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For containerized energy storage, due to the increasing integration of the existing containerized energy storage system  , it integrates intelligent equipment such as uninterruptible power supply, battery pack, precision air conditioning, monitoring equipment, etc., with rain-proof, fog-proof, dust-proof, sand-proof, lightning-proof, anti-theft effect, etc., to meet various usage environments.

With the concept of modularization and promotion, the container as a good carrier, with high reliability, high convenience, low power consumption and monitoring perfect characteristics, so become an important part of the moderation, all kinds of containerized energy storage, containerized data center, containerized generator set and so on came into being, extremely good to promote the development of modularization.

Compared with the traditional fixed energy storage power station, energy storage containers allow ocean and road transport, portable and not limited by geographical restrictions. With the future of battery technology breakthroughs, the cost of energy storage containers is expected to be significantly reduced, the prospect is worth looking forward to.

Energy storage is the process of storing energy through a medium or device and releasing it when it is needed. When we talk about energy storage, we are mainly referring to the storage of electrical energy. In fact, energy storage itself is not an emerging technology, but from an industrial point of view it is in its infancy and development stage. Energy storage technology is a key node for future energy systems to be flexible, inclusive, and balanced.

• System stability is ensured by the energy storage and buffering of the energy storage system, which allows the system to operate at a stable output level even in the event of rapid load fluctuations.
• Energy for back-up, energy storage systems can act as a back-up and transition in the event that clean energy generation is not operating properly.
• Improving power quality and reliability, energy storage systems also prevent voltage spikes, voltage drops, and grid fluctuations caused by external disturbances on the load from having a major impact on the system, and the use of a sufficient number of energy storage systems ensures the quality and reliability of the power output.

TLS containerized energy storage system (BESS) is the perfect solution for large-scale energy storage projects. The energy storage containers can be used in the integration of various storage technologies and for different purposes.

1. Reserved openings for energy storage containers: the common sizes of containers are 40ft and 20ft, and they can also be customized according to customer needs. The fire protection system of energy storage containers is a separate system, including smoke detectors and temperature detectors. , gas fire extinguishing control panel, emergency start, stop button, gas proof indicator and other components, all of which need to be reserved openings, especially the openings for pressure relief ports, which must be designed before the container is integrated. It will cause water leakage and bring security risks to the electrical system, and the fire protection system will also increase the risk of not spraying due to short circuit.

2. Gas fire extinguishing device: The location selection and fixing method of the fire extinguishing device are the key points. The container is relatively long and narrow. If only the fire extinguishing device is placed in the corner and no release pipeline is arranged, it will be difficult for the agent to reach the other end of the container, and it is difficult to achieve an effective fire extinguishing effect, especially for a 40ft container. For the fixed method, the reinforcement method should be considered in the early stage, rather than the temporary solution of the fire extinguishing device, which will cause a lot of rework and hidden dangers.

3. Rainproof problem: When the container battery energy storage is placed in the open air, the outdoor alarm device should be rainproof or ordinary rainproof measures should be used. Either way, it is fine. This is very important, otherwise the fire alarm system will be corroded or short-circuit and do not spray as mentioned in the first item.

4. Power-cutting problem: the non-fire-fighting power in the containerized energy storage system generally includes air conditioning or fresh air system, lighting, etc. When the smoke and temperature senses act at the same time, the power supply is cut off. This needs to be considered in the early design. At the same time, pay attention to the reasonable arrangement of the wiring of these systems and the wiring of the fire extinguishing device, so as not to be confused, so as to avoid interference and false alarms or false sprays.

Energy storage containers are portable energy storage devices that are often used for power backup. Thermal dissipation in energy storage batteries is a key factor in determining their performance, safety and lifetime. In order to maintain the temperature in the container at the normal operating temperature of the battery, the main heat dissipation structures of current energy storage container can be classified into two categories: air cooling and liquid cooling.

• The air-cooled system uses air as a cooling medium and uses convective heat exchange to reduce the temperature of the battery. The air-cooled system has the advantage of being simple in construction, easy to maintain and low in cost.  The disadvantage is that air has a low specific heat capacity and a very low thermal conductivity, which makes air cooling typically used in applications with low heat production rates.
• Liquid cooling systems use liquid as a cooling medium and carry away the heat generated by the battery through convective heat exchange. Its structural form: one or more bent water pipes buried within an enclosure wall. When in use, connect the inlet and outlet of the pipe to an external circulating water supply system. The circulating water supply system sends cold water to the pipes and flows through them.  The cold water flowing along the pipe absorbs the heat from the wall, which is dissipated by the battery. And then the cold water heats up, and the heated water returns from the outlet of the pipe to the circulating water supply system.

How do you choose between air and liquid cooling? The choice of power storage temperature control technology is the result of a comprehensive consideration of factors such as safety, economy, battery pack design, and the environment in which it is located, rather than a simple consideration of cooling performance.

Large-scale power storage technology is the key technology for smart grid, new energy generation and grid connection, power load shifting and valley filling. Lithium-ion batteries have been widely used in many fields due to their high energy density, low self-discharge rate, smooth discharge voltage, long cycle life and other advantages, and the application of lithium batteries in large-scale power storage systems will become an inevitable trend in technology development. In order to ensure the efficient and safe application of lithium-ion solar battery storage (Battery Energy Storage System, BESS), all components of the system must be integrated and optimized, and managed and controlled in a reasonable and effective manner.
 
The battery management technology and system integration technology of energy storage systems can be developed to improve the safety, reliability and service life of the battery system and promote the popularization and application of large-scale power storage. The key technologies include:
(1) advanced battery management technology ;
(2) temperature monitoring and management technology;
(3) state of health (SOH) monitoring technology;
(4) system integration technology.

Solar system with battery backup​ is mainly composed of four parts, including Battery System (BS), Power Conversion System (PCS), Battery Management System (BMS), and Monitoring System; at the same time, in practical application, for the convenience of design, management and Meanwhile, in practical applications, the BS, PCS and BMS are usually recombined into modular BESS for easy design, management and control, while the monitoring system is mainly used to monitor, manage and control one or more modular BESS.

• The battery system is the main carrier of BESS to store and release electrical energy, and its capacity and operation status are directly related to the energy conversion capacity and safety reliability of BESS.
• The PCS is a device consisting of power electronic conversion devices that connects the battery system to the AC grid and is a key component of the energy exchange between the BESS and the outside world.
• BMS is a real-time monitoring system composed of electronic circuit equipment, which can effectively monitor various states of the battery system (voltage, current, temperature, charge state, health state, etc.), safely manage the charging and discharging process of the battery system (such as preventing overcharging and over-discharging management), alarm and emergency protection treatment of possible battery system faults, and optimize the control of battery system operation, and ensure safe, reliable and stable operation of the battery system

Renewable energy is the future, which makes it even more challenging to provide electricity whenever and wherever it is needed. Compared with traditional energy storage, battery energy storage systems (BESS) are based on a modular design, which is very suitable for backup reserve power.  It has the advantages of modular design for multimodal transportation, easy installation, flexibility, safety and reliability.  Suitable for use in remote areas or areas lacking electricity.
The bess make it possible to store the energy produced by photovoltaics, wind turbines, or CHP.  Due to its high cycle lifetime, the energy storage system containers are also used for peak-shaving, thereby reducing the electricity bill.
Containerized energy storage solutions provided by TLS can be configured to match the power and capacity requirements required by customer applications, meet the most demanding specifications, and be able to handle a wide range of adverse conditions.

The advent of battery energy storage systems (BESS) reduces fuel dependence, reduces carbon emissions, and optimises the environment.
The electrical enclosures of traditional battery energy packs are often located outdoors and exposed to extreme temperatures, severe weather, humidity, dirt and dust. Like most heat-sensitive electrical equipment, operating at high and low temperatures reduces power output and service life over time.
When the battery storage is placed in a container designed for storage systems, it is isolated from the harsh external environment, while closed-loop cooling removes excess heat and protects sensitive components, improving the efficiency and reliability of associated electronics.
It can be used in power stations, islands, offshore areas, communities, schools, scientific research institutions or factories and other areas.

• The battery energy storage system provided by TLS is an integrated design, which is easy to transport and suitable for harsh climate environments
• With complete fire suppression system and power supply system（Rack, DC panel, Fire Suppression System, Module BMS, Rack BMS, System BMS, Battery Protection Unit, HVAC, Power Conversion System）
• It integrates monitoring system, battery management unit, special fire protection system, special air conditioner, energy storage converter, isolation transformer, etc., and is developed for the needs of the mobile energy storage market.
• Can be customized according to customer demands.

 
Any inquiries on BESS containers, please download the checklist and send it together with your inquiry.
Don’t hesitate to contact us.