 |
|
|
|
| 0 mph | 10 mph | 20 mph | 30 mph | 40 mph | |
|
XR110015VS
|
10
|
15.75
|
21.5
|
25.25
|
29.5
|
| XR11002VS |
9.75
|
15.75
|
18.5
|
25
|
28
|
| XR11003VS |
9.75
|
12.5
|
15.75
|
21.5
|
25
|
| XR11008VS |
7.25
|
9.25
|
11.5
|
14.5
|
16.5
|
When all the results were averaged to form a line graph, you can see how the 0.15 capacity nozzle varied from 10 inches of drift at zero mph, to around 30 inches of drift at 40 mph.
| 0 mph | 10 mph | 20 mph | 30 mph | 40 mph | |
|
TT110015-VP
|
1.75
|
9.75
|
14.25
|
17.75
|
27.25
|
| TT11002-VP |
1.75
|
8.5
|
13.75
|
16.25
|
24.5
|
| TT11003-VP |
1.75
|
8.5
|
13
|
14.5
|
21.5
|
| TT11008-VP |
1.5
|
5.75
|
9
|
10.75
|
14
|
On average, the Turbo TeeJet tips were the least consistent. For example, the 0.15 capacity nozzle recorded less than 5 inches of drift at zero mph winds, up to around 29 inches of drift at 40 mph winds. However, for ideal situations, the Turbo TeeJet tips recorded the least amount of drift from zero to 10 mph winds, making them the most practical.
| 0 mph | 10 mph | 20 mph | 30 mph | 40 mph | |
| AI110015-VS |
4.75
|
9.25
|
11.5
|
14.5
|
18.25
|
| AI11002-VS |
4.75
|
8.75
|
12.5
|
13
|
16.75
|
| AI11003-VS |
4.5
|
8.5
|
10.75
|
12.5
|
14.5
|
| AI11008-VS |
4.5
|
7.25
|
9.75
|
10.25
|
11.25
|
For our experiment, the air induction nozzles turned out to be the most consistent. On average, at zero mph winds, the 0.15 capacity nozzle recorded around 5 inches of drift, to around 19 inches of drift at 40 mph. These nozzles also recorded a significantly less amount of drift, when compared to the other two nozzle types.