The aim of this study was to determine the apparent (AME) and true metabolizable energy (TMEn) as well as the crude protein (CP) and amino acid (AA) total tract (by excreta collection) digestibility (bioava...The aim of this study was to determine the apparent (AME) and true metabolizable energy (TMEn) as well as the crude protein (CP) and amino acid (AA) total tract (by excreta collection) digestibility (bioavailability) of faba bean seeds (FBS) of the Greek cultivar "Polikarpi". Forty eight broilers were placed in individual cages and randomly allocated into 4 dietary treatments. Birds consumed 80 g d1 of either a typical commercial diet or the same diet in which 100, 200 or 300 g kg^-1 had been substituted by ground FBS. The experiment lasted 15 d. Apparent and true CP bioavailability of FBS were significantly decreased (P 〈 0.05) only at the inclusion rate of 300 g kg-1. AA bioavailability remained at high levels (-0.80) with the exception of cystine and was similar to CP mean. The mean AME and TMEn values of FBS were estimated equal to 11.1 and 11.4 MJ ME kg^-1, respectively.展开更多
In fluid mechanics, there is lack of turbulent flows theory. The theory of laminar flows is also not completed. Therefore, the aim of this paper is to fill in the gaps in the theory of laminar flow. First time in the ...In fluid mechanics, there is lack of turbulent flows theory. The theory of laminar flows is also not completed. Therefore, the aim of this paper is to fill in the gaps in the theory of laminar flow. First time in the history of fluid mechanics, it shows that the value of the boundary Reynolds number, dividing the flows of Newtonian fluids into laminar and turbulent, can be calculated theoretically. The very existence of this boundary has been known to researchers over a century ago, but all knowledge in this area so far comes only from experimental physics. This paper marks a turning point, as it not only explains the theory of the said phenomenon, but also presents the methodology of its analytical description. It should be noted that the said description refers to the type of flow which is best understood by scientists, i.e., steady axially-symmetric laminar flow through a straight-axis duct of a circular cross-section of the radius R under the action of constant natural gravitational forces. This paper comes second in a series of papers aimed at eliminating chaos from fluid mechanics and replacing it with harmony and mathematical order.展开更多
文摘The aim of this study was to determine the apparent (AME) and true metabolizable energy (TMEn) as well as the crude protein (CP) and amino acid (AA) total tract (by excreta collection) digestibility (bioavailability) of faba bean seeds (FBS) of the Greek cultivar "Polikarpi". Forty eight broilers were placed in individual cages and randomly allocated into 4 dietary treatments. Birds consumed 80 g d1 of either a typical commercial diet or the same diet in which 100, 200 or 300 g kg^-1 had been substituted by ground FBS. The experiment lasted 15 d. Apparent and true CP bioavailability of FBS were significantly decreased (P 〈 0.05) only at the inclusion rate of 300 g kg-1. AA bioavailability remained at high levels (-0.80) with the exception of cystine and was similar to CP mean. The mean AME and TMEn values of FBS were estimated equal to 11.1 and 11.4 MJ ME kg^-1, respectively.
文摘In fluid mechanics, there is lack of turbulent flows theory. The theory of laminar flows is also not completed. Therefore, the aim of this paper is to fill in the gaps in the theory of laminar flow. First time in the history of fluid mechanics, it shows that the value of the boundary Reynolds number, dividing the flows of Newtonian fluids into laminar and turbulent, can be calculated theoretically. The very existence of this boundary has been known to researchers over a century ago, but all knowledge in this area so far comes only from experimental physics. This paper marks a turning point, as it not only explains the theory of the said phenomenon, but also presents the methodology of its analytical description. It should be noted that the said description refers to the type of flow which is best understood by scientists, i.e., steady axially-symmetric laminar flow through a straight-axis duct of a circular cross-section of the radius R under the action of constant natural gravitational forces. This paper comes second in a series of papers aimed at eliminating chaos from fluid mechanics and replacing it with harmony and mathematical order.
