Processing of oil by steam addition

The invention claimed is: 1. A process for reducing electrical energy consumption for pumping crude oil from at least one remote storage tank through a pipe to a desalter system in a refinery and also capturing salt from the crude oil into steam bubbles wherein the process comprises: a) creating steam; b) identifying crude oil in at least one storage tank located remotely from the desalter system in the refinery that is to be pumped through the pipe to the desalter system; c) delivering steam to a location in the pipe through which the crude oil is to pass through as it travels from the at least one storage tank to the desalter system; d) pumping the crude oil through the pipe to the desalter system with a charge pump; e) injecting steam into the crude oil in the pipe in a first steam injection step in the form of steam bubbles for the crude oil prior to the charge pump at a location that is proximate to the at least one storage tank as it travels from the at least one storage tank to the desalter system such that the crude oil is heated by the steam thereby lowering viscosity of the crude oil and reducing resistance to flow and thereby reducing the electric energy requirement to move the crude oil to the desalter system and also capturing salt from the crude oil into steam bubbles; f) injecting steam into the crude oil in the pipe in a second steam injection step in the form of steam bubbles at a location of the pipe where crude oil from a number of separate storage tanks is arranged to pass as it is pumped to the desalter system; and g) removing condensed steam from the crude oil in the desalter system. 2. A process for reducing electrical energy consumption for pumping crude oil from at least one remote storage tank through a pipe to a desalter system in a refinery and also capturing salt from the crude oil into steam bubbles wherein the process comprises: a) creating steam; b) identifying crude oil in at least one storage tank located remotely from the desalter system in the refinery that is to be pumped through the pipe to the desalter system; c) delivering steam to a location in the pipe through which the crude oil is to pass through as it travels from the at least one storage tank to the desalter system; d) pumping the crude oil through the pipe to the desalter system with a charge pump; e) injecting steam into the crude oil in the pipe in a first steam injection step in the form of steam bubbles for the crude oil such that the steam is injected shortly downstream of the charge pump as it travels from the at least one storage tank to the desalter system such that the crude oil is heated by the steam thereby lowering viscosity of the crude oil and reducing resistance to flow and thereby reducing the electric energy requirement to move the crude oil to the desalter system and also capturing salt from the crude oil into steam bubbles; f) injecting steam into the crude oil in the pipe in a second steam injection step in the form of steam bubbles at a location of the pipe where crude oil from a number of separate storage tanks is arranged to pass as it is pumped to the desalter system and g) removing condensed steam from the crude oil in the desalter system. 3. A process for removing salt from crude oil in a refinery and reducing electrical energy consumption for pumping crude oil from at least one remote storage tank through a pipe to a desalter system in the refinery wherein the process comprises: a) creating steam; b) identifying crude oil in at least one storage tank located remotely from the desalter system in the refinery that is to be pumped through the pipe to the desalter system; c) delivering steam to a location in the pipe through which the crude oil is to pass through as it travels from the at least one storage tank to the desalter system; d) pumping the crude oil through the pipe to the desalter system with a charge pump; e) injecting steam into the crude oil in the pipe in the form of steam bubbles as it travels from the at least one storage tank to the desalter system such that the crude oil is heated by the steam thereby lowering viscosity of the crude oil and reducing resistance to flow and thereby reducing the electric energy requirement to move the crude oil to the desalter system and also capturing salt from the crude oil into steam bubbles; f) injecting steam into the crude oil in the form of steam bubbles at a second location well downstream of the remote storage tank and part of the desalter system in the refinery where additional salt in the crude oil may be captured into condensed steam; g) removing condensed steam containing salt from the crude oil in the desalter system. 4. The process according to claim 3 wherein the second step for injecting the steam is characterized by not being subjected to harsh mixing in the crude oil.