University of Missouri Extension

WQ214, Reviewed May 1994

Measuring Manure Spreader Uniformity

Charles D. Fulhage
Department of Agricultural Engineering

Using manure to supply nutrients in a crop fertility program requires that manure be applied at the proper rate in terms of pounds of nutrients per acre. In addition, the manure must be applied uniformly across a field. Lush growth within and adjacent to spreader paths and lesser growth in areas between are the result of uneven spreading.

Manure spreader designers strive for an equal application rate, or uniformity over the entire width of a spreading swath. However, the application rate is nearly always greater in and near the spreader path than it is farther away.

The effect of this lack of uniformity can be reduced by adjusting the distance between adjacent spreader paths so that there is some overlap of the outside areas of the spreader swath (Figure 1). The additive effect in the overlap areas tends to even out the uniformity between spreader paths (Figure 2).

Schematic of spreader pattern Figure 1
Schematic of spreader pattern.
 

Additive effect of overlapping Figure 2
Additive effect of overlapping.
 

The amount of overlap, or proper distance between adjacent spreader paths, necessary for the best uniformity can be determined from a uniformity test. In this test, several plastic sheets are laid on the ground in the spreader path. The spreader passes over the sheets at normal operating speed and lane spacing. Manure collected on the sheets is weighed and compared to determine spreader uniformity.

These steps outline the procedure to determine uniformity.

If all sheets collect about the same amount of manure, the spreader is doing a good job of distribution, and lane spacing is about right for the needed amount of overlap. If the area in and near the spreader path receives more manure than the area midway between spreader paths, then more overlap is needed and lane spacing must be reduced.

If overlap is too great — lane spacing is too close — there will be more manure collected in the areas between spreader paths. Some spreaders may spread manure at a greater rate along the outside edges of the spreading swath than in or near the spreader path. In these cases, overlap will make uniformity worse, and the best uniformity is attained with no overlap — lane spacing equals spreader swath width. It may be difficult to obtain good uniformity with some spreaders.

Table 1 outlines the steps and provides a means of recording data for the spreader uniformity test.

Table 1
Determining application uniformity

1. Spreader path lane spacing = _____ feet.
2. Lane spacing ÷ 5 = _____ feet.
3. Lay out five plastic sheets across area between adjacent paths.
4. Spread manure.
5. Plastic sheets: width _____ feet x length _____ feet = area _____ square feet.
6. Tare weight of plastic sheet and container = _____ pounds.
  Sheets
1 2 3 4 5
Location          
Forward speed or throttle setting          
PTO speed          
Spreader setting          
Gross weight of plastic, manure, bucket          
Minus tare weight          
Equals manure net weight          
Divided by area of plastic          
Equals rate in pounds per square foot          
Solid and semisolid tons per acre = rate x 21.78          
Liquid gallons per acre = rate x 5.445          
Nutrient application rate = tons per acre x pounds nutrients per ton          
Or gallons per acre x pounds nutrient per gallon          

References

WQ214, reviewed May 1994

WQ214 Measuring Manure Spreader Uniformity | University of Missouri Extension

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