Fences Sucking Power From Under Hv Transmission Lines

Fences Sucking Power From Under Hv Transmission Lines Youtube Experiment in harvesting energy with capacitance link between a fence wire and hv transmission line. The radio transmission from high power lines cannot be “stopen”. this is a side affect of transmission, much like breathing nitrogen is a side affect of breathing oxygen. while harvesting.

Fences Sucking Power From Under Hv Transmission Lines Running above that lot is a high voltage transmission line. i don't know the voltage, but the lines are supported by huge lattice towers. the towers are hundreds of feet away, not on the lot i'm buying; and the lines are 100 feet high. my hope is to immediately fence both lots together for my dogs, and later, to add a pool and detached garage. When i was a lot younger and working power transmission lines, i was working out of state. left home just around midnight to get to work for the week. the highway went under a transmission line that was somewhere around 348 500kv. dark night, no moon, and very humid. i looked ahead and saw the lines glowing a blueish green. A 600 kv line is a very high voltage power line. maybe it's charged to "only" 350 kv but maybe not at all times. even 350 kv is higher than most of the older lines. what is most likely happening is that the current through the hv line above is inducing a current in your fence which is frying the chargers. One of the major risks (or opportunities to "generate" power) is when building fences parallel to high voltage power lines. for typical fence values, h = 4 feet (1.22 meters), gmr = 0.125 inches (3.2 × 10 3 meters) and a ground voltage gradient of 4 kv m (maximum gradient for a lateral distance of 38 feet from the center line of the 345 kv.

Harvesting Electricity From High Voltage Transmission Lines Using A 600 kv line is a very high voltage power line. maybe it's charged to "only" 350 kv but maybe not at all times. even 350 kv is higher than most of the older lines. what is most likely happening is that the current through the hv line above is inducing a current in your fence which is frying the chargers. One of the major risks (or opportunities to "generate" power) is when building fences parallel to high voltage power lines. for typical fence values, h = 4 feet (1.22 meters), gmr = 0.125 inches (3.2 × 10 3 meters) and a ground voltage gradient of 4 kv m (maximum gradient for a lateral distance of 38 feet from the center line of the 345 kv. Electric induction – fences. long fence wires that are strung on wooden posts can present shock possibilities if they run more or less parallel and close to the transmission line. the insulation quality of the wooden posts is the controlling parameter. perpendicular fences will have significantly less induced current and voltage. If this a fence that is extending under an existing transmission line, then you need to consult the poco. depending on the voltage level and clearance, there may be additional grounding needed to ensure the effects of the electrostatic field produce currents less than 5 milliamperes (see nesc rule 232d3c).