Hydrocarbon emulsion separator system and related methods

That which is claimed is: 1. A system for separating a hydrocarbon/water emulsion comprising: a radio frequency (RF) power source; and a coaxial RF emulsion separator comprising a coaxial input section coupled to said RF power source and comprising an inner input section conductor and an outer input section conductor surrounding said inner input section conductor, a coaxial output section and comprising an inner output section conductor and an outer output section conductor surrounding said inner output section conductor, and a coaxial separator section coupled in series between said coaxial input and output sections, said coaxial separator section comprising an inner separator section conductor and an outer separator section conductor surrounding said inner separator section conductor and defining a separating chamber therebetween, said coaxial separator section having at least one inlet port to introduce the hydrocarbon/water emulsion to the separating chamber and at least one outlet port to remove separated water and hydrocarbon from the separating chamber after exposure to RF power. 2. The system of claim 1 wherein said coaxial separator section comprises a pair of spaced end plates interchangeably supporting respective opposing ends of said inner separator conductor and defining opposing ends of the separating chamber. 3. The system of claim 1 wherein said input coaxial section comprises a dielectric material between said inner input section conductor and said outer input section conductor; and wherein said output coaxial section comprises the dielectric material between said inner output section conductor and said outer output section conductor. 4. The system of claim 1 wherein the at least one inlet port is defined in said outer separator section conductor; and wherein the at least one outlet port is defined in said outer separator section conductor. 5. The system of claim 1 further comprising an RF load coupled to said coaxial output section of the coaxial RF emulsion separator. 6. The system of claim 1 further comprising at least one sensor associated with said coaxial RF emulsion separator. 7. The system of claim 1 further comprising a flow controller associated with the at least one inlet and outlet port to perform at least one of batch separating and continuous separating. 8. The system of claim 1 wherein said RF source comprises a plurality of RF signal generators having respective different RF signal frequency ranges, and a power combiner coupled to said plurality of RF signal generators. 9. The system of claim 1 wherein said RF source is configured to sweep the RF power over a wideband operating frequency range. 10. The system of claim 1 wherein said RF source operates over a frequency range of 0.5 to 200 MHz. 11. A coaxial radio frequency (RF) separator for separating a hydrocarbon/water emulsion comprising: a coaxial input section configured for coupling to an RF power source and comprising an inner input section conductor and an outer input section conductor surrounding said inner input section conductor; a coaxial output section configured for coupling to an RF load and comprising an inner output section conductor and an outer output section conductor surrounding said inner output section conductor; and a coaxial separator section coupled in series between said coaxial input and output sections, said coaxial separator section comprising an inner separator section conductor and an outer separator section conductor surrounding said inner separator section conductor and defining a separating chamber therebetween; said coaxial separator section having at least one inlet port to introduce the hydrocarbon/water emulsion to the separating chamber and at least one outlet port to remove separated water and hydrocarbon from the separating chamber after exposure to RF power. 12. The coaxial RF separator of claim 11 wherein said coaxial separator section comprises a pair of spaced end plates interchangeably supporting respective opposing ends of said inner separator conductor and defining opposing ends of the separating chamber. 13. The coaxial RF separator of claim 11 wherein said input coaxial section comprises a dielectric material between said inner input section conductor and said outer input section conductor; and wherein said output coaxial section comprises the dielectric material between said inner output section conductor and said outer output section conductor. 14. The coaxial RF separator of claim 11 wherein the at least one inlet port is defined in said outer separator section conductor; and wherein the at least one outlet port is defined in said outer separator section conductor. 15. A coaxial radio frequency (RF) hydrocarbon treatment device comprising: a coaxial input section configured for coupling to an RF power source and comprising an inner input section conductor and an outer input section conductor surrounding said inner input section conductor; a coaxial output section configured for coupling to an RF load and comprising an inner output section conductor and an outer output section conductor surrounding said inner output section conductor; and a coaxial treatment section coupled in series between said coaxial input and output sections, said coaxial treatment section comprising an inner treatment section conductor and an outer treatment section conductor surrounding said inner treatment section conductor and defining a treatment chamber therebetween; said coaxial treatment section having at least one inlet port to introduce a hydrocarbon to the treatment chamber and at least one outlet port to remove treated hydrocarbon from the treatment chamber after exposure to RF power. 16. The device of claim 15 wherein said coaxial treatment section comprises a pair of spaced end dielectric plates interchangeably supporting respective opposing ends of said inner treatment section conductor and defining opposing ends of the treatment chamber. 17. The device of claim 15 wherein said input coaxial section comprises a dielectric material between said inner input section conductor and said outer input section conductor; and wherein said output coaxial section comprises the dielectric material between said inner output section conductor and said outer output section conductor. 18. The device of claim 15 wherein the at least one inlet port is defined in said outer treatment section conductor; and wherein the at least one outlet port is defined in said outer treatment section conductor. 19. A method for separating a hydrocarbon/water emulsion comprising: introducing a hydrocarbon/water emulsion into a coaxial separator section of a coaxial RF emulsion separator coupled in series between a coaxial input section and a coaxial output section, the coaxial separator section comprising an inner separator section conductor and an outer separator section conductor surrounding the inner separator section conductor and defining a separating chamber therebetween, and the coaxial separator section having at least one inlet port to introduce the hydrocarbon/water emulsion to the separating chamber; supplying radio frequency (RF) power to the coaxial input section of the coaxial RF emulsion separator, the coaxial input section comprising an inner input section conductor and an outer input section conductor surrounding the inner input section conductor, and the coaxial output section comprising an inner output section conductor and an outer output section conductor surrounding the inner output section conductor; and remo