Description
Industrial batteries with DEYE hybrid inverters, 60kWh/30kW
DEYE 60kWh/30kW EMS: In the world of industrial energy solutions, DEYE stands out with innovative industrial batteries and hybrid inverters providing efficient energy management. The DEYE 60kWh/30kW EMS combines a high-capacity battery, a powerful hybrid inverter and a smart energy management system (EMS), achieving optimal energy sustainability.
Full integration for efficient energy management with DEYE 60kWh/30kW EMS industrial batteries, they come with full integration between the high voltage 60kWh industrial battery pack and the powerful 30kW hybrid inverter. This allows the system to optimize production and power consumption, providing stability and efficiency in industrial environments.
High Capacity Battery for Long Term Sustainability is the heart of the system with the high capacity 60kWh vi-voltaic SUNWODA solar battery providing long term energy storage of over 8000 cycles over 90% and 12000 cycles over 80%. This element is essential for industrial sites that need a stable energy supply even during peak loads or emergency situations.
Powerful Hybrid Inverter for optimum performance.DEYE’s 30kW hybrid inverter enables the efficient integration of different energy sources from industrial batteries. This includes solar panels, wind turbines and traditional power plants. The result is an optimised energy flow providing uninterrupted power support for industrial needs.
Smart Energy Management System (EMS)
DEYE integrates an intelligent EMS that automatically optimizes energy use. The system monitors consumption and production in real time, reacting to changes in conditions and providing a consistently sustainable and efficient energy supply.
.Advantages of DEYE 60kWh/30kW EMS:
. Energy Independence:
– The high-capacity battery ensures energy independence in case of outages or breakdowns.
– The hybrid inverter allows integration of different power sources.
Effective Management:
– EMS provides intelligent control, responding dynamically to changes in energy balance.
– Maximum efficiency in energy production and consumption.
Flexibility and Scalability:
– The system is flexible and easily scalable to the needs of industrial sites.
– Suitable for new installations or retrofit of existing systems.
With DEYE 60kWh/30kW EMS, industrial battery and hybrid inverters are stepping to a new level. With this innovative product, DEYE helps industrial sites to achieve not only energy efficiency but also sustainability in the long term. Offering intelligent management and flexibility in the integration of different energy sources, DEYE creates a solution that keeps your business moving while reducing your environmental footprint.
Industrial batteries for photovoltaic systems with DEYE hybrid inverters are an option for integrating and managing 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.