BASIC REQUIREMENTS FOR THE DESIGN AND CONSTRUCTION OF A LOCAL COMPOST SCREENING UNIT

Mostafa, Mariam M.; Abdel Mottaleb, A. F.; Derbala, A.A.; Fouda, T.Z.

doi:10.21608/mjae.2010.105412

	BASIC REQUIREMENTS FOR THE DESIGN AND CONSTRUCTION OF A LOCAL COMPOST SCREENING UNIT
Misr Journal of Agricultural Engineering
Article 64, Volume 27, Issue 4, October 2010, Page 2069-2085 PDF (545.01 K)
Document Type: Original Article
DOI: 10.21608/mjae.2010.105412
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Authors
Mariam M. Mostafa¹; A. F. Abdel Mottaleb²; A.A. Derbala³; T.Z. Fouda⁴
¹Grad. St., Agric. Eng. Dept., Fac. Of Agric., Tanta Univ., Egypt.
²Senior Res., Agri. Eng. Res. Inst. (A.R.C.), Egypt.
³Assoc. Prof. Of Agric. Eng., Fac. Of Agric., Tanta Univ., Egypt.
⁴Prof. and Head Of Agric. Eng. Dept., Fac. Of Agric., Tanta Univ., Egypt.
Abstract
Theoretical analysis was carried out to design and construct a local compost screening unit to achieve maximum cleaning efficiency. Theoretical analysis was conducted to estimate optimum sieve speed, optimum screen opening size, optimum sieve inclination angle. Maximum required power was estimated in order to provide the machine with the suitable source of power. The machine shaft was designed so as to save it from over loads and the high stresses. Theoretical analysis reveal that the local compost screening unit is preferred to be constructed under the following conditions: - The sieve revolutions number should be lower than 43 rpm. - The screen opening size should be of about 13 mm. - The slope angle of the cylindrical sieve on the horizontal plane (sieve inclination angle) should be lower than 27 degrees. - The motor power required for screening compost must be not less than 3.68 kW ( 5.0 hp ). - The machine shaft must be designed at a 70 mm diameter.


References
Amin, E.E.A. (2003). Effect of some physical and mechanical properties on grading efficiency. Misr Society of Ag. Eng. Oct. 2003: 451 – 470. Bosoi, E. S.; O. V. Verniaev; I. I. Smimov and E. G. Sultan-Shakh (1991). Theory construction and calculations of agricultural machines. Vol.(2), Mec. Pub. , Moscow. Khurmi, R. S. and J. K. Gupta (1984). A textbook of machine designs. Eurasia Publishers house (Pvt.). New Delhi .P: 1067. Klenin, N. I. and V.A. Sakon (1980). Farm machinery. Selakohazais Academy. Mach/ Kolos Pub.,Moscow: 671 Klenin, N.I.; I.F. Popov and V.A. Sakon (1985). Agricultural machines. Theory of operation, computation of controlling parameters and the conditions of operation. Amerind publishing Co. PVT. Ltd., New Delhi. Page, N.; J. Leonard and G. Clark (2005). Comparison of screening methods to refine MSW compost . Alberta Environment, Edmonton, Canada. BioCycle, 46(4): 57-58. Robert R., K. Maarten ; B. W. George ;E. S. Mark ; L. R. Tom ; J. K. John ; R. G. Francis ; L. J. Lucien ; K. David ; W. M. Dennis ; A. J. Harry and F. B. William (1992). On-farm composting handbook. Northeast Regional Agricultural Engineering Service, 152 Kiley-Robb Hall, Cooperative Extension, Ithaca, NY 14853-5701, USA. Suzanne, F, F. Nicole and L. Daniel (2005). Support Document for Compost Quality Criteria. Agriculture and Agri-Food Canada. 59 Camelot Drive. Nepean, Ontario KlA 0Y9. William F. B. (2000). Compost quality standards & guidelines. New York State Association of Recyclers. Woods End Research Laboratory, Inc. P: 1 – 42.
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