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The BYD Battery-Box Premium HVM 11.0 - 11.04 kWh is a high-voltage energy storage solution designed for residential and commercial settings where efficient power management and substantial scalability are key. This unit features a modular design, standing 1097 mm tall, 585 mm wide, and 298 mm deep, making it an excellent choice for areas with space constraints. It utilizes a depth of discharge (DOD) of up to 100%, effectively leveraging its 11.04 kWh capacity to optimize energy output.
The HVM 11.0 is outfitted with advanced safety features such as over/under voltage protection, overcurrent protection, and temperature monitoring, ensuring dependable operation across a range of environmental conditions. It supports a nominal discharge current of 50A, providing strong energy delivery capabilities. For instance, it can power a standard refrigerator (200 watts) for about 55 hours or various household appliances like LED lights, a laptop, and a TV (totaling 300 watts) for approximately 36.8 hours. These performance figures may vary based on the actual energy consumption of the connected devices.
167kg (This is a heavy and bulky item, ensure there is suitable site access per our shipping policy)
The BYD Battery Limited Warranty covers the Battery-Box Premium HVM series, including HVM 8.3, HVM 11.0, HVM 13.8, HVM 16.6, HVM 19.3, and HVM 22.1 high-voltage lithium iron phosphate batteries for 10 years, ensuring at least 60% of nominal energy retention or reaching the minimum throughput energy, whichever comes first, under specified operating conditions. This warranty includes options for replacement, repair, or compensation for defects in materials and workmanship, provided the batteries are used and installed according to BYD''s guidelines.
The warranty ensures that the product must be operated in accordance with the detailed instructions in the accompanying manuals and specifies the operational boundaries, such as the use of certified inverters and adherence to recommended installation procedures. Exclusions apply for damages due to improper installation, use with non-certified inverters, unauthorized modifications, and damages caused by force majeure events such as natural disasters.
This warranty is applicable to units purchased and installed globally, with additional protections specified under local consumer law regulations in each country, ensuring that the rights of consumers are adequately protected alongside BYD''s comprehensive global warranty standards.
How to select and identify a suitable location to install your battery.
For additional information on Battery Energy Storage Systems, visit: Electrical Regulatory Authorities Council
View their installation requirements here.
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CS6R-440T (IEC1000V) (IEC 61215-2021)
JAM54D40-440/LB (IEC 61215-2021)
JAM54D41-440/LB (IEC 61215-2021)
A BESS is anenergy storage system (ESS)that captures energy from different sources, accumulates this energy, and stores it in rechargeable batteries for later use. Should the need arise, the electrochemical energy is discharged from the battery and supplied to homes, electric vehicles, industrial and commercial facilities.
A BESS is a compound system comprising hardware components along with low-level and high-level software. The main BESS parts include:
Depending on its functionality and operating conditions, a BESS can also include a range of safety systems, such as a fire control system, a smoke detector, a temperature control system, cooling, heating, ventilation, and air conditioning systems. The safety systems have their own monitoring and control units that provide conditions necessary for the safe operation of a BESS by monitoring its parameters and responding to emergencies.
Apart from electronics, complex BESSs rely on robust software solutions. For example, state-of-the-art systems use machine learning algorithms to optimize energy management. Estimating battery states and characteristics with high accuracy requires reliable algorithms and mathematical models built withinBMS software development.
In sum, a BESS collects energy from an electricity grid or renewable power sources, such as solar and wind, and stores it using battery storage technology. Then, batteries discharge and release the energy when necessary—during peak demands, power outages, and in a variety of other applications.
BESSs can accommodate different batteries, including lithium-ion, lead-acid, nickel-cadmium batteries, and others—we''ll elaborate on them later in the article. Every battery type has certain technical specifications that designate BESS uses and affect the efficiency of battery energy storage. The principal battery characteristics embrace:
In addition to the above battery specifications, storage battery systems have other characteristics that describe their performance. For example,response timeis the time a BESS needs to move from the idle state and start working at full power.Ramp rateis the rate at which the system can increase or decrease its power output—ramp it up or down, respectively.
BESSs vary depending on the electrochemistry or battery technology they use. Let''s look at the main BESS battery types and opportunities they offer for battery storage solutions.
A lead-acid battery is the oldest battery technology and is also one of the cheapest and most available solutions that find use in automotive and industrial applications as well as power storage systems. PbA batteries are highly recyclable and can operate effectively at both high and low temperatures.Valve-regulated lead-acid (VRLA)batteries are more suitable for power storage solutions than their older counterparts—flooded lead-acid batteries—as they have a longer lifetime, higher capacity, and easier maintenance. Slow charging, heavyweight, and low energy density are among the major drawbacks of this battery technology.
This battery type prevailed in the market of wearable electronics until Li-ion batteries entered the game. Ni-Cd batteries have many configurations, they are inexpensive, easy to ship and store, and highly resistant to low temperatures. The technology is behind its competitors in energy density, self-discharge rate, and recycling.Nickel-metal hydride (Ni-MH)batteries use the same component as Ni-Cd technology—nickel oxide hydroxide (NiO(OH)). However, the Ni-MH battery chemistry provides better characteristics, such as higher capacity and energy density.
A sodium-sulfur battery is a cost-effective technology based onmolten salt. The advantages of Na-S batteries involve high energy and power density, a long lifetime, and stable operation under extreme ambient conditions. Nevertheless, this battery technology has a limited application area because of high operating temperatures (not less than 300oC) and sensitivity to corrosion. In addition, sodium is a hazardous component that is highly flammable and explosive. Sodium-sulfur batteries are well-suited for standalone energy storage applications integrated with renewable power sources.
Unlike conventional rechargeable batteries in which energy is stored in solid electrode material, flow batteries store energy in liquid electrolyte solutions. The most common flow battery type is thevanadium redox battery (VRB).The other types consist ofzinc-bromine,zinc-iron, andiron-chromiumchemistries. Despite their low energy capacity and low charge/discharge rate, flow batteries have several important advantages, allowing them to hold a large market share in on-grid and off-grid energy storage systems, including large-scale applications. These benefits involve an extremely long lifespan (up to 30 years), high scalability, fast response time, and a low risk of fires because flow batteries contain non-inflammable electrolytes.
About Battery energy storage solution 11 kWh
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