Industrial Battery SUNWODA 60kWh with Hybrid Inverter DEYE 50kW

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SKU: SUNWODA3060-1 Category:

51900,00 

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The SUNWODA 60kWh Integrated Industrial Battery with DEYE 50kW Hybrid Inverter: the Path to Efficiency and Sustainability in Photovoltaic Systems.Batteries for solar and photovoltaic systems play a key role in our path to sustainable energy. Technological advances, supported by industrial batteries and EU funding, are making renewables increasingly affordable and efficient. Solar balancing batteries contribute to grid stability. With these innovations, we are creating an energy-sustainable future for generations.

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SKU: SUNWODA3060-1 Category:

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The SUNWODA 60kWh Integrated Industrial Battery with DEYE 50kW Hybrid Inverter: the Path to Efficiency and Sustainability in Photovoltaic Systems

With the development of renewable energy technologies, energy storage is becoming an increasingly key aspect in the ability to use solar energy more efficiently. The SUNWODA 60kWh industrial battery in combination with the DEYE 50kW hybrid inverter represents an innovative solution that opens up new possibilities for PV systems.Hybrid inverter, solar battery, battery for photovoltaic systems, photovoltaic battery, industrial battery, photovoltaic systems, solar system, charging station for electric cars.High Capacity Solar Battery: SUNWODA 60kWh is an industrial battery that provides impressive energy storage capacity, offering 60 kilowatt-hours. This high capacity makes this solar battery ideal for industrial sites where a stable and sustainable energy system is needed.

  1. Hybrid Inverter DEYE 50kW: DEYE 50kW is a hybrid inverter that not only provides high efficiency in converting solar energy into electricity, but also works in sync with the solar battery. This inverter is designed to optimize the use of the energy provided by the photovoltaic panels and stored in the battery, ensuring stability at all times.
  2. Integrated System for Photovoltaic Projects: this combined hybrid inverter and solar battery integrates perfectly into photovoltaic systems for industrial sites. The industrial battery provides the energy needed when the sun is not shining and the hybrid inverter ensures that the energy is used in the most efficient way.
  3. Electric Vehicle Charging System: the DEYE 50kW inverter and SUNWODA 60kWh battery create an ideal environment for charging electric vehicles. This integrated system can provide stable and fast charging, making this kit suitable for the transition to electric mobility.
  4. Resistance in Any Environment: the solar battery and hybrid inverter are not only efficient, but also extremely resistant to different weather conditions. Their operation in temperatures as low as -20 degrees Celsius makes them ideal for a variety of climates where the cold can pose a challenge for traditional batteries.

The SUNWODA 60kWh industrial battery, integrated with a DEYE 50kW hybrid inverter, represents a forward-thinking solution for energy sustainability in industrial and photovoltaic projects. This kit, which combines high capacity, efficiency and sustainability, is the key to successfully harnessing solar energy and charging electric vehicles, contributing to a cleaner and greener future.

With the option to integrate and manage energy resources. One of the advanced ideas in this context is the development of an EMS (Energy Management System) that not only predicts the stock exchange with automatic balancing, but also includes a hardware monitoring system, providing autonomy and efficient management.

Forecast the energy exchange with automatic balancing and day-ahead forecast and analysis:

Data Analysis: To build a successful EMS system, it will be necessary to use machine self-learning techniques and predictive algorithms. The study and analysis of data from the electricity trading exchanges will provide you with the basis for creating a model to forecast market movements.

Artificial intelligence for balancing: the development of an AI module will allow you to automate the decision-making and analysis processes for charging and discharging in multi-profile variants. The module should be able to analyse data from the electricity markets and take actions such as buying, selling and portfolio balancing to maximise profit and reduce risk.

EMS Trading Platform without human intervention:

Automated Trade Moves: Develop a system that uses predefined algorithms and rules to automatically execute trade orders. This module must be able to react quickly to changes in market conditions and execute orders in real time.

Using API for trading: integrate the EMS system with the API of the power exchanges, which will allow automatic execution of trade orders. This approach will provide you with fast and efficient access to market information and the ability to react quickly day ahead.

Self-Service Hardware Monitoring System:

Sensors and IoT devices: integrate various sensors and IoT devices that will collect data on energy efficiency, financial performance and other parameters. This can include sensors for power consumption, temperature, humidity and other important metrics with forecast for climate patterns tied to electricity consumption.

Data management: develop a data processing and analysis system that will automatically process the information from the hardware system. Use technologies such as databases, cloud solutions and analytics tools to extract value from the data collected.

Virtual PV Synchronization:

Integrate virtual photovoltaic (PV) systems: develop functionality to integrate virtual PV systems into EMS. This will allow optimisation of energy production taking into account financial and energy targets.

Production resource management: implement algorithms that will automatically manage the use of virtual PV resources. This module must be capable of regulating power production in real time to maximize efficiency.