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wind speed of lower than 9 mph would not benefit year-round from a wind-powered installation Some of the smallest wind turbines can be mounted on existing telecommunications towers and produce about 8 10 kWh at wind speeds around 9 mph One of the most crucial pieces of information needed when evaluating the wind energy potential of any given area or site is a reliable definition of the wind resource Wind maps (like the ones from the NASA Website) are available for most countries, providing information of the wind resources at the planned site location 611 Grounding, Lightning, and Surge Protection
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Grounding can be described as the science of obtaining a low-resistance path for the dissipation of current into the earth There are different methods for obtaining a ground but first, a discussion of grounding fundamentals is crucial to understanding and designing a grounding system Grounding is the physical bonding or connection of equipment by a conductor to earth Without a proper low-resistance ground, standard protection devices such as breakers and transient voltage surge and lightning protection systems are ineffective Most communication equipment manufacturers may void their equipment warranties at sites where the ground system performance does not meet their explicit earth-grounding requirements typically 5 or less Additionally, good grounding has other benefits, such as enhanced personnel safety; reduction of system noise; and protection from lightning, unwanted voltages and currents, and power surges Earth is composed of many materials that are variously good and poor conductors of electricity, but Earth as a whole is considered to be a good conductor For this reason, and as a reference point, the Earth s potential is assumed to be zero When an object is grounded, it too is thereby forced to assume the same zero potential If the potential of the grounded object is higher or lower, current will pass through the grounding connection until the potential of the object and earth are the same The earth electrode is the connection path from the equipment to the earth The resistance of the electrode, measured in ohms, determines how quickly, and at what potential, energy is equalized Hence, grounding is necessary to keep an object s potential the same as that of the Earth s Grounding is critical for the human safety, and it is meant to protect equipment from voltage surges and transients A low-resistance ground
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will keep equipment at or near Earth potential, reducing any voltage difference between equipment and Earth This can prevent an accident or fatality during human contact Equipment damage (eg, to sensitive telecommunications equipment) from surges caused by lightning and other sources can result in the loss of millions of dollars in damage and downtime For raw land sites, measuring soil resistivity is the first step in the planning process With this data, a soil resistivity profile is built This profile is the key to an accurate ground grid design and is the only way to ensure predictable grounding system performance A soils profile is the collection of soil resistivity levels at 5-, 10-, 20-, and 40-ft depths, and sometimes up to 100 ft This data is gathered at three or four different locations on the site This allows the design engineer to determine the length, configuration, and quantity of rods required to achieve the specified ground-system resistance Shortcutting the planning stage causes many grounding installations to be found lacking on project completion and is responsible for many acceptance test failures Equipment manufacturers and some regulatory agencies take a serious look at the installed ground-grid resistance measurements before operational approvals are granted Soil resistivity testing allows a proper design that will save time, money, and effort At collocated and existing sites, the existing grounding system must be tested and evaluated This data will be used to determine if a grounding system upgrade is required to protect the new equipment A lack of planning and poor or nonexistent soil resistivity testing will result in unpredictable ground system performance and ineffective equipment protection Historically, the site and ground grid testing step has been the most often undervalued one Some of the most commonly used grounding systems include driven rods, water pipes, chemical wells, ufer grounds,** and electrolytic rods It is strongly recommended that a lightning rod be fitted at the top of the tower It should be independently connected to its own dedicated earth at the base of the tower The microwave radio ODU and cable earth should be connected to a separate earth conductor to the ground
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