Processing of oil by steam addition

The invention claimed is: 1. A process for removing salt from crude oil wherein the salt is in the form of particles of crystalline salt suspended in the crude oil or as droplets of brine water suspended in the crude oil, or both, wherein the process comprises the steps of: a) injecting steam into the crude oil in the form of steam bubbles that are larger relative to any salt particles or relative to the any droplets of brine water so as to create steam bubbles that will have contact with the crude oil along with any nearby suspended salt particles and brine droplets, such that a single steam bubble may actually contact a number of salt particles and brine droplets; b) injecting a first stream of liquid water into the crude oil; c) condensing the steam bubbles into droplets of liquid water while at the same time dissolving available salt particles forming new brine water droplets and also delivering liquid or vaporous water from steam bubbles into any available brine droplets resulting in enlarged brine droplets having a size more amenable for separation from the crude oil; d) imposing high shear mixing on the crude oil and water in a high shear mixer to enhance contact between salt particles, brine droplets and water droplets to enhance dissolving of salt particles and coalescence of brine droplets with water; e) separating and removing liquid water from the crude oil including water with salt dissolved therein to form a first pass desalted crude oil; f) injecting a second stream of liquid water into the first pass desalted crude oil; g) imposing high shear mixing on the first pass desalted crude oil and water in a high shear mixer to enhance contact between salt particles, brine droplets and water droplets to enhance dissolving of salt particles and coalescence of brine droplets with water; h) separating liquid water from the first pass desalted crude oil including water with salt dissolved therein to form a twice desalted crude oil; wherein the process is more particularly characterized in that it does not include imposing high shear mixing of uncondensed steam bubbles within the crude oil. 2. The process for removing salt from crude oil according to claim 1 wherein step (b) occurs after step (c). 3. The process for removing salt from crude oil according to claim 2 wherein the steps for separating the liquid water from the crude oil includes subjecting the crude oil to low shear coalescer mixing followed by gravity separation of the water droplets from the crude oil. 4. The process for removing salt from crude oil according to claim 3 further including the step of adding demulsifier into the crude oil prior to the first step of separating the liquid water from the crude oil. 5. The process for removing salt from crude oil according to claim 4 wherein the step of injecting steam further includes injecting the steam into a vertically oriented chamber where the crude oil and steam flow vertically as the steam bubbles condense. 6. The process for removing salt from crude oil according to claim 5 wherein the vertical flow in the chamber is downward. 7. The process for removing salt from crude oil according to claim 5 wherein the vertical flow in the chamber is upward. 8. The process for removing salt from crude oil according to claim 3 wherein the step of injecting steam further includes injecting the steam into a vertically oriented chamber where the crude oil and steam flow vertically as the steam bubbles condense. 9. The process for removing salt from crude oil according to claim 8 wherein the vertical flow in the chamber is downward. 10. The process for removing salt from crude oil according to claim 8 wherein the vertical flow in the chamber is upward. 11. The process for removing salt from crude oil according to claim 2 wherein the step of injecting steam further includes injecting the steam into a vertically oriented chamber where the crude oil and steam flow vertically as the steam bubbles condense. 12. The process for removing salt from crude oil according to claim 11 wherein the vertical flow in the chamber is downward. 13. The process for removing salt from crude oil according to claim 11 wherein the vertical flow in the chamber is upward. 14. The process for removing salt from crude oil according to claim 1 wherein the step for separating the liquid water from the crude oil includes subjecting the crude oil to low shear coalescer mixing followed by gravity separation of the water droplets from the crude oil. 15. The process for removing salt from crude oil according to claim 14 further including the step of adding demulsifier into the crude oil prior to the step of separating the liquid water from the crude oil. 16. The process for removing salt from crude oil according to claim 15 wherein the step of injecting steam further includes injecting the steam into a vertically oriented chamber where the crude oil and steam flow vertically as the steam bubbles condense. 17. The process for removing salt from crude oil according to claim 16 wherein the vertical flow in the chamber is downward. 18. The process for removing salt from crude oil according to claim 2 further including the step of adding demulsifier into the crude oil prior to the step of separating the liquid water from the crude oil. 19. The process for removing salt from crude oil according to claim 1 further including the step of adding demulsifier into the crude oil prior to the step of separating the liquid water from the crude oil. 20. The process for removing salt from crude oil according to claim 1 wherein the step of injecting steam further includes injecting the steam into a vertically oriented chamber where the crude oil and steam flow vertically as the steam bubbles condense.