Students who have completed chemical, industrial or energy engineering (English is mandatory).Professionals with a degree who have the above-mentioned knowledge (English is mandatory).
The particular access requirements are:- There will be a pre-selection via curriculum, in which students with the following studies will be filtered: chemical engineering, industrial engineering, energy engineering.- English medium level.- Academic profile and grades. Special relevance on the subjects that are related to the master's degree.The above points plus some others will be valued:- That they can perform company internships (not an essential requirement, but it will be valued).- Softskills such as communication skills, teamwork, innovative capacity.As it is an online Master with cost for the students, the access requirements will not be as limiting as a face-to-face Master.At the end of the call, all selected candidates will be informed of their results.The master's degree offers scholarships to students for its completion.
The learning outcomes of the Master's program dedicated to Battery Technology are:- To understand the fundamental principles of electrochemistry applied to batteries.- To analyze the electrochemical processes in battery cells.- Evaluate the factors that affect the electrochemical performance of batteries.- Identify and compare different battery technologies.- Analyze the properties and characteristics of the materials used in the manufacture of batteries.- Evaluate the environmental impact and sustainability of battery materials.- To understand the battery manufacturing processes at industrial scale.- Optimize efficiency and quality in battery production.- Evaluate emerging technologies in battery manufacturing.- Design battery management systems to optimize performance and service life.- Implement control strategies for battery charging and discharging.- Analyze and mitigate risks associated with battery management.- Design connection and control systems for batteries in specific applications.- Integrate batteries into larger systems, such as electric vehicles or energy storage systems.- Develop and apply models to simulate battery performance.- Perform experimental tests and data analysis to evaluate battery performance.- Understand the processes for recycling and reuse of batteries at the end of their useful life.- Evaluate the options and technologies available for recycling battery components.- Analyze business models related to battery energy storage.- Evaluate the energy storage market and regulatory trends.
