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Difference between revisions of "Hybrid-Systems Containing Wind Energy"
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*a ''Uninterruptible Power Supply '(UPS) ''of x<sub>p</sub> kW in order to guarantee high quality AC electricity generation | *a ''Uninterruptible Power Supply '(UPS) ''of x<sub>p</sub> kW in order to guarantee high quality AC electricity generation | ||
*a DC/AC inverter of x<sub>p </sub>kW | *a DC/AC inverter of x<sub>p </sub>kW | ||
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| + | ==== Energy storage ==== | ||
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| + | Hybrid systems contain an energy storage device to store the surplus energy during times of high energy production, which can be used for supply when production from renewable sources is low (e.g. no wind). For this reason, the size of the device is often described by the period of time the average load can be covered using the storage as the sole source of energy in hours h<sub>0. </sub>Other important characteristics are the overall efficiency of the storage device (determined by the loss of energy during the charge and discharge-process), the output voltage U<sub>b</sub> and the maximum permitted discharge. | ||
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| + | Lead-acid batteries today are the most common technology solution used in hybrid energy systems. There are several alternatives like flywheels, pumped hydro storage, hydraulic storage and fuel cells. | ||
==== Wind-PV systems ==== | ==== Wind-PV systems ==== | ||
Revision as of 14:27, 29 June 2011
The term wind hybrid system describes any combination of wind energy with one or more additional sources of electricity generation (e.g. biomass, solar or a generator using fossil fuels). The combination of renewable energy technologies allows a more balanced electricity supply during day/night and seasonal changes: At most sites wind speed is low, when the sun is shining and reaches higher values on cloudy days. Thus the amount of energy generated by wind energy reaches its maximum in the winter months, while the output of PV-cells is significantly higher in the summer. Other important examples are Wind-Diesel systems often used in rural areas. A diesel generator will be used as backup, if the electricity demand can not be covered by the installed wind turbines. Regulation and conversion of the available energy sources is a central issue planning a wind hybrid system. Many hybrid systems are uses as stand-alone off-grid applications.[1]
Description of a wind hybrid system
Wind hybrid-systems generally consist of generating units, storage facilities and system electronic devices[2]:
- one or more wind converters of x0 kW
- one or more other electricity generation options either either using renewable energy (e.g. Photovoltaic Panels) of fossil energy sources (e.g. diesel generator)
- an energy storage device
- an AC/DC rectifier of xr kW in case the energy storage installation operates on DC current (e.g. all types of batteries)
- a charge controller of xc kW
- a Uninterruptible Power Supply '(UPS) of xp kW in order to guarantee high quality AC electricity generation
- a DC/AC inverter of xp kW
Energy storage
Hybrid systems contain an energy storage device to store the surplus energy during times of high energy production, which can be used for supply when production from renewable sources is low (e.g. no wind). For this reason, the size of the device is often described by the period of time the average load can be covered using the storage as the sole source of energy in hours h0. Other important characteristics are the overall efficiency of the storage device (determined by the loss of energy during the charge and discharge-process), the output voltage Ub and the maximum permitted discharge.
Lead-acid batteries today are the most common technology solution used in hybrid energy systems. There are several alternatives like flywheels, pumped hydro storage, hydraulic storage and fuel cells.
Wind-PV systems
Wind-Diesel systems
Wind-PV-Diesel systems
Ancillary equipment in hybrid systems
Batteries can be the most expensive part of an off-grid system, because their working life is limited and they may have to be exchanged several times during a off-grid system is in operation. In most cases, batteries with lead-acid technology are used and it is important to select high-quality cells whenever possible.
To prevent the batteries from over-charging or over-discharging, electric controllers are needed. Many wind turbines for off-grid applications are already delivered with a matching controller. Inverters change the DC current generated by wind turbines into the AC current.
Examples for hybrid systems
References
External links
- Wikipedia: Wind-diesel hybrid power system (contains a list of communities using wind-diesel systems), retrieved 17.6.2011 [[2]]
