Luleå University of Technology

Freight transport plays a crucial role in Sweden's economy but is also a major source of greenhouse gas emissions. To meet climate goals, the transport system must transition to greener alternatives, including electrification, biofuels, and hydrogen. This course provides an overview of technical solutions and strategies for reducing the environmental impact of the transport sector and supporting a sustainable transition. Course content• Electrification of freight transport• Use of biofuels and hydrogen• Infrastructure and policy challenges for green transport What you will learn• Identify key technologies for green freight transport• Analyze policy challenges and potential solutions• Develop strategies for implementing sustainable transport solutions Who is the course for?The course is designed for transport and logistics managers, engineers, policymakers, and other professionals seeking to understand the technical and policy aspects of green freight transport. It is also suitable for those working with sustainability strategies within the transport sector. LanguageThe course is conducted in Swedish. Additional informationThe course includes 80 hours of study and is offered for a fee.

The use of hydrogen is increasing sharply in the world. If you want to know the basics about hydrogen then this is the course for you. What will you learn?You get answers to questions such as: Why is hydrogen interesting? How is hydrogen produced? How is hydrogen distributed and stored? How can hydrogen be handled safely? How is hydrogen used to change to a sustainable and environmentally friendly society? Who is the course for?The course is for anyone who is curious to know a little more about hydrogen. Advanced knowledge of chemistry and physics is enough to keep up. Who are the teachers?Assistant Professor Erik Elfgren, Professor Rikard Gebart, Dr Fredrik Granberg, Dr Cecilia Wallmark, Professor Andrea Toffolo, Professor Xiaoyan Ji, Professor Kentaro Umeki, Luleå Univerity of Technology and Professor Thomas Wågberg, Umeå University.

The global demand for battery metals is rapidly increasing, posing both environmental and economic challenges. Traditional metal extraction methods are resource-intensive and often have negative environmental impacts. Hydrometallurgical extraction offers a sustainable solution by using less energy and enabling the recovery of valuable metals from both primary and secondary resources. This course introduces participants to processes and techniques for optimizing the extraction of battery metals for a sustainable future. Course content • Basic principles of hydrometallurgical extraction• Techniques for recovering battery metals from end-of-life batteries• Environmental and sustainability aspects of metal extraction What you will learn • Understand the fundamentals of hydrometallurgical extraction and its role in sustainable metal recovery• Identify methods for recovering metals from various resources• Analyze sustainability challenges and implement solutions to minimize environmental impact Who is the course for? The course is designed for professionals in material recycling, the chemical and process industries, as well as researchers and engineers working with sustainable resource extraction. It is also suitable for those interested in learning the basics of metal extraction techniques for a sustainable future. LanguageThe course is offered in Swedish. Additional Information The course includes 40 hours of study and is offered for a fee.  

Gain essential practical skills in the application of robotics to understand how to use robotic tools across various industries. On this two-week course you’ll develop a working knowledge of the use of robotics, gaining essential practical skills for robotic applications. Delving into the fundamentals of robotics, you’ll be equipped with the basics of 3D modelling, object detection, computer vision, and image processing. You’ll discover examples and get hands-on experience in developing engaging and useful robotics applications. The skills you gain in this course will help you understand how to develop robotic tools in application across various sectors. Delve into object detection Gain practical skills in the application of robotics Learn from the experts at Luleå University of Technology This course is designed for anyone interested in learning how to develop robotic tools. It will be most beneficial for those who have some theoretical knowledge of robotics and want to gain more hands-on experience. This course will be given in English.

Maintenance of company equipment, procedures, and budget has always been important to ensuring optimal business performance. However, it has moved on from the trial-and-error approach used in the beginning of the twentieth century. Modern maintenance engineering involves applying engineering principles to optimise company equipment, budget, and procedures. On this three-week course, Luleå University of Technology will introduce the science, management, and other principles you need to be a maintenance technician in the 21st century. Learn maintenance engineering and technology basics Understand and preserve reliability/maintenance balance Study with leading maintenance experts The course will be given in English.

Explore the different tools and software to design, test, and prototype custom robot parts and robust robot behaviour. In recent years, industries around the world have been getting creative when it comes to incorporating robotics into their workflows. This three-week course offers a fascinating introduction to software and tools currently used in robotics. You’ll build basic knowledge of robotics tools and learn how they can be adapted for different industries. Familiarise yourself with Ubuntu operating system and Gazebo framework Gain hands-on experience using 3D robotics models in simulation Learn from the experts at the cutting edge of control engineering, robotics, and AI This course is designed for anyone interested in using robotic solutions in their role and who wants to learn the basics of robotics frameworks. The course will be given in English.

Society is transitioning from oil dependency to metal dependency as we are turning to fossil-free alternatives in the energy and transport sectors. Today, many more metals in the periodic table are used in our daily lives compared to only a few decades ago and many metals that previously had marginal applications are today central to achieving the climate goals. But where do these metals come from and how are they linked to geology?In this course, you will explore the basics of geology and understand how geology controls where critical metals are in the earth’s crust. You will gain insight into what it takes to mine an ore body and broaden your perspective on what risks and challenges we are facing when it comes to the raw material supply that drives the fossil-free energy transition. This course covers the role of ore geology in the transition to fossil-free energy and transport systems, which means that we are moving from oil dependency to metal dependency. Geological processes throughout the earth’s history are responsible for the current distribution of ore deposits. By understanding how these ore forming processes work, we can better explain why certain metals occur in extractable amounts in one place while being almost absent in another. To meet the global demand of metals needed in, for example, solar panels, wind turbines, and batteries, a thorough understanding of how geological processes work is fundamental. In this course, you will be introduced to the fantastic world of the subsurface that made all the technology you take for granted possible.    You will explore: What critical metals are, where they are produced today, and what risks and challenges are involved in the supply of raw materials that drives the fossil-free energy transition. Basic geology – minerals, rock types, geological structures and why they matter. What an ore is and the natural processes that accumulate metals in the earth’s crust.  This course is designed for people that would like to gain knowledge about the role of geology in the transition to fossil-free energy systems. The course is for those who want to know more about what critical metals are, how an ore is formed, and about risks and challenges coupled to the supply of raw materials that drive the energy transition. This may include politicians and other authorities, teachers and students in elementary and high school that want to know more about subjects critical to the energy transition. It may also include university students within the social sciences, and many more. The course will also be useful for anyone who is employed and wishes to upskill within the area of societal challenges coupled to the supply of raw materials and the need for metals in modern society. The course will be given in english.

You as a project manager are the one who can decide whether a project succeeds or not. In this course we explore different perspectives how to plan for project success. Leading projects is about delivering results within the set time and according to given resources. It is also about being responsive, flexible and being able to handle change. This course gives you basic knowledge to plan and organize successful projects, specifically in the hospitality industry. What is and how to succeed with projects?You will be introduced to concepts and principles behind project management and learn to create a plan that works for small and large projects. Project plans are a common and effective way to organize work, no matter what your job is. When you work on a project, it is about meeting the goals on time and according to budget. It may sound simple, but uncertainty and the often complex work tasks makes project management a challenging journey.  Project management for small and medium-sized companiesWith the help of case studies and examples from small and medium-sized companies (SMEs), you will learn more about planning projects especially in the hospitality industry. What are you learning?You will get to know about concepts and principles regarding project and project managementBe able to explain different concepts related to project planning and successful projectsAnalyze different scenarios and suggest solutions especially for small and medium-sized enterprises (SMEs) Who is the course for?The course is designed for anyone who is interested in learning more about project management and how to plan for successful project. However, the cases are especially designed for you in the hospitality industry. The course will be given in english.

The green transition requires social acceptance and collaboration between different groups in society. In the multicultural north, specific challenges and opportunities arise from diverse cultural perspectives and values. This course explores strategies to promote acceptance and cooperation. Course content Social and cultural dimensions of the green transition Synergies and conflicts in multicultural societies Strategies for building social acceptance What you will learn Understand the social aspects of the green transition Identify and manage potential conflicts Develop strategies to strengthen social acceptance Who is the course for? The course is designed for urban planners, researchers, and project managers working with sustainable development in multicultural societies. LanguageThe course is conducted in English. Additional informationThe course includes 40 hours of study and is offered for a fee.