Specifications
The next generation e300i exemplifies the beauty of sophisticated aerodynamic design. The e300i is compact and unobtrusive making it suitable for urban living. The e300i is suitable in all wind classes and has a low start-up torque that requires minimal wind to generate energy.
Modern living demands more applications that require energy usage. Every feature of the e300i optimizes renewable energy generation, increasing energy efficiency and cost saving.
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The three aerofoil blades, with a diameter of 3.0m, are managed by a passive pitch control system that allows the e300i to continuously generate usable energy in wind speeds that exceed rated wind speed.
This is one of the factors that contribute to the e300i being one of the best machines in its class in terms of overall energy harvest on an annualised basis. The e300i advanced design moderates noise emissions effectively, making it an inconspicuous power source in all installations and environments.
Applications
• Boost solar and other renewable energy installations increasing productivity, reliability and cost effectiveness
• Water pumping systems with optional water pump controller to reduce utility costs
• Continual & reliable power for repeater stations, suitable for the telecommunications industry
• Grid tie applications using approved inverters to reduce energy costs
• Small wind farm installations
• Generate dedicated power for housing, community health centres not connected to the national grid
• Adaptable to meeting many specific electrical needs
Power generation
Generating your own renewable power is low maintenance as routine maintenance is largely based on visual assessments.
Maintenance schedules are designed to suit the local, respective, wind area and power class. With a maximum instantaneous power rating of 1200W, annual energy harvests can exceed 5500kWh.
Energy may be harvested at any wind speed above the cut-in speed and rated output is maintained at any wind speed exceeding the rated wind speed through passive speed control. Energy output is intrinsically linked to regional wind distribution, topology and altitude as well as tower height.
Potential energy harvest is estimated using an average wind speed in order to tailor the most suitable Kestrel wind system to your electrical need.
Results may vary based on wind distribution, topology, tower height and altitude. In order to estimate ones own potential energy harvest an average wind speed must be used.
Note: Specifications may vary with continuing development and innovation.
