Removal of ferromagnetic material from a fluid stream

The invention claimed is: 1. A method of filtering ferromagnetic material from a process fluid, the method comprising: a. providing a process fluid circuit, the circuit incorporating a magnetic filter assembly; b. the magnetic filter assembly comprising: i. a filter housing having a flow chamber which, in use, is exposed to the process fluid; ii. the filter housing comprising one or more elongate hollow sleeves extending into the flow chamber such that, in use, an exterior surface of each sleeve is exposed to the process fluid and an interior surface of each sleeve is sealed from the process fluid; wherein iii. each sleeve has an opening at a proximal end thereof via which the interior surface of each sleeve is open or openable to the environment whilst remaining sealed from the process fluid; iv. each sleeve has received in it a magnet, the magnet being removable from the sleeve via the opening; c. causing the process fluid to flow through the filter assembly; d. periodically cleaning the filter assembly by removing the magnets from the sleeves without exposing the interior of the process fluid circuit to the surroundings; e. after the magnets have been removed, flushing cleaning liquid through the filter assembly to remove accumulated ferromagnetic material; f. temporarily suspending influent flow of cleaning liquid; sparging gas through the filter assembly to create turbulence and thereby aid in the removal of accumulated ferromagnetic material. 2. A method as claimed in claim 1 , wherein the sparging gas is nitrogen gas. 3. A method as claimed in claim 1 further comprising injecting a chemical into the process fluid circuit upstream of the filter assembly which chemical reacts with one or more dissolved contaminant compounds in the process fluid to produce one or more ferromagnetic precipitates. 4. A method as claimed in claim 3 wherein the injected chemical is hydrogen peroxide and the process further comprises heating the process fluid upstream of the filter assembly. 5. A method as claimed in claim 1 wherein the filter assembly is connected into a side stream of a main process fluid circuit. 6. A method of filtering ferromagnetic material from a process fluid, the method comprising: a. providing a process fluid circuit, the circuit incorporating a magnetic filter assembly; b. the magnetic filter assembly comprising: i. a filter housing having a flow chamber which, in use, is exposed to the process fluid; ii. the filter housing comprising one or more elongate hollow sleeves extending into the flow chamber such that, in use, an exterior surface of each sleeve is exposed to the process fluid and an interior surface of each sleeve is sealed from the process fluid; wherein iii. each sleeve has an opening at a proximal end thereof via which the interior surface of each sleeve is open or openable to the environment whilst remaining sealed from the process fluid; iv. each sleeve has received in it an electromagnet; c. causing the process fluid to flow through the filter assembly; d. periodically cleaning the filter assembly by deactivating the electromagnets without exposing the interior of the process fluid circuit to the surroundings; f. after the magnets have been deactivated, flushing cleaning liquid through the filter assembly to remove accumulated ferromagnetic material; g. temporarily suspending influent flow of cleaning liquid; sparging gas through the filter assembly to create turbulence and thereby aid in the removal of accumulated ferromagnetic material. 7. A method as claimed in claim 6 , wherein the sparging gas is nitrogen gas. 8. A method as claimed in claim 6 further comprising injecting a chemical into the process fluid circuit upstream of the filter assembly which chemical reacts with one or more dissolved contaminant compounds in the process fluid to produce one or more ferromagnetic precipitates. 9. A method as claimed in claim 8 wherein the injected chemical is hydrogen peroxide and the process further comprises heating the process fluid upstream of the filter assembly. 10. A method as claimed in claim 6 wherein the filter assembly is connected into a side stream of a main process fluid circuit.