In situ multi-channel storage gas production test system

System overview:

In situ multi-channel storage gas production test system usually has the function of multi-temperature storage, voltage test, volume test and automatic data recording in the same equipment. It adopts in-situ integration method, which makes the storage gas production test more simple and efficient.

How it works:

The system combines Newton's law and Archimedes' law of buoyancy to measure the tension of the sample in silicone oil in real time through a special sensor, and further convert the cell volume. This method can accurately measure the volume change of the cell during storage and evaluate its gas production performance.

Core functions:

Multi-channel test: The system supports multi-channel simultaneous test, which improves the test efficiency.

Temperature control: The system has a temperature control function, which can simulate different storage temperature conditions.

Voltage test: During the storage process, the system can monitor the voltage change of the battery cell in real time.

Volume testing: Using methods such as Archimedes' buoyancy law, the system is able to accurately measure the volume change of the cell.

Automatic data recording: The system can automatically record test data, which is convenient for subsequent analysis and processing.

Application Case:

Ternary cell storage gas production test: By testing ternary cell storage gas production behavior at different temperatures, it can evaluate its high-temperature structural stability, and provide optimization direction for subsequent material and cell design.

Gas production test: gas production test of disassembled positive and negative electrode sheets can compare the gas production performance of different electrode sheets, and provide a reference for the design of electrode sheets.

Gas production test of silica-based slurry: The gas production test of silica-based slurry can evaluate the gas production performance of silica-based materials with different modification processes, and provide data support for the research and development of tridacnidacnidacnidacnidacnidacnidacnidacnidacnidacnidacnidacnidacnidacnidacnidacn anode materials.

Technical features:

High precision: The system uses high-precision sensors and algorithms, which can accurately measure the volume change and gas production performance of the cell.

Automation: The system has automatic test function, which can reduce the error caused by human operation and improve the test accuracy

Scalability: The system supports multi-channel expansion, which can meet the test tasks of different sizes and requirements.