equipment can pass the remaining solids.
Grinding everything in the liquid stream can also be negative. In instances in which large, heavy objects—such as rocks or metal objects—find their way into the liquid stream, the grinder can create smaller fragments. Smaller fragments that flow more freely in the liquid can cause major damage downstream.
Image 1. Waste fish reduced for disposal
Twin-shaft grinders can also be configured to work as a dry-matter grinder. In food waste, it can be used to reduce waste into a form in which it can be disposed of more efficiently. The capacity of the dry grinder configuration is often on a much larger scale when compared to the piped-in version. For example, these grinders can accept an entire pig carcass or several hundred pounds of waste vegetables—such as onions, sugar beets or potatoes.
The results of the twin-shaft grinder’s effect on food waste are instant. These grinders can handle most any flow rate and typically are only limited by pipe size and pump capacity. The examples below demonstrate waste product after grinding. Image 1 shows waste fish reduced for disposal. Image 2 shows waste potatoes that have been reduced.