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This course is taught in Swedish. For small and medium-sized businesses: learn how to develop a sustainable business and how to implement sustainability in your workplace. Do you want to learn how to use different methods to identify improvement potential for sustainability? Do you know how to smoothly integrate environmental improvement into your daily work? Do you want to learn tools to introduce new ways of working in your organisation and how to engage your employees? This practical course will give you knowledge on how to support your business to become more sustainable. Today we have less than seven years to meet the 1.5 degree target based on the carbon budget calculated by the UN Intergovernmental Panel on Climate Change. New technologies and new environmental investments are an important part of the societal transformation that is underway. It is equally important that we change the way we work and behave in our daily lives as well as in the workplace to reduce our environmental impact. Who can apply? The course is suitable for those in management positions who want to build and develop a sustainable business. For example, you may be a production manager, team leader, project manager, sustainability manager, environmental manager, or learning coordinator. Please note that the course is aimed at small and medium-sized businesses, with 10-249 employees, related to the automotive industry and the electrification transition. Course outline The course is structured around a running assignment and has four main themes: Identifying waste to avoid risk of harm to people and the environment. Use improvement methodology for environmental and resource efficiency improvements. Analyse and develop sustainable processes. Work on visions and goals for long-term sustainable development. See all courses that KTH Leancentrum offers

The Course Sustainable Tourism in the Baltic Sea Region aims to provide a basic but comprehensive knowledge and understanding of the origins, applications, analyses and examples of Sustainable Tourism with a specific regional focus on the Baltic Sea. The course has both an interdisciplinary and interregional focus and is designed to give the learner a broad but still focused introduction to the topic with socio-political, economic and environmental viewpoints. The topics that will be covered in this course include the introduction of sustainable tourism, its stakeholders, challenges and theories. Numerous examples will be given, including cases and specific aspects of the topic. The course is a regional cooperation between many researchers across the Baltic Sea Region, including those from Sweden, Finland, Ukraine and Poland.  The course consists of four modules: -An introduction to Sustainable Tourism -Aspects of sustainable tourism -Sustainable spatial planning of tourism destinations -Examples from the field Upon completion of the course, students can request a digital certificate by contacting pontus.ambros@balticuniv.uu.se

The course introduces you to the basics of the Baltic Sea, with its fragile and unique environment. Taking the course will help to better understand how human impacts are changing its marine ecosystems, but also how one can best reverse the negative trends of its destruction. Whether you take this course in your own pace, or within your university, we invite you to take part of the different lectures, and do the assignments for each topic. We hope you will learn something new about our beautiful semi-enclosed sea in Northern Europe. The course is built up with five chapters, each covering a new theme in several sections. Evolution, physical description and climateLife in the Baltic SeaPressures and challengesEnvironmental managementExamples from the region and future outlook The course takes approximately 50 hours to complete and if fully completed, students can request a digital certificate upon completing the course.

Access to critical minerals and materials crucial to our wealth and well-being must be produced in a sustainable way. This means that the research must deal with metals and minerals that are innovation-critical, necessary for green/smart transition, rare, of insufficient supply or which should not be traded from conflict zones. Various component of the course makes it useful for professionals and hands-on with lectures, assignments, homeworks, fieldcourse and field reports as well as rock physics lab. Topics Sustainable exploration, mining and extraction of critical raw materials Course element: Critical and strategic raw materials Sustainability, SDGs, ESG and social aspects (the value chain) Exploration methods Geological and ore forming context Physical properties Geophysical methods Drilling technologies Extraction and mineral processing methods Rock quality and mining methods Nano-tech solutions Ground water contamination and accessibility Environmental assessments Mine tailing and beneficiation Site visits and hands-on (Epiroc, Blötberget, labs) Course structure The course is a combination of in-person, hybrid and hands-on including field trips. You will learn By the end of the course, you will be able to: analyse what exploration methods are used for what commodities, have good knowledge of the state-of-the-art solutions and incorporate your learning in todays industry practices. Who is the course for? This course is designed for those who are geologists, engineers or work with sustainability to learn how critical raw materials are explored, mined and turn to metals. It is open to both university students but also industry participants from relevant sectors. How much time do I need for the course? The course will run from 25 August - 5 December 2025 and will in sum require 100 hrs of commitments. Check the SERC center for more updates: www.smartexploration.se

Fiber-optic sensing technologies are fast evolving and have entered in a large domain of our industry. Today all geothermal fields, water dams, railroads and to some lesser extent mines are equipped with fiber-optic cables to allow not only digital data transmission but also to interrogate fiber cables for information such as temperature changes or values (leakage issues or fractured rocks) but also strain measurements that can be indicators of soil failure or movements. When conducted in a controlled manner, artificial signals can be generated to help image the subsurface for mineral exploration, mine tailing characterization and for geothermal field development work by mapping faults and thermal fluids. There are other applications such as traffic monitoring that can also be done using this technology. Given its vast applications in the green transition, fiber-optic sensing is one of the most advanced technologies to be implemented in a wide range of fossil-free energy systems, hence, of a great importance to learn about their pros and cons and possibilities. Course content The course will have the following content: Introduction to DAS DAS Interrogators for temperature and strain measurements Fiber optic cables and their health conditions (hands-on with fiber-cable microscopes and fusion splicers) Design of a fiber-optic survey (surface and borehole) Parameter testing such as gauge length, laser pulse and width Field trials at a mine tailing test site or a mineral exploration borehole Work with the data and reporting Course design Hybrid and blended including hands-on practices.  This course takes about 30 hours of study to complete. You will learn By taking the course the participants are intended to learn about: Fiber-optic cables and their specifications including how to check their health and splice them DAS interrogators and their interior designs for fiber-optic sensing applications Design surface and borehole experiments Read and work with the data (hands-on) Who is the course for? The course will be given to a broad range of participants from engineering to geoscience backgrounds including university students but also participants from the industry. Participants can be from construction industry, road administration, energy sector (e.g., water dams), mining and defence workers. The course will be run within the newly established Smart Exploration Research Center involving tech companies such as BitSimNow Part of Prevas who are also expert in PFGA and fiber-related technologies. A prerequisite to the course is prior knowledge on different problems in the energy sector but some knowledge with Matlab and/or Python programming. The course can continue as an industry offer through the SERC-center as a multidisciplinary course at Uppsala University and for industry participants. 

This course explores the role of intelligent sensor systems in driving sustainability and enabling the green transition. Participants will learn the fundamentals of sensor technologies and their integration into intelligent, distributed systems. Emphasis is placed on applications in energy efficiency, environmental monitoring, and sustainable automation. The course covers topics such as basic sensor technologies, embedded systems, distributed computing, low-resource machine learning approaches, and federated learning for privacy-preserving, decentralized model training across sensor nodes. Through a combination of lectures, practical examples, and hands-on project work, participants will gain experience in designing and deploying intelligent sensor systems tailored to real-world sustainability challenges. The students bring their own case study example as the background for a practical project, through which the student is also finally examined. Recommended prerequisites: At least 180 credits including 15 credits programming as well as qualifications corresponding to the course "English 5"/"English A" from the Swedish Upper Secondary School. Online meetings (estimated): 14 Oct.: Introduction11 Nov.: Project Idea16 Dec.: Project Presentation Study hours: 80 This course is given by Örebro University.