22-09-2017, 10:51 AM
Today renewable energy plays a large role in the energy system around the world. The integration of renewable resources uses communication systems as the key technology, which plays an extremely important role in the monitoring, operation and protection of both renewable energy generators and energy systems.
It reviews some available communication technologies for the network integration of renewable energy resources. Since most renewable energy sources are of an intermittent nature, it is an important task to integrate a significant part of renewable energy resources into the energy grid infrastructure, mainly electricity flows in a direction from the centralized to consumers.
Wind energy systems convert kinetic energy from wind into other forms of energy such as electricity. Although wind power conversion is relatively simple in concept, the design of the turbine can be quite complex. Most of the commercially available wind turbine uses a horizontal shaft configuration with two or three blades, a drive train that includes a gearbox and a generator and tower to support the rotor. Typical sizes for a wind turbine range from 200-750 KW, with electricity producing within a specific range of wind speed. Capital costs have declined from approximately $ 2.2 / w in the early 1980s to less than $ 1 / w today. Cooperative research between DOE and manufacturing companies aims to increase aerodynamic efficiency and structural strength of wind turbine blades by developing variable speed generation and electronic power controls and using a higher tower that allows access to the stronger wind found at higher altitude. An important factor in how much energy your wind turbine will produce is the height of your tower.
It reviews some available communication technologies for the network integration of renewable energy resources. Since most renewable energy sources are of an intermittent nature, it is an important task to integrate a significant part of renewable energy resources into the energy grid infrastructure, mainly electricity flows in a direction from the centralized to consumers.
Wind energy systems convert kinetic energy from wind into other forms of energy such as electricity. Although wind power conversion is relatively simple in concept, the design of the turbine can be quite complex. Most of the commercially available wind turbine uses a horizontal shaft configuration with two or three blades, a drive train that includes a gearbox and a generator and tower to support the rotor. Typical sizes for a wind turbine range from 200-750 KW, with electricity producing within a specific range of wind speed. Capital costs have declined from approximately $ 2.2 / w in the early 1980s to less than $ 1 / w today. Cooperative research between DOE and manufacturing companies aims to increase aerodynamic efficiency and structural strength of wind turbine blades by developing variable speed generation and electronic power controls and using a higher tower that allows access to the stronger wind found at higher altitude. An important factor in how much energy your wind turbine will produce is the height of your tower.