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Aware, V. V.
- Development and Performance Evaluation of Four Row Self Propelled Paddy Transplanter
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Authors
Affiliations
1 Department of Farm Machinery and Power, College of Agricultural Engineering and Technology, Dr. Balasaheb Sawant Konkan Krishi Vidyapeeth, Dapoli, Ratnagiri (M.S.), IN
2 Department of Farm Machinery and Power, College of Agricultural Engineering and Technology, Dr. Balasaheb Sawant Konkan Krishi Vidyapeeth, Dapoli, Ratnagiri (M.S.), IN
1 Department of Farm Machinery and Power, College of Agricultural Engineering and Technology, Dr. Balasaheb Sawant Konkan Krishi Vidyapeeth, Dapoli, Ratnagiri (M.S.), IN
2 Department of Farm Machinery and Power, College of Agricultural Engineering and Technology, Dr. Balasaheb Sawant Konkan Krishi Vidyapeeth, Dapoli, Ratnagiri (M.S.), IN
Source
International Journal of Agricultural Engineering, Vol 8, No 1 (2015), Pagination: 9-14Abstract
Rice is generally grown by transplanting seedlings in flooded field conditions or direct sowing depending upon the availability of water. Considering the need of Konkan region of Maharashtra, four row self propelled paddy transplanter was developed. The developed four row self propelled paddy transplanter consists of main frame, engine, gear box, transplanting mechanism, tray movement mechanism and drive system. The commercially available Honda-GK-200 petrol engine (3.5 hp) was selected as a prime mover. Laboratory test results showed that transplanting mechanism and feeding mechanism functions properly. During field trial the results reveal that hill spacing was 12 cm, the planting depth was observed to be 3 cm. The seedlings per hill and missing hills/m2 were observed to be 3.66 and 4.33, respectively. The total number hills/m2 area was obtained as 30. Fuel consumption for the newly developed transplanter was 1.9 l/h. The field efficiency of the transplanter was 80.47 per cent. The field capacity of the transplanter was 0.14 ha/h.Keywords
Paddy Transplanter, Mat Nursery, Puddled Field, Field Performance.- Development and Ergonomic Evaluation of Pedal Operated Cashew Nut Desheller
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Authors
Affiliations
1 Department of Farm Power and Machinery, College of Agricultural Engineering and Technology, Dapoli, Ratnagiri (M.S.), IN
1 Department of Farm Power and Machinery, College of Agricultural Engineering and Technology, Dapoli, Ratnagiri (M.S.), IN
Source
International Journal of Agricultural Engineering, Vol 8, No 1 (2015), Pagination: 116-120Abstract
India is the largest producer, processor, exporter, importer and second largest consumer of the cashew in the world. The manual shelling process is done with pedal operated cashew nut sheller in standing posture. The objective of this study was to develop the pedal operated cashew nut desheller in such way that it could operated in sitting postures to reduced the drudgery involved in the deshelling operation. The dimensions in the design of seat were used from available anthropometrics and strength data of women worker of Konkan region. The modified pedal operated cashew nut desheller was ergonomically evaluated on six women ranging from 20 to 45 years. The mean values of working heart rate, corresponding oxygen consumption, energy expenditure, per cent VO2, ΔHR were 93.56 bpm, 0.39 l/min, 8.31kJ/min, 29.33 per cent, 10.54 bpm which were less than limit of continuous performance (LCP). The operation categorized into 'moderately heavy'. With the help of developed pedal operated cashew nut desheller, kernel recovery of cashew nut obtained 7.68 kg/day. The overall performance of the developed pedal operated cashew nut desheller was good.Keywords
Cashew Nut, Pedal Operated Desheller, Ergonomics, Anthropometric Data.- Physiological Cost and Drudgery in Paddy Transplanting
Abstract Views :183 |
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Authors
Affiliations
1 College of Agricultural Engineering and Technology, Dr. B.S. Konkan Krishi Vidyapeeth, Dapoli, Ratnagiri (M.S.), IN
1 College of Agricultural Engineering and Technology, Dr. B.S. Konkan Krishi Vidyapeeth, Dapoli, Ratnagiri (M.S.), IN
Source
International Journal of Agricultural Engineering, Vol 10, No 1 (2017), Pagination: 103-108Abstract
The field experiment was conducted at agronomy field DBSKKV, Dapoli, on the traditional method of paddy transplanting and manual paddy transplanter. Eight male and seven female workers were participated in this activity. The mean working heart rate (WHR) during traditional method of paddy transplanting for male and female subject were 105.9 (±4.01) and 106.97 (±3.39) bpm, respectively, While mean WHR for male workers with manual paddy transplanter was 128.44 (±12.38) bpm. The field capacity for traditional method of paddy transplanting for male and female workers were 0.0040 ha/h (40 m2/h) and 0.0038 ha/h (38 m2/h), respectively. The workloads for male and female workers was "Moderately heavy" for traditional method of paddy transplanting. The field capacity and field efficiency with manual paddy transplanter were 0.020 ha/h and 47.75 per cent, respectively, with 21(DAS) nursery. The workload was "heavy" for manual paddy transplanter. Hence, the field capacity with manual paddy transplanter was 5 times more as compared to traditional method of transplanting. The working heart rate (WHR) with manual paddy transplanter for male workers was 0.82 more as compared to traditional paddy transplanting.Keywords
Physiological Cost, Drudgery, Paddy Transplanting, Manual Paddy Transplanter, BPDS, ODR.References
- Anonymous (2015). Director of Agriculture Pune, rice production, rice productivity of India.2014-2015.
- Corlett, E.N. and Bishop, R.P. (1976). A technique for assessing postural discomfort. Ergonomics, 19 : 175-182.
- Gite, L.P. and Singh, G. (1997). Ergonomics in agricultural and allied activities in India Central Institute of Agricultural Engineering, Bhopal (M.P.) INDIA.
- Saha, P.N., Datta, S.R., Banergy, P.K. and Narayane, G. (1979). An acceptable workload from a modified scale of perceived exertion. Ergonomics, 37 : 485-491.
- Sen, R.N. (1969). Tentative classification of strains in different types of jobs according to the physiological responses of young Indian workers in comfortable climate. ICMR Report, New Delhi, India.
- Varghese, M.A., Saha, P.N. and Airiya, N. (1994). A rapid appraisal of occupational workload from a modified scale of perceived exertion. Ergonomics, 37(3): 485-491.
- Das, F.C. (2012). Status and prospects of mechanization in rice. Rice knowledge management portal. Available at http://www.rkmp.co.in.
- Optimization of Paddy Nursery Age for Manual Paddy Transplanter (Hand Cranking Type)
Abstract Views :192 |
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Authors
C. R. Kavitkar
1,
V. V. Aware
1,
M. R. Patil
1,
P. U. Shahare
1,
K. G. Dhande
1,
N. A. Shirsat
1,
S. V. Aware
1
Affiliations
1 College of Agricultural Engineering and Technology, Dr. B.S.Konkan Krishi Vidyapeeth, Dapoli, Ratnagiri (M.S.), IN
1 College of Agricultural Engineering and Technology, Dr. B.S.Konkan Krishi Vidyapeeth, Dapoli, Ratnagiri (M.S.), IN
Source
International Journal of Agricultural Engineering, Vol 10, No 1 (2017), Pagination: 141-145Abstract
This field experiment was conducted at Agronomy field, DBSKKV, Dapoli. Three different ages of nursery as 21, 28 and 35 DAS were taken for study. Plant and field parameters were measured during operation with manual paddy transplanter (hand cranked). The 21 (DAS) nursery required less time (25 min) for upischolar_maining and preparing ischolar_main washed seedlings from area of 1 m2 as compared to that of for 28 (DAS) (35 min) and 35 (DAS) (42 min) nursery. Missing of hills were also less in 21 (DAS) nursery. The field capacity with existing manual paddy transplanter (hand cranking) was 0.020 ha/h for 21 (DAS) nursery, whereas, for 28 and 35(DAS) nursery it was found 0.018 ha/h and 0.019 ha/h, respectively. Hence, 21 (DAS) nursery was found suitable for manual paddy transplanter (hand cranking).Keywords
Paddy Transplanter, Hand Cranking, Missing Hills, Field Capacity.References
- Anonymous (2015). Director of Agriculture Pune, rice production, rice productivity of India.2014-2015
- Garg, I.K. and Sharma, V. K. (1999). Design, development and evaluation of PAU riding type engine operated paddy transplanter using mat type seedlings. Proc. ISAE. SJC, 1(2): 7-63.
- Goel, A.K, Swain, S. and Debaraj, B. (2008). Effect of seedling age on performance of rice transplanter.journal of agricultural Mechanization in Asian Africa & Latin America, 40 (3) : 41-46.
- Singh, S. and Vatsa, D.K. (2006). Performance evaluation of PAU manual paddy transplanter in hills of Himachal Pradesh. J. Agril. Engg. Today, 30(3) : 19-25.
- Vasudevan, S.N., Basangouda, Rakesh, C. Mathad, S.R. Doddagoudar, and Shakuntala, N. M. (2014). Standardization of Seedling Characteristics for Paddy Transplanter.J. Adv. Agric. Technologies, 1(2) : 141-146.
- Das, F.C. (2012). Status and prospects of mechanization in rice. Rice knowledge management portal. Available at http://www.rkmp.co.in.
- Development of Paddy Stripper Header Mechanism
Abstract Views :215 |
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Authors
Affiliations
1 Department of Farm Machinery and Power College of Agricultural Engineering and Technology, Dr. B.S. Konkan Krishi Vidyapeeth, Dapholi, Ratnagiri (M.S.), IN
2 Department of Agricultural Economics, College of Agricultural Engineering and Technology, Dr. B.S. Konkan Krishk Vidyapeeth, Dapholi, Ratnagiri (M.S.), IN
1 Department of Farm Machinery and Power College of Agricultural Engineering and Technology, Dr. B.S. Konkan Krishi Vidyapeeth, Dapholi, Ratnagiri (M.S.), IN
2 Department of Agricultural Economics, College of Agricultural Engineering and Technology, Dr. B.S. Konkan Krishk Vidyapeeth, Dapholi, Ratnagiri (M.S.), IN
Source
International Journal of Agricultural Engineering, Vol 10, No 1 (2017), Pagination: 179-185Abstract
Stripping is the process of removing the seeds from the plant and straw remained anchored to the soil. The main advantages of stripping is the increasing capacity of the combine harvester with reduced amount of material other than grain ratio (MOG) and power requirement for threshing and cleaning which promotes to develop small and light weight mechanism suitable for small and fragmented land. A laboratory stripper header mechanism (SHM) was developed for stripping paddy grains and collecting them in grain tank. It consisted of stripping rotor, stripping elements, hood, frame and grain tank. Two profiles of stripping elements viz., slender arrow head (A) and spaced slender arrow head (B) of stripping elements were used. The performance of the developed SHM was evaluated on specially developed test rig to study the effect of two levels of forward speed (1.65 and 2.25 km/h) and four levels of peripheral speed (16.95, 19.78, 22.6 and 25.45 m/s) on shattered and un-stripped grain loss was studied. It consisted of track, platform and crop holders. SHM was stationary and platform was movable on track. Minimum shattered grain loss of 5.78 per cent was obtained with stripping element A at 2.25 km/h forward speed and at 19.78 m/s peripheral speed. Minimum un-stripped grain loss of 0.84 per cent was obtained with stripping element A at 2.25 km/h forward speed and 25.45 m/s peripheral speed. The performance of the slender arrow head stripping element was found to be better as compared to spaced slender arrow head.Keywords
Paddy, Stripping, Stripping Element, Test Rig, Grain Loss.References
- Adisa, A.F, Ndirika, V.I.O., Yiljep, Y.D. and Mohammed, U.S. (2012). Determination of optimum operational conditions of a grain stripper header for rice harvesting in Nigeria. Internat. J. Engg. & Tech., 2(7): 1290-1300.
- Adisa, A.F. (2013). Estimating field loss of a developed rice stripper harvester in Nigeria. Internat. J. Sci. & Tech., 2(4): 353-358.
- Anonyoums (2012). Minutes of meeting on cost economics of paddy, Scheme on cost cultivation of crop, held at Department of Agricultural Economics, College of Agriculture, Dr. B.S.K.K.V. Dapoli, Dated 31st March.
- Anonyoums (2013). Maharashtra water resource regulatory authority report, Water Resource Deparment Government of Maharashtra.
- Chegini, G.R. (2013). Determine of optimum operating conditions of combine harvester with stripper-header. World Appl. Sci. J., 23 (10): 1399-1407.
- Kalsirisilp, R. and Singh, G. (2001). Adoption of a stripper header for a Thai-made rice combine harvester. J. Agric. Engg. Res., 80 (2): 163-172.
- Killinner, W.E., Neale, M.A., Arnold, R.E., Geikie, A.A. and Hobson, R.N. (1987). A new concept in combine harvester headers. J. Agril. Engg. Res., 38: 37-45.
- Mehta, C.R., Chandel, N.S., Sentilkumar, T. and Singh, K.K. (2014). Trends of agricultural mechanization in India. Policy brief, ESCAP CSAM.Issue 2.
- Peiris, R.T.C. (1990). Development and evaluation of a rice stripping header system. Tropical Agril. Res., 2: 123-141.
- Tado, C.J.M., Wacker, P., Kutzbach, H.D. and Suministrado, D.C. (1998). Development of stripper harvesters: A Review. J. Agric. Engg. Res., 71: 103-112.
- Tado, C.J.M. (2002). Influence on the performance of the stripper rotor in rice. Published Ph. D Dissertation, Institute of Agricultural Engineering, University of Hohenheim, Germany.
- Anonymous (2015). www.Mahaagri.gov.in
- Comparative Evaluation of Cashew Nut Shelling Machines
Abstract Views :155 |
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Authors
Affiliations
1 Department of Farm Machinery and Power, College of Agricultural Engineering and Technology, Dr. Balasaheb Sawant Kokan Krishi Vidyapeeth Dapoli, Ratnagiri (M.S.), IN
1 Department of Farm Machinery and Power, College of Agricultural Engineering and Technology, Dr. Balasaheb Sawant Kokan Krishi Vidyapeeth Dapoli, Ratnagiri (M.S.), IN
Source
International Journal of Agricultural Engineering, Vol 10, No 2 (2017), Pagination: 570-576Abstract
The study highlights the performance of different shelling machines used in Kokan region of Maharashtra. The effect of cashew nut size on performance of cashew nut shelling machines and there comparative differences between three shelling machines were studied. It was found that, the size of cashew nut had significant effect on the shelling efficiency of machine. The per cent shelling efficiency of the machine increased with increase in size of cashew nut. The manual operated shelling machine showed higher shelling efficiency as compared to traditional and improved power operated shelling machine. It is also observed that the improved power operated machine had lower uncut, breakage, higher whole kernel recovery and cashew nut picking efficiency as compared with traditional power operated and manual shelling machine. Operating cost of manual, traditional and improved power operated cashew nut shelling machine were 7, 3.12 and 2.31 Rs./kg, respectively. Operating cost of improved shelling machine was 66 per cent and 57.4 per cent higher as compared to manual and traditional power operated shelling machine, respectively. Improved power operated shelling machine saved monthly Rs. 21138/- as compared to manually operate shelling machine.Keywords
Cashew Nut, Shelling Machines, Efficiency, Operating Cost.References
- Anonymous (2009). Statistical information, annual report, Directorate of Cashew and Cocoa Development, Kochi, Indin, pp. 23-28.
- Epitome (2009). District wise agricultural data base for Maharashtra, 1961–2008, vol. 2. EPW Research Foundation, Mumbai, pp. 11–14.
- Gibbon, D. and Pain, A. (1985). Crops of the Drier Regions of the Tropics. 157p. (Longman: London, UK.).
- Karthickumar, P., Sinija, V.R. and Alagusundaram, K. (2014). Indian cashew processing industry-an overview. J. Food Res. & Technol., 2 (2) : 60-66.
- Mitchell, J.D. and Mori, S.A. (1987). The cashew and its relatives (Anacardium: Anacardiaceae), Memoirs New York Botanical Garden English, 42 : 76.
- Nagy, S., Shaw, P. E. and Wardowski, W. F. (1990). Fruits of Tropical and Subtropical Origin. Composition, Properties and Uses. (Florida Science Source, Inc.: Lake Alfred, Florida, USA.)
- Ohler, J.G. (1979). Cashew 260p. (KoninklijkInstituutvoor de Tropen: Amsterdam, Netherlands.)
- Time and Motion Study of a Cashew Nut Processing Factory in Dapoli
Abstract Views :157 |
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Authors
Affiliations
1 Department of Farm Power and Machinery, College of Agricultural Engineering and Technology, Dr Balasaheb Sawant Konkan Krishi Vidyapeeth, Dapoli, Ratnagiri (M.S.), IN
1 Department of Farm Power and Machinery, College of Agricultural Engineering and Technology, Dr Balasaheb Sawant Konkan Krishi Vidyapeeth, Dapoli, Ratnagiri (M.S.), IN
Source
International Journal of Agricultural Engineering, Vol 10, No 2 (2017), Pagination: 581-589Abstract
Cashew is the one of the major horticultural crops in the Konkan Region of Maharashtra. Hence, the cashew processing industries are having good scope in this region. The usual trend is that the entrepreneurs here start their cashew processing unit on small scale and with the availability of funds they expand their unit. Hence, there is no logical expansion of the processing plants occur that ultimately add to the processing cost. The processing units which are set with proper planning can save time and motion and the cost of processing. This article presents the time and motion study of two cashew processing units one of which is gradually expanded while the other one is set up with proper planning. A theoretical attempt is made to improve the planning of the gradually expanded unit to reduce the time and motion.Keywords
Cashew Nut Processing, Time Motion Study, Layout, Distance.References
- Anonymous (2014). Employment And Social Protection Of Cashew Workers In India With Special Reference To Kerala, V.V. Giri National Labour Institute Autonomous Institution of the Ministry of Labour and Employment, Government of India pp 4.
- Javadekar (2016). Re-categorization of Industries a landmark decision, new category of white industries will not require environmental clearance, Press Information Bureau Government of India Ministry of Environment and Forests
- http://eands.dacnet .nic. in/Publ icat ion12-12-2013/Agricultureat%20a%20Glance201 / page128-185.pdf
- http://shodhganga.inflibnet.ac.in/bitstream/10603/2488/9/09_abstract.pdf
- Energy Audit of Paddy Cultivation Practices in Kokan Region of Maharashtra
Abstract Views :179 |
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Authors
Affiliations
1 Department of Farm Machinery and Power, College of Agricultural Engineering and Technology, Dr. Balasaheb Sawant Kokan Krishi Vidyapeeth Dapoli, Ratnagiri (M.S.), IN
1 Department of Farm Machinery and Power, College of Agricultural Engineering and Technology, Dr. Balasaheb Sawant Kokan Krishi Vidyapeeth Dapoli, Ratnagiri (M.S.), IN
Source
International Journal of Agricultural Engineering, Vol 10, No 2 (2017), Pagination: 647-654Abstract
This study highlights the energy consumption pattern of paddy cultivation practices followed in Kokan region of Maharashtra. The study data were collected from eight regional research stations of Balasaheb Sawant Kokan KrishiVidyapeeth, Dapoli. The net energy, specific energy, energy output input ratio,energy productivity and water productivity for paddy cultivation was found to be 61738.52 MJ/ha, 0.86 MJ/kg, 2.22, 1.16 kg/MJ and 9.33 kg/m3, respectively. The cost per energy input and cost per energy output was found to be 19.99 Rs./MJ, 0.8342 Rs./MJ, respectively. Diesel fuel contributed highest share of input energy for paddy cultivation. Seed (52 %) contributed highest share of output energy, it immediately followed by straw (48 %).The contribution of indirect energy (53.64 %) was higher than that of the direct energy (46.16 %). In direct energy, the highest share of diesel fuel (82 %) as well as in indirect energy chemical fertilizers (49 %) contributed highest share. The share of non renewable energy (72.86 %) was found to be more than that of renewable energy (27.14 %).Water contributed highest share (46 %) to renewable energy and it immediately followed by human energy (30 %) stand on second position.Diesel fuel (52 %) contributed highest share to non renewable energy used and it followed by chemical fertilizers (30 %). The costs of different sources of input energy used in paddy cultivation were 19.995 Rs./MJ and that of output energy from paddy cultivation was 0.8342 Rs./MJ.Keywords
Energy Equivalent, Energy Indices, Energy Sources, Cost Economics.References
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