Storage Redefined: Harnessing Prismatic Cells for Renewable Energy Storage
The world is shifting increasingly towards renewable energy to handle the imminent danger of traditional energy sources shortage and influence on the environment. However, the uncertain environment affects general renewable energy sources such as solar and wind. When the solar radiation or the wind force is not strong enough, it will affect energy production. This reminds us that we need efficient and reliable storage solutions to overcome the intermittent nature of renewable sources.
Prismatic cells are one of the products that have come up as a great solution. They are safe and efficient and can provide reliable energy sources when the environment is not ideal. In this guide, we introduce you to this fantastic energy solution.
Prismatic Cells for Energy Storage
The prismatic cell typically uses lithium-ion chemistry technology to generate current by moving lithium ions between the positive and negative electrodes. The basic structure of these batteries is divided into four parts, including positive and negative electrodes, separator, and electrolyte. The prismatic cells are encased in aluminum or steel, making them very stable.
Prismatic cells have significant advantages in efficiency and safety. They are more conducive to storing renewable energy because stacked cells can simultaneously release more power for the same volume due to their high energy density. The safety function of prismatic cells can also reduce the risk of thermal runaway or overcharging, giving you a safe storage solution.
Moreover, its shape allows the combination of many batteries to form a sizeable renewable energy storage system. This makes them highly suitable for energy storage applications.
Meeting the Challenge of Renewable Energy Fluctuations
One of the primary reasons for using prismatic cells is their solution to the fluctuations in renewable energy. Here is a breakdown of the issue and its solution:
1. Renewable Energy Intermittency
The inherent fluctuations in renewable energy generation from sources like solar and wind have become a real problem for a stable energy supply. The intensity of wind and solar energy is uncertain, with high intensity producing more power, while low intensity may result in insufficient energy supply. This requires us to equip an energy storage system to address the risk of insufficient energy usage.
2. Role of Energy Storage
The energy storage systems can store excess energy during peak production and release it during low production periods. With prismatic cells, one can harness the excess energy and use it during emergencies and when needed.
In short, we can never overlook the problem of renewable energy fluctuations. Innovators like EVE have ensured every moment of sunlight or wind is utilized efficiently.