What are prismatic Lithium-ion battery cell specifications?

The prismatic lithium-ion battery cell specifications. [...] Open circuit voltage (OCV) is an important characteristic parameter of lithium-ion batteries, which is used to analyze the changes of electronic energy in electrode materials, and to estimate battery state of charge (SOC) and manage the battery pack.

How many types of prismatic Lithium-ion cells are there?

Soc.168 120515DOI 10.1149/1945-7111/ac3c27 A total number of 25 different types of prismatic lithium-ion cells with a capacity between 8 and 145 Ah are examined in an autoclave calorimetry experiment in order to analyze their behavior during thermal runaway (TR).

How are prismatic Lithium-ion cells triggered into tr?

A total number of 50 prismatic lithium-ion cells (25 different types—2 tests each) is triggered into TR by nail penetration in order to investigate the TR behavior and identify dependencies of important parameters. The cells are integrated into an insulated copper block that itself is inside an autoclave as presented by Scharner in Ref. 21.

What is the thermal behavior of a lithium-ion battery cell?

The thermal behavior of a lithium-ion (Li-ion) battery cell is important for its safety, performance and degradation, and it requires both measurement and modeling. However, most existing thermal models for Li-ion battery cells only account for steady-state temperature fields, while the exercise of a Li-ion battery cell is usually transitory.

What cooling methods are used in prismatic Lithium-ion batteries?

Geometric Models The main cooling methods currently used in prismatic lithium-ion batteries are liquid cooling and FHPs. Liquid cooling can effectively control the maximum temperature of the battery module, while FHPs can effectively reduce the temperature difference of the battery due to its temperature uniformity.

Does a large-size lithium-ion battery performance depend on electrochemical and thermal characteristics?

Effect of 4 parameters on electrochemical and thermal characteristics has studied. Results are analyzed on the 1D and 3D scales. The performance of large-size lithium-ion batteries (LIBs) is significantly affected by the internal electrochemical processes and thermal characteristics which cannot be obtained by the experimental methods directly.