三、教研优势
1.设施完备的研究中心
National Institute of Aquatic ResourcesDTU :Aqua conducts research, provides advice, educates at university level and contributes to innovation in sustainable exploitation and management of aquatic resources. We investigate the biology and population ecology of aquatic organisms, aquatic physical and chemical processes and ecosystem structure and dynamics, taking account of all relevant natural and anthropogenic drivers.Department of Biotechnology and Biomedicine:The department adresses important social and scientific challenges within biotechnology, biomedicine, food technology and human health.
Department of Bio and Health InformaticsDTU Bioinformatics: is operating at the highest level of research, teaching, innovation and industrial collaborations within biotechnological informatics, health informatics, personalized medicine, quantitative genomics and systems biology. We develop and apply smart bio-statistical, bio-computational and artificial intelligence methods as well as molecular genomics/biology techniques in the fields of human, animal and life sciences. We focus on genomics, bioinformatics, immunology, microbiome, epidemiology, systems biology and big data infrastructure.The Novo Nordisk Foundation Center for Biosustainability:The Novo Nordisk Foundation Center for Biosustainability (DTU Biosustain) at the Technical University of Denmark aims at developing new knowledge and technologies to help facilitate the transformation from the existing oil-based chemical industry to a more sustainable bio-based society, in which chemicals are produced biologically. The Center focuses on conducting research in developing the next generation of production organisms – so-called cell factories, for a sustainable and economically feasible bio-production of chemical compounds and therapeutic proteins. The center does this by using advanced metabolic engineering techniques and taking advantage of genome-scale science. The research is currently focused on three different model organisms: bakers yeast and E. coli for the production of valuable chemicals and nutrients, and CHO-cell lines for the production of therapeutic proteins.
Danish Hydrocarbon Research and Technology Centre:The Danish Hydrocarbon Research and Technology Centre at DTU is tasked with researching and developing new technologies with a view to improving utilization of the North Sea reserves of oil and gas. The centre is located at DTU and affiliated with research groups at the University of Copenhagen, Aarhus University, Aalborg University, and the Geological Survey of Greenland and Denmark (GEUS). The Danish Hydrocarbon Research and Technology Centre at DTU is backed by the DUC partners who will award the centre funding in the amount of DKK 1 billion over ten years.
Department of Chemical and Biochemical Engineering:DTU Chemical Engineering’s main activities lie within the areas of product design, process design and production in the chemical, biotechnological, pharmaceutical, food technological and energy technological industries.
Department of Chemistry:DTU Chemistry is a dynamic Department with a wide array of opportunities. The research is divided into two research areas each with underlying research groups.
Department of Civil Engineering:Department of Civil Engineering carries out teaching and research in a number of building relevant courses and subjects, as well as contributes to the establishment of social and commerical values through building technical knowledge and development
Department of Applied Mathematics and Computer Science:Our field includes a wide spectrum from fundamental mathematics across mathematical modelling to computer science, and it is the basis of the modern digital world. Mathematical modelling and computer science help us to take care of our health, optimise our energy consumption in an intelligent and sustainable way, utilise information in large amounts of data and keep in contact with friends and family.
DTU Danchip - National Center for Micro- and Nanofabrication:DTU Danchip is the National Center for Micro- and Nanofabrication in Denmark and is owned by and located at the Technical University of Denmark (DTU). DTU Danchip operates and maintains advanced processing equipment within 1350 m2, class 10-100, ISO 9001-certified, open access, pay-per-use cleanroom facilities.
DTU Diplom:DTU Diplom educates practice and application-oriented engineers in close cooperation with companies. At DTU Diplom, which is located at DTU Ballerup Campus, we offer the following bachelor of engineering programmes: Building and Civil Engineering, Electical Power Engineering, Electronics and Computer Engineering, Global Business Engineering, Health Care Technology, Information and Communication Technology, Mechanical Engineering, Process and Innovation Engineering and Production Engineering.
Department of Environmental Engineering:Welcome to DTU Environment. We work at the highest international level to develop new environmentally friendly & sustainable technologies and disseminate this knowledge to society and the new generations of engineers. Our activities in research, teaching and innovation are focused on: Environmental Chemistry, Residual Resource Engineering, Urban Water Systems, Water Technology, Atmospheric Environment and Water Resources Engineering.
Department of Electrical Engineering:At DTU Electrical Engineering we educate engineers within Electrical Engineering technologies as well as Biomedical Engineering. We offer studies at BEng, BSc, MSc and PhD levels. The department also participates in international Master programmes. We conduct research within biomedical engineering, antenna and microwave technology, robot technology, power and physical electronics, acoustic environment, audiology, electro-acoustics, electric power and energy.
Department of Energy Conversion and Storage:At the Department of Energy Conversion and Storage we work on sustainable energy technologies. In the energy system of the future a large part of the energy will be supplied by fluctuating sources such as solar and wind power. This makes it critically important to be able to convert and store the energy as needed.
National Food Institute:The National Food Institute researches and communicates sustainable and value-adding solutions in the areas of food and health for the benefit of society and industry.
Department of Photonics Engineering:DTU Fotonik's research covers a broad spectrum of fields within Photonics Engineering. It ranges from basic scientific explorations into light-matter interaction, via communication technologies, lasers and sensors, to collaborations with architects and designers on LED light sources of the future.The department focuses on the application oriented uses of our research and on solving the societal challenges that we face.
Department of Management Engineering:DTU Management Engineering contributes actively to the development of management tools and optimisation of processes by using and re-thinking theoretical engineering perspectives, models and methods.
Department of Wind Energy:is a globally leading centre for wind energy with technical-scientific competences in the international front and with a unique integration of research, education and public/private sector consulting.
国家水产资源研究所:水产资源研究中心会在有关方面提供建议,在大学水平上进行教育,并在可持续开发和管理水产资源方面做出贡献。摘要研究了水生生物的生物学、种群生态学、水生物理、化学过程、生态系统结构和动力学,并对所有相关的自然和人为驱动因素进行了研究。
生物技术和生物医学部:该部门在生物技术、生物医学、食品技术和人类健康等方面都有重要的社会和科学挑战。
生物信息系生物信息系:在生物技术信息学、卫生信息学、个性化医学、定量基因组学和系统生物学等领域的研究、教学、创新和工业合作的最高水平。在人类、动物和生命科学领域,我们开发并应用智能生物统计、生物计算和人工智能方法以及分子基因组/生物学技术。我们主要关注基因组学、生物信息学、免疫学、微生物组、流行病学、系统生物学和大数据基础设施。
诺和诺德基金会中心Biosustainability:诺和诺德基金会中心Biosustainability丹麦技术大学(导航系统Biosustain)旨在开发新知识和技术,帮助促进从现有的石油化学工业转变为一个更可持续的社会生物,化学物质的生物。该中心致力于研究开发下一代生产生物—所谓的细胞工厂,以实现可持续和经济上可行的生物生产和治疗蛋白质。该中心利用先进的代谢工程技术和利用基因级科学技术来完成这项工作。目前的研究主要集中在三种不同的生物模型上:面包酵母和大肠杆菌,用于生产有价值的化学物质和营养物质,以及用于生产治疗蛋白质的细胞系。
丹麦的碳氢化合物研究与技术中心:丹麦技术大学的丹麦油气研究与技术中心的任务是研究和开发新技术,以提高北海石油和天然气的利用效率。该中心位于丹麦技术大学,隶属于哥本哈根大学的研究小组,奥尔胡斯大学,奥尔堡大学,以及格林兰和丹麦(GEUS)的地质调查。丹麦技术大学的丹麦碳氢化合物研究和技术中心得到了DUC合作伙伴的支持,他们将在十年内将该中心的资金投入到DKK 10亿美元。
化工和生化工程:丹麦技术大学化工的主要活动是在化工、生物技术、制药、食品技术和能源技术等领域的产品设计、工艺设计和生产领域。
化学系:丹麦技术大学化学是一个充满机遇的动态系。这项研究被分为两个研究领域,每个研究领域都有潜在的研究小组。
土木工程系:土木工程系在许多建筑相关课程和学科上进行教学和研究,并通过建设技术知识和发展促进社会和商业价值的建立。
应用数学和计算机科学:我们的领域包括从数学模型到计算机科学的基础数学的广泛范围,它是现代数字世界的基础。数学建模和计算机科学帮助我们照顾好我们的健康,以一种智能和可持续的方式优化我们的能源消耗,利用大量数据中的信息,并与朋友和家人保持联系。
丹麦技术大学 Danchip-国家微和纳米技术中心:丹麦技术大学 Danchip是丹麦的国家微型和纳米技术中心,位于丹麦的技术大学(丹麦技术大学),并位于丹麦的技术大学。丹麦技术大学 Danchip公司在1350平方米的范围内操作和维护先进的加工设备,等级10-100,ISO 900-1认证,开放存取,按次使用的洁净室设备。
丹麦技术大学2人:与公司紧密合作的教育实践和应用型工程师。在丹麦技术大学-Ballerup校区,我们提供以下工程学士学位:建筑和土木工程、电力工程、电子和计算机工程、全球商业工程、卫生保健技术、信息通信技术、机械工程、工艺和创新工程和生产工程。
环境工程系:欢迎来到丹麦技术大学环境。我们在最高的国际水平上致力于开发新的环境友好和可持续的技术,并将这些知识传播给社会和新一代的工程师。我们在研究、教学和创新方面的活动主要集中在环境化学、剩余资源工程、城市供水系统、水技术、大气环境和水资源工程等方面。
电气工程系:在丹麦技术大学电气工程中,我们教育工程技术和生物医学工程的工程师。我们提供BEng、BSc、理科硕士和博士学位的研究。该部门还参与了国际硕士课程。我们在生物医学工程、天线和微波技术、机器人技术、电力和物理电子、声学环境、听觉、电声学、电力和能源等领域进行研究。
能源转换和储存部门:在能源部转换和储存部门,我们致力于可持续能源技术。在未来的能源系统中,很大一部分能量将由诸如太阳能和风能之类的波动源提供。这使得在需要的情况下能够转换和储存能量非常重要。
国家食品研究所:国家食品研究所在食品和卫生领域研究和交流可持续和增值的解决方案,以造福于社会和工业。
光子工程学系:丹麦技术大学 Fotonik的研究涵盖了光子工程领域的广泛领域。它从基础科学探索到光物质的相互作用,通过通信技术,激光和传感器,与建筑师和设计师在未来的LED光源上合作。本系侧重于应用研究的应用,并致力于解决我们所面临的社会挑战。
管理工程系:丹麦技术大学管理工程通过运用和重新思考理论工程的视角、模型和方法,积极地促进管理工具的开发和优化过程。
风能部门:是全球领先的风能技术中心,在国际前沿具有技术科学能力,并具有独特的研究、教育和公共/私营部门咨询的整合能力。
2.重点研究领域
Biotechnology and biochemistry:This research area deals with technologies based on biological systems. The focus is on biological systems, components, and principles that can be used to cure diseases, develop new medicines, combat pathogenic bacteria and viruses, and facilitate the future sustainable production of chemicals, energy, and new materials using microorganisms.
Chemistry:Chemistry is about understanding the world around us, from the smallest elementary particles to the entire universe. Why do substances react the way they do? How can we design a material, atom by atom? We can use our knowledge to develop eco-friendly technologies, better medicines, and stronger materials.
Construction and mechanics:This area covers all aspects of construction and building projects, including static calculations, building physics, architecture, and security. It also covers the design and development of systems and physical products - from mechanical parts in hearing aids to aircraft, wind turbines, gears, and internal combustion engines.
Earth sciences:DTU conducts research into the Earth's resources, the environmental impact of industrial processes and emissions, the adaptation of ecosystems, and the sustainable utilization of plants and soil—including the use and recirculation of their resources. We also research technologies adapted to the special conditions near the poles, and provide solutions to government authorities and companies that operate in these areas.
Electrotechnology:This research covers the study and use of electronics, electromagnetism, and electricity—ranging from acoustics and automation to signal processing and wireless communication for electronic devices, electrical energy conversion and energy systems. Electrotechnology is the basis for the electricity supply and for the development of electronic systems.
Energy:Energy is not just essential for all life, but also for the comforts of our modern world. DTU does research in all areas of the energy supply—from production and transport to storage and consumption, with a special focus on sustainable energy forms and systems. Wind and solar power, fusion, transportation energy, energy efficiency, and building insulation are some of the energy technology areas we specialize in
Environment and pollution:This research area covers the various aspects of human utilization and consumption of the Earth's limited resources. DTU is working on the development of more eco-friendly and sustainable technologies, the microbial decomposition of toxins, water resource planning, etc.
Food, fish and agriculture:DTU has sea/farm-to-table expertise, and is working to promote health and prevent diseases among animals and humans. We want to contribute to sustainable food production and the optimal utilization of marine resources; to limit infectious diseases among animals—some of which can be transferred to humans—and to ensure that consumers have access to healthy, safe, high-quality foods.
Information technology:Using mathematical modelling and computer science we can stay healthy, optimize our energy consumption in a smart and sustainable way, extract information from large amounts of data, or stay in touch with family and friends. DTU conducts research into all aspects of information technology—hardware, components, software, calculations and systems.
Materials:Mathematics is everywhere and in everything! DTU covers the entire spectrum from pure mathematics to mathematical modelling, including classical disciplines such as geometry, statistics, mathematical logic, and analysis.Many of DTU's departments do research into materials and material properties. With varying objectives, work is done on everything from nanoparticles and polymers to metals, semiconductors, and superconductors.
Medicine and medico technology:DTU researches technologies and methods which can be used to diagnose and treat diseases. Medical technology has become an area which increasingly employs sophisticated systems based on modern information technology. This research area also covers technologies and systems which support people on a day-to-day basis by providing security, safety, social networks, and mobility, for example.
Physics:Physics is about understanding the world around us, from the smallest elementary particles to the entire universe. How can we tame light? How can we design a material, atom by atom? We can use our knowledge to develop eco-friendly technologies, better medicines, stronger materials, supercomputers, and inexpensive catalysts.
Production and management:Product and technology development has to be supported by an efficient organization and management. DTU develops planning and decision support systems and models, which identify the most efficient and competitive production and service systems, and ensure optimum use of technologies. Life cycle assessments ensure that all decision-making is based not only on efficiency, but also sustainability.
Space research:DTU explores the Earth, the solar system, and the universe. We map the Earth's land, sea and ice masses; measure gravity and the magnetic field; and investigate the solar wind and space weather conditions and their impact on our climate and environment. DTU develops precision instruments such as star cameras, magnetometers, and X-ray telescopes for use in space missions, and develops methods and techniques for processing
Transport and logistics:A smoothly functioning transport infrastructure is essential to a well-functioning society. Knowledge of transport systems and motorist behaviour is the basis for an efficient transport sector with optimum mobility. Research into traffic and logistics provide solutions to congestion problems, and how products and people can be transported safely, efficiently, and in an eco-friendly way in the future.
生物技术和生物化学:这个研究领域涉及的是基于生物系统的技术。重点是生物系统、组件和可用于治疗疾病、开发新药物、对抗致病细菌和病毒的原则,以及利用微生物来促进未来可持续的化学品、能源和新材料的生产。
化学:化学是关于了解我们周围的世界,从最小的基本粒子到整个宇宙。为什么物质的反应是这样的?我们如何设计一种材料,原子的原子?我们可以利用我们的知识来开发环保技术、更好的药物和更强的材料。
建设和力学:这一领域涵盖了建筑和建筑工程的方方面面,包括静态计算、建筑物理、建筑和安全。它还涵盖了系统和物理产品的设计和开发——从助听器到飞机、风力涡轮机、齿轮和内燃机的机械部件。
地球科学:丹麦技术大学对地球资源的研究,工业过程和排放的环境影响,生态系统的适应以及植物和土壤的可持续利用,包括资源的使用和再循环。我们还研究了适应两极附近特殊情况的技术,并为在这些地区开展业务的政府部门和公司提供解决方案。
电工学:本研究涵盖了电子、电磁学以及从声学和自动化到电子设备、电能转换和能源系统的信号处理和无线通讯的研究和使用。电技术是电力供应和电子系统发展的基础。
能源:能源不仅是生活的必需品,也是现代世界的舒适。丹麦技术大学在能源供应的所有领域进行研究,从生产和运输到储存和消费,特别关注可持续能源的形式和系统。风能,太阳能,核聚变,交通能源,能源效率,建筑隔热都是我们专门研究的能源技术领域
环境和污染:这个研究领域涵盖了人类利用和消耗地球有限资源的各个方面。丹麦技术大学正在致力于开发更环保和可持续的技术,微生物分解毒素,水资源规划等。
食物,鱼和农业:丹麦技术大学拥有从农场到餐桌的专业知识,并致力于促进动物和人类之间的健康和预防疾病。我们要为可持续的粮食生产和海洋资源的最优利用做出贡献;限制动物的传染性疾病——其中一些可以转移到人类身上——并确保消费者能够获得健康、安全、高质量的食品。
信息技术:利用数学建模和计算机科学,我们可以保持健康,以智能和可持续的方式优化我们的能源消耗,从大量数据中提取信息,或者与家人和朋友保持联系。丹麦技术大学对信息技术硬件、组件、软件、计算和系统的各个方面进行研究。数学无处不在,无处不在!丹麦技术大学涵盖了从纯数学到数学建模的整个光谱,包括几何、统计学、数学逻辑和分析等经典学科。
材料:丹麦技术大学的许多部门都对材料和材料性能进行了研究。有了不同的目标,从纳米粒子、聚合物到金属、半导体和超导体,一切工作都在进行中。
医学和医生的技术:丹麦技术大学研究了可用于诊断和治疗疾病的技术和方法。医疗技术已经成为一个越来越多的基于现代信息技术的复杂系统的领域。这个研究领域还涵盖了一些技术和系统,这些技术和系统通过提供安全、安全、社交网络和移动性来支持人们的日常生活。
物理:物理学是关于了解我们周围的世界,从最小的基本粒子到整个宇宙。我们怎样才能驯服光明?我们如何设计一种材料,原子的原子?我们可以利用我们的知识来开发环保技术、更好的药物、更强的材料、超级计算机和廉价的催化剂。
生产和管理:产品和技术的发展必须由一个有效的组织和管理来支持。丹麦技术大学开发计划和决策支持系统和模型,以确定最高效、最具竞争力的生产和服务系统,并确保最优的技术使用。生命周期评估确保所有决策不仅基于效率,还包括可持续性。
太空研究:丹麦技术大学探索了地球、太阳系和宇宙。我们绘制地球的陆地、海洋和冰川的地图;测量重力和磁场;调查太阳风和空间天气状况及其对我们的气候和环境的影响。丹麦技术大学开发精密仪器,如星照相机、磁力计和x射线望远镜用于太空任务,并开发用于处理的方法和技术。
运输和物流:一个运转良好的交通基础设施对一个运转良好的社会至关重要。交通系统和机动行为的知识是一个高效交通部门的基础。对交通和物流的研究为拥堵问题提供了解决方案,以及产品和人员如何安全、高效地运输和以一种环保的方式运输。
3.高精尖的研究设施
Microscopes and Sample Preparation at DTU Cen;DTU Cen has a suite of seven complementary electron microscopes. Four scanning electron microscopes (SEM), two of which are dual beam (SEM combined with a focussed ion beam, FIB), and three transmission electron microscopes (TEM).Three state-of-the-art distinct preparation labs allows the treatment of hard and soft matter samples prior microscope analysis. In addition, there are a number of computers available for off-line image and spectral data analysis, image simulation, and image reconstruction.
丹麦技术大学的显微镜和样品制备:丹麦技术大学有一套7个互补电子显微镜。四个扫描电子显微镜(SEM),其中两个是双光束(SEM结合聚焦离子束,FIB)和三透射电子显微镜(TEM)。三个最先进的独特的制备实验室允许在显微镜分析之前处理硬和软物质样品。此外,还有一些计算机可用于离线图像和光谱数据分析,图像模拟和图像重建。
Welcome to the new DTU NMR Center hosted at DTU Chemistry:The DTU NMR Center is a new campus infrastructure.Our vision is that it will become a core NMR infrastructure to the benefit of all Departments and Centers at DTU, as well as external academic and industrial partners.One of the objective is to improve the quality of the structural output for existing as well as new interdisciplinary research projects within academia and industry where it would be highly advantageous to apply NMR as a critical analytical tool. The initial focus is on small to medium size molecules of biological importance and for methodology studies in general within the areas of chemistry, biochemistry, biotechnology and NMR spectroscopy.We are ready to spare on other projects and discuss opportunities in other areas also. We look forward to meet many of you in the new DTU NMR Center.
欢迎来到丹麦技术大学化学所在的新丹麦技术大学 NMR中心,丹麦技术大学 NMR中心是一个新的校园基础设施。我们的愿景是,它将成为一个核心的核心基础设施,以造福于所有部门和中心在丹麦技术大学以及外部学术和工业合作伙伴。目标之一是提高学术界和行业内现有和跨学科研究项目的结构性产品质量,将NMR作为关键的分析工具是非常有利的。最初的重点是生物重要性的中小尺寸分子和化学,生物化学,生物技术和NMR光谱学领域的一般方法学研究。我们准备在其他项目上闲置,并在其他地区讨论机会。我们期待着在新的丹麦技术大学 NMR中心见到您。
ESS - European Spallation Source:The European Spallation Source, ESS, will be the largest and most advanced neutron scattering facility in the world—and the first major international research facility to be located so close to Denmark. ESS is being built in Lund, Sweden, and the facility is expected to come online in 2022.Neutron radiation opens up remarkable opportunities for studying the internal structure and dynamics of all kinds of materials. Siting a world-leading facility in the Øresund Region will provide Danish companies and researchers with excellent access to the benefits it offers. The ESS installation is expected to attracted a host of companies and researchers—particularly those specializing in the fields of material technology and life sciences—to the Øresund Region, Sweden and Denmark.Knowledge about the structure and dynamic properties of materials is of relevance in the context of developing new everyday items such as faster computers, improved cleaning agents and more efficient pharmaceuticals; it also has a key role to play in the work to find solutions to the pressing societal challenges we are facing in the areas of climate, energy and transport, for instance.ESS will be not only the most powerful, but also the most advanced neutron source in the world. The actual experiments on the neutron source will be performed at the facility in Lund, while the associated data processing will take place at the ESS Data Management and Software Centre (ESS DMSC) in Copenhagen.DTU is responsible for a number of areas, including developing some of the highly specialized instruments that need to be constructed for the neutron source, where they will be used to take a variety of measurements in the future. In addition, DTU has been awarded responsibility for several of the lighthouse projects that form part of the national ESS strategy, and which are intended to support partnerships with the business community, for example.
ESS - 欧洲松散源:欧洲分散源ESS将成为世界上规模最大,最先进的中子散射设施,也是第一个主要的国际研究机构。ESS正在瑞典隆德建成,该设施预计将于2022年上线。中子辐射为研究各种材料的内部结构和动力提供了显着的机会。选择位于Øresund地区的世界领先的设施将为丹麦公司和研究人员提供优质的服务。ESS安装预计将吸引许多公司和研究人员 - 特别是那些专门从事材料技术和生命科学领域的公司和研究人员 - 到瑞典和丹麦的Øresund地区。关于材料的结构和动态特性的知识在开发新的日常用品,如更快的电脑,改进的清洁剂和更有效的药物的背景下是相关的; 在解决气候,能源,交通等领域面临的紧迫社会挑战的工作中,也起到了关键作用。ESS不仅是世界上最强大的,也是最先进的中子源。中东源的实际实验将在隆德的设施进行,而有关的数据处理将在哥本哈根的ESS数据管理和软件中心(ESS DMSC)进行。丹麦技术大学负责一些领域,包括开发一些需要为中子源构建的高度专业化的仪器,将来将用它们进行各种测量。此外,丹麦技术大学已被授予几个灯塔项目的责任,这些项目构成了国家ESS战略的一部分,其目的是为了支持与企业界的伙伴关系。
PILOT PLANT:At PILOT PLANT our main activities are based on the path from laboratory scale to pilot scale experimental processes with a strong focus on industrial practice.At PILOT PLANT we focus on unit operations, reaction engineering, process control, process and plant design, instrumentation, automation and industrial measuring technology, but also topics such as scale-up and scale-down and batch versus continuous processes. Special focus areas are fermentation mainly from a process point-of-view, but also innovative technology and particle technology.Our research,Our research is conducted within plant and process technology, equipment design, Process Analytical Technology (PAT) automation and instrumentation and construction materials in close collaboration with industrial partners. Our technical expertise include:Designing and building large scale plants (engineering, construction)Unit operations (theory and practice)Industrial chemical processes (design complete process)Operational experience (solving practical process problems).Project management.Design of experiments.Plant safety.Good Manufacturing Practice (GMP).
试验工厂:在PILOT工厂,我们的主要活动是基于从实验室规模到中试规模实验过程的路径,重点关注工业实践。在PILOT工厂,我们专注于单元操作,反应工程,过程控制,过程和工厂设计,仪器仪表,自动化和工业测量技术,还包括扩大和缩小和批量与连续过程等主题。特别的重点领域是发酵,主要是从过程的角度出发,还有创新的技术和粒子技术。我们的研究,我们的研究是在工业和工艺技术、设备设计、过程分析技术(PAT)自动化和仪器仪表和建筑材料的密切合作下进行的。我们的技术专长包括:设计和建设大型工厂(工程,建筑)、单位业务(理论与实践)、工业化学工艺(设计完成工艺)、操作经验(解决实际过程中的问题)、项目管理、实验设计、植物安全、良好生产规范(GMP)。
Anechoic rooms
The large anechoic room:The large anechoic room has a free space of about 1000 m3, and the lower limiting frequency is about 50 Hz.The facility makes it possible to simulate a reflection free acoustic environment. This is highly useful for loudspeaker measurements, noise emission studies, studies of attenuation and diffraction of sound and also for creating an artificial listening environment where all the acoustic properties are determined by the experimental setup.The small anechoic room:The small anechoic room has a free space of about 60 m3, and the lower limiting frequency is about 100 Hz.This room serves essentially the same purpose as the large anechoic room. The smaller room is less perfect from an acoustic point of view, but easier to use.
消声室:大型消声室,大型消声室的空间约为1000立方米,下限频率约为50赫兹。该设备使得可以模拟无反射的声学环境。这对于扬声器测量,噪声发射研究,衰减和声音衍射的研究以及用于创建人造聆听环境非常有用,其中所有声学特性由实验设置确定。小消音室,小型消声室的自由空间约为60立方米,下限频率约为100赫兹。这个房间与大型消声室基本相同。较小的房间从声学的角度来看不太完美,但更容易使用。
The research vessel Dana:The research vessel Dana is a versatile multi-purpose vessel and the largest research vessel in Denmark. Dana is capable of worldwide operation and can be chartered by other research institutes.Research capabilities:The research vessel Dana is capable of worldwide operation, is classified for ice navigation and is equipped to carry out a wide range of investigations within arctic research, marine biology research, climate and environment research, geological research and fishery research.Laboratories and equipment,The vessel has five laboratories provided with extensive and wide-ranging scientific equipment for analysis and measurements as well as different tools for trawl fishing, water sampling and sampling from the seabed.Crew facilities,Dana houses a total of 38 scientists and crew in single cabins.
研究船Dana:研究船Dana是一个多用途的多功能船,是丹麦最大的研究船。达纳能够在全球范围内运作,并可由其他研究机构授权。研究能力:研究船Dana能够在全球范围内运作,并具备在北极研究、海洋生物研究、气候与环境研究、地质研究和渔业研究等领域进行广泛的调查。实验室和设备:该船有五个实验室,提供广泛和广泛的科学设备进行分析和测量,以及用于拖网捕捞,水样取样和从海床取样的不同工具。
>>>请继续阅读第3页为丹麦技术大学校园环境及杰出校友介绍。
