How does AYAATECH BMS work in the marine and boat part ?
Compared to traditional diesel engine propulsion systems, lithium battery driven electric propulsion systems have multiple advantages.
Firstly, it has good economic efficiency and relatively high energy utilization efficiency driven by electricity, which can reduce energy consumption costs in long-term operation.
Secondly, it is flexible maneuverability, which can achieve precise ship control through precise electrical control.
Thirdly, it has high safety, reducing potential safety hazards such as fuel leaks and fires in the diesel engine system.
The lithium battery management system plays an extremely important role in the energy management of electric ships.
AYAATECH BMS proposed the overall architecture of a marine lithium battery management system (BMS), fully exploring the perspective of lithium battery performance, and conducted relevant research on SOC estimation algorithms and SOH evaluation of lithium battery health status. In addition, due to the much larger scale of marine lithium battery systems compared to onboard systems, research and development have been conducted on the collection and transmission of a large amount of lithium battery related data in BMS.
Compared to traditional diesel engine propulsion systems, lithium battery driven electric propulsion systems have multiple advantages.
Firstly, it has good economic efficiency and relatively high energy utilization efficiency driven by electricity, which can reduce energy consumption costs in long-term operation.
Secondly, it is flexible maneuverability, which can achieve precise ship control through precise electrical control.
Thirdly, it has high safety, reducing potential safety hazards such as fuel leaks and fires in the diesel engine system.
The lithium battery management system plays an extremely important role in the energy management of electric ships.
AYAATECH BMS proposed the overall architecture of a marine lithium battery management system (BMS), fully exploring the perspective of lithium battery performance, and conducted relevant research on SOC estimation algorithms and SOH evaluation of lithium battery health status. In addition, due to the much larger scale of marine lithium battery systems compared to onboard systems, research and development have been conducted on the collection and transmission of a large amount of lithium battery related data in BMS.
