AVENOF ESS
Karaca Mekatronik has been providing solutions for in-house transportation to more than 2,000 customers since 2003 and has been continuing its innovative investments since its establishment.
Karaca Mechatronics has prioritized speed, time, regular movement and, most importantly, occupational safety in every new project it has started; Therefore, as an alternative to standard transportation works, Avenof laid the foundations of AGV systems in 2014 and made its first production at the end of 2015.
After 3 years of intensive research and development, Avenof ESS made the first production of the revolutionary Battery Energy Storage system, which will change the rules of the energy storage game, at the beginning of 2023.
Avenof ESS is a leading company specializing in Battery Energy Storage Systems (BESS) powered by Ai(Artificial Intelligence).
Our BESS system optimizes energy storage and distribution using artificial intelligence. By analyzing energy usage patterns, our system makes real-time adjustments to maximize energy production while minimizing waste.
Our AI-powered BESS system not only delivers unmatched performance, but also prioritizes sustainability. Its ability to be integrated with renewable energy sources such as solar and wind is an important step towards a more environmentally friendly future.
Avenof ESS, we are committed to providing our customers with the highest quality products and exceptional service. Our expert team strives to provide seamless integration and maximum benefit for every client.
We design and manufacture all components of our BESS system in-house, including DC-DC converter, Battery Management System (BMS), inverters and mechanical design and manufacturing. This allows us to retain full control of the production process and provide customized solutions for each customer.
We are proud to be one of the pioneers of the energy storage industry by providing a turnkey solution that exceeds our customers’ expectations.
GENERAL FEATURES
Artificial Intelligence Supported
Our AI-powered BESS system not only offers unmatched performance, but also prioritizes sustainability. Its ability to be integrated with renewable energy sources such as solar and wind is an important step towards a more environmentally friendly future.
Integration and Efficiency
Adaptable to different applications with a standardized and modern design, easy and flexible installation, ability to be integrated with renewable energy sources such as solar and wind, modular design that reduces on-site installation costs and commissioning time. High overall efficiency in storage thanks to the coordination of system components and cells. Increasing efficiency by learning energy consumption habits with artificial intelligence model and deep learning.
Advanced Safety
A temperature monitoring system that works on the basis of 3D modeling based on cells, systems and integration modules in accordance with standards with high thermal stability LFP batteries, advanced safety guarantee. Pre-detection of fault condition with artificial intelligence.
Power Electronics and Mechanical
We design and manufacture all components of our BESS system in-house, including DC-DC converter, Battery Management System (BMS), Energy Management System (EMS) inverters and mechanical design and manufacturing. This allows us to retain full control of the production process and provide customized solutions for each customer.
TECHNICAL SPECIFICATIONS
Battery
The structure of the battery packs, together with the selected cells and temperature management, has been optimized to ensure the highest level of safety.The battery packs are made of high quality components and have a useful life of 15 years.Battery packs are customized to suit your facility’s needs.Battery capacity is less dependent on load. In case of high current draw, the capacity of the battery remains almost constant.It is safe in case of overcharging. It is highly resistant to fire and explosion. It is resistant to mechanical impact.It offers high cycle life(6000+). It can be used for up to 20 years without requiring extensive maintenance.It has a flexible working temperature range. It is highly resistant to overheating.
Artificial Intelligence Supported BMS (Battery Management System)
BMS monitors and controls the performance of battery packs as well as performs maintenance to extend battery life. AI powered BMS analyzes battery data in real time and optimizes battery performance. BMS monitors parameters such as battery temperature, voltage, current, state of charge, state of discharge. It processes this data and takes the necessary measures to extend the life of the battery. In addition, to ensure the safety of the battery, it gives a warning or automatically stops the battery in cases such as overcharge, over discharge, over temperature.
EMS (Energy Management System)
Our EMS system manages the charge and discharge levels of the battery and controls consumption demand using real-time data to optimize energy usage.
By analyzing the data obtained, we offer an EMS system that extends battery life and increases energy efficiency.
Our system provides data communication between ESS components and automatically takes emergency measures in cases such as overcharge, over discharge, over temperature.
Powered by artificial intelligence technologies, EMS can improve energy management efficiency and extend battery life by making smarter decisions. For example, EMS can provide optimal energy storage and use, taking into account environmental factors such as air temperature, humidity level, and sunlight.
Fire Detection and Extinguishing
The fire detection and extinguishing system used in our battery energy storage system is designed to ensure that the batteries are safely shut down in the event of a fire.
The fire extinguishing system has sufficient capacity to quickly and effectively extinguish any fire in BESS.
The system is designed in accordance with FM Global, NFPA and other international fire safety standards.
Our system ensures the safety of users by integrating with fire detection and extinguishing systems. It provides a safe battery energy storage solution by protecting the environment and keeping the system’s security at the highest level.
- Fire Detection System: The system is equipped with components such as smoke detectors, temperature detectors, flame detectors, fire alarm, manual fire alarm, fire extinguishing module, fire detection control panel, monitoring screen, audible warning device and fire extinguishers.
- While thermal cameras detect overheating and hot spots that may occur in batteries, smoke detectors detect smoke that may occur in batteries. In this way, the fire is detected at an early stage and sufficient time is provided for intervention.
- The fire detection control panel continuously monitors the fire situation, fire hazard indicators such as the internal temperature of the battery modules and the smoke level, and triggers the fire extinguishers in the system when a fire is detected.
- The fire detection system can be disabled in the event of a fire with the emergency stop button.
- Fire Extinguishing System: It is an automatically activated gas extinguishing system. Gas extinguishing system, possibility of fire It is supported by an audible and visual alarm system to help quickly evacuate the area.
- The system provides rapid extinguishing of fires thanks to FM200 gas used in fire extinguishers.
- A manual fire alarm is designed for personnel to manually report a fire in an emergency.
- The system also ensures that the fire extinguishing process is carried out safely, thanks to the CO2 gas used in the fire extinguishing module.
- Passive fire prevention measures protect battery packs from possible fires.
- Fire extinguisher tubes, fire extinguishing module and fire detection control panel are manufactured in accordance with international standards and can be used safely.
- The system undergoes periodic maintenance and tests to ensure the proper operation of fire detection and extinguishing systems.
- Automatic Control :Fire detection and extinguishing system works automatically. The system automatically gives a fire alarm when a fire is detected and the fire extinguishing system is activated. In this way, the fire is intervened without the intervention of the users.
- Fire extinguishers are designed to extinguish the fire with the automatic activation of the system in case of fire.
- Warning System : The fire detection system automatically gives an alarm in case of fire. In addition, there is a separate warning system in our system. In this way, our customers are informed quickly in case of fire and can take the necessary precautions.
COOLING SYSTEM
The cooling system used in our battery energy storage system has a design that guarantees stable operation even at high temperatures. The cooling capacity of the system is sufficient to provide optimum working conditions by controlling the temperature of the battery cells.
The cooling system has a two-stage design. In the first stage, the liquid refrigerant passes through the battery cells and absorbs the heat. Next, the liquid refrigerant is transferred to the air or water cooling unit and heat transfer is carried out.
Besides temperature control, cooling systems are also important for the safety of the battery. In case the systems overheat and pose a fire risk, the cooling system automatically starts to cool the battery and measures such as fire detection and extinguishing system can be taken at the same time.
The cooling system prevents the battery cells from overheating, providing a long-lasting and safe use. In addition, it is environmentally friendly with its low noise level.
The battery packs inside the container are equipped with an active cooling system to keep their temperatures in the optimum range.
The cooling system is designed for high efficiency and low energy consumption.
The cooling system is equipped with temperature and humidity sensors. These sensors constantly monitor the temperature and humidity levels of the battery and adjust the system accordingly.
The cooling system works automatically depending on the ambient temperature and the instantaneous temperature values of the battery. This prevents unnecessary cooling or heating of the battery.
The cooling system uses high efficiency scroll compressor and high quality plate type heat exchangers. These components are optimized to provide high energy efficiency.
The cooling system uses environmentally friendly refrigerants such as R134a. The cooling system is designed to extend the life of the battery. Keeping the battery within the ideal operating temperature range increases its performance and lifespan.
The cooling system is located inside the battery storage container and has a structure resistant to external factors.
USAGE AREAS
Energy storage techniques offer important opportunities in many areas in the sector. Possible scenarios in network usage and the effects of storage for efficient use are briefly explained below.
Flexible Capacity
Flexible capacity methods such as additional generation resources, peak load power plants, energy imports are used in interconnected networks to meet peak load and to meet the sudden power needs that are not often seen. Energy storage systems are an important flexible capacity option as ready-to-use reserve capacity.
Energy Arbitrage
Energy storage systems; It is used to store the electricity in the low price range and shift the selling price to the expensive time range.
Power System Balancing and Auxiliary Service Values
Power system balancing can provide more stable operation of the system by keeping backup power to meet more or less power demands and providing power with fast response times. For regulation, storage systems that can switch on and off instantly and have a response time of less than a second are used.
Power System Balancing
Power System balancing can be defined as ensuring the stability of the grid by reacting quickly in order to balance the energy supply and demand.
To regulate imbalances in the power system, it needs to provide constant power with a response time of between 10 and 30 minutes. Storage can be used for this purpose to provide constant power for the required times.
Failure Backup
The fault backup is activated in the production drop caused by the failure of the main power generation system in the system and ensures that the system continues to work stably. The decisive factor in these systems is the time that the system can supply power at full capacity. Storage can help maintain system stability in case of failure.
Reactive Power Support and Voltage Control
Generators, loads and electrical machines can provide different levels of reactive power. Various energy storage methods can provide reactive energy to the system and help it stay in sync.
Network Stability
Balancing power systems help destabilized networks to become stable again without interruption. In order to stabilize the system again, the systems are activated between 10 and 30 seconds, depending on an automation system.
Generator Starting Power,
Many generators need starting power to operate. This capacity, which can be met by energy storage systems, is very important for the generators to be reactivated.
Energy Transmission Management
Power plants are generally installed in areas where there is no population density. The energy produced is delivered to the consumers via transmission lines. During periods of high demand, there is congestion on transmission lines. The storage of the energy produced in the regions close to the consumers and meeting the need from the local energy storages will be efficient and will ensure the effective use of the existing capacity of the transmission lines.
Power Quality
Energy storage systems can help the system to be more stable by increasing the voltage and power quality. Power quality is very important for individual and corporate consumers using sensitive devices. The business partnership between these consumers and the energy provider is strengthened by energy storage systems.
Support for Maximum Demand Condition
In the business, electrical energy is stored in low demand times and expensive electrical energy production is prevented in high demand times.
Mains Frequency Support
Short-term power support and frequency regulation are required to eliminate the imbalance that may occur between generation and load.
With the increase in renewable energy sources, the number of generators used as frequency reserve connected to the grid decreases, making frequency control more difficult.
With energy storage systems, a faster frequency control reserve can be created to increase system reliability.
In addition to the primary frequency control ancillary service benefit, it is also possible to provide the frequency control services of the power plant uninterruptedly through the battery facility by integrating it with the main transformers of the base load power plants. Since the facilities of the power plant are utilized, investment, operation and maintenance costs are minimal.
Short-term power support and frequency regulation are required to eliminate the imbalance that may occur between generation and load. Problems that may occur are generally met with conventional systems. However, the desire to reduce the traditional electrical energy production provided by the use of fossil fuels brings energy storage methods to the fore for the solution of this problem.
With energy storage in the production process, it is possible to relieve the grid at peak times and create a constantly balanced network.
NEWS
Avenof introduced its new product, Avenof ESS (Energy Storage Solutions) at Solarex Istanbul 2023 Fair. After 3 years of intensive research and development, its revolutionary product that will change the rules of the energy storage game became the focus of attention of the participants at the Solerex fair. With the goal of using 100% clean energy and being carbon neutral, this initiative includes “long-term energy storage” that could radically change the way electricity is produced and consumed by permanently turning the existing system into green energy.
Avenof ESS is a leading company specializing in Battery Energy Storage Systems (BESS) powered by AI (Artificial Intellingence). With Battery Energy Storage Systems, using artificial intelligence and deep learning to analyze energy storage, distribution and usage habits, the system makes real-time adjustments to maximize energy production and minimize the amount of loss. This AI-powered system not only offers unmatched performance, but also prioritizes sustainability. Its ability to be integrated with renewable energy sources such as solar and wind provides an important step towards a more environmentally friendly future.
1-2-4 MWh and More
There are many different battery technologies for use in Battery Energy Storage systems, but in recent years, LiFePO4 (Lithium Iron Phosphate) batteries have started to gain advantage in energy storage solutions. Advantages of LiFePO4 Batteries;
– Capacity is less dependent on load. In case of high current draw, the capacity of the battery remains almost constant.
– Safe in case of overcharging. It is highly resistant to fire and explosion.
– It is on average 20-25% more economical than a lithium-ion battery of the same capacity.
– Offers high cycle life (6000+). It can be used for up to 20 years without requiring extensive maintenance.
– It has a flexible working temperature range. It is highly resistant to overheating.
A Cleaner Clear
While the future of renewable energy lies in large-scale energy storage, Avenof ESS is a powerful and stable battery storage system, as well as stabilizing the grid and preventing power outages on a large scale. By supporting your renewable energy installations with an artificial intelligence supported battery storage system, it ensures more efficient use of the energy produced with the help of the sun or wind.
COMMUNICATION
Adress: Yeni Mahalle, Eski Havaalanı Cad. No: 188/2A Çiğli A.O.S.B /İzmir
Telephone: 0232 433 38 80
Mail: info@avenof.com
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