. "Kabutey, Abraham" . "The oil point of bulk seeds of Jatropha curcas L. seeds under compression loading was determined from an initial seed pressing height 80 mm using the pressing vessel diameter 60 mm. The dependency between compressive force and deformation was described and the mass of emerged oil was measured. From these values the lower oil point at compressive force F-oI = (22,820 +/- 970) N and appropriate deformation x(oI) = (55 +/- 1) mm was identified. Analysis of results shows that the deformation of the bulk seed and the mass of oil obtained can be described by a fitted line function. Based on this function the upper oil point at compressive force F-oII = (676,819 +/- 97,000) N and corresponding deformation x(oII) = (77 +/- 1) mm was also identified. The deformation energy at lower oil point required for obtaining the mass of output oil was found to be E-oI = (276 +/- 21) J. The relationship between the lower and upper oil points the optimal oil point was also identified at a compressive force F-op = (444,240" . . "3"^^ . "Her\u00E1k, David" . . "Oil point determination of Jatropha curcas L. bulk seeds under compression loading"@en . "Oil point determination of Jatropha curcas L. bulk seeds under compression loading" . . . . "1537-5110" . "93549" . "US - Spojen\u00E9 st\u00E1ty americk\u00E9" . . . "Oil point determination of Jatropha curcas L. bulk seeds under compression loading" . "116" . "4" . . . "Hrab\u011B, Petr" . "Kabutey, Abraham" . "RIV/60460709:41310/13:63271!RIV14-MSM-41310___" . "S" . . "[CDD05F2F122A]" . . . "RIV/60460709:41310/13:63271" . "8"^^ . . . . . . "41310" . "mechanical-behavior, mathematical-model, element-method, expression, oilseeds, yield, extraction, expeller, pressure"@en . . "Oil point determination of Jatropha curcas L. bulk seeds under compression loading"@en . . "000329334700017" . . "Biosystems Engineering" . "The oil point of bulk seeds of Jatropha curcas L. seeds under compression loading was determined from an initial seed pressing height 80 mm using the pressing vessel diameter 60 mm. The dependency between compressive force and deformation was described and the mass of emerged oil was measured. From these values the lower oil point at compressive force F-oI = (22,820 +/- 970) N and appropriate deformation x(oI) = (55 +/- 1) mm was identified. Analysis of results shows that the deformation of the bulk seed and the mass of oil obtained can be described by a fitted line function. Based on this function the upper oil point at compressive force F-oII = (676,819 +/- 97,000) N and corresponding deformation x(oII) = (77 +/- 1) mm was also identified. The deformation energy at lower oil point required for obtaining the mass of output oil was found to be E-oI = (276 +/- 21) J. The relationship between the lower and upper oil points the optimal oil point was also identified at a compressive force F-op = (444,240"@en . "3"^^ . .