CY22702100850
CY TECH
Battery
IP 55, NEMA 4
Floor Mount
500W/1700BTU
| Detail: | |
|---|---|
Description
| Name | Technical Parameter |
| External Size | H*W*D=2270*2100*850mm (89*83*34inch) |
| Cabinet layout | Four compartment, two compartment for lithium battery, two compartment for inverter and AC/DC electric box |
| Cabinet material | Double layer Galvanized steel with PEF thermal isolation |
| Security design | Embedded door, embedded hinges, 4-point security lock |
| Protection level | IP55 |
| Color | RAL7035 |
| Climate control | AC220V air conditioner and DC48V fan |
| Lighting system | Door sensor+48V LED light(when open the door, the LED will light on;When the door is closed, the LED will go out.) |
| Grounding system | 200A Copper bar(13 point M6 and 2 point M8) |
| Working temperature | - 40 ℃ ~ + 55 ℃ |
| Working Humidity | ≤ 95% (+ 40 ℃) |
| Air Pressure | 62kpa ~ 106kpa (similar to 0m ~ 5000m altitude) |
Other size to be continued ,please send us inquiry for futher discussion
◆ Bess Battery Storage System has no exposed detachable components on the outside, and the cabinet structure is compact and easy to install;
◆ Bess Battery Storage System has good sealing performance and an overall protection level of IP55;
◆ Bess Battery Storage Systems are made of flame-retardant insulation cotton, which has excellent insulation performance;
◆ Bess Battery Storage System adopts embedded hinges and a four point fixed mechanical lock, with a sturdy structure and strong anti-theft performance;
◆ Bess Battery Storage System adopts bottom incoming and bottom outgoing lines, and the cabinet is equipped with a cable rack inside, which is overall beautiful;
◆ Bess Battery Storage System can be equipped with industrial air conditioning or water-cooled units for temperature regulation, which can meet the cooling needs in summer and heating in winter according to equipment performance requirements, and operate at a constant temperature, thereby extending the service life of the battery pack;
◆ Bess Battery Storage System can be equipped with optional fire protection devices and AC/DC distribution units.
Flexibility
(1) Material can be Constructed of durable, galvanized steel,sandwich panel ,stainless steel SS304,aluminium.
(2) Compartments can be configured to support between 1-4 bays,multi-compartments supported.
(3) Front and rear access doors allow technicians access to equipment storage areas and cable routing.
(4) Side doors design also ok.
(5) Customized color ,standard color RAL7035,other color acceptable based on appointed color code.
(6) Wide range of thermal management options for even the most demanding heat dissipation needs allows for optimization of thermal performance and reduced energy costs.
(7) The cooling solution adopted compressed air conditioner ,TEC (Thermoelectric Cooler),Hex (heat exchanger),Fans,Combined AC&HEX and air cooled liquid cooler.
(8) Offers a wide range of configuration options providing maximum flexibility including PDU, rectifier ,integrated AC-DC power systems.
(9) Silk screening Logo and environmental friendly painting artwork.
Function
Energy Storage and Release:
At its heart, a Li Ion Battery Storage System captures energy—typically from renewable sources like solar or wind—and stores it in electrochemical cells. When demand increases or when intermittent generation drops, the stored energy is quickly converted back to electricity and fed into the grid, ensuring a stable power supply.
Grid Stabilization and Frequency Regulation:
Li Ion Battery Storage System can rapidly respond to fluctuations in grid frequency. By absorbing or injecting power in milliseconds, they help maintain grid stability and reliability, thereby reducing the risk of blackouts or power quality issues.
Peak Shaving and Load Shifting:
These systems are used to level out the load curve by discharging during periods of high demand (peak shaving) and charging during off-peak periods (load shifting). This not only optimizes the usage of generation assets but also contributes to cost savings and deferred infrastructure investments.
Backup Power and Resilience:
Li Ion Battery Storage System units provide uninterrupted power during grid outages, serving as critical backup systems for essential facilities. Their ability to quickly switch to island mode enhances the resilience of microgrids and critical infrastructure.
Renewable Energy Integration:
By mitigating the variability of renewable energy sources, BESS facilitates higher penetration of clean energy into the grid. It ensures that surplus energy produced during periods of high generation is not wasted but stored for future use.
Safety:The cabinet is designed to ensure the safety of the stored energy devices, protecting them from external factors such as temperature fluctuations, moisture, and physical damage.
Ventilation: Adequate ventilation is essential to dissipate heat generated during charging and discharging cycles. Proper airflow helps maintain optimal operating temperatures for the energy storage system.
Monitoring and Control: ESS cabinets often include monitoring and control systems to track the performance of the stored energy, manage charging and discharging processes, and provide real-time data for maintenance and optimization.
Fire Suppression: In some cases, energy storage cabinets may incorporate fire suppression systems to mitigate the risk of fire in the event of a malfunction or external factors.
Integration: The cabinet is designed for easy integration with the overall energy storage system or the power infrastructure where it is deployed. This includes electrical connections, communication interfaces, and compatibility with other components.
ESS Cabinet plays a vital role in the reliability and performance of energy storage systems, contributing to the efficient use of renewable energy, grid stability, and the overall resilience of power infrastructure.
Applications&Advantages
The rapid growth of renewable energy sources and the modernization of electrical grids have elevated the importance of Li Ion Battery Storage Systems in today’s energy landscape. As an efficient, flexible, and environmentally friendly technology, Li Ion Battery Storage Systems are pivotal in balancing power loads, enhancing energy quality, and providing rapid response capabilities for a variety of energy needs.
Li Ion Battery Storage Systems boast high power density and quick response times, making them ideal for frequency regulation, peak shaving, and backup power during grid emergencies. These systems absorb excess energy during off-peak times and discharge during peak demand, thereby maintaining grid stability and reducing the risk of outages.
With the accelerated development of distributed energy systems, Li Ion Battery Storage Systems play a key role in microgrid configurations. When combined with renewable sources like solar and wind, these systems ensure reliable power delivery and promote energy self-sufficiency, which is essential for sustainable, low-carbon development.
In the commercial and industrial sectors, Li Ion Battery Storage Systems are widely implemented as part of a commercial and industrial energy storage system. Businesses leverage these systems to lower energy costs, improve energy utilization efficiency, and ensure consistent power supply during production processes, thereby boosting overall operational efficiency.
Recent advancements in technology have led to the development of integrated solutions such as the all in one energy storage system. These systems combine battery modules, power converters, energy management software, and safety monitoring into a single compact unit, streamlining installation and maintenance processes. This integration is particularly valuable for applications that demand high reliability and quick deployment.
Given that different applications have unique performance requirements, customized battery energy storage system solutions are essential for addressing specific challenges. Whether it's for urban commercial centers, industrial parks, or remote microgrid installations, tailor-made energy storage systems can be optimized based on load profiles, environmental conditions, and spatial constraints, ensuring maximum efficiency and cost-effectiveness.
At the heart of modern storage solutions is the bess energy storage system—a sophisticated technology that integrates smart monitoring and data analytics. These systems not only optimize the charge-discharge cycles to extend battery life but also reduce maintenance costs through real-time performance management. The ongoing innovation in BESS technology is steering the future toward more intelligent, reliable, and adaptive energy storage solutions.
Despite its promising advantages, the widespread adoption of Li Ion Battery Storage Systems faces challenges, including technical, economic, and safety considerations. Issues such as battery degradation in high-temperature environments, thermal management during rapid cycling, and overall system cost are critical factors that require continuous improvement through research and innovation. Addressing these challenges will be key to ensuring that Li Ion Battery Storage Systems contribute effectively to modern energy infrastructures.
In summary, Li Ion Battery Storage Systems provide robust support for the modernization and decarbonization of the energy sector. From commercial and industrial energy storage systems to customized battery energy storage systems and integrated all in one energy storage system solutions, these systems are fundamental in enabling grid stability, integrating renewable energy sources, and paving the way for future innovations in bess energy storage system technology. As technological advancements continue, Li Ion Battery Storage Systems will play an increasingly critical role in building a sustainable and smart energy future.
