Field testing of a powered paddy hill seeder attachment with an oscillating single cell metering roller and furrow boot shutter gate mechanisms
By: Sreerag K P.
Contributor(s): Manoj Mathew (Guide).
Material type:
BookPublisher: Tavanur Department of Farm Machinery and Power Engineering, Kelappaji College of Agricultural Engineering and Technology 2022Description: ix, 90p.Subject(s): Farm machinery and power engineering | Paddy hill seeder | Furrow boot shutter gate mechanisms | Oscillating single cell metering rollerDDC classification: 631.3 Dissertation note: MTech Abstract: Rice (Oryza sativa) is one of the most important crops in India and occupies
about 22 per cent of gross cropped area of the country. In India, the rice crop is
highly dependent on the southwest monsoon, which occurs over the subcontinent
from June through September. The non-availability of skilled labour at the
planting season delays rice transplanting and ultimately results in poor yield. For
obtaining a high yield, it is required to drop the desired number of seeds in rows
while maintaining accurate seed rate and seed spacing during sowing (Karayel
and Ozmerzi, 2004).
The crank- rocker driven oscillating single cell arrangement can provide
precise amount of seed dropping and desired hill spacing (Nageswar Bandi, et al.,
2020). The metering single cell size varies according to the variety of paddy to be
sown. Desired combination of forward speed to the speed of seed metering (single
cell roller) was identified in this study. The performance of the seed-metering
mechanism of the precision paddy hill seeder was investigated under laboratory
and field conditions to optimize the design and operating parameters of paddy line
seeding. The effect of speed of metering roller disc, belt forward speed and cell
size were evaluated by examining the mean hill spacing, missing index, multiple
index, highest quality of feed index and precision in spacing (coefficient of
variation). The field testing of the developed unit was conducted at instructions
farm, KCAET, Tavanur.
It was observed that for picking the recommended seeds (3- 5 seeds/hill),
the oscillating roller disc has a single cell size of 12 mm suited for Jyothi paddy
variety. The optimum forward speed was 1.0 and1.5 kmh-1 while the metering
roller speed was 70 and 90 rpm. Lower miss index was observed at highest cell
size and lowest speed, and low multiple indices at low cell size and highest speeds
(Shubham, et al., 2021).
The maximum field capacity and efficiency for the precision paddy hill
seeder was found to be 0.22 ha h-1 and 84 per cent respectively. Performance
comparison with existing sowing machinery showed several advantages like
reduced seed rate and better plant density. The total cost of operation computed is
Rs. 2000/ha, which is found to be more economical when compared to manually
operated drum seeder Rs. 3000/ha. Based on the laboratory and field performance
evaluation, it is concluded that the precision paddy hill seeder is economical and
efficient for line hill seeding of paddy seeds.
| Item type | Current location | Collection | Call number | Status | Date due | Barcode |
|---|---|---|---|---|---|---|
Theses
|
KAU Central Library, Thrissur Reports | Thesis | 631.3 SRE/FI PG (Browse shelf) | Not For Loan | 175735 |
MTech
Rice (Oryza sativa) is one of the most important crops in India and occupies
about 22 per cent of gross cropped area of the country. In India, the rice crop is
highly dependent on the southwest monsoon, which occurs over the subcontinent
from June through September. The non-availability of skilled labour at the
planting season delays rice transplanting and ultimately results in poor yield. For
obtaining a high yield, it is required to drop the desired number of seeds in rows
while maintaining accurate seed rate and seed spacing during sowing (Karayel
and Ozmerzi, 2004).
The crank- rocker driven oscillating single cell arrangement can provide
precise amount of seed dropping and desired hill spacing (Nageswar Bandi, et al.,
2020). The metering single cell size varies according to the variety of paddy to be
sown. Desired combination of forward speed to the speed of seed metering (single
cell roller) was identified in this study. The performance of the seed-metering
mechanism of the precision paddy hill seeder was investigated under laboratory
and field conditions to optimize the design and operating parameters of paddy line
seeding. The effect of speed of metering roller disc, belt forward speed and cell
size were evaluated by examining the mean hill spacing, missing index, multiple
index, highest quality of feed index and precision in spacing (coefficient of
variation). The field testing of the developed unit was conducted at instructions
farm, KCAET, Tavanur.
It was observed that for picking the recommended seeds (3- 5 seeds/hill),
the oscillating roller disc has a single cell size of 12 mm suited for Jyothi paddy
variety. The optimum forward speed was 1.0 and1.5 kmh-1 while the metering
roller speed was 70 and 90 rpm. Lower miss index was observed at highest cell
size and lowest speed, and low multiple indices at low cell size and highest speeds
(Shubham, et al., 2021).
The maximum field capacity and efficiency for the precision paddy hill
seeder was found to be 0.22 ha h-1 and 84 per cent respectively. Performance
comparison with existing sowing machinery showed several advantages like
reduced seed rate and better plant density. The total cost of operation computed is
Rs. 2000/ha, which is found to be more economical when compared to manually
operated drum seeder Rs. 3000/ha. Based on the laboratory and field performance
evaluation, it is concluded that the precision paddy hill seeder is economical and
efficient for line hill seeding of paddy seeds.
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