KTH Royal Institute of Technology
MSc Sustainable Energy Engineering
Stockholm, 瑞典
期间
2 Years
语言
英语
步伐
全职
报名截止日期
Request application deadline
最早开始日期
Aug 2024
学费
SEK 342,000 / per year *
学习形式
在校园
* non-EU/EEA/Swiss is 342,000 SEK.
介绍
The master's programme in Sustainable Energy Engineering provides advanced education in solar energy, power generation, energy utilisation and transformation of energy systems. Students gain a multidisciplinary foundation in energy engineering and skills to manage complex energy-related problems with a lifecycle perspective. Graduates lead the development in the energy sector with skills and insights into industrial challenges, leadership, innovation and entrepreneurship.
Sustainable Energy Engineering at KTH
The master's programme in Sustainable Energy Engineering equips you with skills and insights into leadership, industrial challenges, innovation and entrepreneurship in the energy field. The programme provides an atmosphere and learning environment that fosters global responsibilities and sustainable development. Therefore, the emphasis is placed on dealing with energy engineering tasks with due consideration of technical, environmental and socio-economic issues.
The first semester of the programme is an intensive introductory period with broad-based coursework in energy engineering, including conversion technologies, systems and applications. Participants follow a learning path in advanced-level energy engineering courses, where their pre-requisite knowledge in thermodynamics, fluid mechanics, and heat transfer is put to use in challenge-based problem-solving. Advanced methods are applied to identify, describe, quantify and find solutions to a diverse range of energy engineering problems.
For the second semester, you choose one of three profiles for in-depth studies for the rest of the programme.
Energy Supply through Clean Conversion Technologies
The profile Energy Supply through Clean Conversion Technologies focuses on sustainable energy conversion processes and systems for generating and distributing electrical power, district heating and cooling, and water treatment to drinking water quality. Within this profile, we also address turbomachinery development and applications and sustainable energy solutions for transportation. We cover the evolution of conventional energy systems to integrate a growing share of renewables and the challenges demanding further evaluation and innovation towards broader electrification, energy storage, efficient co-generation, polygeneration, transmission and improved solutions for energy supply-side management.
Energy in Buildings and Cities
More than 70 per cent of the world and European population live in urban areas. Energy systems in buildings and cities play a pivotal role in driving economic growth, ensuring the well-being of citizens, and mitigating the environmental impact of unprecedented urbanisation at the global level. The SEE profile "Energy in Buildings and Cities" focuses on the engineering challenges and opportunities for energy systems in the current and future urban areas.
The future energy engineers and managers must be able to analyse the complex energy systems at the district/city level. However, an impactful analysis of energy systems at the district/city level is hard to achieve without going through the complexity of the system components and proper understanding of the behaviour of the various energy technologies. Therefore, this profile has been designed to provide an adequate knowledge of urban energy systems at both technology and district/city levels.
The profile guides students through a comprehensive learning journey in three distinct phases: initially offering a macro-level overview of energy systems in buildings and cities, it subsequently delves deeply into crucial energy technologies, imparting technology-level engineering knowledge. Once students have gained a solid understanding of energy technologies such as heat pumps, district heating, and solar technologies, they return to system analysis and system integration with enhanced proficiency, enabling them to engineer and manage systems more effectively, considering both technical and economic perspectives.
Energy System Analysis
The profile Energy System Analysis focuses on the systems perspective of the sustainable energy transition, where energy technology innovation, planning, and policy are linked to sustainable development. You will learn how to develop quantitative models for analysing energy systems as the basis for strategic investment decisions and policy in the circular economy context. Through qualitative analyses, the impact of policies on the transition to a sustainable society is analysed. Central to this profile is the knowledge and skills necessary for contributing to a secure and low-carbon energy sector at the local, national, and international levels – and in harmony with the Sustainable Development Goals.
Courses and teaching methods
We offer courses by faculty staff who are also engaged in research and collaboration with the industry. Similarly, many courses employ professionals from the industry as guest lecturers on topics related to the practical side of the curriculum. Examples of external partnerships in 2022-2023 are Northvolt, Abengoa, Swedish Biofuels, , Swedish Biofuels, Torresol, Sweco, Ellevio, Stockholm Exergi, Vattenfall, Energi & Kylanalys, Fortum, World Bank, the International Energy Agency and Stockholm Environmental Institute.
KTH is a member of Unite, a network of seven top universities in seven European countries. Unite offers virtual exchange studies in energy technology, which allows students in the programme to follow several online courses as a complement to the courses at KTH. These courses will be included in your degree from KTH.
Teaching methods aim at student-centred learning, hands-on work and challenge-driven education. This means a significant content of project-based learning activities. Digitally based learning activities are common, including the concept of flipped classrooms, video lectures, and computerised automatically corrected homework/quizzes/exams.
招生
课程
第一年
必须在第一年选择一个配置文件:
- 建筑物和城市的能源
- 通过清洁转换技术供应能源
- 能源系统分析
简介中的必修课程:
建筑物和城市的能源
MJ2518“建筑环境中的能源需求和供应分配系统”,6cr
MJ2519“建筑物供能系统”,6cr
通过清洁转换技术供应能源
MJ2426“应用热电技术”,6cr
MJ2438“能源系统建模 - 热能和发电”,6cr
能源系统分析
MJ2381“能源系统分析与应用简介 - 辅修课程”,6cr
MJ2512“能源政策和气候议程的转型”,6cr
必须修读以下课程之一(适用于所有个人资料)
MJ2514“区域供热和制冷”3cr
MJ2515《能源技术中的数值传热》3cr
MJ2516“评估和设计研究、项目和政策的可持续性视角”3cr
强制课程
- 可持续发电(MJ2405)9.0学分
- 可再生能源技术(MJ2411)6.0学分
- 可持续发展能源系统 (MJ2508) 6.0 学分
- 建筑环境中的能源 (MJ2509) 9.0 学分
- 可持续能源研究方法(MJ2510)7.5学分
- 能源管理 (MJ2511) 7.5 学分
第二年
课程列表:信息基于 2023/2024 学年的课程,可能会发生变化。
简介中的必修课程:
建筑物和城市的能源
MJ2520“智慧城市能源系统”,6cr
MJ2521“建筑综合能源系统”,6cr
以及以下之一:
MJ2460“绿色建筑——概念、设计、施工和运营”,6cr
MJ2517“热泵技术”,6cr
MJ2386“储能技术”,6cr
通过清洁转换技术供应能源
MJ2503“小规模多联产”,6cr
MJ2505“能源网络的实用优化”,6cr
以及以下之一:
MJ2506“可持续交通能源技术”,6cr
MJ2386“储能技术”,6cr
MJ2523“飞机推进,普通课程”,6cr
能源系统分析
MJ2513《循环经济与能源系统》,6cr
MJ2383“可持续能源发展的能源系统经济学、建模和指标”,6cr
以及以下之一:
MJ2506“可持续交通能源技术”,6cr
MJ2386“储能技术”,6cr
MJ2505“能源网络的实用优化”,6cr
强制课程
- 人工智能在可持续能源工程中的应用(MJ2507)6.0学分
计划成果
可持续发展
KTH的毕业生拥有推动社会朝着更可持续的方向发展的知识和工具,因为可持续发展是所有计划的组成部分。可持续能源工程硕士课程解决的三个关键可持续发展目标是:
- 7 负担得起的清洁能源
- 9 工业、创新和基础设施
- 11 可持续城市和社区
该计划的许多课程都涉及 SDG7(负担得起的清洁能源),例如可再生能源技术和可持续发电课程,其中研究了可持续能源系统的技术和工具。为了解决 SDG9(工业、创新和基础设施),该计划提供有关能源系统分析和能源政策的课程。解决 SDG11(可持续城市和社区)的计划课程的一个例子是建筑和城市太阳能课程。
能源顾问,项目经理,研究与开发科学家(学术界和工业界),尤其是能源行业的企业家,这是一个充满机遇的领域,并且具有与能源系统相关的创新的巨大空间。
能源领域是一个国际动态领域,训练有素的工程师在其中不断需求。毕业生可以在行业,政府机构和咨询机构找到工作。随着许多毕业生继续攻读博士学位,可持续能源工程的硕士课程也是研究事业的绝佳起点。
欲了解更多信息,请访问研究所网站。
奖学金和资助
KTH为硕士学习提供四种不同的奖学金机会。 KTH奖学金涵盖一年或两年硕士课程的学费。 KTH一年期奖学金针对目前KTH硕士课程的学生,涵盖第二年的学费。 KTH联合项目奖学金针对某些联合项目的学生,涵盖在KTH学习期间的学费。 KTH印度奖学金专门针对来自印度的学生。
- KTH奖学金
- KTH一年期奖学金
- KTH联合项目奖学金
- KTH印度奖学金
瑞典学院
瑞典学院 (SI) 为来自目标国家来到瑞典的学生提供多种奖学金。
KTH相关奖学金组织
KTH与以下组织合作,为未来的KTH学生提供奖学金机会。
- COLFUTURO(Programa Crédito Beca)针对来自哥伦比亚的学生
- 面向印度尼西亚学生的 LPDP(印度尼西亚教育捐赠基金)
- FUNED 为来自墨西哥的学生
奖学金门户网站
IEFA数据库
IEFA 数据库提供全面的奖学金搜索、助学金列表和国际学生贷款计划。
学习门户
Studyportals 奖学金数据库列出了全球 1,000 多个为申请在欧盟学习的学生提供的奖学金和助学金。
学者4dev
发展奖学金是向发展中国家学生开放的奖学金数据库。
我们造学者
WeMakeScholars 帮助印度学生从银行和非银行金融机构获得教育贷款。他们还列出了来自不同信托、基金会和政府的 26,000 多项国际奖学金。身体。
美国学生贷款的延期
KTH是美国教育部认可的机构,拥有 Title IV“仅限延期”状态(OPE ID 03274300)。美国学生在就读KTH硕士课程期间可以推迟现有联邦学生贷款账户的付款。 “仅延期”状态不允许学生申请联邦学生贷款在KTH就读。然而,该认证为美国学生提供了助学金和贷款机会,因为美国许多私人学生贷款机构都将此指定作为发放新贷款的要求。希望推迟付款的学生必须联系他们在美国的贷款机构。
提供奖学金。请检查学院的网站以获取更多信息。
画廊
工作机会
能源领域是一个国际化和充满活力的领域,不断需要训练有素的工程师。毕业生在工业、政府机构和咨询公司找到工作。可持续能源工程硕士课程也是研究生涯的绝佳起点,因为许多毕业生继续攻读博士学位。
完成该计划后,您将能够从系统的角度管理技术问题,全面了解其生命周期,从概念到规范、开发、运营和退役。您还将有信心描述能源挑战的特征,确定必要的资源消耗和管理解决/实现问题的流程。在学习期间,您将特别了解工程问题通常很复杂,有时还涉及相互冲突的条件。您将意识到与各种技术、组织、经济、生态和社会活动相关的责任和道德立场。
因此,该计划为您准备立即参与可持续能源技术的开发和实施、该领域的领导职位以及学术研究做好准备。未来是光明的,如果有经过适当培训的工程师,社会将在能源系统方面实现可持续发展。该项目的毕业生可以在 Northwolt 和 Phoenix Biopower 等创业公司、AFRY、SWECO 和 WSP 等咨询公司、Vattenfall 和 EDF 等能源公用事业公司、NCC 和 Skanska 建筑公司以及其他组织中找到,例如斯堪尼亚集团、InnoEnergy 和瑞典能源署、IRENA、世界银行和国际能源署。
毕业之后
作为一名毕业生,您可以担任能源顾问、项目经理、研发科学家(学术界和工业界),而且,尤其是,能源领域的企业家,这个领域充满机会,能源系统具有巨大的发展空间-相关创新。