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Project
B3,144kWh,Deye
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Address
South Africa
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Date
August 2023
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Application
PV+AC
Project Background
Electricity supply has always been a challenge on farms in South Africa due to their remote location and poor power infrastructure. Conventional power supply methods are often unable to meet the growing energy demands of farms, especially during peak seasons and adverse weather conditions. Therefore, finding a reliable and sustainable energy supply solution has become an urgent need for farms.
It is in this context that the Dyness B3 battery module is of particular importance. By using 48 battery modules in parallel, the farm was able to build a large and stable energy storage system. This system will not only provide timely supplemental power during peak demand, but also ensure the normal operation of the farm in the event of power shortage or interruption.
Project Introduction
The Dyness B3 battery module has achieved a breakthrough application on a South African farm, successfully expanding the original limit of a maximum of 40 units in parallel to 48 units with stable communication. This innovation not only highlights the excellence of the technology, but also supports a sustainable energy supply for South African farms.
First, let's clarify the characteristics of the Dyness B3 battery module. As a high-performance energy storage device, it offers multiple advantages such as high safety, long life and stable power supply. Through modularized design, these battery modules can be flexibly expanded to meet the needs of different scales and application scenarios. Meanwhile, the built-in intelligent BMS protection system ensures the safety and stability of the battery modules when used in parallel.
In addition, the application of Dyness B3 battery modules brings environmental and economic benefits to the farm. By utilizing renewable energy sources for charging, the modules reduce reliance on traditional energy sources, reducing carbon emissions and environmental pollution. At the same time, the stable power supply also improves the productivity and quality of the farm, bringing more economic benefits to the farmer.
It is worth mentioning that the successful realization of this application could not be achieved without the efforts and innovations of the technical team. Through careful design and debugging, they successfully broke through the original limitations of the number of parallel connections and realized the stable parallel communication of 48 battery modules. This technological breakthrough not only provides reliable energy security for South African farms, but also provides useful reference for other similar scenarios.
Customer Value
The ground-breaking application of Dyness B3 battery modules on a South African farm not only demonstrates the excellence and innovation of the technology, but also provides a strong support for the sustainable energy supply of the farm. This success story will bring inspiration and reference to more regions and industries, and promote the process of global energy transition and sustainable development.
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1.Project Background
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2.Project Introduction
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3.Customer Value
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