Discharge electrode suspension system using rings

The invention claimed is: 1. A discharge electrode for use in an electrostatic precipitator having a power supply connected to at least one collection electrode and having a flow of gas and particles across the discharge electrode and said at least one collection electrode, the discharge electrode comprising: (a) a first support; (b) a second support spaced from the first support with a first gap between the first and second supports; (c) a group of carbon fibers seating against one another in a substantially parallel orientation and infiltrated by a matrix material to form a first composite that extends around the first and second supports and is exposed to the flow of gas, wherein the first composite is electrically connected to the power supply; (d) a bias mounted to the second support applying a longitudinal force to the second support directed away from the first support, the bias thereby applying to the first composite a longitudinal force that tends to maintain the first composite substantially taut between the first and second supports; (e) a third support extending from the first support; (f) in a fourth support spaced from the third support with a second gap between the third and fourth supports and a third gap between the second and fourth supports; (g) a second composite formed from carbon fibers seating against one another in a substantially parallel orientation infiltrated by a matrix material, wherein said second composite extends around the third and fourth supports, is exposed to the flow of gas, and is electrically connected to the power supply; and (h) a second bias mounted to the second and fourth supports and applying a longitudinal force to the fourth support directed away from the third support, the second bias thereby applying to the second composite a longitudinal force that maintains the second composite substantially taut between the third and fourth supports. 2. The discharge electrode in accordance with claim 1 , wherein the third and fourth supports are transverse to the first and second supports, thereby disposing portions of the second composite substantially parallel to portions of the first composite and spaced therefrom. 3. The discharge electrode in accordance with claim 2 , wherein the first, second and fourth supports are cylindrical rings, and the third support is a section of a cylindrical ring. 4. The discharge electrode in accordance with claim 3 , wherein the second bias is a spring mounted in the third gap. 5. The discharge electrode in accordance with claim 1 , wherein the carbon fibers include at least some carbon nanofibers. 6. The discharge electrode in accordance with claim 1 , wherein the first support is conductively mounted to the power supply. 7. The discharge electrode in accordance with claim 6 , wherein the second support is disposed below the first support in an operable orientation. 8. The discharge electrode in accordance with claim 1 , wherein the first and second supports are cylindrical rings.