丹麦RISO实验室能源报告(2002-2008)

ringofflyme

RISO Energy Report 1: ris-r-1351.pdf (524.03 KB, 下载次数: 31)

2009-4-15 21:23 上传

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New and emerging technologies - options for the future
Riso-R-1351(EN), 2002  
  


RISO Energy Report 2:   ris-r-1430.pdf (1.36 MB, 下载次数: 30)

2009-4-15 21:26 上传

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New and energing bioenergy technologies
Riso-R-1430(EN), 2003     


RISO Energy Report 3: ris-r-1469.pdf (647.28 KB, 下载次数: 28)

2009-4-15 21:32 上传

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Hydrogen and its competitors
Riso-R-1469(EN), 2004   


RISO Energy Report 4:  (下载)
The Future Energy System - Distributed Production and Use
Riso-R-1534(EN), 2005


RISO Energy Report 5: ris-r-1557.pdf (1.38 MB, 下载次数: 32)

2009-4-15 21:36 上传

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Renewable energy for power and transport        
Riso-R-1557(EN), 2006      


RISO Energy Report 6: ris-r-1612.rar (1.54 MB, 下载次数: 30)

2009-4-15 23:08 上传

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Future options for energy technologies
Riso-R-1612(EN), 2007


RISO Energy Report 7: (下载)
Future low carbon energy systems
Riso-R-1651(EN), 2008

ringofflyme

Bioenergy 生物能源
Riso does research into technologies in order to convert biomass into bioenergy and biomaterials. We are also working on promoting the innovation and growth of Danish companies and Danish agriculture

Fuel cells & hydrogen 燃料电池和氢能
Riso does research into fuel cell technology – from materials to effect - supplying the basic knowledge for the Danish production of SOFC fuel cells.
In addition we use fuel cells to convert surplus electricity from wind turbines e.g. into hydrogen.

Emerging energy technologies 新兴能源技术
Riso does research into several new technologies – from solar cells of plastic to fusion energy – facilitating in this way further progress towards a sustainable energy system thus making us less dependent on fossil fuels. We also do research into how to minimize the environmental harm of traditional combustion technologies and how to reduce energy consumption.

Climate & energy systems 气候与能源系统
Riso contributes to development towards a sustainable and reliable global energy supply through research into energy policies and energy systems focusing especially on environmental and climatic consequences – including in developing countries.

Wind energy 风能
Riso develops wind energy within these key areas: research and development, approval, testing and formulation of standards.  The research takes place in cooperation with the wind turbine industry.

ringofflyme

Wind power meteorology 风力发电气象学
The exact location of a wind turbine is critical to its overall energy production and actual lifetime. Research in fields such as turbulence, climatology, atmospheric flow and boundary-layer meteorology all contribute to the development of both physical models and calculation methods that are used for the prediction of a turbine's production and lifetime.

Aeroelastic modelling 空气动力学模型
The design of a wind turbine and the choice of materials affect its lifetime as well as its safe operation and energy output. New physical and mathematical models, based on aerodynamics, structural dynamics and control, contribute to design improvements that will help extract maximum energy output from the wind. At the same time, any negative impact on the wind turbine itself or the surrounding environment must be kept to a minimum.

Optimisation and cost reduction 优化和降低成本
The economics of a wind turbine are increasingly dependent on the operational phase of its lifetime. We employ probabilistic design and modelling to map the operational uncertainties as well as optimise the operation and maintenance strategy. The main purpose of this work is to improve production revenue by reducing the number of stoppages and overall downtime.

New concepts, components and materials 新的概念，部件和材料
The development of new materials, components and concepts produces new and improved properties, which in themselves accelerate technological development. For a long time now, the wind turbine sector has been focused on the reduction of weight and increase in strength of turbine blades. However, components such as the gear train and generator can also be improved further with the use of new materials.

Wind power and the energy system 风力发电和能源系统
The fluctuating nature of the wind poses a significant challenge to energy systems. By using simulation tools that are able to model wind turbines together with the overall system, we can study the impact of wind power on the energy system. We also analyse the control properties of individual wind turbines as well as entire wind farms, and we develop new concepts for modelling and controlling the entire electricity network.
Risø's experimental electricity network, SysLab, has enabled us to work hands-on with a distributed energy system, which may be scaled up using simulation models, thus enabling us to gain valuable insight into real-life energy systems.

Offshore wind power  海上风力发电
An ever increasing number of wind farms are being located offshore, where difficult access is an impediment to construction as well as operation and maintenance. Furthermore, the turbines themselves are exposed to harsh weather conditions in a very corrosive environment. Research fields such as geophysics and meteorology are employed when calculating the impact of weather conditions on offshore wind farms. Through this work, we aim to improve the reliability of wind turbines, thereby reducing the need for maintenance and repair.

ringofflyme

The series deals with global, regional and national perspectives on current and future energy issues. Individual chapters have been written by Risø staff members and leading Danish and international experts. Each report is based on internationally-recognised scientific material and is fully referenced. Furthermore it is refereed by an independent panel of international experts.
The target group is colleagues, collaborating partners, customers, funding organisations, the Danish ministries and agencies as well as international organisations such as the EU, the IEA and the UN.

elastic123

赞，这个资料少见

zombie0224

这种好帖子 怎能不顶？！

lukas

完全值得一读。支持一下。

dbc88

Wind power meteorology 风力发电气象学
The exact location of a wind turbine is critical to its overall energy production and actual lifetime. Research in fields such as turbulence, climatology, atmospheric flow and boundary-layer meteorology all contribute to the development of both physical models and calculation methods that are used for the prediction of a turbine's production and lifetime.

jkboyjk

谢谢分享 收下了

tyzhou

好东西，感谢楼主

elkite

好东西，收藏了，谢谢！

shaoruilook

外文资料，不错！收藏了

luo2356

找了好久，谢谢。可否知道你是从哪里来的这些报告吗？

ypeype

有两个下不了  楼主能否重传一下！

fylecome

我学习，我成长

tjxhome

谢谢楼主，好东西啊，顶上去啊

iglion

RISO 的资料都能整 读起来难度太大

gsj5201314

非常好的资料，谢谢楼主分享！！

zombie0224

好资料 感谢楼主分享