Deng et al. proposed a double-layer LCP with bifurcated flow channels consisting of a collecting layer channel and a dispersive layer channel. This optimal design aims to reduce the maximum temperature, standard deviation of the surface temperature, and pressure drop in the LCP simultaneously.
Thermal simulation results for the double-layer leaf vein bionic channel liquid cooling plate indicate that it outperforms the traditional channel design. Moreover, it significantly improves the heat uniformity of the battery pack, effectively resolving the issue of a large temperature difference between the two traditional channel cooling systems.
Therefore, it is essential to maintain the battery temperature within an acceptable range while minimizing power consumption and ensuring uniform temperature distribution. To achieve these goals, a novel cold plate design with double-layer interdigitated flow channels is proposed in this study for efficient prismatic battery thermal management.
To tackle the common problems of traditional flow channels, including uneven coolant arrangement, high power consumption, and substantial pressure drop between the inlet and outlet, the double-layer vein bionic flow channel cold plate is divided into upper and lower layers.
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Zinc-based batteries (ZBs) have recently attracted wide attention energy storage with cost-effectiveness and intrinsic safety. However, it suffers from poor interface stability …
Adjustments in flow ratio, viscosity, and tension are critical for successfully navigating the process window. Future Prospects of Double-Layer Coating Technology …
Therefore, it is essential to maintain the battery temperature within an acceptable range while minimizing power consumption and ensuring uniform temperature distribution. To …
Performance Evaluation of a Novel Cold Plate with Double-Layer Interdigitated Flow Channels for Battery Thermal Management,Heat Transfer Engineering - X-MOL
Performance Evaluation of a Novel Cold Plate with Double-Layer Interdigitated Flow Channels for Battery Thermal Management -
Constructing organic-inorganic composite artificial SEI with PVDF-ZnF 2 double-layer structures, which can combine the advantages of the two and make up for defects of …
The interface plays a critical role in electrochemical systems, driving the development of various theories to investigate properties at nanoscale and microscale levels, …
We have used Atomic Force Microscopy (AFM) as a powerful tool to study the structure of the separator in Li-ion batteries. The measurements were performed in LiTFSI …
5. Conclusion This paper proposes a hybrid energy storage system containing lithium-ion batteries and liquid-flow batteries, and constructs a two-layer decision optimisation …
They synthesized a layered double-hydroxide (LDH)-based composite membrane by evenly spraying dispersion porous support and the alkaline zinc-based flow battery that …
Performance Evaluation of a Novel Cold Plate with Double-Layer Interdigitated Flow Channels for Battery Thermal Management Working temperature is a non-negligible …
To obtain better electrochemical performance in zinc-air flow batteries during discharging, the double-layered porous zinc electrode is set to decoupl…
In this study, LCP with a double-layer MCHS is designed to regulate the battery temperature in response to the heat generated during battery operation according to the …
The EDL phenomenon plays a crucial role in battery recycling and energy storage, especially in the context of electrochemical capacitors, commonly referred to as …
To boost the operational performance of a non-aqueous DES electrolyte-based vanadium-iron redox flow battery (RFB), our previous work proposed a double-layer porous …
The liquid cooling system of lithium battery modules (LBM) directly affects the safety, efficiency, and operational cost of lithium-ion batteries. To meet the requirements …
The liquid cooling system of lithium battery modules (LBM) directly affects the safety, efficiency, and operational cost of lithium-ion batteries. To meet the requirements …
This comparison clearly demonstrates that the double-layer leaf-vein flow channel is considerably more effective at reducing the maximum temperature variation within the …
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