Enriching Rural American Farmers And Their Communities By Enabling Broadcasters To Power Transmitters With Wind Energy
Small Business Information
ROBERT MILLER CONSULTING LLC
9 PLAINSBORO RD, Cranbury, NJ, 08512-3209
Vice President Engineering
Vice President Engineering
AbstractRegions in the US with wind levels suitable for producing substantial renewable energy are located in the predominantly agricultural center of the country where population density and therefore demand for electrical power are low. Transport of power from wind farms in this section of the country to the coastal regions where population and the need for power are high is limited by the capacity of the electrical grid, which was designed to link power sources (mainly coal and nuclear plants) located close to demand centers. Television and radio broadcasters are heavy consumers of electrical power with transmission facilities distributed across all regions of the US. Most regions are served by broadcasters with transmitters on or adjacent to farmland. In many cases, the placement of 1 turbine on each of these farms would generate enough power for both the farmer and the broadcaster. TV and FM broadcasters spend more than $400MM annually on transmitter power. A distributed wind cooperative among broadcasters and farmers will bring many benefits to both local economy and environment. Immediate benefits to the agriculture industry include a new, reliable, on-site cash generating "wind energy crop" that can be sold locally. The project will enable substantial amounts of money spent for energy to remain in local, rural communities. It will also help to provide a steady income for farmers and prevent the sale or repossession of the "family farm" due to financial hardship. These distributed, local community-based, renewable power systems have been prevalent in Europe for decades. Distributed wind energy systems circumvent the national power grid constraints by utilizing the power directly, on site. There are approximately 1,200 TV and 2,600 FM transmitters in the 12 windswept Midwest states and another 14,000 transmitters in the remaining states. If fully realized, distributed wind turbines serving all TV and FM markets have the potential to produce approximately 4 TW hours of renewable energy and eliminate 2.5 million metric tons of CO2 annually. It has been well established that wind turbines can cause interference to TV and Radio transmissions. Phases 1 and 2 of this project will develop an interference prediction model that can be used to properly place turbines on farms in close proximity to transmission towers while eliminating or mitigating problems with signal interference. Phase 3 will demonstrate the full technical and economic performance of an operating transmitter powered by and co-sited with a fully operational wind turbine.
* information listed above is at the time of submission.