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Crop Protection Equipment and Calibration

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Presentation on theme: "Crop Protection Equipment and Calibration"— Presentation transcript:

1 Crop Protection Equipment and Calibration
Basic Training Presentation

2 Changes in the Application Industry!
Historically inefficient process Increased cost per acre for crop protection Rates are changing (< an ounce/acre) More pest specific products (foliar) Biotechnology and GMO’s – Issues???? More sophisticated equipment (electronics) $$$ Environmental impact (water and air) Variable rates Site-specific 2 4

3 R-U Ready Soybean Explosion
Million Million Acreage of roundup ready ready (genetically modified) soybeans under cultivation in the United States. Million Million

4 Equipment cost today? How much do these machines cost?
$150, ,000 +

5 Equipment cost today? How much does this machine cost?
$250, ,000

6 What about the cost of the nozzle?

7 Application Equipment and Calibration Outline
Discuss Misapplication Basic Application Equipment Components of a Sprayer System Designs Understanding Nozzles Importance of Nozzles Calibration and Nozzle Selection Spray Solution Affect on Output Ground Speed

8 Application is Important:
Many complaints to chemical company representatives involve improper application of chemicals. Improper mixing procedures Travel speed errors Uniformity of coverage Incorrect quantities added to the tank Particle drift Selection and maintenance of nozzles

9 Misapplication Facts:
Farmland Insurance Based on insurance claim payouts!

10 Application Equipment:
Two basic types of application systems: Liquid (sprayers) Granular

11 Basic application devices:
Hand can pump sprayers Backpack sprayers Boom sprayers High pressure sprayers Air-assist sprayers Aerial (spray and granular) Granular

12 Sprayer Components: Tanks (contamination issues)
Pump, Strainers, Agitation Pressure gauge Hoses, Flow control assemblies Electronics: monitors-computers- controllers (GPS/GIS) Distribution system Nozzles!!!!!!!!!

13 Types of Pumps: Roller Pump Centrifugal Pump Diaphragm Pump
Piston Pump Peristaltic Pump (Squeeze or hose pump – chemical injection)

14 Plumbing Diagram

15 Plumbing Diagram

16 Plumbing Diagram:

17 Nozzle Types: Cone Spray Tips: Flat Spray Tips: Raindrop
Extended Range Flat-fan Drift Reduction Flat-fan Turbo Flood Flat-fan Turbo Flat-fan AI Flat-fan TurboDrop Cone Spray Tips: Raindrop

18 Spray Characteristics are Important to Understand:

19 Selecting the proper nozzle:
Legal issues!! Following the label!

20 Nozzles are important because:

21 Misapplication: Without proper attention to the nozzle, you may end up with a Misapplication

22 1. Control the Amount applied:
Nozzle Flow Rate is affected by: Orifice size Pressure Solution characteristics

23 Nomenclature: Rated Pressure = 40 psi for most nozzle types
Extended Range Trade Name (S,H,P,K,SS) Stainless Steel Insert Orifice VisiFlo Color Coding Fan angle and flow rate-orifice size Rated Pressure = 40 psi for most nozzle types 10 psi for turbo flood nozzles 7

24 Typical nozzle numbering system
Extended-range flat-fan XR 11004 XR 110 110 degree fan angle 04 psi Even flat-fan – (Band applications) 8002E E Even spray pattern 80 80 degree fan angle 02 psi Turbo flood - (small capacity) TF- 4 TF Turbo flood 4 4 10 psi Turbo flood – (Floater capacity) QCTF - 40 QCTF Quick attach turbo flood 40 psi EQU 5 Manufacturers use their own nozzle numbering system. Keep the manufacturer’s product catalog handy for quick reference.

25 MATERIALS AND WEAR Percent increase in nozzle flow rate
Flat-fan spray nozzles after 40 hour test 8

26 2. Set up for Uniformity Goal is to put the material on evenly from nozzle to nozzle, end of boom to end of boom, and across the entire field. 20-inch spacing requires 17-19” above target for 50-60% overlap.

27 3. Will determine coverage:
Need knowledge of the product being used. Systemic Contact What is the target? Soil grass broadleaf (smooth, hairy, waxy)

28 $64 Million Question? 4. Will affect drift:
Movement of spray particles off-target. Creating smaller spray drops will result in increased drift. Is it Coverage vs Drift? What is the answer? $64 Million Question?

29 Calibration/Nozzle Selection
What is the first step? Use label to select the application volume product rate Choose an appropriate travel speed Effective width of application nozzle spacing Calculate GPM – Flow rate per nozzle Select the correct size of nozzle!

30 GPA= 5940 Calculations

31 Ok, now I remember! GPA= 5940 EQU 23 Calculations

32 Nozzle size - Variables
Nozzle flow rate (GPM) Ground speed (MPH) Effective sprayed width (W) Application rate (GPA) 9

33 Application Rate Equation
Calculates for application rate Represents total amount applied for an acre

34 Flow Rate Equation Calculates for amount of flow from one nozzle
Represents the size of nozzle to put on the sprayer

35 Where: GPA = ______________________ GPM = ______________________ MPH = ______________________ W = ______________________ 5940 = a constant to convert gallons per minute, miles per hour, and inches to gallons per acre gallons per acre gallons per minute miles per hour nozzle spacing - inches 14

36 Variables 4 1/2 1/2 1. Nozzle Flow Rate - Gallons Per Minute (GPM)
To double the nozzle output, the pressure must increase times 4 2. Ground speed - Miles Per Hour (MPH) 1/2 Doubling the ground speed reduces GPA rate by___ 3. Effective Sprayed Width (W) (Nozzle spacing, band width, number of nozzles on drop) Doubling the effective sprayed width per nozzle decreases the application rate by 1/2 12

37 Electronics/Rate Controllers
How does your system work when speed changes? Is it pressure based? What is the effect of going slower? What is the effect of going faster?

38 Application Nozzle type
GPA MPH INCH SPACING GPM = x x 5940 GPM = = The correct nozzle is used at psi. 21

39 GPM Example You want to broadcast a foliar herbicide at 12 GPA traveling 12 MPH using extended range flat-fan nozzles on 20-inch spacing. Use equation to calculate for flow rate?

40 GPA Example Solution GPM=? GPA=? MPH=? W=? GPM=? GPA=12 MPH=12 W=20

41 GPM Example Solution Answer .48

42 Selecting the proper nozzle….
Page 51 TeeJet Catalog

43 Selecting the proper nozzle….
Calculate GPM (formula) Look under ‘Capacity of 1 nozzle in GPM’ column Match to pressure-psi Choose the size needed Operate at given pressure and speed used in formula to achieve GPA .48

44 Spray Solution Characteristics
A. Surface Tension B. Density C. Viscosity Effects droplet size, not flow Weight/unit volume density - flow rate decreases Resistance to flow 11

45 Spraying Solutions other that water: 28% CONVERSION – see page 124, SS
28% = _______ lbs/gal Specific Gravity = Weight of 28%/gal divided by weight of water/gal = 17

46 1.28 28% CONVERSION 10.65 28% = _______ lbs/gal Specific Gravity =
Weight of 28%/gal divided by weight of water/gal 10.65 10.65 1.28 = 8.34 18

47 Conversion factor = square root of specific gravity of 28% x = 19

48 Conversion factor = square root of specific gravity of 28% 1.13 x = 1.13 20

49 MEASURE SPEED (1 MPH = 88 Feet traveled in 60 seconds)
Measure the ground speed in an area similar to the conditions of the area to be sprayed! 15

50 Nozzle Selection Chart:


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