3000W 3 phase Wind Tubrine w/ On Grid Inverter Wind Power 24V 48V to 110V/220VAC
MODEL: WT-FK1.4
Rated power: 3 000w
Rated vo ltage: 24V/48V
Blade length: 140 cm
Top net weight: 45kg
Wind turbine diameter: 2.8 m
Nominal wind speed: 10m / s
Starting wind speed: 2.2 m / s
Survival wind speed: 40m / s
Generator: 3-phase permanent magnet synchronous generator
Lifespan: More than 20 years
Blade material: fiberglass
Shell material: aluminum alloy
Permanent magnet material: rare earth NdFeB
Control system: electromagnet
Working temperature: -40 to 80
Package includes:
1 x Wind Generator
3 x Fiber Glass Blades
1 x DN50 Ring Flange
1 x Grid Inverter
Braket, and sets of assembling
4 x Screws
(not include mast, we will offer you a discout price is you need) .
On grid system diagram
Installation procedure
Installation Grid Tie Power system includes several key steps:
1. taking into account the total capacity of the grid tie power system they require.
2. choice applicable wind turbine for grid tie inverter.
3. selection accessories for installation of Grid Tie Power System.
4. select correct model of Grid Tie Inverter.
5. installation wind turbine to suitable location.
6. installation Grid Tie Inverter to suitable location.
7. Connection Grid Tie Power System with cable and connectors.
8. Grounding the system.
Instructions for Wind Turbine Grid Tie Inverter
This integrated system maximizes energy yield, increases system reliability and simplifies design, installation and management.
The small type of wind energy inverter can draw wind energy from wind turbines and connect it to the grid via its output cables without additional equipment. The installation is very convenient and reliable. We call a system that is combined with a small grid inverter and a wind turbine as "SGWT".
The inverter can be connected to all outputs of the power grid in the house. The small power inverter
Monitors the volume, frequency and phase of the home supply network and generates pure sine wave AC power, the frequency and phase are the same as the networks. The volume is slightly higher than that of the mains, then according to current-controlled PWM to control the output power into the mains. The small power inverter turns off power when the home network is switched on.
When the wind turbine rotates and its voltages are output in the range of the nominal input voltage of the inverter, the wind turbine generates electricity, and the grid tie changes the power from the wind turbine to the home grid. If the total power of the electrical device used in the house is greater than the output power of the inverters, this power is consumed by the inverters in the house. Otherwise, the difference in the output power of the inverter between the total consumed power of the device will go from the house to the output network.
Connection mode:
Description of the wind turbine
A wind turbine is a device that converts kinetic energy from the wind into electrical energy. A wind turbine used to charge batteries can be called a wind charger. A wind turbine can also be connected to a mains inverter such as the SUN WALor WDL series mains inverter to feed energy to the power supply grid.
The result of over a millennium of windmill development and modern technology, today's wind turbines are manufactured in a variety of vertical and horizontal axis types. Slightly larger turbines can be used to make small contributions to the electricity supply in the household and sell unused electricity back to the utility via the grid. Large wind farms are becoming an increasingly important source of renewable energy and are being used by many countries as part of a strategy to reduce their dependence on fossil fuels. A quantitative measure of the wind energy available at each site is called Wind PowerDensity (WPD). It is a calculation of the average annual power per square meter of the worn area of a turbine and is tabulated for different heights above the ground. The calculation of wind density includes the effect of wind speed and air density. Color coded cards are:
prepared for a specific range, described for example as "average annual power density at 50meters". In the United States, the results of the above calculation are included in an index developed by the National Renewable Energy Laboratory and referred to as the "NRELCLASS". The larger the WPD calculation, the higher it is rated by class. Classes range from class 1 (200 Watt persquare meters or less at 50 m height) to class 7(800 to 2000 Watt per square m). Commercial wind farms are usually located in class 3 or higher areas, although isolated points are practically usable in an otherwise class 1 area.
Most wind turbines have similar wind speed curves to power.
Rated power: 3 000w
Rated vo ltage: 24V/48V
Blade length: 140 cm
Top net weight: 45kg
Wind turbine diameter: 2.8 m
Nominal wind speed: 10m / s
Starting wind speed: 2.2 m / s
Survival wind speed: 40m / s
Generator: 3-phase permanent magnet synchronous generator
Lifespan: More than 20 years
Blade material: fiberglass
Shell material: aluminum alloy
Permanent magnet material: rare earth NdFeB
Control system: electromagnet
Working temperature: -40 to 80
Package includes:
1 x Wind Generator
3 x Fiber Glass Blades
1 x DN50 Ring Flange
1 x Grid Inverter
Braket, and sets of assembling
4 x Screws
(not include mast, we will offer you a discout price is you need) .
On grid system diagram
Installation procedure
Installation Grid Tie Power system includes several key steps:
1. taking into account the total capacity of the grid tie power system they require.
2. choice applicable wind turbine for grid tie inverter.
3. selection accessories for installation of Grid Tie Power System.
4. select correct model of Grid Tie Inverter.
5. installation wind turbine to suitable location.
6. installation Grid Tie Inverter to suitable location.
7. Connection Grid Tie Power System with cable and connectors.
8. Grounding the system.
Instructions for Wind Turbine Grid Tie Inverter
This integrated system maximizes energy yield, increases system reliability and simplifies design, installation and management.
The small type of wind energy inverter can draw wind energy from wind turbines and connect it to the grid via its output cables without additional equipment. The installation is very convenient and reliable. We call a system that is combined with a small grid inverter and a wind turbine as "SGWT".
The inverter can be connected to all outputs of the power grid in the house. The small power inverter
Monitors the volume, frequency and phase of the home supply network and generates pure sine wave AC power, the frequency and phase are the same as the networks. The volume is slightly higher than that of the mains, then according to current-controlled PWM to control the output power into the mains. The small power inverter turns off power when the home network is switched on.
When the wind turbine rotates and its voltages are output in the range of the nominal input voltage of the inverter, the wind turbine generates electricity, and the grid tie changes the power from the wind turbine to the home grid. If the total power of the electrical device used in the house is greater than the output power of the inverters, this power is consumed by the inverters in the house. Otherwise, the difference in the output power of the inverter between the total consumed power of the device will go from the house to the output network.
Connection mode:
Description of the wind turbine
A wind turbine is a device that converts kinetic energy from the wind into electrical energy. A wind turbine used to charge batteries can be called a wind charger. A wind turbine can also be connected to a mains inverter such as the SUN WALor WDL series mains inverter to feed energy to the power supply grid.
The result of over a millennium of windmill development and modern technology, today's wind turbines are manufactured in a variety of vertical and horizontal axis types. Slightly larger turbines can be used to make small contributions to the electricity supply in the household and sell unused electricity back to the utility via the grid. Large wind farms are becoming an increasingly important source of renewable energy and are being used by many countries as part of a strategy to reduce their dependence on fossil fuels. A quantitative measure of the wind energy available at each site is called Wind PowerDensity (WPD). It is a calculation of the average annual power per square meter of the worn area of a turbine and is tabulated for different heights above the ground. The calculation of wind density includes the effect of wind speed and air density. Color coded cards are:
prepared for a specific range, described for example as "average annual power density at 50meters". In the United States, the results of the above calculation are included in an index developed by the National Renewable Energy Laboratory and referred to as the "NRELCLASS". The larger the WPD calculation, the higher it is rated by class. Classes range from class 1 (200 Watt persquare meters or less at 50 m height) to class 7(800 to 2000 Watt per square m). Commercial wind farms are usually located in class 3 or higher areas, although isolated points are practically usable in an otherwise class 1 area.
Most wind turbines have similar wind speed curves to power.
