Wire electrode cleaning in ionizing blowers

What is claimed is: 1. A gas ionization apparatus for converting a non-ionized gas stream into an ionized gas stream, the apparatus comprising: an ionizing wire electrode at least partially disposed within and stationary relative to a channel; and a frame having plural support elements for supporting the ionizing wire electrode, the frame configured to make full rotations around the channel in a first rotation direction while applying tension to the ionizing wire electrode, the support elements configured to physically remove material from the ionizing wire electrode while the support elements are moved along the ionizing wire electrode by rotation of the frame. 2. The gas ionization apparatus of claim 1 , further comprising a housing with an inlet, an outlet, and the channel therebetween, through which at least one of the ionized gas stream and the non-ionized gas stream flows. 3. The gas ionization apparatus of claim 1 , wherein the ionizing wire electrode is configured to produce charge carriers in response to an ionizing signal thereto to convert the non-ionized gas stream into the ionized gas stream. 4. The gas ionization apparatus of claim 3 , wherein the ionizing wire electrode comprises a surface that develops a contaminant byproduct in response to the ionizing signal, the material comprising the contaminant byproduct. 5. The gas ionization apparatus of claim 1 , wherein the frame is positioned such that at least one of the ionized gas stream or the non-ionized gas stream flows therethrough, the ionizing wire electrode being anchored at a location outside of a circumference of the frame. 6. The gas ionization apparatus of claim 1 , wherein the ionizing wire electrode is supported in a path around a portion of a circumference of the frame. 7. The gas ionization apparatus of claim 1 wherein the channel defines a central axis about which the frame is configured to continuously rotate while the ionizing wire electrode produces charge carriers. 8. The gas ionization apparatus of claim 1 wherein the frame rotates the support elements continuously in a single direction relative to the ionizing wire electrode. 9. The gas ionization apparatus of claim 1 , wherein the frame comprises an ionized gas flow collimator with plural blades. 10. The gas ionization apparatus of claim 2 wherein the frame comprises an inlet side facing the housing inlet and an outlet side facing the housing outlet, wherein the ionizing wire electrode is supported on the inlet side of the frame. 11. The gas ionization apparatus of claim 10 , wherein the apparatus further comprises another ionizing wire electrode supported by plural support elements on the outlet side of the frame and stationary relative to the channel such that the support elements simultaneously clean contaminant byproducts off of both of the ionizing wire electrodes when the frame is rotated. 12. A gas ionization apparatus for converting a non-ionized gas stream into an ionized gas stream, the apparatus comprising: an ionizing wire electrode at least partially disposed within and stationary relative to a channel; and a frame having plural support elements for supporting the ionizing wire electrode, the frame configured to rotate around the channel, the support elements being configured to physically clean material off of a surface of the ionizing wire electrode during rotation of each of the support elements of the frame by at least 180 degrees in a single direction. 13. The gas ionization apparatus of claim 12 , wherein the support elements are configured to mechanically remove a contaminant byproduct from the ionizing wire electrode while the support elements are moved along the ionizing wire electrode by rotation of the frame, the material comprising the contaminant byproduct. 14. The gas ionization apparatus of claim 12 wherein the ionizing wire electrode comprises a loop that is resiliently tensioned against at least two of the plural support elements and the support elements clean contaminant byproducts off of a surface of the ionizing wire electrode while the ionizing wire electrode produces charge carriers in response to the provision of an ionizing signal thereto by physically bearing against the contaminant byproduct during rotation of the frame. 15. The gas ionization apparatus of claim 12 wherein each of the plural support elements comprises a curved hook that is at least substantially rigid. 16. The gas ionization apparatus of claim 12 wherein each of the plural support elements comprises a multi-coil spring, wherein the ionizing wire electrode is supported between adjacent coils of the spring. 17. The gas ionization apparatus of claim 12 , wherein the channel defines a central axis, the frame configured to continuously rotate more than 180 degrees about the central axis while the ionizing wire electrode produces charge carriers in response to an ionizing signal thereto. 18. The gas ionization apparatus of claim 12 , wherein the apparatus further comprises a tensioning element, wherein the ionizing wire electrode is removably mounted to a housing via the tensioning element. 19. The gas ionization apparatus of claim 18 , wherein the tensioning element is adjustable such that tension of the ionizing wire electrode can be adjusted between about 50 grams and about 100 grams. 20. A gas ionization apparatus for converting a non-ionized gas stream into an ionized gas stream, the apparatus comprising: an ionizing wire electrode partially disposed within and stationary relative to a channel, the ionizing wire electrode having a surface that develops a contaminant byproduct in response to production of charge carriers by the ionizing wire electrode in response to an ionizing signal thereto; and a frame having plural support elements for supporting the ionizing wire electrode, the frame configured to rotate around the channel by at least 180 degrees in a single direction, wherein a first support element of the plural support elements is conductive and electrically isolated from a second support element of the plural support elements, the plural support elements being configured to clean contaminant byproducts off of the surface of the ionizing wire electrode by micro-discharge between the first support element and the ionizing wire electrode during rotation of the frame.