Determination of threshing and separation unit performance of rosemary(Rosmarinus officinalis)plants
作者机构:Department of Agricultural Machinery&Technology EngineeringFaculty of AgricultureIsparta University of Applied SciencesIspartaTurkey
出 版 物:《International Journal of Agricultural and Biological Engineering》 (国际农业与生物工程学报(英文))
年 卷 期:2021年第14卷第6期
页 面:237-243页
核心收录:
基 金:supported a part of by the TUBITAK-3501-National Young Researchers Career Development Program(CAREER) the Determination of Threshing and Separation System Parameters of Some Medicinal Aromatic Plants and Development of Prototype(Grant No.111O179)
主 题:rosemary mechanization threshing separating design Turkey
摘 要:Rosemary(Rosmarinus officinalis L.)is an important perennial medicinal and aromatic plant belonging to the Lamiaceae *** is widely produced in Turkey for its oil which can be extracted from the plants when flowers are in *** Turkey,a significant amount of domestic and foreign trade of rosemary is *** 2018-2020,2088 t of rosemary plants were imported,while in the same years 2077 t were *** this study,the performance indexes of a threshing and separating unit designed according to the physicomechanical properties of the rosemary were *** operating parameters of the machine were determined at three different moisture contents and adjusted according to the harvest moisture *** threshing efficiency,work efficiency,power requirement,and specific energy consumption values of the threshing unit were determined,while separating efficiency,work efficiency and specific power consumption of separating unit of the developed system were *** to the study results,the threshing efficiency of the rosemary plant varied between 44.00%and 96.97%.Work efficiency of the thresher varied between 1.18 and 15.34 kg/*** requirements and specific energy consumption of the threshing unit were obtained as 0.19-1.05 kW and 0.02-0.37 kW·h/h,*** the other hand,the separating efficiency of the separating unit for the rosemary plant varied between 44.27%and 85.24%.Maximum and minimum values of work efficiency were found as 0.75 kg/h and 5.52 kg/*** power consumption of the unit ranged from 3.95 to 39.95 kW/kg.
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