Product Details:
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Product Name: | Wind Turbine Complete System | Rated Power: | 1KW-1MW |
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Rated Voltage: | 12V 24V 48V 96V | Battery: | Lithium And Gel |
Warranty: | 5 Years | Protection: | IP54 |
High Light: | 96V Wind Turbine Complete System,Off grid ac wind generator system,IP54 ac wind generator system |
Focus on the development of solar power, wind-solar power generation system integration,the business consists of wind and solar monitoring system, Wind Turbine Grid and off-grid system PV system equipment design and procurement, complete sets, feasibility study and installation commissioning.
When designing a wind/solar hybrid system, the following variables should be considered:
1. Wind Resources: Wind resource analysis should focus on solar assistance, which is during the peak winter wind season. Winter winds in most parts of the United States are sufficient for most off-grid electricity needs.
2. Solar resources: In regions such as the Great Lakes region or Canada, where winter months are short and/or cloudy, off-grid systems should have greater wind capacity. In cloud-free regions with latitudes below 35 degrees, such as Arizona, wind makes up a smaller share of total electricity generation due to higher solar utilization in winter.
3. Load characteristics: The energy load required in winter and at night should have a higher wind component. A typical example is hybrid lighting, where loads increase in winter (due to longer nights) and energy is only required at night when wind power is available and solar power is not.
Technical Parameter | ||
NO. | Item | Parameters |
1.Performance | Type | LiFePO4 Battery |
Nominal Voltage | 51.2V | |
Rated Capacity | 200Ah | |
Operating Voltage Range | 42V-57.0V(Typical:51.2V) | |
Charging Voltage | 57.0V | |
Discharge cut-off voltage | 42V | |
Charging Current(Max.) | 60A | |
Discharge Current(Max.) | 100A | |
Width | 435mm | |
Height | 875mm | |
Depth | 190mm | |
Weight | 102kg | |
2.Function | Installation Method | Wall-mounted |
Communication | RS485 | |
Terminal stud | M8 Bolt | |
Alarm&protection | Over voltage,under voltage,short circuit,over current,over temperature,low temperature protection,etc. | |
3.Working Condition | Cooling Mode | Automatic cold and hot |
Altitude | ≤4000m | |
Humidity | 15%-85% | |
Operating Temperature |
Charge 0℃-45℃ Discharge -10℃-60℃ |
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Recommended charge temperature | 15℃-40℃ | |
Recommended discharge temperature | 15℃-40℃ | |
Recommended storage temperature | 0℃-35℃ |
Description of Product
1. What is wind&solar hybrid system?
Overview. 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). Hybrid system are very often used for stand-alone applications at remote sites.
2. How does wind&solar hybrid system work?
A wind&solar hybrid power system uses solar insolation and wind energy to produce electricity. As both solar radiation and wind speed vary throughout the year, neither solar nor wind based system can provide reliable electricity individually.
3. What is hybrid solar system?
A hybrid solar system is grid-tied with battery storage. They come with a special 'smart' inverter that can transmit direct current (DC) power to and from your batteries, and channel alternating current (AC) power between the grid and your home when necessary.
4. What are the advantages of hybrid system?
Hybrid systems provide increased flexibility by allowing you to select the specific instruments for your system regardless of the bus and to expand the system as system requirements change.
5. What does a typical wind&solar hybrid system consist of?
Wind and solar resources are complimentary both seasonally and diurnally, and off-grid hybrid wind/solar systems provide better system reliability, more uniform power generation, and reduced depth of battery discharge. Resource and load matching is critical for off-grid system design.
6. Why would you need a battery bank for off-grid system?
As stated previously, wind turbines are generally used to charge battery banks or feed an electrical grid. Both of these applications required dump loads but let's examine the battery bank application in more detail. A wind turbine will continue to charge a battery a bank until the battery bank is fully charged.
Contact Person: Leo Wang
Tel: +8613827286949