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TR-B-2211102
Trumony
Trumony2211102
Liquid cooling plate green sustainability 5G+ energy storage system battery pack liquid cooling use
Ducted liquid cooling provides better heat transfer and conducts more heat than air cooling. Liquid ethylene glycol is often used as a liquid cooling coolant to transfer heat through the refrigeration cycle. And the water cooling plate can be distributed in the entire battery pack to dissipate heat for the battery module. In order to achieve the ideal heat exchange effect, we can conduct simulation simulation for collective design and optimization before proofing, so that the liquid cooling plate is efficient and lightweight at the same time. The customized liquid cooling plate has high cooling effect, low pressure loss, uniform temperature distribution, and controls the battery to exchange heat at the optimal temperature, thereby maintaining its performance and increasing the battery life.
Specification
Item | aluminum stamping water cooling plate |
Material | 3003 aluminum alloy |
Processing methods | Extrusion/Stamping+ brazing |
Size | customized as different battery packs |
Applications | 5G base station + energy storage,data center + energy storage project,Intercity Rail Transit + Flywheel Energy Storage,Optical storage charging station, Zero carbon smart industrial zone + energy storage, Hospital + energy storage backup power supply |
FAQ:
Can you realize the proposed design concepts?
Yes. Trumony is able to provide drafting service: 2D drawings and 3D digital models can be output.
Can you turn the 3D model to the physical products?
Yes. Trumony is capable to access the production feasibility of the of the models. In the early stage of design, our engineers will evaluate the structure of the model and optimize the easily damaged parts in the production.
Can you carry out performance test on product?
Yes. Trumony is able to simulate product model working in the environment required by the customer and obtain the key performance parameters through finite element solution.
Then trial costs could be reduced by improving product design efficiency.
Liquid cooling plate green sustainability 5G+ energy storage system battery pack liquid cooling use
Ducted liquid cooling provides better heat transfer and conducts more heat than air cooling. Liquid ethylene glycol is often used as a liquid cooling coolant to transfer heat through the refrigeration cycle. And the water cooling plate can be distributed in the entire battery pack to dissipate heat for the battery module. In order to achieve the ideal heat exchange effect, we can conduct simulation simulation for collective design and optimization before proofing, so that the liquid cooling plate is efficient and lightweight at the same time. The customized liquid cooling plate has high cooling effect, low pressure loss, uniform temperature distribution, and controls the battery to exchange heat at the optimal temperature, thereby maintaining its performance and increasing the battery life.
Specification
Item | aluminum stamping water cooling plate |
Material | 3003 aluminum alloy |
Processing methods | Extrusion/Stamping+ brazing |
Size | customized as different battery packs |
Applications | 5G base station + energy storage,data center + energy storage project,Intercity Rail Transit + Flywheel Energy Storage,Optical storage charging station, Zero carbon smart industrial zone + energy storage, Hospital + energy storage backup power supply |
FAQ:
Can you realize the proposed design concepts?
Yes. Trumony is able to provide drafting service: 2D drawings and 3D digital models can be output.
Can you turn the 3D model to the physical products?
Yes. Trumony is capable to access the production feasibility of the of the models. In the early stage of design, our engineers will evaluate the structure of the model and optimize the easily damaged parts in the production.
Can you carry out performance test on product?
Yes. Trumony is able to simulate product model working in the environment required by the customer and obtain the key performance parameters through finite element solution.
Then trial costs could be reduced by improving product design efficiency.
