Self-cleaning linear ionizing bar and methods therefor

What is claimed is: 1 . A self-cleaning linear ionizer comprising: at least one flexible and movable ionizing electrode that defines an axis along a stationary linear working length thereof, the electrode establishing a linear ion cloud along the working length thereof in response to the application of an ionizing signal to the electrode; at least one stationary electrode-cleaner that may selectively engage the movable electrode along the linear working length thereof; means for applying an ionizing signal to the electrode to thereby establish the linear ion cloud, wherein the working length of the electrode has a surface that develops degradation products in response to the application of the ionizing signal; means for moving the electrode along the axial working length thereof such that the electrode-cleaner removes at least some of the surface degradation products from the electrode during movement; and means for tensioning the electrode on the means for moving such that a substantially constant tensional force is maintained on the electrode. 2 . The self-cleaning linear ionizer of claim 1 further comprising plural guide elements for supporting the electrode such that the electrode is axially movable along the working length thereof and urged into contact with the electrode-cleaner. 3 . The self-cleaning linear ionizer of claim 1 wherein the means for moving the electrode comprises first and second spool assemblies disposed on opposite sides of the linear working length, and wherein first and second ends of the electrode are respectively affixed to the first and second spool assemblies such that the working length of the flexible wire electrode is disposed therebetween, and wherein the means for tensioning comprises a constant-force spring motor assembly operatively associated with at least one of the first and second spool assemblies. 4 . The self-cleaning linear ionizer of claim 1 further comprising plural pigtail guides wherein each guide has a helical end that permits axial movement of the ionizing electrode therein and wherein the means for applying is in electrical communication with a high voltage power supply and comprises an electrically conductive spool onto which the electrode is coiled. 5 . The self-cleaning linear ionizer of claim 1 wherein the flexible electrode is a wire that has first and second opposing ends and is longer than the working length of the electrode, wherein the means for moving the electrode comprises first and second spool assemblies disposed on opposite sides of the linear working length, and wherein the first and second ends of the electrode are respectively affixed to the first and second spool assemblies such that the working length of the flexible wire electrode is disposed therebetween. 6 . The self-cleaning linear ionizer of claim 5 wherein the surface degradation products comprise contaminant byproducts, and wherein rotation of the first and second spool assemblies causes axial movement of the wire electrode along the working length thereof whereby at least some of the contaminant byproducts are abraded off of the surface of the electrode by the electrode-cleaner. 7 . The self-cleaning linear ionizer of claim 6 wherein the first spool assembly comprises a servo gear motor and a first electrode spool; the second spool assembly comprises a second electrode spool; the electrode is coiled around the first electrode spool as the servo gear motor pulls the electrode in a first axial direction along the working length thereof whereby at least some of the contaminant byproducts are abraded off of the surface of the wire electrode by the electrode-cleaner; and the means for tensioning the electrode comprises a constant-force spring motor assembly operatively associated with the second spool assembly to thereby counterbalance the tensional force applied to the electrode by the servo gear motor. 8 . The self-cleaning linear ionizer of claim 7 wherein the electrode is coiled around the second spool as the constant-force spring motor assembly pulls the electrode in the opposite axial direction along the working length thereof whereby at least some of the contaminant byproducts are abraded off of the surface of the wire electrode by the electrode-cleaner. 9 . The self-cleaning linear ionizer of claim 1 wherein the ionizer further comprises plural support elements for supporting the electrode; the means for moving the electrode comprises first and second spool assemblies disposed on opposite sides of the linear working length of the electrode; the electrode is longer than the working length of the electrode and has first and second opposing ends affixed to the first and second spool assemblies that the working length of the electrode is tautly disposed therebetween; and rotation of the first and second spool assemblies causes axial movement of the wire electrode through the support elements. 10 . The self-cleaning linear ionizer of claim 6 further comprising means for evacuating the contaminant byproducts from the electrode-cleaner as they are abraded off of the surface of the electrode. 11 . The self-cleaning linear ionizer of claim 1 wherein the means for applying comprises the at least one stationary electrode-cleaner. 12 . The self-cleaning linear ionizer of claim 3 wherein the means for applying comprises the second spool assembly and the spring motor assembly. 13 . A self-cleaning linear ionizer comprising: at least one flexible ionizing electrode that defines an axial working length thereof, the electrode having opposing ends and a surface, and the electrode establishing a linear ion cloud along the working length thereof in response to the receipt of an ionizing signal, wherein the working length of the electrode is stationary relative to the ionizer but the electrode is movable; at least one stationary electrode-cleaner that is in physical contact with the surface of the electrode along the linear working length thereof; and opposing spool assemblies to which the opposing ends of the electrode are affixed, the assemblies axially moving the ionizing electrode such that the electrode-cleaner cleans the surface of the electrode during movement; and a constant force spring assembly tensioning the electrode between the opposing spool assemblies such that a substantially constant tensional force is maintained on the electrode. 14 . A self-cleaning linear ionizer comprising: at least one linear ionizing electrode that defines an axis, the electrode establishing a linear ion cloud along the length thereof in response to the application of an ionizing voltage thereto, wherein the electrode is stationary relative to the ionizer; at least one electrode-cleaner that is movable parallel to the electrode axis and that may selectively engage the electrode; means for applying an ionizing signal to the ionizing electrode to thereby establish the linear ion cloud, wherein the electrode has a surface that develops contaminant byproducts in response to the application of the ionizing signal to the electrode; and means for moving the electrode-cleaner along the electrode such that the electrode-cleaner abrades at least some of the contaminant byproducts off of the surface of the electrode during movement of the electrode-cleaner. 15 . The self-cleaning linear ionizer of claim 14 wherein the electrode-cleaner comprises a pair of filaments disposed on opposite sides of the electrode and a shuttle fixedly attached to the filaments, and wherein the means for moving the electrode-cleaner moves the filaments in directions that are parallel to the elec