Patent ID: 8707763
Filing Date: 2014-04-29
Classification: G01N

Abstract:
1. A method for accurately measuring the density of a sample using a densimeter equipped with a measurement cell, the densimeter comprising: a heat conductive enclosure including a measurement chamber closed by a stopper; a grounded U-tube for containing a sample, the U-tube extending inside the measurement chamber and including a central limb having a ferromagnetic member and two lateral limbs, the lateral limbs secured to the stopper at free ends thereof and projecting outwardly from the measurement chamber to permit the injection of the sample into the U-tube and evacuation of the sample; an insulated conductive reading plate maintained at a different potential relative to the U-tube and secured to the stopper in a position facing the U-tube in order to define a capacitor therewith; an electromagnetic excitation winding mounted in a housing of the enclosure at a right angle to the ferromagnetic member; and means for driving the winding and means for reading the capacity of the capacitor, said method comprising the steps of: injecting the sample into the U-tube; activating the means for driving the winding to transmit continuously to the U-tube a synchronised rectangular excitation signal to cause the U-tube to vibrate at resonance frequency, the vibration being represented by a sinusoidal resonance signal; determining the resonance frequency from the variations in the voltage at the terminals of the capacitor and deducing an approximate value of the density of the sample on the basis of a standard equation; controlling the pulse width of the rectangular excitation signal to maintain a predefined constant amplitude of the resonance signal and deducing therefrom a damping effect of the viscosity of the sample on the measurement of density of the sample by measuring the pulse width of the excitation signal, wherein a longer pulse width of the excitation signal correlates to a greater damping effect and a shorter pulse width of the excitation signal correlates to a lesser damping effect; and calculating the actual density of the sample on the basis of the approximate value of the density of the sample and the damping effect of viscosity on the measurement of density.