Studies on tractor operated back-pack type axial flow combine harvester for mung bean (Vigna radiata (L.))
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Date
2021
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Punjab Agricultural University, Ludhiana
Abstract
Mung bean (Vigna radiata (L.)) alternatively known as green gram is an ancient and popular pulse crop in India. Pulses serve as a major source of dietary protein of vegetarians. Cultivation of summer mung bean will also help in reducing the rate of depletion of natural resources, which is a prime concern in Punjab at present. Efficient mechanized harvesting is one of the constraints in the adoption of summer mung bean. Grain losses while combine harvesting of mung bean can be reduced by using an axial flow combine harvester. Recently low cost tractor operated back-pack type axial flow combine harvesters have been introduced in local market. Attachment and detachment of tractor is much easier than tractor on top combine harvester. These have the potential to reduce harvesting losses during harvesting. Performance of this machine was evaluated at three forward speeds (FS1=2.1, FS2=3.0 and FS3=4.8 kmh-1), three cylinder speeds (PS1=11.08, PS2=13.16 and PS3=14.79 ms-1) and days (2, 4 and 6) after last irrigation. The selected dependent variables were threshing efficiency, broken percentage, cleaning efficiency and shattering losses. The results indicated that the threshing efficiency increased with increase in days after last irrigation and cylinder peripheral speed, whereas it decreased with increase in forward speed. Similarly, the grain breakage increased with increase cylinder peripheral speed and days after last irrigation, however it decreased with increase in forward speed. The cleaning efficiency increased with increase in forward speed, whereas it decreased with increase in cylinder peripheral speed and days after last irrigation. The non-collectable loss increased with increase in forward speed and days after last irrigation, however, cylinder peripheral speed did not affect it. The shattering loss increased with increase in forward speed and days after last irrigation. However, cylinder peripheral speed did not affect it. The best combination of operational variables for threshing operation was DAI3PS3FS2 i.e. six days after last irrigation, at cylinder peripheral speed of 14.79 ms-1 and at forward speed of 3.0 kmh-1. At this combination, threshing efficiency, non-collectable losses, grain breakage and cleaning efficiency were 99.28%, 4.53%, 2.96% and 95.89%, respectively. The tractor operated backpack type axial flow combine harvester saved 90.26% labour cost and 53.71% cost of harvesting compared to combination of spike tooth type thresher and manual harvesting.
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Talukdar, Dipika (2021). Studies on tractor operated back-pack type axial flow combine harvester for mung bean (Vigna radiata (L.)) (Unpublished M.Tech. thesis). Punjab Agricultural University, Ludhiana, Punjab, India.