Open Access Journal

ISSN : 2456-1304 (Online)

International Journal of Engineering Research in Electronics and Communication Engineering(IJERECE)

Monthly Journal for Electronics and Communication Engineering

Open Access Journal

International Journal of Science Engineering and Management (IJSEM)

Monthly Journal for Science Engineering and Management

ISSN : 2456-1304 (Online)

Innovative and Efficient Pesticide Spraying Technologies for Residue Free Farm Produce

Author : Patil S. B 1 S. S. Patil 2 P. D. Ukey 3

Date of Publication :20th April 2018

Abstract: Entomological studies have established that in numerous cases, smaller droplets of pesticide spray provide greater biological efficacy per unit mass of pesticide than do the larger droplets for achieving insect control. Thus, the recent concept of spraying is to spray the target pest more efficiently by selecting optimum droplet size and density for maximum retention and coverage. Customarily, more chemical than theoretically needed is often applied due to the variability in field conditions and the need to ensure complete coverage. In such a situation, Variable rate spraying system and the Electrostatic spraying system can be effectively utilized. The variable rate sprayers and air-atomizing electrostatic sprayers are overcoming the deficiencies of conventional sprayers. The variable rate pesticide spraying has the potential to reduce pesticide amount and cost as well as off target contamination of environment. Electrostatic charging increases spray deposit level, reduces waste and greatly improves spray distribution for better insect and disease control. Therefore the use of these two technologies can ensure the spraying of pesticides within in acceptable limit and ensure residue free farm produce for healthy life of human being

Reference :

    1. Deveau, J. (2009). Six elements of effective spraying in orchards and vineyards. Ministry of Agriculture, Food and Rural Affairs, Ontario.
    2. Fraser, R.P. (1958b) The fluid kinetics of application of pesticide chemicals, Advances in Pest Cont. Res. 2,1. 3. Giles, D.K., Delwiche, M.J., Dodd, R.B. (1987). Control of orchard spraying based on electronic sensing of target characteristics. Transactions of the ASAE, 30(6), 1624-1630.
    3. Giles, D. K., Delwiche, M.J., Dodd, R.B. (1988). Electronic measurement of tree canopyvolume. Transactions of the ASAE, 31(1), 264-272.
    4. Giles, D. K., Delwiche, M. J., Dodd, R. B. (1989). Sprayer control by sensing orchard cropcharacteristics: Orchard architecture and spray liquid savings. Journal of Agricultural Engineering Research, 43(4), 271-289.
    5. Heijne, C.G. (March 1980) A review of pesticide application system, Symp. On Spray.Sys. 1980’s, BCPC 75.
    6. Law, S.E.(1995a) Electrostatics technology for agricultural and biological applications status and trends, Inst.Phys.Conf.143, 1.
    7. Law, S. E. (1995b) Electrostatic Atomization and Spraying in Handbook of Electrostatic Processes Chap.20, Ed. by Chang, Kelly and Crowley, Marcel Dekker, New York.
    8. Llorens, J., Gil, E., Llop, J.,Escola, A. (2010). Variable rate dosing in precision viticulture: Use of electronic devices to improve application efficiency. Crop Protection, 29, 239-248.
    9. Mooney, D. F., Larson, J. A., Roberts, R. K. English, B. C. (2009).When does variable rate technology for agricultural sprayers pay? A case study for cotton production in tennessee. http://economics.ag.utk.edu/publications/precisiona g/313_Mooney.pdf

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