System and method for treating water systems with high voltage discharge and ozone

What is claimed is: 1. A method for treating water in a flowing water system with a plasma discharge, the method comprising: diverting at least a portion of water from the flowing water system to flow through a reaction chamber comprising an inlet in fluid communication with the flowing water system to receive the diverted portion of water, an outlet, a body, a high voltage electrode at least partially disposed within the body, and a ground electrode at least partially disposed within the body; generating the plasma discharge in the diverted portion of water flowing through the reaction chamber body to treat that portion of water by supplying voltage to the high voltage electrode; optionally supplying one or more gases to the diverted portion of water in the body or upstream of the body; protecting one or more electronic components in the flowing water system from electromagnetic radiation or interference; and wherein at least a portion of the high voltage electrode contacts the diverted portion of water in the body while voltage is being supplied. 2. The method of claim 1 wherein the protecting step comprises providing one or more ground devices connected to components of the flowing water system. 3. The method of claim 1 further comprising generating the voltage supplied to the high voltage electrode in a high voltage generator comprising a Marx ladder. 4. The method of claim 3 wherein the protecting step comprises isolating a power supply to the high voltage generator from other electronic components of the flowing water system by using an isolation transformer, an uninterruptible power supply, or separate breaker circuits. 5. The method of claim 3 wherein the protecting step comprises one or more of the following: connecting one or more electromagnetic interference suppressors to one or more electronic components of the flowing water system, segregating a first power supply for the one or more electronic components of the flowing water system from a second power supply for the high voltage generator and connecting one or more grounding devices to one or more pipe segments or to a sump in the flowing water system. 6. The method of claim 3 further comprising blowing air over electrodes in the high voltage generator. 7. The method of claim 1 wherein the voltage supplied to the high voltage electrode exceeds 200 kV. 8. The method of claim 1 wherein the water is treated to remove biological contaminants and no biocide is added to the water while the water is being treated with the plasma discharge. 9. The method of claim 1 wherein the plasma discharge generating step is periodically repeated. 10. The method of claim 1 further comprising returning the treated portion of water back to the flowing water system. 11. A method for treating water in a flowing water system with a plasma discharge, the method comprising: diverting at least a portion of water from the flowing water system to flow through a reaction chamber comprising an inlet in fluid communication with the flowing water system to receive the diverted portion of water, an outlet, a body, a high voltage electrode at least partially disposed within the body, and a ground electrode at least partially disposed within the body; generating the plasma discharge in the diverted portion of water flowing through the reaction chamber body to treat that portion of water by supplying voltage to the high voltage electrode; optionally supplying one or more gases to the diverted portion of water in the body or upstream of the body; protecting one or more electronic components in the flowing water system from electromagnetic radiation by connecting one or more electromagnetic interference suppressors to one or more electronic components of the flowing water system or connecting one or more grounding devices to one or more pipe segments or to a sump in the flowing water system, or a combination thereof; and wherein at least a portion of the high voltage electrode contacts the diverted portion of water in the body while voltage is being supplied. 12. The method of claim 11 wherein the one or more grounding devices comprise wire wrapped around a pipe in the flowing water system. 13. The method of claim 11 wherein the one or more grounding devices comprise a grounded piece of metal placed in a sump of the flowing water system. 14. The method of claim 11 wherein the flowing water system is a cooling tower or chilled loop system and wherein the one or more components comprises a conductivity meter. 15. A method for treating water in a flowing water system with a plasma discharge, the method comprising: diverting at least a portion of water from the flowing water system to flow through a reaction chamber comprising an inlet in fluid communication with the flowing water system to receive the diverted portion of water, an outlet, a body, a high voltage electrode at least partially disposed within the body, and a ground electrode at least partially disposed within the body; generating the plasma discharge in the diverted portion of water flowing through the reaction chamber body to treat that portion of water by supplying voltage to the high voltage electrode; capturing ozone produced by the voltage generating step and wherein the ozone is supplied to the diverted portion of water in the body or upstream of the body; optionally supplying one or more gases other than ozone to the diverted portion of water in the body or upstream of the body; and wherein at least a portion of the high voltage electrode contacts the diverted portion of water in the body while voltage is being supplied. 16. The method of claim 15 further comprising generating the voltage supplied to the high voltage electrode in a high voltage generator comprising a Marx ladder. 17. A method for treating water in a flowing water system with a plasma discharge, the method comprising: diverting at least a portion of water from the flowing water system to flow through a reaction chamber comprising an inlet in fluid communication with the flowing water system to receive the diverted portion of water, an outlet, a body, a high voltage electrode at least partially disposed within the body, and a ground electrode at least partially disposed within the body; generating the plasma discharge in the diverted portion of water flowing through the reaction chamber body to treat that portion of water by supplying voltage to the high voltage electrode; supplying one or more gases to the diverted portion of water in the body or upstream of the body; wherein at least a portion of the high voltage electrode contacts the diverted portion of water in the body while voltage is being supplied; wherein the flowing water system is a recirculating system and a conductivity level of the water in the recirculating water system increases as it recirculated; and wherein an amount of gas supplied to the diverted portion of water in the body or upstream of the body is increased when the conductivity level reaches or exceeds a predetermined threshold. 18. A method for treating water in a flowing water system with a plasma discharge, the method comprising: diverting at least a portion of water from the flowing water system to flow through a reaction chamber comprising an inlet in fluid communication with the flowing water system to receive the diverted portion of water, an outlet, a body, a high voltage electrode at least partially disposed within the body, and a ground electrode at least partially disposed within the body; generating the plasma discharge in the divert