Liquid-liquid separator interface detection system and polymerization process utilizing the same

We claim: 1. A system including a liquid-liquid separator vessel, a vessel inlet, and a sonic transponder for detecting an interface between a polymer-rich phase and a solvent-rich phase, in the liquid-liquid separator vessel, the system characterized by: the liquid-liquid separator vessel configured to receive through the vessel inlet a polymer solution inlet stream comprising solvent, polymer and monomer produced in a solvent-based polymerization reactor, wherein the liquid-liquid separator vessel is configured to provide a residence time of at least 20 minutes and to permit the polymer solution inlet stream to separate into the polymer rich phase and the solvent rich phase; a first sonic transponder for sending a first sonic signal from a top of the liquid-liquid separator vessel and for receiving a first reflected portion of the sonic signal; and a second sonic transponder for sending a second sonic signal from a bottom of the liquid-liquid separator vessel and for receiving a second reflected portion of the sonic signal; where the first reflected portion of the first sonic signal is created by reflecting a first portion of the first sonic signal from a liquid-liquid interface between the solvent rich phase and the polymer rich phase; and wherein the second reflected portion of the second sonic signal is created by reflecting a second portion of the second sonic signal from the liquid-liquid interface between the solvent rich phase and the polymer rich phase; wherein the first sonic transponder is positioned such that it transmits the first sonic signal perpendicularly to the liquid-liquid interface and wherein the second sonic transponder is positioned such that it transmits the second sonic signal perpendicularly to the liquid-liquid interface, and wherein the vessel inlet feeds the polymer solution inlet stream into a bottom portion of the liquid-liquid separator vessel. 2. The system according to claim 1 , further comprising a sleeve partially or wholly enclosing the first sonic transponder. 3. The system according to claim 1 , wherein the liquid-liquid separator vessel is jacketed. 4. The system according to claim 1 , wherein the liquid-liquid separator vessel is a gravity separator. 5. The system according to claim 1 , further comprising a polymer rich phase vessel outlet valve comprising a flow meter and a differential pressure transmitter located on either side of the flow meter. 6. The system according to claim 1 , further comprising an automated control vessel valve to control a level of polymer rich phase in the liquid-liquid separator vessel. 7. The system according to claim 1 , further comprising a control system to receive and analyze data recovered from the first, and optionally from the second, sonic transponders.