Feed Gate Adaptation of a Spinner Spreader for Uniformity Control

Variable rate application of fertilisers with traditional spinner-type spreaders is known to suffer from spread pattern uniformity variability as a function of application rate. To demonstrate this variability, simulations using models from the literature were carried out for two cases: (1) a dual disc spreader with segment-type feed gates; and (2) a single disc spreader with conical feed gates. Simulations for the dual disc spreader showed that for higher application rates the pattern becomes 'M'-shaped, whereas for a single disc spreader the pattern becomes skewed, even though the pattern for low rates was near-Gaussian shaped in both cases. In this research, an attempt to eliminate the uniformity variability was made, by developing a feed gate control method based on an optical feedback sensor. Simulations showed that the feed gate method is capable of producing high-quality patterns for any given application rate, in both cases, the dual disc spreader with segment-type feed gates, as well as the worst-case scenario being the single disc spreader with conical feed gates. The performance of the feed gate control method was assessed using data collected from a single disc Lowery 300 spreader. Although the original, uncontrolled pattern of this spreader was of low quality, the adaptive gate control algorithm was capable of producing acceptable patterns around the flow rate of 0·2 kg/s.

[1]  Herman Ramon,et al.  Experimental Characterisation of the Tangential and Cylindrical Fertiliser Distribution Pattern from a Spinning Disc: A Parameter Study , 2003 .

[2]  R. L. Parish TECHNICAL NOTES: THE EFFECT OF SPREADER FILL LEVEL ON DELIVERY RATE , 1999 .

[3]  Herman Ramon,et al.  Experimental characterisation of the cylindrical distribution pattern of centrifugal fertiliser spreaders: towards an alternative for spreading hall measurements , 2003 .

[4]  Tony E Grift Spread Pattern Analysis Tool (SPAT): I. Development and theoretical examples , 2000 .

[5]  Carl L. Griffis,et al.  Simulation of Rotary Spreader Distribution Patterns , 1983 .

[6]  Tony E Grift,et al.  Aerodynamic properties of individual fertilizer particles , 1997 .

[7]  Y. Yildirim,et al.  EFFECT OF VANE HEIGHT ON DISTRIBUTION UNIFORMITY IN ROTARY FERTILIZER SPREADERS WITH DIFFERENT FLOW RATES , 2003 .

[8]  Oliver,et al.  A New Methodology for Mapping Fertilizer Distribution , 2003 .

[9]  Tony E Grift,et al.  Measurement of velocity and diameter of individual fertilizer particles by an optical method. , 1997 .

[10]  Tony E Grift,et al.  Testing an Online Spread Pattern Determination Sensor on a Broadcast Fertilizer Spreader , 2002 .

[11]  Jan Willem Hofstee,et al.  Handling and spreading of fertilizers: Part 2, physical properties of fertilizer, measuring methods and data , 1992 .

[12]  R. L. Parish,et al.  Comparison of Laboratory Methods of Spreader Pattern Evaluation with Agronomic Response , 1987 .

[13]  J. W. Hummel,et al.  Simulation of a New Centrifugal Distributor Design , 1975 .

[14]  R. L. Parish Effect of Rough Operating Surface on Rotary Spreader Distribution Pattern , 1991 .

[15]  Roberto Oberti,et al.  Test of an automatic rate control system for a centrifugal-type dry fertilizer spreader , 1999 .

[16]  J. De Baerdemaeker,et al.  Calculation of fertilizer distribution patterns from a spinning disc spreader by means of a simulation model , 1996 .

[17]  Josse De Baerdemaeker,et al.  Calibration of a Spinning Disc Spreader Simulation Model for Accurate Site-specific Fertiliser Application , 2004 .

[18]  Michel Paindavoine,et al.  Measurement of the Motion of Fertilizer Particles Leaving a Centrifugal Spreader Using a Fast Imaging System , 2003, Precision Agriculture.

[19]  R. L. Parish Effect of Material Bouncing Into and Out of Collection Pans on Observed Spreader Distribution Pattern , 1991 .

[20]  Olivier Miserque,et al.  Chemical distribution patterns for blended fertilizers in the field , 1999 .

[21]  Herman Ramon,et al.  Model for Simulation of Particle Flow on a Centrifugal Fertiliser Spreader , 2004 .

[22]  John P. Fulton,et al.  PERFORMANCE ASSESSMENT AND MODEL DEVELOPMENT OF A VARIABLE–RATE, SPINNER–DISC FERTILIZER APPLICATOR , 2001 .

[23]  Floyd M. Cunningham Performance Characteristics of Bulk Spreaders for Granular Fertilizer , 1963 .

[24]  Jan Willem Hofstee,et al.  Handling and Spreading of Fertilizers: Part 5, The Spinning Disc Type Fertilizer Spreader , 1995 .

[25]  J. W. Hofstee Handling and spreading of fertilizers: Part 3, Measurement of particle velocities and directions with ultrasonic transducers, theory, measurement system, and experimental arrangements. , 1994 .

[26]  R. L. Parish RATE SETTING EFFECTS ON FERTILIZER SPREADER DISTRIBUTION PATTERNS , 2002 .

[27]  Tony E Grift,et al.  Spread pattern analysis tool (SPAT): II. examples of aircraft pattern analysis. , 2000 .

[28]  David Lamb,et al.  PA—Precision Agriculture: Remote-Sensing and Mapping of Weeds in Crops , 2001 .

[29]  R. E. Pitt,et al.  Approximating Equations for Rotary Distributor Spread Patterns , 1982 .

[30]  Floyd M. Cunningham,et al.  Design Relationships for Centrifugal Fertilizer Distributors , 1967 .

[31]  Carl Wassgren,et al.  Granular Fertiliser Particle Dynamics on and off a Spinner Spreader , 2003 .

[32]  Tony E Grift,et al.  Development of a fertilizer particle accelerator , 1997 .

[33]  Richard L. Parish Comparison of Spreader Pattern Evaluation Methods , 1986 .

[34]  Jan Willem Hofstee,et al.  Handling and spreading of fertilizers part 1: Physical properties of fertilizer in relation to particle motion , 1990 .

[35]  Tony E Grift,et al.  Determining Effects of Fertilizer Particle Shape on Aerodynamic Properties , 1997 .