On Grid Solar System with Net Metering Lead Acid Gel Battery and IP66 Protection for Outdoor Installation

A wind-solar hybrid system represents a smart and efficient energy solution that integrates wind power generation with solar photovoltaic (PV) technology. This combination harnesses the strengths of both renewable sources to provide a more consistent and reliable supply of energy.

The fundamental advantage of this system lies in its complementary nature—it utilizes one energy source to make up for the shortcomings of the other. By blending wind and solar power, the hybrid system can deliver a nearly continuous power supply throughout the year in many areas or during certain times, effectively mitigating the intermittent characteristics associated with each individual source.

In essence, the system functions like a dependable backup for energy generation. During bright, sunny days, the solar PV panels predominantly supply the electricity, while at night or during overcast, windy conditions, the wind turbines take over. This dynamic switching significantly enhances the overall reliability and stability of the power supply.

• Enhanced Stability: The natural synergy between wind and solar energy, considering the differences in day and night as well as seasonal variations, significantly enhances the reliability of power supply. Research indicates that compared to utilizing wind power alone, a hybrid wind-solar system can decrease the amplitude of power output fluctuations by 15%, reduce fluctuation rates by 63%, and cut intermittency by 70%.
• Greater Environmental Flexibility: This technology is not limited by geographical constraints. It can be implemented in diverse locations such as remote mountainous regions, islands, plateaus, and deserts where grid access is unavailable. Such deployment ensures a dependable source of electricity for applications like border security stations and field exploration activities.
• Notable Economic and Environmental Advantages: Beyond conserving energy and reducing emissions, these hybrid systems offer substantial economic benefits over extended periods of operation. For instance, the wind-solar project in Shiqian County, Guizhou, generates approximately 160 million kilowatt-hours of clean electricity annually, which corresponds to saving 68,000 tonnes of standard coal and lessening CO₂ emissions by 168,200 tonnes. Similarly, the Huadian Chayouzhongqi project in Inner Mongolia is projected to save around 700,000 tonnes of standard coal and cut CO₂ emissions by about 1.92 million tonnes each year.

• Wind Turbine: Captures wind energy and transforms it into electrical power. Operates continuously, especially important during nighttime or adverse weather conditions when other energy sources might be less effective.
• Solar PV Array: Consists of multiple solar panels working together to convert sunlight into electricity throughout the daytime. Provides a renewable source of energy that complements the wind turbine.
• Intelligent Controller: Often referred to as the "brain" of the system, efficiently manages the distribution of wind and solar power. Oversees battery charging and discharging processes, preventing overcharging or deep discharging, which helps to prolong the battery's lifespan.
• Battery Bank: Acts as the system's "warehouse" by storing surplus electricity generated from wind and solar sources. This stored energy ensures a continuous power supply during periods when both wind and solar generation are insufficient.
• Inverter: Plays a crucial role by converting the direct current (DC) power stored in the batteries into alternating current (AC) power. This AC power is compatible with household appliances and industrial equipment, making the energy usable.

• Initial Investment: The costs associated with purchasing and installing equipment such as wind turbines, solar panels, and batteries present a substantial financial barrier for many potential adopters.
• Resource Dependence: The effectiveness of power generation is directly linked to local wind conditions and sunlight availability. In regions where sunshine is scarce or wind speeds are low, both the economic viability and the reliability of these systems decline considerably.
• Technical Limitations: The durability and operational lifespan of certain key components, such as small wind turbines, still need enhancements. Additionally, advanced technologies including intelligent control systems are currently being developed and have not yet reached maturity.
• Space Requirements: Renewable energy installations often require a large amount of land or sea space to gather adequate energy. This expansive footprint can lead to conflicts with other land uses, such as agriculture and urban development, making site selection a critical concern.

• System Configuration: Customize to operate in On Grid Mode, Off Grid Mode, or Hybrid Mode, providing maximum flexibility and efficiency for Utility-Tied Solar Solutions or hybrid green energy setups.
• User Interface: Features advanced monitoring options including LED indicators and Bluetooth+APP connectivity for easy control.
• Battery Compatibility: Supports various battery types including Lifepo4 and Lead Acid Gel Battery to suit your power storage preferences.
• Environmental Specifications: Designed for outdoor installation with operating temperature range of -25℃ to 60℃.
• Ordering & Delivery: Minimum order quantity of 1 set with negotiable pricing. Safe packaging using foam and plywood cases with delivery time of approximately 25 working days.
• Payment Options: Flexible payment terms including T/T, Western Union, MoneyGram, and L/C.