These units are the linchpins in unlocking the full potential of microgrids. They possess the unique ability to store and dispense power within a microgrid with remarkable finesse. The sophisticated control systems at their core manage power flow, voltage regulation, and frequency stability as if they were maestros conducting an orchestra. In a community-based microgrid, they are the silent guardians that ensure power is equitably distributed and efficiently utilized. When solar panels are soaking up the sun's rays and generating excess power during the day, these units store it away like a squirrel hoarding nuts for the winter. Then, when night falls or during periods of high demand, they release the stored energy, keeping the lights on and appliances humming. This delicate balance between generation and consumption is what makes microgrids a viable and sustainable alternative to traditional power grids, and these units are the driving force behind that transformation.
These utilize a fiber-optic sensing technology for real-time battery monitoring. The production of the sensing system involves embedding fiber-optic cables within the battery structure. These cables can detect changes in temperature, strain, and chemical composition. The light signals transmitted through the fibers are analyzed by an optical detector connected to an intelligent control unit. Based on the received data, the control unit can take appropriate actions, such as adjusting the charging rate or activating cooling mechanisms. The fiber-optic sensing provides highly accurate and reliable monitoring, enabling early detection of potential problems and ensuring the long-term health of the battery. It's particularly useful in critical applications where battery failure cannot be tolerated, like in aerospace or defense systems.
These are utilized in amusement arcades. Arcade games, ticket dispensers, and lighting require a continuous power supply. They act as backup power sources, keeping the fun going even when the grid falters. Their ability to handle the rapid power fluctuations and high-power demands of arcade equipment is crucial. They can also store energy during off-peak hours and use it during peak demand, helping arcade owners reduce operating costs. The compact and rugged design is suitable for the often busy and sometimes chaotic arcade environment.
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BATTERY CELL |
|||
|
RATED VOLTAGE |
3.2V |
||
|
CAPACITY |
280AH |
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|
BATTERY SYSTEM 1P224S |
|||
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RATED VOLTAGE |
716.8V |
||
|
NOMINAL CAPACITY |
280AH |
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|
RATED CURRENT |
140A |
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|
BATTERY POWER |
215KWH |
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|
MAX EFFICIENCY |
≥95% |
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COOLING |
FORCED AIR |
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|
WORKING TEMPERATURE |
-20°C-60°C |
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|
PROTECTION DEGREE |
IP54 |
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|
CERTIFICATES |
CE, UN38.3,UL,ROHS, EMC, REACH |
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FAQ
How does it interact with smart grid initiatives?
It can play an active role in smart grid initiatives. It can communicate with the grid and receive signals about power demand, price fluctuations, and grid stability. Based on this information, it can adjust its charging and discharging behavior. For example, if the grid is under stress and the price of electricity is high, it can discharge some of its stored energy back into the grid to help balance the load and earn credits. If the grid has excess power and the price is low, it can charge up. This two-way communication and interaction make it a valuable part of a smart grid, enhancing the overall efficiency and reliability of the electrical system.
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