Exide price 12v 150ah battery

Types of Batteries for Energy Storage System

Lead-acid batteries

They have been around for numerous years and are considered a reliable energy storage system, especially the exide price 12v 150ah battery. This corrosive solution comprises two lead plates that are immersed in a dilute sulfuric acid solution to form liquid electrolytes and active materials that are lead dioxide and sponge lead. Lead-acid batteries are low-priced, and good discharge systems are achievable but heavy and need a periodic exchange near the positive plate.

Lithium-ion batteries

Lithium-ion batteries were developed in the 1970s and became a commercial product in the late 1990s and early 2000s. Lithium obtained is from the liquid metal plate combined with lithium oxide as the cathode, carbon as the anode, and lithium salts as the electrolyte. Some advantages lithium battery has over lead acid are high energy density, low cycle life, low self-discharge level, and compact size. However, it can be pricier than lead acid batteries and has some security considerations from an overheating process.

Flow batteries

Flow batteries are here to stay as they were invented in the 1970s and got commercialized in the early 2000s, and energy storage systems are being deployed. The vanadium redox battery comprises vanadium ions stored in two separate tanks, one oxidizing and the other reducing electrolyte vloeistoffen. Flow batteries have an infinite scalability, allowing energy and power to be scaled independently. They are also long-lasting with over 20,000 cycles. However, their costs are high, and they are less energy dense compared to lithium-ion or lead-acid batteries.

Sodium-sulfur batteries

The sodium-sulfur battery technology was developed in the 1980s and got commercialized in the late 1990s. It is a high-temp battery working at about 300 °C, comprising liquid sodium and sulfur as active materials and beta alumina ceramic as the electrolyte. Key advantages are their suitability for large-scale applications, high energy density, and long life cycle. However, when comparing liquid metal battery costs, they are expensive, and there are some safety concerns.

Important Features of Ept Energy Storage System

Deep discharges

Deep discharge capability is among the splendid main features of an energy storage system. It's crucial for storing verdant energy in a utility-escalated application. For example, when storing solar energy during daytime hours, the battery can discharge near 80% of its capacity before recharging in the evening. The deep load shedding makes sure that the battery holds enormity sufficient for longer periods and can be largely used with no depleting its capacity.

High efficiency

Another important feature is high inefficiency regarding the energy stored and discharged back. This is also referred to as round-trip efficiency. Most modern batteries are around 90-95% round-trip inefficiency. This means after the storage and dispatch of energy, only around 510% is forgone as inefficiency.

Scalability

Scalability is a crucial point to consider when designing an energy storage system because power and energy capacity must be adjustable for changing needs. Many battery systems, like lithium-ion and flow batteries, are scalable in both small and large-sized installations. This versatility makes it possible to apply the system in more situations than just a few, like at home or in the business arena.

Long life

The lifespan of an energy storage system is among the important factors to think about. EPT batteries, such as lithium-ion and lead-acid, can withstand 5000-15,000 charge cycles depending on the technology employed. It mainly lasts for 10-20 years. When talking about lifespan, cycle life and calendar life are two essential things related to storage and aging with time. Higher-quality batteries tend to be more durable and have longer lives.

Commercial Value and Uses of Exide Price 12v 150ah Battery

Time-of-use arbitrage

The Exide 12V 150Ah battery can help lower energy bills by allowing users to charge the battery when electricity rates are low and using the stored energy when rates are higher. This helps minimize operating expenditures and boosts economic returns where electricity expenses are significant. These batteries, especially in commercial and industrial settings, where usage costs are substantial, can help a lot.

Back-up power

They provide power during outages because they store energy and can power vital equipment like heating, cooling, and lighting until the main power source is back on. Hospitals and data centers use the batteries to ensure operations are not interrupted. Homes can use backup power during storms or natural disasters.

Peak shaving

Peak shaving means discharging stored energy during upper demand periods to mitigate strain on electrical networks. Large batteries can absorb energy off the grid during peak periods and dispatch it when demand is high. This remedy decreases burnout, infrastructure problems, and financial workarounds for utilities and clients with large power needs.

Microgrid operation

They help maintain balance between energy generation and usage within a microgrid that combines several energy sources like renewable energy. For example, when production exceeds demand, the Exide battery stores excess energy, which can later be used when demand exceeds generation. It helps smoothen usage and ensure reliability in whatever environment.

Frequency regulation

Batteries help maintain the electrical frequency within an acceptable range by quickly absorbing or injecting power. The investment appeal covers the capability to provide ancillary services, such as balancing supply and demand for the law in a stylish manner. For example, if the frequency deviates from its targeted range, the battery can quickly discharge or charge to bring it back within that range.

How to Choose Exide Price 12v 150ah Battery

Applications

Different energy systems are used for agricultural, industrial, commercial, residential, and infrastructural applications. Some features that are common across most, if not all, applications are load storage and power supply when there is an outage. However, some applications will require specific features than others. For instance, commercial applications will require an energy storage system that has peak power, time-of-use, and backup power features. Agricultural applications will look for energy storage systems that can store excess energy in the day and use it at night for irrigation.

Efficiency

High storage system efficiency will help lower energy costs by maximizing energy usage. Low storage system efficiency lets a large proportion of the stored energy during the charging process go to waste. Therefore, efficiency is a key factor to consider when choosing an Exide battery price.

Battery composition

Exide's 12V 150Ah lead batteries are ideal for deep discharging, high-efficiency, long life, and scalable. It is significant to analyze the type of battery that best fits certain needs since each has its own strengths. For example, lithium-ion batteries are loved for their high energy density and efficiency, while lead-acid batteries are favored for low costs. Flow batteries, run on two electrolyte liquid solutions, have the ability to scale and are durable. SDS and VRFB are good for large-scale energy storage.

Use-case flexibility

Preferably, the space confinement of the energy storage system is less than the turn-off time for the main power source. Therefore, storage systems that can flutter and accommodate varying needs are significant for the majority of use cases. Some systems have a modular design which allows stacking of units to boost energy capacity and power output.

Technological features

Modern intelligence storage systems have advanced technology in control and management capacities. These features help optimize and automate the system performance, thereby enhancing the energy storage efficiency and cost savings. Some storage systems are integrated with cloudy computing and can enable real-time performance monitoring, predictive maintenance, and energy management automation.

Q&A

Q1. What is the function of a battery energy storage system installed with renewable energy systems?

A1. The battery energy storage system stores excess energy when the renewable sources are producing more than the usage needs and dispatches it later when the usage needs are higher, enhancing the reliability and resilience of the power supply.

Q2. Is the ept energy storage system environmentally friendly?

A2. Yes. The energy storage system is environmentally friendly, especially when paired with renewable energy systems. It helps provide emissions-free energy and has a lower environmental impact compared to fossil-fueled power plants.

Q3. How can battery of energy storage system help with power reliability?

A3. The energy storage system can store energy during power increase periods and dispatch the stored energy during power outages or decreases. This helps enhance power reliability and resilience.

Q4. Can Exide 12V 150Ah lead-acid battery be used in electric vehicles, too?

A4. Yes. The Exide 12V 150ah lead-acid battery can be used in electric bikes and cars, too. These vehicles need reliable and long-lasting batteries to power all their electrical systems. Due to its decent capacity and voltage, this battery can be used to power lights, radios, and other accessories or even provide a backup energy option.

Q5. What is the maintenance cost of an energy storage system?

A5. The maintenance costs are based on the type of battery used in the energy storage system. Lithium-ion batteries do not require maintenance, while flow and lead-acid require periodic inspection and maintenance, which adds to the overall cost. The good thing is that the annual operational and maintenance costs are equivalent to the annual expenses electric consumers incur on their utility bills.