System and method for estimating a signal propagation property of a substance composition in a predefined level range

What is claimed is: 1 . A radar gauging system for installation at a tank containing a substance composition including at least a first substance having a first density, a second substance having a second density lower than the first density, and a third substance having a third density lower than the second density, the radar gauging system comprising: a transceiver for generating, transmitting and receiving electromagnetic signals; a vertically extending transmission line probe coupled to the transceiver and configured to guide an electromagnetic transmit signal from the transceiver at least partly through the substance composition and to return to the transceiver an electromagnetic reflection signal resulting from reflection of the transmit signal at one or more impedance discontinuities encountered thereby, the transmission line probe having: a first probe portion extending along the transmission line probe between a first probe position defined by an impedance discontinuity at a first distance from the transceiver and a second probe position at a second distance from the transceiver, shorter than the first distance, the first probe portion being configured to provide a first coupling between the transmit signal and the substance composition in a first level range surrounding the first probe portion; and a second probe portion extending along the transmission line probe between the second probe position and a third probe position at a third distance from the transceiver, shorter than the second distance, the second probe portion being configured to provide a second coupling between the transmit signal and the substance composition in a second level range surrounding the second probe portion, the second coupling being weaker than the first coupling provided by the first probe portion; and processing circuitry coupled to the transceiver and configured to estimate, based on a timing relation between the transmit signal and the reflection signal and on a known length of the first probe portion, a signal propagation property of the first level range of the substance composition surrounding the first probe portion. 2 . The radar gauging system according to claim 1 , the processing circuitry being configured to determine, based on the estimated signal propagation property of the first level range, a known signal propagation property of the first substance, and a known signal propagation property of the second substance, a measure indicative of a proportion of the first substance in the first level range. 3 . The radar gauge system according to claim 1 , the transmission line probe extending between an upper probe end coupled to the transceiver and a lower probe end, the first probe position being at the lower probe end. 4 . The radar gauging system according to claim 1 , the second probe portion being configured in such a way that the second coupling is sufficiently weak that a propagation speed of the transmit signal along the second probe portion is substantially independent of a signal propagation property of a second level range of the substance composition surrounding the second probe portion. 5 . The radar gauging system according to claim 1 , the transmission line probe comprising: a probe conductor coupled to the transceiver; and a dielectric layer at least partly enclosing the probe conductor. 6 . The radar gauging system according to claim 5 , the dielectric layer fully enclosing the probe conductor in the first probe portion and in the second probe portion. 7 . The radar gauging system according to claim 5 , the dielectric layer being configured to provide the first coupling between the transmit signal and the substance composition in the first level range surrounding the first probe portion, and to provide the second coupling between the transmit signal and the substance composition in the second level range surrounding the second probe portion. 8 . The radar gauging system according to claim 7 , the dielectric layer being thicker in the second probe portion than in the first probe portion. 9 . The radar gauging system according to claim 1 , the transmission line probe comprising: a probe conductor coupled to the transceiver; and a shielding conductor spaced apart from the probe conductor and extending along at least a portion of the transmission line probe. 10 . The radar gauging system according to claim 1 , the transmission line probe comprising a third probe portion extending along the transmission line probe between the third probe position and a fourth probe position at a fourth distance from the transceiver, shorter than the third distance, the third probe portion being configured to provide a third coupling between the transmit signal and the substance composition in a third level range surrounding the third probe portion, the third coupling being stronger than the second coupling provided by the second probe portion. 11 . The radar gauging system according to claim 10 , the processing circuitry being configured to: determine a level in the tank of an interface between the second substance and the third substance based on a timing relation between the transmit signal and the reflection signal indicating a reflection in the third level range. 12 . A phase separator arrangement, comprising: a tank elongated in a substantially horizontal first direction, and extending in the first direction between a first tank end and a second tank end; an inlet adjacent to the first tank end for receiving a flow of a substance composition including at least a liquid first substance having a first density and a liquid second substance having a second density lower than the first density; an overflow weir arranged at a weir position between the inlet and the second tank end; a first outlet arranged at a bottom of the tank horizontally between the inlet and the weir position, for output of first substance separated from the substance composition; a second outlet arranged at a bottom of the tank horizontally between the weir position and the second tank end, for output of second substance separated from the substance composition; and the radar gauging system according to claim 1 arranged to gauge the substance composition at a gauging position between the inlet and the weir position. 13 . The phase separator arrangement according to claim 12 , wherein the radar gauging system is arranged horizontally between the first outlet and the weir position. 14 . A method of estimating a signal propagation property of a substance composition in a predefined first level range, the method comprising: generating and transmitting, by a transceiver, an electromagnetic transmit signal; providing the transmit signal to an upper probe end of a vertically extending transmission line probe having a first probe portion surrounded by the substance composition in the first level range and configured to provide a first coupling between the transmit signal and the substance composition in the first level range, and a second probe portion between the transceiver and the first probe portion and configured to provide a second coupling between the transmit signal and the substance composition in a second level range surrounding the second probe portion, the second coupling being weaker than the first coupling provided by the first probe portion; receiving, by the transceiver from the transmission line probe, an electromagnetic reflection signal resulting from reflection of the transmit signal at one or more impedance discontinuities encountered thereby; and estimating, by processing circuitry coupled to the transceiver, the signa