Method and apparatus for finishing a surface of a component

We claim: 1 . An apparatus for finishing a surface of a component, the apparatus comprising: a cavitation generator configured to generate cavitation bubbles in a flow of liquid contacting the surface of the component; an abrasive supply line configured to deliver a flow of abrasives to the surface; and a controller configured to control the cavitation generator to generate the cavitation bubbles to finish the surface by implosion of the cavitation bubbles and configured to control the flow of the abrasives to finish the surface by abrasion, wherein the apparatus further comprises: a cavitation chamber in which the component is installed, the cavitation chamber including a nozzle comprising a first passageway located at a central region of the nozzle, and a second passageway configured to receive and deliver the flow of the abrasives to the surface, wherein the second passageway surrounds the first passageway, and wherein the cavitation chamber further includes a discharge line exiting from the cavitation chamber, wherein the discharge line carries at least the flow of the abrasives; and a filtration system configured to receive at least the flow of the abrasives from the discharge line and recirculate at least the abrasives to the abrasive supply line, and the first passageway extends to a first outlet and the second passageway extends to a second outlet, the first and the second outlet being arranged at a common discharge end of the nozzle, and the first and second passageways are separated from each other until they exit their respective outlets by a wall between the flow of liquid and the flow of abrasives. 2 . The apparatus of claim 1 , wherein the flow of the abrasives is either a flow of slurry comprising a suspended mixture of abrasive particles or a flow of dry abrasives. 3 . The apparatus of claim 1 , wherein the cavitation generator comprises an ultrasonic generator configured to generate the cavitation bubbles in the liquid contacting the surface by ultrasonic excitation in the liquid or a laser configured to generate the cavitation bubbles in the liquid contacting the surface by laser excitation in the liquid. 4 . The apparatus of claim 1 , wherein the cavitation generator comprises a liquid supply line configured to deliver the flow of the liquid to the surface to generate cavitation bubbles, and wherein the liquid supply line comprises a supply of the liquid, a liquid pump and a liquid pressure regulator, wherein the liquid pump and the liquid pressure regulator are configured to pressurise the flow of liquid, and the abrasive supply line comprises a supply of abrasives, an abrasives pump and an abrasives pressure regulator, wherein the abrasives pump and the abrasives pressure regulator are configured to pressurise the flow of abrasives. 5 . The apparatus of claim 1 , wherein the controller is configured to control pressure and/or flow rate of the flow of the liquid to control an intensity of cavitation bubble generation and/or cavitation bubble implosion. 6 . The apparatus of claim 1 , wherein the discharge line carries a mixed flow of the liquid and the abrasives and the filtration system is configured to receive the mixed flow and separate the mixed flow into the liquid and the abrasives, and wherein the filtration system is further configured to recirculate either only the separated abrasives or both the separated abrasives and separated liquid for delivery respectively to the liquid and abrasive supply lines. 7 . The apparatus of claim 1 , wherein the first passageway of the nozzle is configured to deliver the flow of the liquid to the surface. 8 . The apparatus of claim 1 , wherein the discharge line comprises a discharge pressure regulator configured to regulate a back pressure in the cavitation chamber. 9 . The apparatus of claim 8 , wherein the controller is configured to control the discharge pressure regulator to regulate the back pressure in the cavitation chamber. 10 . The apparatus of claim 6 , wherein the filtration system comprises a filtration tank having at least one filter, the filtration tank being configured to receive the mixed flow of liquid and abrasives, wherein, in use, the filter at least partially restricts the flow of abrasives within the filtration tank to separate the mixed flow into the liquid and the abrasives. 11 . The apparatus of claim 10 , wherein the filtration system comprises a plurality of filters, each of the plurality of filters having different pore sizes. 12 . The apparatus of claim 1 , wherein the surface comprises a surface of an internal channel of the component. 13 . A method for finishing a surface of a component, the method comprising the steps of: installing the component in an apparatus configured to deliver a flow of abrasives to the surface and to generate cavitation bubbles in a flow of liquid contacting the surface using a cavitation generator, the apparatus comprising a filtration system and a nozzle having a first passageway located at a central region of the nozzle, and a second passageway configured to receive and deliver the flow of the abrasives to the surface, the second passageway surrounding the first passageway; controlling the cavitation generator such that the cavitation bubbles are generated to finish the surface by implosion of the cavitation bubbles; controlling the flow of the abrasives to the surface so as to finish the surface by abrasion; and controlling the flow of the abrasives through the filtration system, wherein the filtration system is configured to recirculate at least the abrasives for delivery to the apparatus, wherein the first passageway extends to a first outlet and the second passageway extends to a second outlet, the first and the second outlet being arranged at a common discharge end of the nozzle, and the first and second passageways are separated from each other until they exit their respective outlets by a wall between the flow of liquid and the flow of abrasives. 14 . The apparatus of claim 1 , wherein the nozzle includes an inlet end and an outlet end opposite of the inlet end, the first and second passageways extending from the inlet end of the nozzle to the outlet end of the nozzle. 15 . The method of claim 13 , the method further comprising mixing the flow of the liquid and the flow of the abrasives at the surface to generate a mixed flow and controlling the mixed flow through the filtration system, wherein the filtration system is configured to separate the mixed flow into the liquid and the abrasives and recirculate either only the separated abrasives or both the separated liquid and the separated abrasives for delivery to the apparatus. 16 . The method of claim 13 , wherein the flow of abrasives is either a flow of slurry comprising a suspended mixture of abrasive particles or a flow of dry abrasives. 17 . The method of claim 13 , wherein the cavitation generator is configured to deliver the flow of liquid to the surface to generate the cavitation bubbles. 18 . The method of claim 13 , wherein the cavitation generator comprises an ultrasonic generator configured to generate the cavitation bubbles in the liquid contacting the surface by ultrasonic excitation in the liquid or a laser configured to generate the cavitation bubbles in the liquid contacting the surface by laser excitation in the liquid. 19 . The method of claim 18 , comprising controlling an amplitude and/or a frequency of ultrasonic vibrations to control the generation of the cavitation bubbles. 2