Re-lined pipe technique for wear mitigation in slurry transport pipeline

What is claimed is: 1. A method for re-lining an inner surface of a slurry transport pipeline in a minable oilsands facility or plant, comprising: moving a pigging tool having a spraying mechanism and a curing source along an inner surface of a slurry transport pipeline in a minable oilsands facility or plant; spraying with the spraying mechanism an abrasion-resistant coating on the inner surface of the slurry transport pipeline; polymerizing with the curing source, including an ultraviolet (UV) light source, a microwave source or a radio frequency (RF) source, the abrasion-resistant coating sprayed on the inner surface of the slurry transport pipeline in situ as the spray mechanism moves along the inner surface of the slurry transport pipeline; and controlling the operation of the pigging tool with a remotely operated controller having a signal processor configured to provide wireless signaling to move the spraying mechanism along the inner surface of the slurry transport pipeline and spray the abrasion-resistant coating on the inner surface of the slurry transport pipeline, and cure with the curing source the abrasion-resistant coating sprayed on the inner surface of the slurry transport pipeline in situ as the spray mechanism moves along the inner surface of the slurry transport pipeline. 2. A method according to claim 1 , wherein the method comprises initially cleaning the inner surface of the slurry transport pipeline. 3. A method according to claim 1 , wherein the method comprises spraying a monomer coating, then polymerizing the coating via the UV irradiation. 4. A method according to claim 1 , wherein the method is performed as part of a scheduled maintenance program, including during a shut-down, where the slurry transport pipeline is cleaned using ‘pigging’ technology, and then a subsequent pigging tool is introduced to the pipeline which allows for a spray-coat application of the abrasion-resistant coating, which is then cured in-situ. 5. A method according to claims 4 , wherein the method includes using a polymer coating as the abrasion-resistant coating. 6. A method according to claim 1 , wherein the method comprising choosing the abrasion-resistant coating so as to form an impedance discrimination or characteristic between the slurry transport pipeline and the abrasion-resistant coating that does not preclude ultrasonic non-destructive testing examination (NDE) approaches for detecting liner wear and wall thickness. 7. A method according to claim 1 , wherein the abrasion-resistant coating includes NDE/Haol to ensure that any slurry transport pipeline made of steel is not being eroded.