Diverging nozzles and filter element cleaning systems using diverging nozzles

I claim: 1. A filter element cleaning system comprising: a manifold configured to store pressurized gas; a valve in fluid communication with the manifold; and a nozzle connected to the valve, wherein the nozzle is configured to direct pressurized gas released from the manifold through the valve, and wherein the nozzle comprises: a tubular wall comprising a connector end connected to the valve and a free end located distal from the connector end; an interior channel extending through the nozzle from the connector end to the free end, wherein the interior channel defines a channel length extending from the connector end to the free end and a channel width defined by an interior surface of the tubular wall, wherein the channel length extends along a longitudinal axis and wherein the channel width extends transverse to the longitudinal axis; wherein the interior channel comprises a diverging section that extends along the entire channel length from the connector end to the free end of the nozzle, wherein opposing interior surfaces of the nozzle in the diverging section diverge at an angle that is two (2) degrees or more and seven (7) degrees or less. 2. A system according to claim 1 , wherein the opposing interior surfaces of the nozzle in the diverging section diverge at an angle that is three (3) degrees or more and seven (7) degrees or less. 3. A system according to claim 1 , wherein the opposing interior surfaces of the nozzle in the diverging section diverge at an angle that is four (4) degrees or more and seven (7) degrees or less. 4. A system according to claim 1 , wherein the opposing interior surfaces of the nozzle in the diverging section diverge at an angle that is five (5) degrees or more and seven (7) degrees or less. 5. A system according to claim 1 , wherein the opposing interior surfaces of the nozzle in the diverging section diverge at an angle of six (6) degrees. 6. A system according to claim 1 , wherein the interior channel comprises a diverging section length measured along the longitudinal axis that is greater than the channel width at the connector end. 7. A system according to claim 1 , wherein the interior channel comprises a diverging section length measured along the longitudinal axis that is two (2) or more times the channel width at the connector end. 8. A system according to claim 1 , wherein the interior channel comprises a diverging section length measured along the longitudinal axis that is two (2) to five (5) times the channel width at the connector end. 9. A filter element cleaning system comprising: a manifold configured to store pressurized gas; a valve in fluid communication with the manifold; and a nozzle connected to the valve, wherein the nozzle is configured to direct pressurized gas released from the manifold through the valve, and wherein the nozzle comprises: a tubular wall comprising a connector end connected to the valve and a free end located distal from the connector end; an interior channel extending through the nozzle from the connector end to the free end, wherein the interior channel defines a channel length extending from the connector end to the free end and a channel width defined by an interior surface of the tubular wall, wherein the channel length extends along a longitudinal axis and wherein the channel width extends transverse to the longitudinal axis; wherein the interior channel comprises a diverging section that extends along the entire channel length from the connector end to the free end of the nozzle, wherein the interior channel comprises a diverging section length measured along the longitudinal axis that is two (2) to five (5) times the channel width at the connector end, wherein opposing interior surfaces of the nozzle in the diverging section diverge at an angle that is two (2) degrees or more and seven (7) degrees or less.