lithium battery; innovation; modernization; data center; energy storage mode
the battery stores a specific amount of energy and then releases it at an appropriate time. many data center equipment professionals are plagued by inconsistencies in battery performance. when asked about &ldquo, does the data center infrastructure need improved storage solutions? ” data centers, operators, users, and staff always give a positive answer.
for data center professionals, traditional lead-acid batteries, coupled with the ups power system, have become a backup power source for short supply times. most of them already know some of the disadvantages of lead-acid batteries. in the white paper issued by industry manufacturers, it explored a powerful alternative to traditional lead-acid battery technology, that is, lithium-ion batteries. sharing the lithium ion battery in this white paper helps the data center designers decide if the technology will be viable in its data center.
coping with the challenges of conventional batteries
the traditional lead-acid battery is generally considered to be the &ldquo in the data center power chain; the weak link ”. conventional batteries that provide backup power for modern data center facilities may have potential failures at any time. these conventional batteries are of high maintenance and heavy weight and need to be replaced periodically. although adoption of monitoring, management and service innovation technologies and measures, but also increased costs.
therefore, data center managers must consider adopting better battery technology to help them overcome some of the challenges facing today's data center facilities. therefore, better performance batteries will be used more widely. the battery provides benefits including:
• better battery reliability
• lighter weight
; • easier to change
• smaller size
• a longer life cycle
• adapted to higher temperatures
• longer shelf life
but not all lithium-ion batteries are the same. in fact, there are several varieties, including cobalt lithium (lco), lithium manganese oxide (lmo), nickel, cobalt, manganese, three yuan battery (nmc), lithium iron phosphate (lfp), lithium titanate and so on. what's more, each kind of battery has its advantages and disadvantages. for example, lithium manganese oxide (lmo) batteries offer higher power but less capacity, but they are more secure than cobalt lithium (lco) batteries and are often used in combination with nickel, cobalt, manganese, and three cell batteries (nmc) to improve performance.
that's why it's important to understand the application case. which type of battery solution applies to your data center facility?. in understanding the specific circumstances of lithium-ion and lead-acid batteries, we can see the future of lithium-ion batteries promising. it will provide longer service life, lighter weight, smaller size and greater flexibility for modern data center providers. however, care must be taken to match the appropriate storage battery with the application environment.