Integrated expander-motor compressor

What is claimed is: 1. An expander and motor-compressor unit comprising: casing comprising a first compartment, a second compartment and a third compartment, the first and second compartments separated by a first partitional wall and the second and third compartments separated by a second portion wall; an electric motor arranged in the second compartment; a multi-stage compressor drivingly coupled to the electric motor through a central shaft and arranged in the third compartment, the compressor having a suction side and a delivery side; a turbo-expander arranged for rotation in the first compartment and drivingly coupled to the electric motor and to the compressor through the central shaft, the turbo-expander having an inlet side and a discharge side; at least two radial bearings to support the central shaft comprising a first radial bearing positioned in the first partition wall and a second radial bearing positioned in the second partition wall; a first heat exchanger fluidly coupled to the delivery side of the compressor in the third compartment and the inlet side of the turbo-expander in the first compartment, and a second heat exchanger fluidly coupled to the discharge side of the turbo-expander in the first compartment and the suction side of the compressor in the third compartment, wherein the first heat exchanger is configured to remove heat from compressed gas flowing from the third compartment to the first compartment which is further chilled by expansion in the turbo-expander in the first compartment to produce a cold gas, the produced cold gas is then configured to flow from the first compartment through the second heat exchanger to cool natural gas flowing in a pipeline through the second heat exchanger to promote liquification of the natural gas, and gas exiting the second heat exchanger is configured to flow back to the third compartment for compression. 2. The expander and motor-compressor unit of claim 1 , wherein the turbo-expander and the compressor are fluidly coupled such that gas expanded through the turbo-expander is delivered to the compressor and compressed thereby. 3. The expander and motor-compressor unit of claim 1 , wherein the turbo-expander is positioned in an overhung configuration on the central shaft. 4. The expander and motor-compressor unit of claim 1 , wherein the electric motor is arranged between the turbo-expander and the compressor. 5. The expander and motor-compressor unit of claim 1 , wherein the second casing compartment is protected against contaminated gas from the first casing compartment by compressed buffer gas supplied by the compressor. 6. The expander and motor-compressor unit of claim 1 , further comprising a gas path configured and arranged to deliver process gas from the compressor to the electric motor to cool the electric motor. 7. The expander and motor-compressor unit of claim 6 , wherein a gas return path from the electric motor to the compressor is provided between the electric motor and the compressor, configured and arranged to return process gas from the electric motor to the compressor. 8. The expander and motor-compressor unit of claim 1 , wherein at least one of the at least two bearings having a radial supporting capability of the central shaft has also an axial supporting capability. 9. The expander and motor-compressor unit of claim 1 , further comprising at least a first gas path to supply gas processed by the compressor from the compressor to at least one of the at least two radial bearings to cool the at least one of the at least two radial bearings, at least one of the at least two radial bearings being a magnetic bearing. 10. The expander and motor-compressor unit of claim 9 , further comprising a second gas path fluidly coupled to at least one magnetic bearing arranged between the electric motor and the turbo-expander, the second gas path configured and arranged to deliver a gas for cooling and buffering between the electric motor and the turbo-expander, wherein the first gas path is fluidly coupled to the at least one magnetic, the first gas path is in fluid communication with a first compressor stage and the second gas path is in fluid communication with a second compressor stage, downstream of the first compressor stage, such that the gas in the second gas path has a pressure higher than the gas in the first gas path. 11. The expander and motor-compressor unit of claim 1 , wherein the turbo-expander comprises variable inlet guide vanes. 12. The expander and motor-compressor unit of claim 1 , further comprising a second turbo-expander arranged for rotation in the casing and drivingly coupled to the electric motor and to the compressor through the central shaft. 13. The expander and motor-compressor unit of claim 1 , wherein the multi-stage compressor is supported in-between two of the at least two radial bearings. 14. The expander and motor-compressor unit of claim 1 , further comprising a first gas path extending from a stage of the multistage compressor and defining a first branch to deliver gas processed by the compressor to cool at least one radial bearing of the at least two radial bearings, and a second branch to deliver gas processed by the compressor to cool the electric motor; and second gas path extending from a different compressor stage to deliver gas processed by the compressor to cool at least one other radial bearing of the at least three radial bearings. 15. The expander and motor-compressor unit of claim 14 , wherein at least one of the radial bearings cooled by gas processed by the compressor is a magnetic bearing.